[Title 14 CFR ]
[Code of Federal Regulations (annual edition) - January 1, 2002 Edition]
[From the U.S. Government Printing Office]



[[Page i]]

          

                    14


          Parts 1 to 59

                         Revised as of January 1, 2002

Aeronautics and Space





          Containing a codification of documents of general 
          applicability and future effect
          As of January 1, 2002
          With Ancillaries
          Published by:
          Office of the Federal Register
          National Archives and Records
          Administration

A Special Edition of the Federal Register



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                     U.S. GOVERNMENT PRINTING OFFICE
                            WASHINGTON : 2002



  For sale by the Superintendent of Documents, U.S. Government Printing 
                                  Office
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      Fax: (202) 512-2250 Mail: Stop SSOP, Washington, DC 20402-0001



[[Page iii]]




                            Table of Contents



                                                                    Page
  Explanation.................................................       v

  Title 14:
          Chapter I--Federal Aviation Administration, 
          Department of Transportation (parts 1 to 59)               3
  Finding Aids:
      Material Approved for Incorporation by Reference........     891
      Table of CFR Titles and Chapters........................    1053
      Alphabetical List of Agencies Appearing in the CFR......    1071
      List of CFR Sections Affected...........................    1081



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                     ----------------------------

                     Cite this Code:  CFR
                     To cite the regulations in 
                       this volume use title, 
                       part and section number. 
                       Thus,  14 CFR 1.1 refers 
                       to title 14, part 1, 
                       section 1.

                     ----------------------------

[[Page v]]



                               EXPLANATION

    The Code of Federal Regulations is a codification of the general and 
permanent rules published in the Federal Register by the Executive 
departments and agencies of the Federal Government. The Code is divided 
into 50 titles which represent broad areas subject to Federal 
regulation. Each title is divided into chapters which usually bear the 
name of the issuing agency. Each chapter is further subdivided into 
parts covering specific regulatory areas.
    Each volume of the Code is revised at least once each calendar year 
and issued on a quarterly basis approximately as follows:

Title 1 through Title 16.................................as of January 1
Title 17 through Title 27..................................as of April 1
Title 28 through Title 41...................................as of July 1
Title 42 through Title 50................................as of October 1

    The appropriate revision date is printed on the cover of each 
volume.

LEGAL STATUS

    The contents of the Federal Register are required to be judicially 
noticed (44 U.S.C. 1507). The Code of Federal Regulations is prima facie 
evidence of the text of the original documents (44 U.S.C. 1510).

HOW TO USE THE CODE OF FEDERAL REGULATIONS

    The Code of Federal Regulations is kept up to date by the individual 
issues of the Federal Register. These two publications must be used 
together to determine the latest version of any given rule.
    To determine whether a Code volume has been amended since its 
revision date (in this case, January 1, 2002), consult the ``List of CFR 
Sections Affected (LSA),'' which is issued monthly, and the ``Cumulative 
List of Parts Affected,'' which appears in the Reader Aids section of 
the daily Federal Register. These two lists will identify the Federal 
Register page number of the latest amendment of any given rule.

EFFECTIVE AND EXPIRATION DATES

    Each volume of the Code contains amendments published in the Federal 
Register since the last revision of that volume of the Code. Source 
citations for the regulations are referred to by volume number and page 
number of the Federal Register and date of publication. Publication 
dates and effective dates are usually not the same and care must be 
exercised by the user in determining the actual effective date. In 
instances where the effective date is beyond the cut-off date for the 
Code a note has been inserted to reflect the future effective date. In 
those instances where a regulation published in the Federal Register 
states a date certain for expiration, an appropriate note will be 
inserted following the text.

OMB CONTROL NUMBERS

    The Paperwork Reduction Act of 1980 (Pub. L. 96-511) requires 
Federal agencies to display an OMB control number with their information 
collection request.

[[Page vi]]

Many agencies have begun publishing numerous OMB control numbers as 
amendments to existing regulations in the CFR. These OMB numbers are 
placed as close as possible to the applicable recordkeeping or reporting 
requirements.

OBSOLETE PROVISIONS

    Provisions that become obsolete before the revision date stated on 
the cover of each volume are not carried. Code users may find the text 
of provisions in effect on a given date in the past by using the 
appropriate numerical list of sections affected. For the period before 
January 1, 1986, consult either the List of CFR Sections Affected, 1949-
1963, 1964-1972, or 1973-1985, published in seven separate volumes. For 
the period beginning January 1, 1986, a ``List of CFR Sections 
Affected'' is published at the end of each CFR volume.

INCORPORATION BY REFERENCE

    What is incorporation by reference? Incorporation by reference was 
established by statute and allows Federal agencies to meet the 
requirement to publish regulations in the Federal Register by referring 
to materials already published elsewhere. For an incorporation to be 
valid, the Director of the Federal Register must approve it. The legal 
effect of incorporation by reference is that the material is treated as 
if it were published in full in the Federal Register (5 U.S.C. 552(a)). 
This material, like any other properly issued regulation, has the force 
of law.
    What is a proper incorporation by reference? The Director of the 
Federal Register will approve an incorporation by reference only when 
the requirements of 1 CFR part 51 are met. Some of the elements on which 
approval is based are:
    (a) The incorporation will substantially reduce the volume of 
material published in the Federal Register.
    (b) The matter incorporated is in fact available to the extent 
necessary to afford fairness and uniformity in the administrative 
process.
    (c) The incorporating document is drafted and submitted for 
publication in accordance with 1 CFR part 51.
    Properly approved incorporations by reference in this volume are 
listed in the Finding Aids at the end of this volume.
    What if the material incorporated by reference cannot be found? If 
you have any problem locating or obtaining a copy of material listed in 
the Finding Aids of this volume as an approved incorporation by 
reference, please contact the agency that issued the regulation 
containing that incorporation. If, after contacting the agency, you find 
the material is not available, please notify the Director of the Federal 
Register, National Archives and Records Administration, Washington DC 
20408, or call (202) 523-4534.

CFR INDEXES AND TABULAR GUIDES

    A subject index to the Code of Federal Regulations is contained in a 
separate volume, revised annually as of January 1, entitled CFR Index 
and Finding Aids. This volume contains the Parallel Table of Statutory 
Authorities and Agency Rules (Table I). A list of CFR titles, chapters, 
and parts and an alphabetical list of agencies publishing in the CFR are 
also included in this volume.
    An index to the text of ``Title 3--The President'' is carried within 
that volume.
    The Federal Register Index is issued monthly in cumulative form. 
This index is based on a consolidation of the ``Contents'' entries in 
the daily Federal Register.
    A List of CFR Sections Affected (LSA) is published monthly, keyed to 
the revision dates of the 50 CFR titles.

[[Page vii]]


REPUBLICATION OF MATERIAL

    There are no restrictions on the republication of material appearing 
in the Code of Federal Regulations.

INQUIRIES

    For a legal interpretation or explanation of any regulation in this 
volume, contact the issuing agency. The issuing agency's name appears at 
the top of odd-numbered pages.
    For inquiries concerning CFR reference assistance, call 202-523-5227 
or write to the Director, Office of the Federal Register, National 
Archives and Records Administration, Washington, DC 20408 or e-mail 
[email protected].

SALES

    The Government Printing Office (GPO) processes all sales and 
distribution of the CFR. For payment by credit card, call 202-512-1800, 
M-F, 8 a.m. to 4 p.m. e.s.t. or fax your order to 202-512-2250, 24 hours 
a day. For payment by check, write to the Superintendent of Documents, 
Attn: New Orders, P.O. Box 371954, Pittsburgh, PA 15250-7954. For GPO 
Customer Service call 202-512-1803.

ELECTRONIC SERVICES

    The full text of the Code of Federal Regulations, the LSA (List of 
CFR Sections Affected), The United States Government Manual, the Federal 
Register, Public Laws, Public Papers, Weekly Compilation of Presidential 
Documents and the Privacy Act Compilation are available in electronic 
format at www.access.gpo.gov/nara (``GPO Access''). For more 
information, contact Electronic Information Dissemination Services, U.S. 
Government Printing Office. Phone 202-512-1530, or 888-293-6498 (toll-
free). E-mail, [email protected].
    The Office of the Federal Register also offers a free service on the 
National Archives and Records Administration's (NARA) World Wide Web 
site for public law numbers, Federal Register finding aids, and related 
information. Connect to NARA's web site at www.nara.gov/fedreg. The NARA 
site also contains links to GPO Access.

                              Raymond A. Mosley,
                                    Director,
                          Office of the Federal Register.

January 1, 2002.



[[Page ix]]



                               THIS TITLE

    Title 14--Aeronautics and Space is composed of five volumes. The 
parts in these volumes are arranged in the following order: parts 1-59, 
60-139, 140-199, 200-1199, and part 1200-End. The first three volumes 
containing parts 1-199 are comprised of chapter I--Federal Aviation 
Administration, Department of Transportation (DOT). The fourth volume 
containing parts 200-1199 is comprised of chapter II--Office of the 
Secretary, DOT (Aviation Proceedings) and chapter III--Commercial Space 
Transportation, Federal Aviation Administration, DOT. The fifth volume 
containing part 1200-End is comprised of chapter V--National Aeronautics 
and Space Administration and chapter VI--Office of Management and 
Budget. The contents of these volumes represent all current regulations 
codified under this title of the CFR as of January 1, 2002.

    Redesignation tables appear in the Finding Aids section of the 
volume containing parts 60-139.

[[Page x]]





[[Page 1]]



                     TITLE 14--AERONAUTICS AND SPACE




                   (This book contains parts 1 to 59)

  --------------------------------------------------------------------
                                                                    Part

chapter i--Federal Aviation Administration, Department of 
  Transportation............................................           1


Cross References: Department of the Air Force; Use of Air Force 
  installations by other than U.S. Department of Defense aircraft: See 
  National Defense, 32 CFR Part 855.

  Federal Communications Commission, aviation services: See 
Telecommunication, 47 CFR Part 87.

[[Page 3]]



CHAPTER I--FEDERAL AVIATION ADMINISTRATION, DEPARTMENT OF TRANSPORTATION




  --------------------------------------------------------------------

                        SUBCHAPTER A--DEFINITIONS
Part                                                                Page
1               Definitions and abbreviations...............           5
                     SUBCHAPTER B--PROCEDURAL RULES
11              General rulemaking procedures...............          18
13              Investigative and enforcement procedures....          28
14              Rules implementing the Equal Access to 
                    Justice Act of 1980.....................          71
15              Administrative claims under Federal Tort 
                    Claims Act..............................          77
16              Rules of practice for Federally-assisted 
                    airport enforcement poceedings..........          81
17              Procedures for protests and contracts 
                    disputes................................          97
                         SUBCHAPTER C--AIRCRAFT
21              Certification procedures for products and 
                    parts...................................         112
23              Airworthiness standards: Normal, utility, 
                    acrobatic, and commuter category 
                    airplanes...............................         163
25              Airworthiness standards: Transport category 
                    airplanes...............................         337
27              Airworthiness standards: Normal category 
                    rotorcraft..............................         534
29              Airworthiness standards: Transport category 
                    rotorcraft..............................         614
31              Airworthiness standards: Manned free 
                    balloons................................         729
33              Airworthiness standards: Aircraft engines...         736
34              Fuel venting and exhaust emission 
                    requirements for turbine engine powered 
                    airplanes...............................         767
35              Airworthiness standards: Propellers.........         777
36              Noise standards: Aircraft type and 
                    airworthiness certification.............         781
39              Airworthiness directives....................         850

[[Page 4]]

43              Maintenance, preventive maintenance, 
                    rebuilding, and alteration..............         851
45              Identification and registration marking.....         865
47              Aircraft registration.......................         871
49              Recording of aircraft titles and security 
                    documents...............................         883
50-59           [Reserved]

[[Page 5]]





                        SUBCHAPTER A--DEFINITIONS



PART 1--DEFINITIONS AND ABBREVIATIONS--Table of Contents




Sec.
1.1  General definitions.
1.2  Abbreviations and symbols.
1.3  Rules of construction.

    Authority: 49 U.S.C. 106(g), 40113, 44701.



Sec. 1.1  General definitions.

    As used in Subchapters A through K of this chapter, unless the 
context requires otherwise:
    Administrator means the Federal Aviation Administrator or any person 
to whom he has delegated his authority in the matter concerned.
    Aerodynamic coefficients means non-dimensional coefficients for 
aerodynamic forces and moments.
    Air carrier means a person who undertakes directly by lease, or 
other arrangement, to engage in air transportation.
    Air commerce means interstate, overseas, or foreign air commerce or 
the transportation of mail by aircraft or any operation or navigation of 
aircraft within the limits of any Federal airway or any operation or 
navigation of aircraft which directly affects, or which may endanger 
safety in, interstate, overseas, or foreign air commerce.
    Aircraft means a device that is used or intended to be used for 
flight in the air.
    Aircraft engine means an engine that is used or intended to be used 
for propelling aircraft. It includes turbosuperchargers, appurtenances, 
and accessories necessary for its functioning, but does not include 
propellers.
    Airframe means the fuselage, booms, nacelles, cowlings, fairings, 
airfoil surfaces (including rotors but excluding propellers and rotating 
airfoils of engines), and landing gear of an aircraft and their 
accessories and controls.
    Airplane means an engine-driven fixed-wing aircraft heavier than 
air, that is supported in flight by the dynamic reaction of the air 
against its wings.
    Airport means an area of land or water that is used or intended to 
be used for the landing and takeoff of aircraft, and includes its 
buildings and facilities, if any.
    Airship means an engine-driven lighter-than-air aircraft that can be 
steered.
    Air traffic means aircraft operating in the air or on an airport 
surface, exclusive of loading ramps and parking areas.
    Air traffic clearance means an authorization by air traffic control, 
for the purpose of preventing collision between known aircraft, for an 
aircraft to proceed under specified traffic conditions within controlled 
airspace.
    Air traffic control means a service operated by appropriate 
authority to promote the safe, orderly, and expeditious flow of air 
traffic.
    Air transportation means interstate, overseas, or foreign air 
transportation or the transportation of mail by aircraft.
    Alert Area. An alert area is established to inform pilots of a 
specific area wherein a high volume of pilot training or an unusual type 
of aeronautical activity is conducted.
    Alternate airport means an airport at which an aircraft may land if 
a landing at the intended airport becomes inadvisable.
    Altitude engine means a reciprocating aircraft engine having a rated 
takeoff power that is producible from sea level to an established higher 
altitude.
    Appliance means any instrument, mechanism, equipment, part, 
apparatus, appurtenance, or accessory, including communications 
equipment, that is used or intended to be used in operating or 
controlling an aircraft in flight, is installed in or attached to the 
aircraft, and is not part of an airframe, engine, or propeller.
    Approved, unless used with reference to another person, means 
approved by the Administrator.
    Area navigation (RNAV) means a method of navigation that permits 
aircraft operations on any desired course within the coverage of 
station-referenced navigation signals or within the limits of self-
contained system capability.

[[Page 6]]

    Area navigation low route means an area navigation route within the 
airspace extending upward from 1,200 feet above the surface of the earth 
to, but not including, 18,000 feet MSL.
    Area navigation high route means an area navigation route within the 
airspace extending upward from, and including, 18,000 feet MSL to flight 
level 450.
    Armed Forces means the Army, Navy, Air Force, Marine Corps, and 
Coast Guard, including their regular and reserve components and members 
serving without component status.
    Autorotation means a rotorcraft flight condition in which the 
lifting rotor is driven entirely by action of the air when the 
rotorcraft is in motion.
    Auxiliary rotor means a rotor that serves either to counteract the 
effect of the main rotor torque on a rotorcraft or to maneuver the 
rotorcraft about one or more of its three principal axes.
    Balloon means a lighter-than-air aircraft that is not engine driven, 
and that sustains flight through the use of either gas buoyancy or an 
airborne heater.
    Brake horsepower means the power delivered at the propeller shaft 
(main drive or main output) of an aircraft engine.
    Calibrated airspeed means the indicated airspeed of an aircraft, 
corrected for position and instrument error. Calibrated airspeed is 
equal to true airspeed in standard atmosphere at sea level.
    Canard means the forward wing of a canard configuration and may be a 
fixed, movable, or variable geometry surface, with or without control 
surfaces.
    Canard configuration means a configuration in which the span of the 
forward wing is substantially less than that of the main wing.
    Category:
    (1) As used with respect to the certification, ratings, privileges, 
and limitations of airmen, means a broad classification of aircraft. 
Examples include: airplane; rotorcraft; glider; and lighter-than-air; 
and
    (2) As used with respect to the certification of aircraft, means a 
grouping of aircraft based upon intended use or operating limitations. 
Examples include: transport, normal, utility, acrobatic, limited, 
restricted, and provisional.
    Category A, with respect to transport category rotorcraft, means 
multiengine rotorcraft designed with engine and system isolation 
features specified in Part 29 and utilizing scheduled takeoff and 
landing operations under a critical engine failure concept which assures 
adequate designated surface area and adequate performance capability for 
continued safe flight in the event of engine failure.
    Category B, with respect to transport category rotorcraft, means 
single-engine or multiengine rotorcraft which do not fully meet all 
Category A standards. Category B rotorcraft have no guaranteed stay-up 
ability in the event of engine failure and unscheduled landing is 
assumed.
    Category II operations, with respect to the operation of aircraft, 
means a straight-in ILS approach to the runway of an airport under a 
Category II ILS instrument approach procedure issued by the 
Administrator or other appropriate authority.
    Category III operations, with respect to the operation of aircraft, 
means an ILS approach to, and landing on, the runway of an airport using 
a Category III ILS instrument approach procedure issued by the 
Administrator or other appropriate authority.
    Category IIIa operations, an ILS approach and landing with no 
decision height (DH), or a DH below 100 feet (30 meters), and 
controlling runway visual range not less than 700 feet (200 meters).
    Category IIIb operations, an ILS approach and landing with no DH, or 
with a DH below 50 feet (15 meters), and controlling runway visual range 
less than 700 feet (200 meters), but not less than 150 feet (50 meters).
    Category IIIc operations, an ILS approach and landing with no DH and 
no runway visual range limitation.
    Ceiling means the height above the earth's surface of the lowest 
layer of clouds or obscuring phenomena that is reported as ``broken'', 
``overcast'', or ``obscuration'', and not classified as ``thin'' or 
``partial''.
    Civil aircraft means aircraft other than public aircraft.

[[Page 7]]

    Class:
    (1) As used with respect to the certification, ratings, privileges, 
and limitations of airmen, means a classification of aircraft within a 
category having similar operating characteristics. Examples include: 
single engine; multiengine; land; water; gyroplane; helicopter; airship; 
and free balloon; and
    (2) As used with respect to the certification of aircraft, means a 
broad grouping of aircraft having similar characteristics of propulsion, 
flight, or landing. Examples include: airplane; rotorcraft; glider; 
balloon; landplane; and seaplane.
    Clearway means:
    (1) For turbine engine powered airplanes certificated after August 
29, 1959, an area beyond the runway, not less than 500 feet wide, 
centrally located about the extended centerline of the runway, and under 
the control of the airport authorities. The clearway is expressed in 
terms of a clearway plane, extending from the end of the runway with an 
upward slope not exceeding 1.25 percent, above which no object nor any 
terrain protrudes. However, threshold lights may protrude above the 
plane if their height above the end of the runway is 26 inches or less 
and if they are located to each side of the runway.
    (2) For turbine engine powered airplanes certificated after 
September 30, 1958, but before August 30, 1959, an area beyond the 
takeoff runway extending no less than 300 feet on either side of the 
extended centerline of the runway, at an elevation no higher than the 
elevation of the end of the runway, clear of all fixed obstacles, and 
under the control of the airport authorities.
    Climbout speed, with respect to rotorcraft, means a referenced 
airspeed which results in a flight path clear of the height-velocity 
envelope during initial climbout.
    Commercial operator means a person who, for compensation or hire, 
engages in the carriage by aircraft in air commerce of persons or 
property, other than as an air carrier or foreign air carrier or under 
the authority of Part 375 of this title. Where it is doubtful that an 
operation is for ``compensation or hire'', the test applied is whether 
the carriage by air is merely incidental to the person's other business 
or is, in itself, a major enterprise for profit.
    Controlled airspace means an airspace of defined dimensions within 
which air traffic control service is provided to IFR flights and to VFR 
flights in accordance with the airspace classification.

    Note: Controlled airspace is a generic term that covers Class A, 
Class B, Class C, Class D, and Class E airspace.

    Controlled Firing Area. A controlled firing area is established to 
contain activities, which if not conducted in a controlled environment, 
would be hazardous to nonparticipating aircraft.
    Crewmember means a person assigned to perform duty in an aircraft 
during flight time.
    Critical altitude means the maximum altitude at which, in standard 
atmosphere, it is possible to maintain, at a specified rotational speed, 
a specified power or a specified manifold pressure. Unless otherwise 
stated, the critical altitude is the maximum altitude at which it is 
possible to maintain, at the maximum continuous rotational speed, one of 
the following:
    (1) The maximum continuous power, in the case of engines for which 
this power rating is the same at sea level and at the rated altitude.
    (2) The maximum continuous rated manifold pressure, in the case of 
engines, the maximum continuous power of which is governed by a constant 
manifold pressure.
    Critical engine means the engine whose failure would most adversely 
affect the performance or handling qualities of an aircraft.
    Decision height, with respect to the operation of aircraft, means 
the height at which a decision must be made, during an ILS or PAR 
instrument approach, to either continue the approach or to execute a 
missed approach.
    Equivalent airspeed means the calibrated airspeed of an aircraft 
corrected for adiabatic compressible flow for the particular altitude. 
Equivalent airspeed is equal to calibrated airspeed in standard 
atmosphere at sea level.
    Extended over-water operation means--
    (1) With respect to aircraft other than helicopters, an operation 
over water at a horizontal distance of more

[[Page 8]]

than 50 nautical miles from the nearest shoreline; and
    (2) With respect to helicopters, an operation over water at a 
horizontal distance of more than 50 nautical miles from the nearest 
shoreline and more than 50 nautical miles from an off-shore heliport 
structure.
    External load means a load that is carried, or extends, outside of 
the aircraft fuselage.
    External-load attaching means means the structural components used 
to attach an external load to an aircraft, including external-load 
containers, the backup structure at the attachment points, and any 
quick-release device used to jettison the external load.
    Fireproof--
    (1) With respect to materials and parts used to confine fire in a 
designated fire zone, means the capacity to withstand at least as well 
as steel in dimensions appropriate for the purpose for which they are 
used, the heat produced when there is a severe fire of extended duration 
in that zone; and
    (2) With respect to other materials and parts, means the capacity to 
withstand the heat associated with fire at least as well as steel in 
dimensions appropriate for the purpose for which they are used.
    Fire resistant--
    (1) With respect to sheet or structural members means the capacity 
to withstand the heat associated with fire at least as well as aluminum 
alloy in dimensions appropriate for the purpose for which they are used; 
and
    (2) With respect to fluid-carrying lines, fluid system parts, 
wiring, air ducts, fittings, and powerplant controls, means the capacity 
to perform the intended functions under the heat and other conditions 
likely to occur when there is a fire at the place concerned.
    Flame resistant means not susceptible to combustion to the point of 
propagating a flame, beyond safe limits, after the ignition source is 
removed.
    Flammable, with respect to a fluid or gas, means susceptible to 
igniting readily or to exploding.
    Flap extended speed means the highest speed permissible with wing 
flaps in a prescribed extended position.
    Flash resistant means not susceptible to burning violently when 
ignited.
    Flightcrew member means a pilot, flight engineer, or flight 
navigator assigned to duty in an aircraft during flight time.
    Flight level means a level of constant atmospheric pressure related 
to a reference datum of 29.92 inches of mercury. Each is stated in three 
digits that represent hundreds of feet. For example, flight level 250 
represents a barometric altimeter indication of 25,000 feet; flight 
level 255, an indication of 25,500 feet.
    Flight plan means specified information, relating to the intended 
flight of an aircraft, that is filed orally or in writing with air 
traffic control.
    Flight time means:
    (1) Pilot time that commences when an aircraft moves under its own 
power for the purpose of flight and ends when the aircraft comes to rest 
after landing; or
    (2) For a glider without self-launch capability, pilot time that 
commences when the glider is towed for the purpose of flight and ends 
when the glider comes to rest after landing.
    Flight visibility means the average forward horizontal distance, 
from the cockpit of an aircraft in flight, at which prominent unlighted 
objects may be seen and identified by day and prominent lighted objects 
may be seen and identified by night.
    Foreign air carrier means any person other than a citizen of the 
United States, who undertakes directly, by lease or other arrangement, 
to engage in air transportation.
    Foreign air commerce means the carriage by aircraft of persons or 
property for compensation or hire, or the carriage of mail by aircraft, 
or the operation or navigation of aircraft in the conduct or furtherance 
of a business or vocation, in commerce between a place in the United 
States and any place outside thereof; whether such commerce moves wholly 
by aircraft or partly by aircraft and partly by other forms of 
transportation.
    Foreign air transportation means the carriage by aircraft of persons 
or property as a common carrier for compensation or hire, or the 
carriage of mail by aircraft, in commerce between

[[Page 9]]

a place in the United States and any place outside of the United States, 
whether that commerce moves wholly by aircraft or partly by aircraft and 
partly by other forms of transportation.
    Forward wing means a forward lifting surface of a canard 
configuration or tandem-wing configuration airplane. The surface may be 
a fixed, movable, or variable geometry surface, with or without control 
surfaces.
    Glider means a heavier-than-air aircraft, that is supported in 
flight by the dynamic reaction of the air against its lifting surfaces 
and whose free flight does not depend principally on an engine.
    Ground visibility means prevailing horizontal visibility near the 
earth's surface as reported by the United States National Weather 
Service or an accredited observer.
    Go-around power or thrust setting means the maximum allowable in-
flight power or thrust setting identified in the performance data.
    Gyrodyne means a rotorcraft whose rotors are normally engine-driven 
for takeoff, hovering, and landing, and for forward flight through part 
of its speed range, and whose means of propulsion, consisting usually of 
conventional propellers, is independent of the rotor system.
    Gyroplane means a rotorcraft whose rotors are not engine-driven, 
except for initial starting, but are made to rotate by action of the air 
when the rotorcraft is moving; and whose means of propulsion, consisting 
usually of conventional propellers, is independent of the rotor system.
    Helicopter means a rotorcraft that, for its horizontal motion, 
depends principally on its engine-driven rotors.
    Heliport means an area of land, water, or structure used or intended 
to be used for the landing and takeoff of helicopters.
    Idle thrust means the jet thrust obtained with the engine power 
control level set at the stop for the least thrust position at which it 
can be placed.
    IFR conditions means weather conditions below the minimum for flight 
under visual flight rules.
    IFR over-the-top, with respect to the operation of aircraft, means 
the operation of an aircraft over-the-top on an IFR flight plan when 
cleared by air traffic control to maintain ``VFR conditions'' or ``VFR 
conditions on top''.
    Indicated airspeed means the speed of an aircraft as shown on its 
pitot static airspeed indicator calibrated to reflect standard 
atmosphere adiabatic compressible flow at sea level uncorrected for 
airspeed system errors.
    Instrument means a device using an internal mechanism to show 
visually or aurally the attitude, altitude, or operation of an aircraft 
or aircraft part. It includes electronic devices for automatically 
controlling an aircraft in flight.
    Interstate air commerce means the carriage by aircraft of persons or 
property for compensation or hire, or the carriage of mail by aircraft, 
or the operation or navigation of aircraft in the conduct or furtherance 
of a business or vocation, in commerce between a place in any State of 
the United States, or the District of Columbia, and a place in any other 
State of the United States, or the District of Columbia; or between 
places in the same State of the United States through the airspace over 
any place outside thereof; or between places in the same territory or 
possession of the United States, or the District of Columbia.
    Interstate air transportation means the carriage by aircraft of 
persons or property as a common carrier for compensation or hire, or the 
carriage of mail by aircraft in commerce:
    (1) Between a place in a State or the District of Columbia and 
another place in another State or the District of Columbia;
    (2) Between places in the same State through the airspace over any 
place outside that State; or
    (3) Between places in the same possession of the United States;

Whether that commerce moves wholly by aircraft of partly by aircraft and 
partly by other forms of transportation.
    Intrastate air transportation means the carriage of persons or 
property as a common carrier for compensation or hire, by turbojet-
powered aircraft capable of carrying thirty or more persons, wholly 
within the same State of the United States.

[[Page 10]]

    Kite means a framework, covered with paper, cloth, metal, or other 
material, intended to be flown at the end of a rope or cable, and having 
as its only support the force of the wind moving past its surfaces.
    Landing gear extended speed means the maximum speed at which an 
aircraft can be safely flown with the landing gear extended.
    Landing gear operating speed means the maximum speed at which the 
landing gear can be safely extended or retracted.
    Large aircraft means aircraft of more than 12,500 pounds, maximum 
certificated takeoff weight.
    Lighter-than-air aircraft means aircraft that can rise and remain 
suspended by using contained gas weighing less than the air that is 
displaced by the gas.
    Load factor means the ratio of a specified load to the total weight 
of the aircraft. The specified load is expressed in terms of any of the 
following: aerodynamic forces, inertia forces, or ground or water 
reactions.
    Long-range communication system (LRCS). A system that uses satellite 
relay, data link, high frequency, or another approved communication 
system which extends beyond line of sight.
    Long-range navigation system (LRNS). An electronic navigation unit 
that is approved for use under instrument flight rules as a primary 
means of navigation, and has at least one source of navigational input, 
such as inertial navigation system, global positioning system, Omega/
very low frequency, or Loran C.
    Mach number means the ratio of true airspeed to the speed of sound.
    Main rotor means the rotor that supplies the principal lift to a 
rotorcraft.
    Maintenance means inspection, overhaul, repair, preservation, and 
the replacement of parts, but excludes preventive maintenance.
    Major alteration means an alteration not listed in the aircraft, 
aircraft engine, or propeller specifications--
    (1) That might appreciably affect weight, balance, structural 
strength, performance, powerplant operation, flight characteristics, or 
other qualities affecting airworthiness; or
    (2) That is not done according to accepted practices or cannot be 
done by elementary operations.
    Major repair means a repair:
    (1) That, if improperly done, might appreciably affect weight, 
balance, structural strength, performance, powerplant operation, flight 
characteristics, or other qualities affecting airworthiness; or
    (2) That is not done according to accepted practices or cannot be 
done by elementary operations.
    Manifold pressure means absolute pressure as measured at the 
appropriate point in the induction system and usually expressed in 
inches of mercury.
    Maximum speed for stability characteristics, VFC/
MFC means a speed that may not be less than a speed midway 
between maximum operating limit speed (VMO/MMO) 
and demonstrated flight diving speed (VDF/MDF), 
except that, for altitudes where the Mach number is the limiting factor, 
MFC need not exceed the Mach number at which effective speed 
warning occurs.
    Medical certificate means acceptable evidence of physical fitness on 
a form prescribed by the Administrator.
    Military operations area. A military operations area (MOA) is 
airspace established outside Class A airspace to separate or segregate 
certain nonhazardous military activities from IFR Traffic and to 
identify for VFR traffic where theses activities are conducted.
    Minimum descent altitude means the lowest altitude, expressed in 
feet above mean sea level, to which descent is authorized on final 
approach or during circle-to-land maneuvering in execution of a standard 
instrument approach procedure, where no electronic glide slope is 
provided.
    Minor alteration means an alteration other than a major alteration.
    Minor repair means a repair other than a major repair.
    Navigable airspace means airspace at and above the minimum flight 
altitudes prescribed by or under this chapter, including airspace needed 
for safe takeoff and landing.
    Night means the time between the end of evening civil twilight and 
the beginning of morning civil twilight, as

[[Page 11]]

published in the American Air Almanac, converted to local time.
    Nonprecision approach procedure means a standard instrument approach 
procedure in which no electronic glide slope is provided.
    Operate, with respect to aircraft, means use, cause to use or 
authorize to use aircraft, for the purpose (except as provided in 
Sec. 91.13 of this chapter) of air navigation including the piloting of 
aircraft, with or without the right of legal control (as owner, lessee, 
or otherwise).
    Operational control, with respect to a flight, means the exercise of 
authority over initiating, conducting or terminating a flight.
    Overseas air commerce means the carriage by aircraft of persons or 
property for compensation or hire, or the carriage of mail by aircraft, 
or the operation or navigation of aircraft in the conduct or furtherance 
of a business or vocation, in commerce between a place in any State of 
the United States, or the District of Columbia, and any place in a 
territory or possession of the United States; or between a place in a 
territory or possession of the United States, and a place in any other 
territory or possession of the United States.
    Overseas air transportation means the carriage by aircraft of 
persons or property as a common carrier for compensation or hire, or the 
carriage of mail by aircraft, in commerce:
    (1) Between a place in a State or the District of Columbia and a 
place in a possession of the United States; or
    (2) Between a place in a possession of the United States and a place 
in another possession of the United States; whether that commerce moves 
wholly by aircraft or partly by aircraft and partly by other forms of 
transportation.
    Over-the-top means above the layer of clouds or other obscuring 
phenomena forming the ceiling.
    Parachute means a device used or intended to be used to retard the 
fall of a body or object through the air.
    Person means an individual, firm, partnership, corporation, company, 
association, joint-stock association, or governmental entity. It 
includes a trustee, receiver, assignee, or similar representative of any 
of them.
    Pilotage means navigation by visual reference to landmarks.
    Pilot in command means the person who:
    (1) Has final authority and responsibility for the operation and 
safety of the flight;
    (2) Has been designated as pilot in command before or during the 
flight; and
    (3) Holds the appropriate category, class, and type rating, if 
appropriate, for the conduct of the flight.
    Pitch setting means the propeller blade setting as determined by the 
blade angle measured in a manner, and at a radius, specified by the 
instruction manual for the propeller.
    Positive control means control of all air traffic, within designated 
airspace, by air traffic control.
    Powered-lift means a heavier-than-air aircraft capable of vertical 
takeoff, vertical landing, and low speed flight that depends principally 
on engine-driven lift devices or engine thrust for lift during these 
flight regimes and on nonrotating airfoil(s) for lift during horizontal 
flight.
    Precision approach procedure means a standard instrument approach 
procedure in which an electronic glide slope is provided, such as ILS 
and PAR.
    Preventive maintenance means simple or minor preservation operations 
and the replacement of small standard parts not involving complex 
assembly operations.
    Prohibited area. A prohibited area is airspace designated under part 
73 within which no person may operate an aircraft without the permission 
of the using agency.
    Propeller means a device for propelling an aircraft that has blades 
on an engine-driven shaft and that, when rotated, produces by its action 
on the air, a thrust approximately perpendicular to its plane of 
rotation. It includes control components normally supplied by its 
manufacturer, but does not include main and auxiliary rotors or rotating 
airfoils of engines.
    Public aircraft means an aircraft used only for the United States 
Government, or owned and operated (except for commercial purposes), or 
exclusively leased for at least 90 continuous days, by a government 
(except the

[[Page 12]]

United States Government), including a State, the District of Columbia, 
or a territory or possession of the United States, or political 
subdivision of that government; but does not include a government-owned 
aircraft transporting property for commercial purposes, or transporting 
passengers other than transporting (for other than commercial purposes) 
crewmembers or other persons aboard the aircraft whose presence is 
required to perform, or is associated with the performance of, a 
governmental function such as firefighting, search and rescue, law 
enforcement, aeronautical research, or biological or geological resource 
management; or transporting (for other than commercial purposes) persons 
aboard the aircraft if the aircraft is operated by the Armed Forces or 
an intelligence agency of the United States. An aircraft described in 
the preceding sentence shall, notwithstanding any limitation relating to 
use of the aircraft for commercial purposes, be considered to be a 
public aircraft for the purposes of this Chapter without regard to 
whether the aircraft is operated by a unit of government on behalf of 
another unit of government, pursuant to a cost reimbursement agreement 
between such units of government, if the unit of government on whose 
behalf the operation is conducted certifies to the Administrator of the 
Federal Aviation Administration that the operation was necessary to 
respond to a significant and imminent threat to life or property 
(including natural resources) and that no service by a private operator 
was reasonably available to meet the threat.
    Rated 30-second OEI power, with respect to rotorcraft turbine 
engines, means the approved brake horsepower developed under static 
conditions at specified altitudes and temperatures within the operating 
limitations established for the engine under part 33 of this chapter, 
for continued one-flight operation after the failure of one engine in 
multiengine rotorcraft, limited to three periods of use no longer than 
30 seconds each in any one flight, and followed by mandatory inspection 
and prescribed maintenance action.
    Rated 2-minute OEI power, with respect to rotorcraft turbine 
engines, means the approved brake horsepower developed under static 
conditions at specified altitudes and temperatures within the operating 
limitations established for the engine under part 33 of this chapter, 
for continued one-flight operation after the failure of one engine in 
multiengine rotorcraft, limited to three periods of use no longer than 2 
minutes each in any one flight, and followed by mandatory inspection and 
prescribed maintenance action.
    Rated continuous OEI power, with respect to rotorcraft turbine 
engines, means the approved brake horsepower developed under static 
conditions at specified altitudes and temperatures within the operating 
limitations established for the engine under Part 33 of this chapter, 
and limited in use to the time required to complete the flight after the 
failure of one engine of a multiengine rotorcraft.
    Rated maximum continuous augmented thrust, with respect to turbojet 
engine type certification, means the approved jet thrust that is 
developed statically or in flight, in standard atmosphere at a specified 
altitude, with fluid injection or with the burning of fuel in a separate 
combustion chamber, within the engine operating limitations established 
under Part 33 of this chapter, and approved for unrestricted periods of 
use.
    Rated maximum continuous power, with respect to reciprocating, 
turbopropeller, and turboshaft engines, means the approved brake 
horsepower that is developed statically or in flight, in standard 
atmosphere at a specified altitude, within the engine operating 
limitations established under Part 33, and approved for unrestricted 
periods of use.
    Rated maximum continuous thrust, with respect to turbojet engine 
type certification, means the approved jet thrust that is developed 
statically or in flight, in standard atmosphere at a specified altitude, 
without fluid injection and without the burning of fuel in a separate 
combustion chamber, within the engine operating limitations established 
under Part 33 of this chapter, and approved for unrestricted periods of 
use.

[[Page 13]]

    Rated takeoff augmented thrust, with respect to turbojet engine type 
certification, means the approved jet thrust that is developed 
statically under standard sea level conditions, with fluid injection or 
with the burning of fuel in a separate combustion chamber, within the 
engine operating limitations established under Part 33 of this chapter, 
and limited in use to periods of not over 5 minutes for takeoff 
operation.
    Rated takeoff power, with respect to reciprocating, turbopropeller, 
and turboshaft engine type certification, means the approved brake 
horsepower that is developed statically under standard sea level 
conditions, within the engine operating limitations established under 
Part 33, and limited in use to periods of not over 5 minutes for takeoff 
operation.
    Rated takeoff thrust, with respect to turbojet engine type 
certification, means the approved jet thrust that is developed 
statically under standard sea level conditions, without fluid injection 
and without the burning of fuel in a separate combustion chamber, within 
the engine operating limitations established under Part 33 of this 
chapter, and limited in use to periods of not over 5 minutes for takeoff 
operation.
    Rated 30-minute OEI power, with respect to rotorcraft turbine 
engines, means the approved brake horsepower developed under static 
conditions at specified altitudes and temperatures within the operating 
limitations established for the engine under Part 33 of this chapter, 
and limited in use to a period of not more than 30 minutes after the 
failure of one engine of a multiengine rotorcraft.
    Rated 2\1/2\-minute OEI power, with respect to rotorcraft turbine 
engines, means the approved brake horsepower developed under static 
conditions at specified altitudes and temperatures within the operating 
limitations established for the engine under Part 33 of this chapter, 
and limited in use to a period of not more than 2\1/2\ minutes after the 
failure of one engine of a multiengine rotorcraft.
    Rating means a statement that, as a part of a certificate, sets 
forth special conditions, privileges, or limitations.
    Reporting point means a geographical location in relation to which 
the position of an aircraft is reported.
    Restricted area. A restricted area is airspace designated under Part 
73 within which the flight of aircraft, while not wholly prohibited, is 
subject to restriction.
    RNAV way point (W/P) means a predetermined geographical position 
used for route or instrument approach definition or progress reporting 
purposes that is defined relative to a VORTAC station position.
    Rocket means an aircraft propelled by ejected expanding gases 
generated in the engine from self-contained propellants and not 
dependent on the intake of outside substances. It includes any part 
which becomes separated during the operation.
    Rotorcraft means a heavier-than-air aircraft that depends 
principally for its support in flight on the lift generated by one or 
more rotors.
    Rotorcraft-load combination means the combination of a rotorcraft 
and an external-load, including the external-load attaching means. 
Rotorcraft-load combinations are designated as Class A, Class B, Class 
C, and Class D, as follows:
    (1) Class A rotorcraft-load combination means one in which the 
external load cannot move freely, cannot be jettisoned, and does not 
extend below the landing gear.
    (2) Class B rotorcraft-load combination means one in which the 
external load is jettisonable and is lifted free of land or water during 
the rotorcraft operation.
    (3) Class C rotorcraft-load combination means one in which the 
external load is jettisonable and remains in contact with land or water 
during the rotorcraft operation.
    (4) Class D rotorcraft-load combination means one in which the 
external-load is other than a Class A, B, or C and has been specifically 
approved by the Administrator for that operation.
    Route segment means a part of a route. Each end of that part is 
identified by:
    (1) A continental or insular geographical location; or
    (2) A point at which a definite radio fix can be established.

[[Page 14]]

    Sea level engine means a reciprocating aircraft engine having a 
rated takeoff power that is producible only at sea level.
    Second in command means a pilot who is designated to be second in 
command of an aircraft during flight time.
    Show, unless the context otherwise requires, means to show to the 
satisfaction of the Administrator.
    Small aircraft means aircraft of 12,500 pounds or less, maximum 
certificated takeoff weight.
    Special VFR conditions mean meteorological conditions that are less 
than those required for basic VFR flight in controlled airspace and in 
which some aircraft are permitted flight under visual flight rules.
    Special VFR operations means aircraft operating in accordance with 
clearances within controlled airspace in meteorological conditions less 
than the basic VFR weather minima. Such operations must be requested by 
the pilot and approved by ATC.
    Standard atmosphere means the atmosphere defined in U.S. Standard 
Atmosphere, 1962 (Geopotential altitude tables).
    Stopway means an area beyond the takeoff runway, no less wide than 
the runway and centered upon the extended centerline of the runway, able 
to support the airplane during an aborted takeoff, without causing 
structural damage to the airplane, and designated by the airport 
authorities for use in decelerating the airplane during an aborted 
takeoff.
    Takeoff power:
    (1) With respect to reciprocating engines, means the brake 
horsepower that is developed under standard sea level conditions, and 
under the maximum conditions of crankshaft rotational speed and engine 
manifold pressure approved for the normal takeoff, and limited in 
continuous use to the period of time shown in the approved engine 
specification; and
    (2) With respect to turbine engines, means the brake horsepower that 
is developed under static conditions at a specified altitude and 
atmospheric temperature, and under the maximum conditions of rotor shaft 
rotational speed and gas temperature approved for the normal takeoff, 
and limited in continuous use to the period of time shown in the 
approved engine specification.
    Takeoff safety speed means a referenced airspeed obtained after 
lift-off at which the required one-engine-inoperative climb performance 
can be achieved.
    Takeoff thrust, with respect to turbine engines, means the jet 
thrust that is developed under static conditions at a specific altitude 
and atmospheric temperature under the maximum conditions of rotorshaft 
rotational speed and gas temperature approved for the normal takeoff, 
and limited in continuous use to the period of time shown in the 
approved engine specification.
    Tandem wing configuration means a configuration having two wings of 
similar span, mounted in tandem.
    TCAS I means a TCAS that utilizes interrogations of, and replies 
from, airborne radar beacon transponders and provides traffic advisories 
to the pilot.
    TCAS II means a TCAS that utilizes interrogations of, and replies 
from airborne radar beacon transponders and provides traffic advisories 
and resolution advisories in the vertical plane.
    TCAS III means a TCAS that utilizes interrogation of, and replies 
from, airborne radar beacon transponders and provides traffic advisories 
and resolution advisories in the vertical and horizontal planes to the 
pilot.
    Time in service, with respect to maintenance time records, means the 
time from the moment an aircraft leaves the surface of the earth until 
it touches it at the next point of landing.
    True airspeed means the airspeed of an aircraft relative to 
undisturbed air. True airspeed is equal to equivalent airspeed 
multiplied by (0/)\1/2\.
    Traffic pattern means the traffic flow that is prescribed for 
aircraft landing at, taxiing on, or taking off from, an airport.
    Type:
    (1) As used with respect to the certification, ratings, privileges, 
and limitations of airmen, means a specific make and basic model of 
aircraft, including modifications thereto that do not change its 
handling or flight characteristics. Examples include: DC-7, 1049, and F-
27; and

[[Page 15]]

    (2) As used with respect to the certification of aircraft, means 
those aircraft which are similar in design. Examples include: DC-7 and 
DC-7C; 1049G and 1049H; and F-27 and F-27F.
    (3) As used with respect to the certification of aircraft engines 
means those engines which are similar in design. For example, JT8D and 
JT8D-7 are engines of the same type, and JT9D-3A and JT9D-7 are engines 
of the same type.
    United States, in a geographical sense, means (1) the States, the 
District of Columbia, Puerto Rico, and the possessions, including the 
territorial waters, and (2) the airspace of those areas.
    United States air carrier means a citizen of the United States who 
undertakes directly by lease, or other arrangement, to engage in air 
transportation.
    VFR over-the-top, with respect to the operation of aircraft, means 
the operation of an aircraft over-the-top under VFR when it is not being 
operated on an IFR flight plan.
    Warning area. A warning area is airspace of defined dimensions, 
extending from 3 nautical miles outward from the coast of the United 
States, that contains activity that may be hazardous to nonparticipating 
aircraft. The purpose of such warning areas is to warn nonparticipating 
pilots of the potential danger. A warning area may be located over 
domestic or international waters or both.
    Winglet or tip fin means an out-of-plane surface extending from a 
lifting surface. The surface may or may not have control surfaces.

[Doc. No. 1150, 27 FR 4588, May 15, 1962]

    Editorial Note: For Federal Register citations affecting Sec. 1.1, 
see the List of CFR Sections Affected, which appears in the Finding Aids 
section of the printed volume and on GPO Access.



Sec. 1.2  Abbreviations and symbols.

    In Subchapters A through K of this chapter:
    AGL means above ground level.
    ALS means approach light system.
    ASR means airport surveillance radar.
    ATC means air traffic control.
    CAS means calibrated airspeed.
    CAT II means Category II.
    CONSOL or CONSOLAN means a kind of low or medium frequency long 
range navigational aid.
    DH means decision height.
    DME means distance measuring equipment compatible with TACAN.
    EAS means equivalent airspeed.
    FAA means Federal Aviation Administration.
    FM means fan marker.
    GS means glide slope.
    HIRL means high-intensity runway light system.
    IAS means indicated airspeed.
    ICAO means International Civil Aviation Organization.
    IFR means instrument flight rules.
    ILS means instrument landing system.
    IM means ILS inner marker.
    INT means intersection.
    LDA means localizer-type directional aid.
    LFR means low-frequency radio range.
    LMM means compass locator at middle marker.
    LOC means ILS localizer.
    LOM means compass locator at outer marker.
    M means mach number.
    MAA means maximum authorized IFR altitude.
    MALS means medium intensity approach light system.
    MALSR means medium intensity approach light system with runway 
alignment indicator lights.
    MCA means minimum crossing altitude.
    MDA means minimum descent altitude.
    MEA means minimum en route IFR altitude.
    MM means ILS middle marker.
    MOCA means minimum obstruction clearance altitude.
    MRA means minimum reception altitude.
    MSL means mean sea level.
    NDB(ADF) means nondirectional beacon (automatic direction finder).
    NOPT means no procedure turn required.
    OEI means one engine inoperative.
    OM means ILS outer marker.
    PAR means precision approach radar.
    RAIL means runway alignment indicator light system.

[[Page 16]]

    RBN means radio beacon.
    RCLM means runway centerline marking.
    RCLS means runway centerline light system.
    REIL means runway end identification lights.
    `RR'' means low or medium frequency radio range station.
    RVR means runway visual range as measured in the touchdown zone 
area.
    SALS means short approach light system.
    SSALS means simplified short approach light system.
    SSALSR means simplified short approach light system with runway 
alignment indicator lights.
    TACAN means ultra-high frequency tactical air navigational aid.
    TAS means true airspeed.
    TCAS means a traffic alert and collision avoidance system.
    TDZL means touchdown zone lights.
    TVOR means very high frequency terminal omnirange station.

VA means design maneuvering speed.
VB means design speed for maximum gust intensity.
VC means design cruising speed.
VD means design diving speed.
VDF/MDF means demonstrated flight diving speed.
VEF means the speed at which the critical engine is assumed 
    to fail during takeoff.
VF means design flap speed.
VFC/MFC means maximum speed for stability 
    characteristics.
VFE means maximum flap extended speed.
VH means maximum speed in level flight with maximum 
    continuous power.
VLE means maximum landing gear extended speed.
VLO means maximum landing gear operating speed.
VLOF means lift-off speed.
VMC means minimum control speed with the critical engine 
    inoperative.
VMO/MMO means maximum operating limit speed.
VMU means minimum unstick speed.
VNE means never-exceed speed.
VNO means maximum structural cruising speed.
VR means rotation speed.
VS means the stalling speed or the minimum steady flight 
    speed at which the airplane is controllable.
VS0 means the stalling speed or the minimum steady flight 
    speed in the landing configuration.
VS1 means the stalling speed or the minimum steady flight 
    speed obtained in a specific configuration.
VTOSS means takeoff safety speed for Category A rotorcraft.
VX means speed for best angle of climb.
VY means speed for best rate of climb.
V1 means the maximum speed in the takeoff at which the pilot 
    must take the first action (e.g., apply brakes, reduce thrust, 
    deploy speed brakes) to stop the airplane within the accelerate-stop 
    distance. V1 also means the minimum speed in the takeoff, 
    following a failure of the critical engine at VEF, at 
    which the pilot can continue the takeoff and achieve the required 
    height above the takeoff surface within the takeoff distance.
V2 means takeoff safety speed.
V2 min means minimum takeoff safety speed.

    VFR means visual flight rules.
    VHF means very high frequency.
    VOR means very high frequency omnirange station.
    `ORTAC means collocated VOR and TACAN.

[Doc. No. 1150, 27 FR 4590, May 15, 1962]

    Editorial Note: For Federal Register citations affecting Sec. 1.2, 
see the List of CFR Sections Affected, which appears in the Finding Aids 
section of the printed volume and on GPO Access.



Sec. 1.3  Rules of construction.

    (a) In Subchapters A through K of this chapter, unless the context 
requires otherwise:
    (1) Words importing the singular include the plural;
    (2) Words importing the plural include the singular; and
    (3) Words importing the masculine gender include the feminine.
    (b) In Subchapters A through K of this chapter, the word:
    (1) Shall is used in an imperative sense;
    (2) May is used in a permissive sense to state authority or 
permission to do the act prescribed, and the words ``no

[[Page 17]]

person may * * *'' or ``a person may not * * *'' mean that no person is 
required, authorized, or permitted to do the act prescribed; and
    (3) Includes means ``includes but is not limited to''.

[Doc. No. 1150, 27 FR 4590, May 15, 1962, as amended by Amdt. 1-10, 31 
FR 5055, Mar. 29, 1966]

[[Page 18]]





                     SUBCHAPTER B--PROCEDURAL RULES



PART 11--GENERAL RULEMAKING PROCEDURES--Table of Contents




                    Subpart A--Rulemaking Procedures

Sec.
11.1   To what does this part apply?

                           Definition of Terms

11.3  What is an advance notice of proposed rulemaking?
11.5   What is a notice of proposed rulemaking?
11.7   What is a supplemental notice of proposed rulemaking?
11.9   What is a final rule?
11.11   What is a final rule with request for comments?
11.13   What is a direct final rule?
11.15   What is a petition for exemption?
11.17   What is a petition for rulemaking?
11.19   What is a special condition?

                                 General

11.21   What are the most common kinds of rulemaking actions for which 
          FAA follows the Administrative Procedure Act?
11.23   Does FAA follow the same procedures in issuing all types of 
          rules?
11.25   How does FAA issue rules?
11.27   Are there other ways FAA collects specific rulemaking 
          recommendations before we issue an NPRM?
11.29   May FAA change its regulations without first issuing an ANPRM or 
          NPRM?
11.31   How does FAA process direct final rules?
11.33   How can I track FAA's rulemaking activities?
11.35   Does FAA include sensitive security information and proprietary 
          information in the Docket Management System (DMS)?
11.37   Where can I find information about an Airworthiness Directive, 
          an airspace designation, or a petition handled in a region?
11.38   What public comment procedures does FAA follow for Special 
          Conditions?
11.39   How may I participate in FAA's rulemaking process?
11.40   Can I get more information about a rulemaking?

                            Written Comments

11.41   Who may file comments?
11.43   What information must I put in my written comments?
11.45   Where and when do I file my comments?
11.47   May I ask for more time to file my comments?

                  Public Meetings and Other Proceedings

11.51   May I request that FAA hold a public meeting on a rulemaking 
          action?
11.53   What takes place at a public meeting?

               Petitions for Rulemaking and for Exemptions

11.61   May I ask FAA to adopt, amend, or repeal a regulation, or grant 
          relief from the requirements of a current regulation?
11.63   How and to whom do I submit my petition for rulemaking or 
          petition for exemption?
11.71   What information must I include in my petition for rulemaking?
11.73   How does FAA process petitions for rulemaking?
11.75   Does FAA invite public comment on petitions for rulemaking?
11.77   Is there any additional information I must include in my 
          petition for designating airspace?
11.81   What information must I include in my petition for an exemption?
11.83   How can I operate under an exemption outside the United States?
11.85   Does FAA invite public comment on petitions for exemption?
11.87   Are there circumstances in which FAA may decide not to publish a 
          summary of my petition for exemption?
11.89   How much time do I have to submit comments to FAA on a petition 
          for exemption?
11.91   How does FAA inform me of its decision on my petition for 
          exemption?
11.101   May I ask FAA to reconsider my petition for rulemaking or 
          petition for exemption if it is denied?

           Subpart B--Paperwork Reduction Act Control Numbers

11.201   Office of Management and Budget (OMB) control numbers assigned 
          under the Paperwork Reduction Act.

Appendix 1 to Part 11--Oral Communications With the Public During 
          Rulemaking

    Authority: 49 U.S.C. 106(g), 40101, 40103, 40105, 40109, 40113, 
44110, 44502, 44701-44702, 44711, and 46102.

    Source: Docket No. 1999-6622, 65 FR 50863, Aug. 21, 2000, unless 
otherwise noted.

    Editorial Note: Nomenclature changes to part 11 appear at 61 FR 
18052, April 24, 1996.

[[Page 19]]



                    Subpart A--Rulemaking Procedures



Sec. 11.1  To what does this part apply?

    This part applies to the issuance, amendment, and repeal of any 
regulation for which FAA (``we'') follows public rulemaking procedures 
under the Administrative Procedure Act (``APA'') (5 U.S.C. 553).

                           Definition of Terms



Sec. 11.3  What is an advance notice of proposed rulemaking?

    An advance notice of proposed rulemaking (ANPRM) tells the public 
that FAA is considering an area for rulemaking and requests written 
comments on the appropriate scope of the rulemaking or on specific 
topics. An advance notice of proposed rulemaking may or may not include 
the text of potential changes to a regulation.



Sec. 11.5  What is a notice of proposed rulemaking?

    A notice of proposed rulemaking (NPRM) proposes FAA's specific 
regulatory changes for public comment and contains supporting 
information. It includes proposed regulatory text.



Sec. 11.7  What is a supplemental notice of proposed rulemaking?

    On occasion, FAA may decide that it needs more information on an 
issue, or that we should take a different approach than we proposed. 
Also, we may want to follow a commenter's suggestion that goes beyond 
the scope of the original proposed rule. In these cases, FAA may issue a 
supplemental notice of proposed rulemaking (SNPRM) to give the public an 
opportunity to comment further or to give us more information.



Sec. 11.9  What is a final rule?

    A final rule sets out new or revised requirements and their 
effective date. It also may remove requirements. When preceded by an 
NPRM, a final rule will also identify significant substantive issues 
raised by commenters in response to the NPRM and will give the agency's 
response.



Sec. 11.11  What is a final rule with request for comments?

    A final rule with request for comment is a rule that the FAA issues 
in final (with an effective date) that invites public comment on the 
rule. We usually do this when we have not first issued an ANPRM or NPRM, 
because we have found that doing so would be impracticable, unnecessary, 
or contrary to the public interest. We give our reasons for our 
determination in the preamble. The comment period often ends after the 
effective date of the rule. A final rule not preceded by an ANPRM or 
NPRM is commonly called an ``immediately adopted final rule.'' We invite 
comments on these rules only if we think that we will receive useful 
information. For example, we would not invite comments when we are just 
making an editorial clarification or correction.



Sec. 11.13  What is a direct final rule?

    A direct final rule is a type of final rule with request for 
comments. Our reason for issuing a direct final rule without an NPRM is 
that we would not expect to receive any adverse comments, and so an NPRM 
is unnecessary. However, to be certain that we are correct, we set the 
comment period to end before the effective date. If we receive an 
adverse comment or notice of intent to file an adverse comment, we then 
withdraw the final rule before it becomes effective and may issue an 
NPRM.



Sec. 11.15  What is a petition for exemption?

    A petition for exemption is a request to FAA by an individual or 
entity asking for relief from the requirements of a current regulation.



Sec. 11.17  What is a petition for rulemaking?

    A petition for rulemaking is a request to FAA by an individual or 
entity asking the FAA to adopt, amend, or repeal a regulation.



Sec. 11.19  What is a special condition?

    A special condition is a regulation that applies to a particular 
aircraft design. The FAA issues special conditions when we find that the 
airworthiness

[[Page 20]]

regulations for an aircraft, aircraft engine, or propeller design do not 
contain adequate or appropriate safety standards, because of a novel or 
unusual design feature.

                                 General



Sec. 11.21  What are the most common kinds of rulemaking actions for which FAA follows the Administrative Procedure Act?

    FAA follows the Administrative Procedure Act (APA) procedures for 
these common types of rules:
    (a) Rules found in the Code of Federal Regulations;
    (b) Airworthiness directives issued under part 39 of this chapter; 
and
    (c) Airspace Designations issued under various parts of this 
chapter.



Sec. 11.23  Does FAA follow the same procedures in issuing all types of rules?

    Yes, in general, FAA follows the same procedures for all rule types. 
There are some differences as to which FAA official has authority to 
issue each type, and where you send petitions for FAA to adopt, amend, 
or repeal each type. Assume that the procedures in this subpart apply to 
all rules, except where we specify otherwise.



Sec. 11.25  How does FAA issue rules?

    (a) The FAA uses APA rulemaking procedures to adopt, amend, or 
repeal regulations. To propose or adopt a new regulation, or to change a 
current regulation, FAA will issue one or more of the following 
documents. We publish these rulemaking documents in the Federal Register 
unless we name and personally serve a copy of a rule on every person 
subject to it. We also make all documents available to the public by 
posting them in the Department of Transportation's electronic docket at 
http://dms.dot.gov.
    (1) An advance notice of proposed rulemaking (ANPRM).
    (2) A notice of proposed rulemaking (NPRM).
    (3) A supplemental notice of proposed rulemaking (SNPRM).
    (4) A final rule.
    (5) A final rule with request for comments.
    (6) A direct final rule.
    (b) Each of the rulemaking documents in paragraph (a) of this 
section generally contains the following information:
    (1) The topic involved in the rulemaking document.
    (2) FAA's legal authority for issuing the rulemaking document.
    (3) How interested persons may participate in the rulemaking 
proceeding (for example, by filing written comments or making oral 
presentations at a public meeting).
    (4) Whom to call if you have questions about the rulemaking 
document.
    (5) The date, time, and place of any public meetings FAA will hold 
to discuss the rulemaking document.
    (6) The docket number and regulation identifier number (RIN) for the 
rulemaking proceeding.



Sec. 11.27  Are there other ways FAA collects specific rulemaking recommendations before we issue an NPRM?

    Yes, the FAA obtains advice and recommendations from rulemaking 
advisory committees. One of these committees is the Aviation Rulemaking 
Advisory Committee (ARAC), which is a formal standing committee 
comprised of representatives of aviation associations and industry, 
consumer groups, and interested individuals. In conducting its 
activities, ARAC complies with the Federal Advisory Committee Act and 
the direction of FAA. We task ARAC with providing us with recommended 
rulemaking actions dealing with specific areas and problems. If we 
accept an ARAC recommendation to change an FAA rule, we ordinarily 
publish an NPRM using the procedures in this part. The FAA may establish 
other rulemaking advisory committees as needed to focus on specific 
issues for a limited period of time.



Sec. 11.29  May FAA change its regulations without first issuing an ANPRM or NPRM?

    The FAA normally adds or changes a regulation by issuing a final 
rule after an NPRM. However, FAA may adopt, amend, or repeal regulations 
without first issuing an ANPRM or NPRM in the following situations:
    (a) We may issue a final rule without first requesting public 
comment if, for

[[Page 21]]

good cause, we find that an NPRM is impracticable, unnecessary, or 
contrary to the public interest. We place that finding and a brief 
statement of the reasons for it in the final rule. For example, we may 
issue a final rule in response to a safety emergency.
    (b) If an NPRM would be unnecessary because we do not expect to 
receive adverse comment, we may issue a direct final rule.



Sec. 11.31  How does FAA process direct final rules?

    (a) A direct final rule will take effect on a specified date unless 
FAA receives an adverse comment or notice of intent to file an adverse 
comment within the comment period--generally 60 days after the direct 
final rule is published in the Federal Register. An adverse comment 
explains why a rule would be inappropriate, or would be ineffective or 
unacceptable without a change. It may challenge the rule's underlying 
premise or approach. Under the direct final rule process, we do not 
consider the following types of comments to be adverse:
    (1) A comment recommending another rule change, in addition to the 
change in the direct final rule at issue. We consider the comment 
adverse, however, if the commenter states why the direct final rule 
would be ineffective without the change.
    (2) A frivolous or insubstantial comment.
    (b) If FAA has not received an adverse comment or notice of intent 
to file an adverse comment, we will publish a confirmation document in 
the Federal Register, generally within 15 days after the comment period 
closes. The confirmation document tells the public the effective date of 
the rule.
    (c) If we receive an adverse comment or notice of intent to file an 
adverse comment, we will advise the public by publishing a document in 
the Federal Register before the effective date of the direct final rule. 
This document may withdraw the direct final rule in whole or in part. If 
we withdraw a direct final rule because of an adverse comment, we may 
incorporate the commenter's recommendation into another direct final 
rule or may publish a notice of proposed rulemaking.



Sec. 11.33  How can I track FAA's rulemaking activities?

    The best ways to track FAA's rulemaking activities are with the 
docket number or the regulation identifier number.
    (a) Docket number. We assign a docket number to each rulemaking 
proceeding. Each rulemaking document FAA issues in a particular 
rulemaking proceeding, as well as public comments on the proceeding, 
will display the same docket number. This number allows you to search 
DOT's Docket Management System (DMS) for information on most rulemaking 
proceedings. You can view and copy docket materials during regular 
business hours at the U.S. Department of Transportation, Plaza Level 
401, 400 7th Street, SW., Washington, DC 20590-0001. Or you can view and 
download docketed materials through the Internet at http://dms.dot.gov. 
If you can't find the material in the electronic docket, contact the 
person listed under FOR FURTHER INFORMATION CONTACT in the document you 
are interested in.
    (b) Regulation identifier number. DOT publishes a semiannual agenda 
of all current and projected DOT rulemakings, reviews of existing 
regulations, and completed actions. This semiannual agenda appears in 
the Unified Agenda of Federal Regulations, published in the Federal 
Register in April and October of each year. The semiannual agenda tells 
the public about DOT's--including FAA's--regulatory activities. DOT 
assigns a regulation identifier number (RIN) to each individual 
rulemaking proceeding in the semiannual agenda. This number appears on 
all rulemaking documents published in the Federal Register and makes it 
easy for you to track those rulemaking proceedings in both the Federal 
Register and the semiannual regulatory agenda.



Sec. 11.35  Does FAA include sensitive security information and proprietary information in the Docket Management System (DMS)?

    (a) Sensitive security information. You should not submit sensitive 
security information to the rulemaking docket, unless you are invited to 
do so in our request for comments. If we ask for

[[Page 22]]

this information, we will tell you in the specific document how to 
submit this information, and we will provide a separate non-public 
docket for it. For all proposed rule changes involving civil aviation 
security, we review comments as we receive them, before they are placed 
in the docket. If we find that a comment contains sensitive security 
information, we remove that information before placing the comment in 
the general docket.
    (b) Proprietary information. When we are aware of proprietary 
information filed with a comment, we do not place it in the docket. We 
hold it in a separate file to which the public does not have access, and 
place a note in the docket that we have received it. If we receive a 
request to examine or copy this information, we treat it as any other 
request under the Freedom of Information Act (5 U.S.C. 552). We process 
such a request under the DOT procedures found in 49 CFR part 7.



Sec. 11.37  Where can I find information about an Airworthiness Directive, an airspace designation, or a petition handled in a region?

    The FAA includes most documents concerning Airworthiness Directives, 
airspace designations, or petitions handled in a region in the 
electronic docket. If the information isn't in the docket, contact the 
person listed under FOR FURTHER INFORMATION CONTACT in the Federal 
Register document about the action.



Sec. 11.38  What public comment procedures does the FAA follow for Special Conditions?

    Even though the Administrative Procedure Act does not require notice 
and comment for rules of particular applicability, FAA does publish 
proposed special conditions for comment. In the following circumstances 
we may not invite comment before we issue a special condition. If we 
don't, we will invite comment when we publish the final special 
condition.
    (a) The FAA considers prior notice to be impracticable if issuing a 
design approval would significantly delay delivery of the affected 
aircraft. We consider such a delay to be contrary to the public 
interest.
    (b) The FAA considers prior notice to be unnecessary if we have 
provided previous opportunities to comment on substantially identical 
proposed special conditions, and we are satisfied that new comments are 
unlikely.



Sec. 11.39  How may I participate in FAA's rulemaking process?

    You may participate in FAA's rulemaking process by doing any of the 
following:
    (a) File written comments on any rulemaking document that asks for 
comments, including an ANPRM, NPRM, SNPRM, a final rule with request for 
comments, or a direct final rule. Follow the directions for commenting 
found in each rulemaking document.
    (b) Ask that we hold a public meeting on any rulemaking, and 
participate in any public meeting that we hold.
    (c) File a petition for rulemaking that asks us to adopt, amend, or 
repeal a regulation.



Sec. 11.40  Can I get more information about a rulemaking?

    You can contact the person listed under FOR FURTHER INFORMATION 
CONTACT in the preamble of a rule. That person can explain the meaning 
and intent of a proposed rule, the technical aspects of a document, the 
terminology in a document, and can tell you our published schedule for 
the rulemaking process. We cannot give you information that is not 
already available to other members of the public. Department of 
Transportation policy on oral communications with the public during 
rulemaking appears in appendix 1 of this part.

                            Written Comments



Sec. 11.41  Who may file comments?

    Anyone may file written comments about proposals and final rules 
that request public comments.



Sec. 11.43  What information must I put in my written comments?

    (a) Your written comments must be in English and must contain the 
following:
    (1) The docket number of the rulemaking document you are commenting

[[Page 23]]

on, clearly set out at the beginning of your comments.
    (2) Your name and mailing address, and, if you wish, other contact 
information, such as a fax number, telephone number, or e-mail address.
    (3) Your information, views, or arguments, following the 
instructions for participation in the rulemaking document on which you 
are commenting.
    (b) You should also include all material relevant to any statement 
of fact or argument in your comments, to the extent that the material is 
available to you and reasonable for you to submit. Include a copy of the 
title page of the document. Whether or not you submit a copy of the 
material to which you refer, you should indicate specific places in the 
material that support your position.



Sec. 11.45  Where and when do I file my comments?

    (a) Send your comments to the location specified in the rulemaking 
document on which you are commenting. If you are asked to send your 
comments to the Docket Management System, you may send them in either of 
the following ways:
    (1) By mail to: U.S. Department of Transportation, Docket Management 
System, 400 7th Street, SW., Plaza Level 401, Washington, DC 20591.
    (2) Through the Internet to http://dms.dot.gov/.
    (3) In any other manner designated by FAA.
    (b) Make sure that your comments reach us by the deadline set out in 
the rulemaking document on which you are commenting. We will consider 
late-filed comments to the extent possible only if they do not 
significantly delay the rulemaking process.
    (c) We may reject your paper or electronic comments if they are 
frivolous, abusive, or repetitious. We may reject comments you file 
electronically if you do not follow the electronic filing instructions 
at the Docket Management System web site.



Sec. 11.47  May I ask for more time to file my comments?

    Yes, if FAA grants your request for more time to file comments, we 
grant all persons the same amount of time. We will notify the public of 
the extension by a document in the Federal Register. If FAA denies your 
request, we will notify you of the denial. To ask for more time, you 
must file a written or electronic request for extension at least 10 days 
before the end of the comment period. Your letter or message must--
    (a) Show the docket number of the rule at the top of the first page;
    (b) State, at the beginning, that you are requesting an extension of 
the comment period;
    (c) Show that you have good cause for the extension and that an 
extension is in the public interest;
    (d) Be sent to the address specified for comments in the rulemaking 
document on which you are commenting.

                  Public Meetings and Other Proceedings



Sec. 11.51  May I request that FAA hold a public meeting on a rulemaking action?

    Yes, you may request that we hold a public meeting. FAA holds a 
public meeting when we need more than written comments to make a fully 
informed decision. Submit your written request to the address specified 
in the rulemaking document on which you are commenting. Specify at the 
top of your letter or message that you are requesting that the agency 
hold a public meeting. Submit your request no later than 30 days after 
our rulemaking notice. If we find good cause for a meeting, we will 
notify you and publish a notice of the meeting in the Federal Register.



Sec. 11.53  What takes place at a public meeting?

    A public meeting is a non-adversarial, fact-finding proceeding 
conducted by an FAA representative. Public meetings are announced in the 
Federal Register. We invite interested persons to attend and to present 
their views to the agency on specific issues. There are no formal 
pleadings and no adverse parties, and any regulation issued afterward is 
not necessarily based exclusively on the record of the meeting.

[[Page 24]]

               Petitions for Rulemaking and for Exemption



Sec. 11.61  May I ask FAA to adopt, amend, or repeal a regulation, or grant relief from the requirements of a current regulation?

    (a) Using a petition for rulemaking, you may ask FAA to add a new 
regulation to title 14 of the Code of Federal Regulations (14 CFR) or 
ask FAA to amend or repeal a current regulation in 14 CFR.
    (b) Using a petition for exemption, you may ask FAA to grant you 
relief from current regulations in 14 CFR.



Sec. 11.63  How and to whom do I submit my petition for rulemaking or petition for exemption?

    (a) For paper submissions, send the original signed copy of your 
petition for rulemaking or exemption to this address: U.S. Department of 
Transportation, Docket Management System, 400 7th Street, SW., Room PL 
401, Washington, DC 20591-0001.
    (b) For electronic submissions, submit your petition to FAA through 
the Internet using the Docket Management System web site at this 
Internet address: http://dms.dot.gov/.
    (c) In the future, FAA may designate other means by which you can 
submit petitions.
    (d) Submit your petition for exemption 120 days before you need the 
exemption to take effect.



Sec. 11.71  What information must I include in my petition for rulemaking?

    (a) You must include the following information in your petition for 
rulemaking:
    (1) Your name and mailing address and, if you wish, other contact 
information such as a fax number, telephone number, or e-mail address.
    (2) An explanation of your proposed action and its purpose.
    (3) The language you propose for a new or amended rule, or the 
language you would remove from a current rule.
    (4) An explanation of why your proposed action would be in the 
public interest.
    (5) Information and arguments that support your proposed action, 
including relevant technical and scientific data available to you.
    (6) Any specific facts or circumstances that support or demonstrate 
the need for the action you propose.
    (b) In the process of considering your petition, we may ask that you 
provide information or data available to you about the following:
    (1) The costs and benefits of your proposed action to society in 
general, and identifiable groups within society in particular.
    (2) The regulatory burden of your proposed action on small 
businesses, small organizations, small governmental jurisdictions, and 
Indian tribes.
    (3) The recordkeeping and reporting burdens of your proposed action 
and whom the burdens would affect.
    (4) The effect of your proposed action on the quality of the natural 
and social environments.



Sec. 11.73  How does FAA process petitions for rulemaking?

    After we have determined the disposition of your petition, we will 
contact you in writing about our decision. The FAA may respond to your 
petition for rulemaking in one of the following ways:
    (a) If we determine that your petition justifies our taking the 
action you suggest, we may issue an NPRM or ANPRM. We will do so no 
later than 6 months after the date we receive your petition. In making 
our decision, we consider:
    (1) The immediacy of the safety or security concerns you raise;
    (2) The priority of other issues the FAA must deal with; and
    (3) The resources we have available to address these issues.
    (b) If we have issued an ANPRM or NPRM on the subject matter of your 
petition, we will consider your arguments for a rule change as a comment 
in connection with the rulemaking proceeding. We will not treat your 
petition as a separate action.
    (c) If we have begun a rulemaking project in the subject area of 
your petition, we will consider your comments and arguments for a rule 
change as part of that project. We will not treat your petition as a 
separate action.

[[Page 25]]

    (d) If we have tasked ARAC to study the general subject area of your 
petition, we will ask ARAC to review and evaluate your proposed action. 
We will not treat your petition as a separate action.
    (e) If we determine that the issues you identify in your petition 
may have merit, but do not address an immediate safety concern or cannot 
be addressed because of other priorities and resource constraints, we 
may dismiss your petition. Your comments and arguments for a rule change 
will be placed in a database, which we will examine when we consider 
future rulemaking.



Sec. 11.75  Does FAA invite public comment on petitions for rulemaking?

    Generally, FAA does not invite public comment on petitions for 
rulemaking.



Sec. 11.77  Is there any additional information I must include in my petition for designating airspace?

    In petitions asking FAA to establish, amend, or repeal a designation 
of airspace, including special use airspace, you must include all the 
information specified by Sec. 11.71 and also:
    (a) The location and a description of the airspace you want assigned 
or designated;
    (b) A complete description of the activity or use to be made of that 
airspace, including a detailed description of the type, volume, 
duration, time, and place of the operations to be conducted in the area;
    (c) A description of the air navigation, air traffic control, 
surveillance, and communication facilities available and to be provided 
if we grant the designation; and
    (d) The name and location of the agency, office, facility, or person 
who would have authority to permit the use of the airspace when it was 
not in use for the purpose to which you want it assigned.



Sec. 11.81  What information must I include in my petition for an exemption?

    You must include the following information in your petition for an 
exemption and submit it to FAA as soon as you know you need an 
exemption.
    (a) Your name and mailing address and, if you wish, other contact 
information such as a fax number, telephone number, or e-mail address;
    (b) The specific section or sections of 14 CFR from which you seek 
an exemption;
    (c) The extent of relief you seek, and the reason you seek the 
relief;
    (d) The reasons why granting your request would be in the public 
interest; that is, how it would benefit the public as a whole;
    (e) The reasons why granting the exemption would not adversely 
affect safety, or how the exemption would provide a level of safety at 
least equal to that provided by the rule from which you seek the 
exemption;
    (f) A summary we can publish in the Federal Register, stating:
    (1) The rule from which you seek the exemption; and
    (2) A brief description of the nature of the exemption you seek;
    (g) Any additional information, views or arguments available to 
support your request; and
    (h) If you want to exercise the privileges of your exemption outside 
the United States, the reason why you need to do so.



Sec. 11.83  How can I operate under an exemption outside the United States?

    If you want to be able to operate under your exemption outside the 
United States, you must request this when you petition for relief and 
give us the reason for this use. If you do not provide your reason or we 
determine that it does not justify this relief, we will limit your 
exemption to use within the United States. Before we extend your 
exemption for use outside the United States, we will verify that the 
exemption would be in compliance with the Standards of the International 
Civil Aviation Organization (ICAO). If it would not, but we still 
believe it would be in the public interest to allow you to do so, we 
will file a difference with ICAO. However, a foreign country still may 
not allow you to operate in that country without meeting the ICAO 
standard.

[[Page 26]]



Sec. 11.85  Does FAA invite public comment on petitions for exemption?

    Yes, FAA publishes information about petitions for exemption in the 
Federal Register. The information includes--
    (a) The docket number of the petition;
    (b) The citation to the rule or rules from which the petitioner 
requested relief;
    (c) The name of the petitioner;
    (d) The petitioner's summary of the action requested and the reasons 
for requesting it; and
    (e) A request for comments to assist FAA in evaluating the petition.



Sec. 11.87  Are there circumstances in which FAA may decide not to publish a summary of my petition for exemption?

    The FAA may not publish a summary of your petition for exemption and 
request comments if you present or we find good cause why we should not 
delay action on your petition. The factors we consider in deciding not 
to request comment include:
    (a) Whether granting your petition would set a precedent.
    (b) Whether the relief requested is identical to exemptions granted 
previously.
    (c) Whether our delaying action on your petition would affect you 
adversely.
    (d) Whether you filed your petition in a timely manner.



Sec. 11.89  How much time do I have to submit comments to FAA on a petition for exemption?

    The FAA states the specific time allowed for comments in the Federal 
Register notice about the petition. We usually allow 20 days to comment 
on a petition for exemption.



Sec. 11.91  How does FAA inform me of its decision on my petition for exemption?

    (a) The FAA will notify you in writing about its decision on your 
petition.
    (b) The FAA publishes a summary in the Federal Register that 
includes--
    (1) The docket number of your petition;
    (2) Your name;
    (3) The citation to the rules from which you requested relief;
    (4) A brief description of the general nature of the relief 
requested;
    (5) Whether FAA granted or denied the request;
    (6) The date of FAA's decision; and
    (7) An exemption number.



Sec. 11.101  May I ask FAA to reconsider my petition for rulemaking or petition for exemption if it is denied?

    Yes, you may petition FAA to reconsider your petition denial. You 
must submit your request to the address to which you sent your original 
petition, and FAA must receive it within 60 days after we issued the 
denial. For us to accept your petition, show the following:
    (a) That you have a significant additional fact and why you did not 
present it in your original petition;
    (b) That we made an important factual error in our denial of your 
original petition; or
    (c) That we did not correctly interpret a law, regulation, or 
precedent.



           Subpart B--Paperwork Reduction Act Control Numbers



Sec. 11.201  Office of Management and Budget (OMB) control numbers assigned under the Paperwork Reduction Act.

    (a) The Paperwork Reduction Act of 1995 (44 U.S.C. 3501-3520) 
requires FAA to get approval from OMB for our information collection 
activities, and to list a record of those approvals in the Federal 
Register. This subpart lists the control numbers OMB assigned to FAA's 
information collection activities.
    (b) The table listing OMB control numbers assigned to FAA's 
information collection activities follows:

------------------------------------------------------------------------
  14 CFR part or  section identified and
                 described                   Current OMB control number
------------------------------------------------------------------------
Part 14...................................  2120-0539
Part 17...................................  2120-0632
Part 21...................................  2120-0018, 2120-0552
Part 34...................................  2120-0508
Part 39...................................  2120-0056
Part 43...................................  2120-0020
Part 45...................................  2120-0508
Part 47...................................  2120-0024, 2120-0042
Part 49...................................  2120-0043
Part 61...................................  2120-0021, 2120-0034, 2120-
                                             0543, 2120-0571

[[Page 27]]

 
Part 63...................................  2120-0007
Part 65...................................  2120-0022, 2120-0535, 2120-
                                             0571, 2120-0648
Part 67...................................  2120-0034, 2120-0543
Part 77...................................  2120-0001
Part 91...................................  2120-0005, 2120-0026, 2120-
                                             0027, 2120-0573, 2120-0606,
                                             2120-0620, 2120-0631, 2120-
                                             0651
Part 93...................................  2120-0524, 2120-0606, 2120-
                                             0639
Part 101..................................  2120-0027
Part 105..................................  2120-0027, 2120-0641
Part 107..................................  2120-0075, 2120-0554, 2120-
                                             0628
Part 108..................................  2120-0098, 2120-0554, 2120-
                                             0577, 2120-0628, 2120-0642
Part 109..................................  2120-0505
Part 119..................................  2120-0593
Part 121..................................  2120-0008, 2120-0028, 2120-
                                             0535, 2120-0571, 2120-0600,
                                             2120-0606, 2120-0614, 2120-
                                             0616, 2120-0631, 2120-0651,
                                             2120-0653
Part 125..................................  2120-0028, 2120-0085, 2120-
                                             0616, 2120-0651
Part 129..................................  2120-0028, 2120-0536, 2120-
                                             0616, 2120-0638
Part 133..................................  2120-0044
Part 135..................................  2120-0003, 2120-0028, 2120-
                                             0039, 2120-0535, 2120-0571,
                                             2120-0600, 2120-0606, 2120-
                                             0614, 2120-0616, 2120-0620,
                                             2120-0631, 2120-0653
Part 137..................................  2120-0049
Part 139..................................  2120-0045, 2120-0063
Part 141..................................  2120-0009
Part 142..................................  2120-0570
Part 145..................................  2120-0003, 2120-0010, 2120-
                                             0571
Part 147..................................  2120-0040
Part 150..................................  2120-0517
Part 157..................................  2120-0036
Part 158..................................  2120-0557
Part 161..................................  2120-0563
Part 171..................................  2120-0014
Part 183..................................  2120-0033, 2120-0604
Part 193..................................  2120-0646
Part 198..................................  2120-0514
Part 400..................................  2120-0643, 2120-0644, 0649
Part 401..................................  2120-0608
Part 440..................................  2120-0601
SFAR 36...................................  2120-0507
SFAR 64...................................  2120-0573
SFAR 71...................................  2120-0620
------------------------------------------------------------------------

   Appendix 1 to Part 11--Oral Communications With the Public During 
                               Rulemaking

                     1. What is an ex parte contact?

    ``Ex parte'' is a Latin term that means ``one sided,'' and indicates 
that not all parties to an issue were present when it was discussed. An 
ex parte contact involving rulemaking is any communication between FAA 
and someone outside the government regarding a specific rulemaking 
proceeding, before that proceeding closes. A rulemaking proceeding does 
not close until we publish the final rule or withdraw the NPRM. Because 
an ex parte contact excludes other interested persons, including the 
rest of the public, from the communication, it may give an unfair 
advantage to one party, or appear to do so.

        2. Are written comments to the docket ex parte contacts?

    Written comments submitted to the docket are not ex parte contacts 
because they are available for inspection by all members of the public.

               3. What is DOT policy on ex parte contacts?

    It is DOT policy to provide for open development of rules and to 
encourage full public participation in rulemaking actions. In addition 
to providing opportunity to respond in writing to an NPRM and to appear 
and be heard at a hearing, DOT policy encourages agencies to contact the 
public directly when we need factual information to resolve questions of 
substance. It also encourages DOT agencies to be receptive to 
appropriate contacts from persons affected by or interested in a 
proposed action. But under some circumstances an ex parte contact could 
affect the basic openness and fairness of the rulemaking process. Even 
the appearance of impropriety can affect public confidence in the 
process. For this reason, DOT policy sets careful guidelines for these 
contacts. The kind of ex parte contacts permitted and the procedures we 
follow depend on when the contact occurs in the rulemaking process.

  4. What kinds of ex parte contacts does DOT policy permit before we 
 issue an ANPRM, NPRM, Supplemental NPRM, or immediately adopted final 
                                  rule?

    The DOT policy authorizes ex parte contacts that we need to obtain 
technical and economic information. We need this information to decide 
whether to issue a regulation and what it should say. Each contact that 
influences our development of the regulation is noted in the preamble. 
For multiple contacts that are similar, we may provide only a general 
discussion. For contacts not discussed in the preamble, we place a 
report discussing each contact or group of related contacts in the 
rulemaking docket when it is opened.

 5. Does DOT policy permit ex parte contacts during the comment period?

    No, during the comment period, the public docket is available for 
written comments from any member of the public. These comments can be 
examined and responded to by any interested person. Because this public 
forum is available, DOT policy discourages

[[Page 28]]

ex parte contacts during the comment period. They are not necessary to 
collect the information the agency needs to make its decision.

6. What if the FAA believes it needs to meet with members of the public 
                        to discuss the proposal?

    If the FAA determines that it would be helpful to invite members of 
the public to make oral presentations to it regarding the proposal, we 
will announce a public meeting in the Federal Register.

 7. Are any oral contacts concerning the proposal permitted during the 
                             comment period?

    If you contact the agency with questions regarding the proposal 
during the comment period, we can only provide you with information that 
has already been made available to the general public. If you contact 
the agency to discuss the proposal, you will be told that the proper 
avenue of communication during the comment period is a written 
communication to the docket.

   8. If a substantive ex parte contact does occur during the comment 
                        period, what does FAA do?

    While FAA tries to ensure that FAA personnel and the public are 
aware of DOT policy, substantive ex parte contacts do occasionally 
occur, for example, at meetings not intended for that purpose. In such a 
case, we place a summary of the contact and a copy of any materials 
provided at the meeting in the rulemaking docket. We encourage 
participants in such a meeting to file written comments in the docket.

   9. Does DOT policy permit ex parte contacts the comment period has 
                                 closed?

    DOT policy strongly discourages ex parte contacts initiated by 
commenters to discuss their position on the proposal once the comment 
period has closed. Such a contact at this time would be improper, since 
other interested persons would not have an opportunity to respond. If we 
need further information regarding a comment in the docket, we may 
request this from a commenter. A record of this contact and the 
information provided is placed in the docket. If we need to make other 
contacts to update factual information, such as economic data, we will 
disclose this information in the final rule docket or in the economic 
studies accompanying it, which are available in the docket.

  10. What if FAA needs to meet with interested persons to discuss the 
              proposal after the comment period has closed?

    If FAA determines that it would be helpful to meet with a person or 
group after the close of the comment period to discuss a course of 
action to be taken, we will announce the meeting in the Federal 
Register. We will also consider reopening the comment period. If an 
inappropriate ex parte contact does occur after the comment period 
closes, a summary of the contact and a copy of any material distributed 
during meeting will be placed in the docket if it could be seen as 
influencing the rulemaking process.

    11. Under what circumstances will FAA reopen the comment period?

    If we receive an ex parte communication after the comment period has 
closed that could substantially influence the rulemaking, we may reopen 
the comment period. DOT policy requires the agency to carefully consider 
whether the substance of the contact will give the commenter an unfair 
advantage, since the rest of the public may not see the record of the 
contact in the docket. When the substance of a proposed rule is 
significantly changed as a result of such an oral communication, DOT 
policy and practice requires that the comment period be reopened by 
issuing a supplemental NPRM in which the reasons for the change are 
discussed.

12. What if I have important information for FAA and the comment period 
                               is closed?

    You may always provide FAA with written information after the close 
of the comment period and it will be considered if time permits. Because 
contacts after the close of the comment may not be seen by other 
interested persons, if they substantially and specifically influence the 
FAA's decision, we may need to reopen the comment period.



PART 13--INVESTIGATIVE AND ENFORCEMENT PROCEDURES--Table of Contents




                   Subpart A--Investigative Procedures

Sec.
13.1  Reports of violations.
13.3  Investigations (general).
13.5  Formal complaints.
13.7  Records, documents and reports.

                    Subpart B--Administrative Actions

13.11  Administrative disposition of certain violations.

                  Subpart C--Legal Enforcement Actions

13.13  Consent orders.
13.15  Civil penalties: Federal Aviation Act of 1958, as amended, 
          involving an amount in controversy in excess of $50,000; an in 
          rem action; seizure of aircraft; or injunctive relief.
13.16  Civil penalties: Federal Aviation Act of 1958, involving an 
          amount in controversy not exceeding $50,000; Hazardous 
          Materials Transportation Act.
13.17  Seizure of aircraft.

[[Page 29]]

13.19  Certificate action.
13.20  Orders of compliance, cease and desist orders, orders of denial, 
          and other orders.
13.21  Military personnel.
13.23  Criminal penalties.
13.25  Injunctions.
13.27  Final order of Hearing Officer in certificate of aircraft 
          registration proceedings.
13.29  Civil penalties: Streamlined enforcement procedures for certain 
          security violations.

              Subpart D--Rules of Practice for FAA Hearings

13.31  Applicability.
13.33  Appearances.
13.35  Request for hearing.
13.37  Hearing Officer's powers.
13.39  Disqualification of Hearing Officer.
13.41  [Reserved]
13.43  Service and filing of pleadings, motions, and documents.
13.44  Computation of time and extension of time.
13.45  Amendment of notice and answer.
13.47  Withdrawal of notice or request for hearing.
13.49  Motions.
13.51  Intervention.
13.53  Depositions.
13.55  Notice of hearing.
13.57  Subpoenas and witness fees.
13.59  Evidence.
13.61  Argument and submittals.
13.63  Record.

     Subpart E--Orders of Compliance Under the Hazardous Materials 
                           Transportation Act

13.71  Applicability.
13.73  Notice of proposed order of compliance.
13.75  Reply or request for hearing.
13.77  Consent order of compliance.
13.79  Hearing.
13.81  Order of immediate compliance.
13.83  Appeal.
13.85  Filing, service and computation of time.
13.87  Extension of time.

     Subpart F--Formal Fact-Finding Investigation Under an Order of 
                              Investigation

13.101  Applicability.
13.103  Order of investigation.
13.105  Notification.
13.107  Designation of additional parties.
13.109  Convening the investigation.
13.111  Subpoenas.
13.113  Noncompliance with the investigative process.
13.115  Public proceedings.
13.117  Conduct of investigative proceeding or deposition.
13.119  Rights of persons against self-incrimination.
13.121  Witness fees.
13.123  Submission by party to the investigation.
13.125  Depositions.
13.127  Reports, decisions and orders.
13.129  Post-investigation action.
13.131  Other procedures.

        Subpart G--Rules of Practice in FAA Civil Penalty Actions

13.201  Applicability.
13.202  Definitions.
13.203  Separation of functions.
13.204  Appearances and rights of parties.
13.205  Administrative law judges.
13.206  Intervention.
13.207  Certification of documents.
13.208  Complaint.
13.209  Answer.
13.210  Filing of documents.
13.211  Service of documents.
13.212  Computation of time.
13.213  Extension of time.
13.214  Amendment of pleadings.
13.215  Withdrawal of complaint or request for hearing.
13.216  Waivers.
13.217  Joint procedural or discovery schedule.
13.218  Motions.
13.219  Interlocutory appeals.
13.220  Discovery.
13.221  Notice of hearing.
13.222  Evidence.
13.223  Standard of proof.
13.224  Burden of proof.
13.225  Offer of proof.
13.226  Public disclosure of evidence.
13.227  Expert or opinion witnesses.
13.228  Subpoenas.
13.229  Witness fees.
13.230  Record.
13.231  Argument before the administrative law judge.
13.232  Initial decision.
13.233  Appeal from initial decision.
13.234  Petition to reconsider or modify a final decision and order of 
          the FAA decisionmaker on appeal.
13.235  Judicial review of a final decision and order.

         Subpart H--Civil Monetary Penalty Inflation Adjustment

13.301  Scope and purpose.
13.303  Definitions.
13.305  Cost of living adjustments of civil monetary penalties.

        Subpart I--Flight Operational Quality Assurance Programs

13.401  Flight Operational Quality Assurance program: Prohibition 
          against use of data for enforcement purposes.


[[Page 30]]


    Authority: 18 U.S.C. 6002; 28 U.S.C. 2461 (note); 49 U.S.C. 106(g), 
5121-5124, 40113-40114, 44103-44106, 44702-44703, 44709-44710, 44713, 
46101-46110, 46301-46316, 46501-46502, 46504-46507, 47106, 47111, 47122, 
47306, 47531-47532.

    Source: Docket No. 18884, 44 FR 63723, Nov. 5, 1979, unless 
otherwise noted.



                   Subpart A--Investigative Procedures



Sec. 13.1  Reports of violations.

    (a) Any person who knows of a violation of the Federal Aviation Act 
of 1958, as amended, the Hazardous Materials Transportation Act relating 
to the transportation or shipment by air of hazardous materials, the 
Airport and Airway Development Act of 1970, the Airport and Airway 
Improvement Act of 1982, the Airport and Airway Improvement Act of 1982 
as amended by the Airport and Airway Safety and Capacity Expansion Act 
of 1987, or any rule, regulation, or order issued thereunder, should 
report it to appropriate personnel of any FAA regional or district 
office.
    (b) Each report made under this section, together with any other 
information the FAA may have that is relevant to the matter reported, 
will be reviewed by FAA personnel to determine the nature and type of 
any additional investigation or enforcement action the FAA will take.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-17, 
53 FR 33783, Aug. 31, 1988]



Sec. 13.3  Investigations (general).

    (a) Under the Federal Aviation Act of 1958, as amended, (49 U.S.C. 
1301 et seq.), the Hazardous Materials Transportation Act (49 U.S.C. 
1801 et seq.), the Airport and Airway Development Act of 1970 (49 U.S.C. 
1701 et seq.), the Airport and Airway Improvement Act of 1982 (49 U.S.C. 
2201 et seq.), the Airport and Airway Improvement Act of 1982 (as 
amended, 49 U.S.C. App. 2201 et seq., Airport and Airway Safety and 
Capacity Expansion Act of 1987), and the Regulations of the Office of 
the Secretary of Transportation (49 CFR 1 et seq.), the Administrator 
may conduct investigations, hold hearings, issue subpoenas, require the 
production of relevant documents, records, and property, and take 
evidence and depositions.
    (b) For the purpose of investigating alleged violations of the 
Federal Aviation Act of 1958, as amended the Hazardous Materials 
Transportation Act, the Airport and Airway Development Act of 1970, the 
Airport and Airway Improvement Act of 1982, the Airport and Airway 
Improvement Act of 1982 as amended by the Airport and Airway Safety and 
Capacity Expansion Act of 1987, or any rule, regulation, or order issued 
thereunder, the Administrator's authority has been delegated to the 
various services and or offices for matters within their respective 
areas for all routine investigations. When the compulsory processes of 
sections 313 and 1004 (49 U.S.C. 1354 and 1484) of the Federal Aviation 
Act, or section 109 of the Hazardous Materials Transportation Act (49 
U.S.C. 1808) are invoked, the Administrator's authority has been 
delegated to the Chief Counsel, the Deputy Chief Counsel, each Assistant 
Chief Counsel, each Regional Counsel, the Aeronautical Center Counsel, 
and the Technical Center Counsel.
    (c) In conducting formal investigations, the Chief Counsel, the 
Deputy Chief Counsel, each Assistant Chief Counsel, each Regional 
Counsel, the Aeronautical Center Counsel, and the Technical Center 
Counsel may issue an order of investigation in accordance with Subpart F 
of this part.
    (d) A complaint against the sponsor, proprietor, or operator of a 
Federally-assisted airport involving violations of the legal authorities 
listed in Sec. 16.1 of this chapter shall be filed in accordance with 
the provisions of part 16 of this chapter, except in the case of 
complaints, investigations, and proceedings initiated before December 
16, 1996, the effective date of part 16 of this chapter.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-17, 
53 FR 33783, Aug. 31, 1988; 53 FR 35255, Sept. 12, 1988; Amdt. 13-19, 54 
FR 39290, Sept. 25, 1989; Amdt. 13-27, 61 FR 54004, Oct. 16, 1996; Amdt. 
13-29, 62 FR 46865, Sept. 4, 1997]



Sec. 13.5  Formal complaints.

    (a) Any person may file a complaint with the Administrator with 
respect to anything done or omitted to be done by any person in 
contravention of any

[[Page 31]]

provision of any Act or of any regulation or order issued under it, as 
to matters within the jurisdiction of the Administrator. This section 
does not apply to complaints against the Administrator or employees of 
the FAA acting within the scope of their employment.
    (b) Complaints filed under this section must--
    (1) Be submitted in writing and identified as a complaint filed for 
the purpose of seeking an appropriate order or other enforcement action;
    (2) Be submitted to the Federal Aviation Administration, Office of 
the Chief Counsel, Attention: Enforcement Docket (AGC-10), 800 
Independence Avenue, S.W., Washington, DC 20591;
    (3) Set forth the name and address, if known, of each person who is 
the subject of the complaint and, with respect to each person, the 
specific provisions of the Act or regulation or order that the 
complainant believes were violated;
    (4) Contain a concise but complete statement of the facts relied 
upon to substantiate each allegation;
    (5) State the name, address and telephone number of the person 
filing the complaint; and
    (6) Be signed by the person filing the complaint or a duly 
authorized representative.
    (c) Complaints which do not meet the requirements of paragraph (b) 
of this section will be considered reports under Sec. 13.1.
    (d) Complaints which meet the requirements of paragraph (b) of this 
section will be docketed and a copy mailed to each person named in the 
complaint.
    (e) Any complaint filed against a member of the Armed Forces of the 
United States acting in the performance of official duties shall be 
referred to the Secretary of the Department concerned for action in 
accordance with the procedures set forth in Sec. 13.21 of this part.
    (f) The person named in the complaint shall file an answer within 20 
days after service of a copy of the complaint.
    (g) After the complaint has been answered or after the allotted time 
in which to file an answer has expired, the Administrator shall 
determine if there are reasonable grounds for investigating the 
complaint.
    (h) If the Administrator determines that a complaint does not state 
facts which warrant an investigation or action, the complaint may be 
dismissed without a hearing and the reason for the dismissal shall be 
given, in writing, to the person who filed the complaint and the person 
named in the complaint.
    (i) If the Administrator determines that reasonable grounds exist, 
an informal investigation may be initiated or an order of investigation 
may be issued in accordance with Subpart F of this part, or both. Each 
person named in the complaint shall be advised which official has been 
delegated the responsibility under Sec. 13.3(b) or (c) for conducting 
the investigation.
    (j) If the investigation substantiates the allegations set forth in 
the complaint, a notice of proposed order may be issued or other 
enforcement action taken in accordance with this part.
    (k) The complaint and other pleadings and official FAA records 
relating to the disposition of the complaint are maintained in current 
docket form in the Enforcement Docket (AGC-10), Office of the Chief 
Counsel, Federal Aviation Administration, 800 Independence Avenue, S.W., 
Washington, D. C. 20591. Any interested person may examine any docketed 
material at that office, at any time after the docket is established, 
except material that is ordered withheld from the public under 
applicable law or regulations, and may obtain a photostatic or duplicate 
copy upon paying the cost of the copy.

(Secs. 313(a), 314(a), 601 through 610, and 1102 of the Federal Aviation 
Act of 1958 (49 U.S.C. 1354(a), 1421 through 1430, 1502); sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No 13-14, 44 FR 63723, Nov. 5, 1979; as amended by Amdt. 13-16, 45 
FR 35307, May 27, 1980; Amdt. 13-19, 54 FR 39290, Sept. 25, 1989]



Sec. 13.7  Records, documents and reports.

    Each record, document and report that the Federal Aviation 
Regulations require to be maintained, exhibited or submitted to the 
Administrator may be used in any investigation conducted by the 
Administrator; and, except to the

[[Page 32]]

extent the use may be specifically limited or prohibited by the section 
which imposes the requirement, the records, documents and reports may be 
used in any civil penalty action, certificate action, or other legal 
proceeding.



                    Subpart B--Administrative Actions



Sec. 13.11  Administrative disposition of certain violations.

    (a) If it is determined that a violation or an alleged violation of 
the Federal Aviation Act of 1958, or an order or regulation issued under 
it, or of the Hazardous Materials Transportation Act, or an order or 
regulation issued under it, does not require legal enforcement action, 
an appropriate official of the FAA field office responsible for 
processing the enforcement case or other appropriate FAA official may 
take administrative action in disposition of the case.
    (b) An administrative action under this section does not constitute 
a formal adjudication of the matter, and may be taken by issuing the 
alleged violator--
    (1) A ``Warning Notice'' which recites available facts and 
information about the incident or condition and indicates that it may 
have been a violation; or
    (2) A ``Letter of Correction'' which confirms the FAA decision in 
the matter and states the necessary corrective action the alleged 
violator has taken or agrees to take. If the agreed corrective action is 
not fully completed, legal enforcement action may be taken.



                  Subpart C--Legal Enforcement Actions



Sec. 13.13  Consent orders.

    (a) At any time before the issuance of an order under this subpart, 
the official who issued the notice and the person subject to the notice 
may agree to dispose of the case by the issuance of a consent order by 
the official.
    (b) A proposal for a consent order, submitted to the official who 
issued the notice, under this section must include--
    (1) A proposed order;
    (2) An admission of all jurisdictional facts;
    (3) An express waiver of the right to further procedural steps and 
of all rights to judicial review; and
    (4) An incorporation by reference of the notice and an 
acknowledgment that the notice may be used to construe the terms of the 
order.
    (c) If the issuance of a consent order has been agreed upon after 
the filing of a request for hearing in accordance with Subpart D of this 
part, the proposal for a consent order shall include a request to be 
filed with the Hearing Officer withdrawing the request for a hearing and 
requesting that the case be dismissed.



Sec. 13.15  Civil penalties: Federal Aviation Act of 1958, as amended, involving an amount in controversy in excess of $50,000; an in rem action; seizure of 
          aircraft; or injunctive relief.

    (a) The following penalties apply to persons who violate the Federal 
Aviation Act of l958, as amended:
    (1) Any person who violates any provision of Title III, V, VI, or 
XII of the Federal Aviation Act of 1958, as amended, or any rule, 
regulation, or order issued thereunder, is subject to a civil penalty of 
not more than the amount specified in the Act for each violation in 
accordance with section 901 of the Federal Aviation Act of 1958, as 
amended (49 U.S.C. 1471, et seq.).
    (2) Any person who violates section 404(d) of the Federal Aviation 
Act of 1958, as amended, or any rule, regulation, or order issued 
thereunder, is subject to a civil penalty of not more than the amount 
specified in the Act for each violation in accordance with section 
404(d) or section 901 of the Federal Aviation Act of 1958, as amended 
(49 U.S.C. 1374, 1471, et seq.).
    (3) Any person who operates aircraft for the carriage of persons or 
property for compensation or hire (other than an airman serving in the 
capacity of an airman) is subject to a civil penalty of not more than 
$10,000 for each violation of Title III, VI, or XII of the Federal 
Aviation Act of 1958, as amended, or any rule, regulation, or order 
issued thereunder, occurring after December 30, 1987, in accordance with 
section 901 of the Federal Aviation Act of l958, as amended (49 U.S.C. 
1471 et seq.).

[[Page 33]]

    (b) The authority of the Administrator, under section 901 of the 
Federal Aviation Act of 1958, as amended, to propose a civil penalty for 
a violation of that Act, or a rule, regulation, or order issued 
thereunder, and the ability to refer cases to the United States Attorney 
General, or the delegate of the Attorney General, for prosecution of 
civil penalty actions proposed by the Administrator, involving an amount 
in controversy in excess of $50,000, an in rem action, seizure of 
aircraft subject to lien, or suit for injunctive relief, or for 
collection of an assessed civil penalty, is delegated to the Chief 
Counsel, the Assistant Chief Counsel, Enforcement, the Assistant Chief 
Counsel, Regulations, the Assistant Chief Counsel, Europe, Africa, and 
Middle East Area Office, the Regional Counsel, the Aeronautical Center 
Counsel, and the Technical Center Counsel.
    (c) The Administrator may compromise any civil penalty, proposed in 
accordance with section 901 of the Federal Aviation Act of 1958, as 
amended, involving an amount in controversy in excess of $50,000, an in 
rem action, seizure of aircraft subject to lien, or suit for injunctive 
relief, prior to referral of the civil penalty action to the United 
States Attorney General, or the delegate of the Attorney General, for 
prosecution.
    (1) The Administrator, through the Chief Counsel, the Assistant 
Chief Counsel, Enforcement, the Assistant Chief Counsel, Regulations, 
the Assistant Chief Counsel, Europe, Africa, and Middle East Area 
Office, the Regional Counsel, the Aeronautical Center Counsel, and the 
Technical Center Counsel sends a civil penalty letter to the person 
charged with a violation of the Federal Aviation Act of 1958, as 
amended, or a rule, regulation, or order issued thereunder. The civil 
penalty letter contains a statement of the charges, the applicable law, 
rule, regulation, or order, the amount of civil penalty that the 
Administrator will accept in full settlement of the action or an offer 
to compromise the civil penalty.
    (2) Not later than 30 days after receipt of the civil penalty 
letter, the person charged with a violation may present any material or 
information in answer to the charges to the agency attorney, either 
orally or in writing, that may explain, mitigate, or deny the violation 
or that may show extenuating circumstances. The Administrator will 
consider any material or information submitted in accordance with this 
paragraph to determine whether the person is subject to a civil penalty 
or to determine the amount for which the Administrator will compromise 
the action.
    (3) If the person charged with the violation offers to compromise 
for a specific amount, that person shall send a certified check or money 
order for that amount, payable to the Federal Aviation Administration, 
to the agency attorney. The Chief Counsel, the Assistant Chief Counsel, 
Enforcement, the Assistant Chief Counsel, Regulations, the Assistant 
Chief Counsel, Europe, Africa, and Middle East Area Office, the Regional 
Counsel, the Aeronautical Center Counsel, or the Technical Center 
Counsel may accept the certified check or money order or may refuse and 
return the certified check or money order.
    (4) If the offer to compromise is accepted by the Administrator, the 
agency attorney will send a letter to the person charged with the 
violation stating that the certified check or money order is accepted in 
full settlement of the civil penalty action.
    (5) If the parties cannot agree to compromise the civil penalty 
action or the offer to compromise is rejected and the certified check or 
money order submitted in compromise is returned, the Administrator may 
refer the civil penalty action to the United States Attorney General, or 
the delegate of the Attorney General, to begin proceedings in a United 
States District Court, pursuant to the authority in section 903 of the 
Federal Aviation Act, as amended (49 U.S.C. 1473), to prosecute and 
collect the civil penalty.

[Amdt. 13-18, 53 FR 34653, Sept. 7, 1988, as amended by Amdt. 13-20, 55 
FR 15128, Apr. 20, 1990; Amdt. 13-29, 62 FR 46865, Sept. 4, 1997]

[[Page 34]]



Sec. 13.16  Civil penalties: Federal Aviation Act of 1958, involving an amount in controversy not exceeding $50,000; Hazardous Materials Transportation Act.

    (a) General. The following penalties apply to persons who violate 
the Federal Aviation Act of 1958, as amended, and the Hazardous 
Materials Transportation Act:
    (1) Any person who violates any provision of title III, V, VI, or 
XII of the Federal Aviation Act of 1958, as amended, or any rule, 
regulation, or order issued thereunder, is subject to a civil penalty of 
not more than the amount specified in the Act for each violation in 
accordance with section 901 of the Federal Aviation Act, of 1958, as 
amended (49 U.S.C. 1471, et seq.).
    (2) Any person who violates section 404(d) of the Federal Aviation 
Act of 1958, as amended, or any rule, regulation, or order issued 
thereunder, is subject to a civil penalty of not more than the amount 
specified in the Act for each violation in accordance with section 
404(d) or section 901 of the Federal Aviation Act of 1958, as amended 
(49 U.S.C. 1374, 1471, et seq.).
    (3) Any person who operates aircraft for the carriage of persons or 
property for compensation or hire (other than an airman serving in the 
capacity of an airman) is subject to a civil penalty of not more than 
$10,000 for each violation of title III, VI, or XII of the Federal 
Aviation Act of 1958, as amended, or any rule, regulation, or order 
issued thereunder, occurring after December 30, 1987, in accordance with 
section 901 of the Federal Aviation Act of 1958, as amended (49 U.S.C. 
1471, et seq.).
    (4) Any person who knowingly commits an act in violation of the 
Hazardous Materials Transportation Act, or any rule, regulation, or 
order issued thereunder, is subject to a civil penalty of not more than 
$10,000 for each violation in accordance with section 901 of the Federal 
Aviation Act of 1958, as amended, and section 110 of the Hazardous 
Materials Transportation Act (49 U.S.C. 1471 and 1809, et seq.). An 
order assessing civil penalty for a violation under the Hazardous 
Materials Transportation Act, or a rule, regulation, or order issued 
thereunder, will be issued only after consideration of--
    (i) The nature and circumstances of the violation;
    (ii) The extent and gravity of the violation;
    (iii) The person's degree of culpability;
    (iv) The person's history of prior violations;
    (v) The person's ability to pay the civil penalty;
    (vi) The effect on the person's ability to continue in business; and
    (vii) Such other matters as justice may require.
    (b) Order assessing civil penalty. An order assessing civil penalty 
may be issued for a violation described in paragraph (a) of this 
section, or as otherwise provided by statute, after notice and 
opportunity for a hearing. A person charged with a violation may be 
subject to an order assessing civil penalty in the following 
circumstances:
    (1) An order assessing civil penalty may be issued if a person 
charged with a violation submits or agrees to submit a civil penalty for 
a violation.
    (2) An order assessing civil penalty may be issued if a person 
charged with a violation does not request a hearing under paragraph 
(e)(2)(ii) of this section within 15 days after receipt of a final 
notice of proposed civil penalty.
    (3) Unless an appeal is filed with the FAA decisionmaker in a timely 
manner, an initial decision or order of an administrative law judge 
shall be considered an order assessing civil penalty if an 
administrative law judge finds that an alleged violation occurred and 
determines that a civil penalty, in an amount found appropriate by the 
administrative law judge, is warranted.
    (4) Unless a petition for review is filed with a U.S. Court of 
Appeals in a timely manner, a final decision and order of the 
Administrator shall be considered an order assessing civil penalty if 
the FAA decisionmaker finds that an alleged violation occurred and a 
civil penalty is warranted.
    (c) Delegation of authority. The authority of the Administrator, 
under section 901 and section 905 of the Federal Aviation Act of 1958, 
as amended, and section 110 of the Hazardous Materials Transportation 
Act, to initiate

[[Page 35]]

and assess civil penalties for a violation of those Acts, or a rule, 
regulation, or order issued thereunder, is delegated to the Deputy Chief 
Counsel, the Assistant Chief Counsel, Enforcement, the Assistant Chief 
Counsel, Regulations, the Assistant Chief Counsel, Europe, Africa, and 
Middle East Area Office, each Regional Counsel, the Aeronautical Center 
Counsel, and the Technical Center Counsel. The authority of the 
Administrator to refer cases to the Attorney General of the United 
States, or the delegate of the Attorney General, for the collection of 
civil penalties, is delegated to the Chief Counsel, the Deputy Chief 
Counsel, the Assistant Chief Counsel, Enforcement, the Assistant Chief 
Counsel, Regulations, the Assistant Chief Counsel, Europe, Africa, and 
Middle East Area Office, each Regional Counsel, the Aeronautical Center 
Counsel, and the Technical Center Counsel.
    (d) Notice of proposed civil penalty. A civil penalty action is 
initiated by sending a notice of proposed civil penalty to the person 
charged with a violation of the Federal Aviation Act of 1958, as 
amended, the Hazardous Materials Transportation Act, or a rule, 
regulation, or order issued thereunder. A notice of proposed civil 
penalty will be sent to the individual charged with a violation or to 
the president of the corporation or company charged with a violation. In 
response to a notice of proposed civil penalty, a corporation or company 
may designate in writing another person to receive documents in that 
civil penalty action. The notice of proposed civil penalty contains a 
statement of the charges and the amount of the proposed civil penalty. 
Not later than 30 days after receipt of the notice of proposed civil 
penalty, the person charged with a violation shall--
    (1) Submit the amount of the proposed civil penalty or an agreed-
upon amount, in which case either an order assessing civil penalty or 
compromise order shall be issued in that amount;
    (2) Submit to the agency attorney one of the following:
    (i) Written information, including documents and witness statements, 
demonstrating that a violation of the regulations did not occur or that 
a penalty or the amount of the penalty is not warranted by the 
circumstances.
    (ii) A written request to reduce the proposed civil penalty, the 
amount of reduction, and the reasons and any documents supporting a 
reduction of the proposed civil penalty, including records indicating a 
financial inability to pay or records showing that payment of the 
proposed civil penalty would prevent the person from continuing in 
business.
    (iii) A written request for an informal conference to discuss the 
matter with the agency attorney and to submit relevant information or 
documents; or
    (3) Request a hearing in which case a complaint shall be filed with 
the hearing docket clerk.
    (e) Final notice of proposed civil penalty. A final notice of 
proposed civil penalty may be issued after participation in informal 
procedures provided in paragraph (d)(2) of this section or failure to 
respond in a time1y manner to a notice of proposed civil penalty. A 
final notice of proposed civil penalty will be sent to the individual 
charged with a violation, to the president of the corporation or company 
charged with a violation, or a person previously designated in writing 
by the individual, corporation, or company to receive documents in that 
civil penalty action. If not previously done in response to a notice of 
proposed civil penalty, a corporation or company may designate in 
writing another person to receive documents in that civil penalty 
action. The final notice of proposed civil penalty contains a statement 
of the charges and the amount of the proposed civil penalty and, as a 
result of information submitted to the agency attorney during informal 
procedures, may modify an allegation or a proposed civil penalty 
contained in a notice of proposed civil penalty.
    (1) A final notice of proposed civil penalty may be issued--
    (i) If the person charged with a violation fails to respond to the 
notice of proposed civil penalty within 30 days after receipt of that 
notice; or
    (ii) If the parties participated in any informal procedures under 
paragraph (d)(2) of this section and the parties

[[Page 36]]

have not agreed to compromise the action or the agency attorney has not 
agreed to withdraw the notice of proposed civil penalty.
    (2) Not later than 15 days after receipt of the final notice of 
proposed civil penalty, the person charged with a violation shall do one 
of the following--
    (i) Submit the amount of the proposed civil penalty or an agreed-
upon amount, in which case either an order assessing civil penalty or a 
compromise order shall be issued in that amount; or
    (ii) Request a hearing in which case a complaint shall be filed with 
the hearing docket clerk.
    (f) Request for a hearing. Any person charged with a violation may 
request a hearing, pursuant to paragraph (d)(3) or paragraph (e)(2)(ii) 
of this section, to be conducted in accordance with the procedures in 
subpart G of this part. A person requesting a hearing shall file a 
written request for a hearing with the hearing docket clerk (Hearing 
Docket, Federal Aviation Administration, 800 Independence Avenue, SW., 
Room 924A, Washington, DC 20591, Attention: Hearing Docket Clerk) and 
shall mail a copy of the request to the agency attorney. The request for 
a hearing may be in the form of a letter but must be dated and signed by 
the person requesting a hearing. The request for a hearing may be 
typewritten or may be legibly handwritten.
    (g) Hearing. If the person charged with a violation requests a 
hearing pursuant to paragraph (d)(3) or paragraph (e)(2)(ii) of this 
section, the original complaint shall be filed with the hearing docket 
clerk and a copy shall be sent to the person requesting the hearing. The 
procedural rules in subpart G of this part apply to the hearing and any 
appeal. At the close of the hearing, the administrative law judge shall 
issue, either orally on the record or in writing, an initial decision, 
including the reasons for the decision, that contains findings or 
conclusions on the allegations contained, and the civil penalty sought, 
in the complaint.
    (h) Appeal. Either party may appeal the administrative law judge's 
initial decision to the FAA decisionmaker pursuant to the procedures in 
subpart G of this part. If a party files a notice of appeal pursuant to 
Sec. 13.233 of subpart G, the effectiveness of the initial decision is 
stayed until a final decision and order of the Administrator have been 
entered on the record. The FAA decisionmaker shall review the record and 
issue a final decision and order of the Administrator that affirm, 
modify, or reverse the initial decision. The FAA decisionmaker may 
assess a civil penalty but shall not assess a civil penalty in an amount 
greater than that sought in the complaint.
    (i) Payment. A person shall pay a civil penalty by sending a 
certified check or money order, payable to the Federal Aviation 
Administration, to the agency attorney.
    (j) Collection of civil penalties. If a person does not pay a civil 
penalty imposed by an order assessing civil penalty or a compromise 
order within 60 days after service of the order, the Administrator may 
refer the order to the United States Attorney General, or the delegate 
of the Attorney General, to begin proceedings to collect the civil 
penalty. The action shall be brought in a United States District Court, 
pursuant to the authority in section 903 of the Federal Aviation Act of 
1958, as amended (49 U.S.C. 1473), or section 110 of the Hazardous 
Materials Transportation Act (49 U.S.C. 1809).
    (k) Exhaustion of administrative remedies. A party may only petition 
for review of a final decision and order of the Administrator to the 
courts of appeals of the United States or the United States Court of 
Appeals for the District of Columbia pursuant to section 1006 of the 
Federal Aviation Act of 1958, as amended. Neither an initial decision or 
order issued by an administrative law judge, that has not been appealed 
to the FAA decisionmaker, nor an order compromising a civil penalty 
action constitutes a final order of the Administrator for the purposes 
of judicial appellate review under section 1006 of the Federal Aviation 
Act of 1958, as amended.
    (l) Compromise. The FAA may compromise any civil penalty action 
initiated in accordance with section 901 and section 905 of the Federal 
Aviation Act of 1958, as amended, involving an

[[Page 37]]

amount in controversy not exceeding $50,000, or any civil penalty action 
initiated in accordance with section 901 of the Federal Aviation Act of 
1958, as amended, and section 110 of the Hazardous Materials 
Transportation Act, at any time before referring the action to the 
United States Attorney for collection.
    (1) An agency attorney may compromise any civil penalty action where 
a person charged with a violation agrees to pay a civil penalty and the 
FAA agrees to make no finding of violation. Pursuant to such agreement, 
a compromise order shall be issued, stating:
    (i) The person agrees to pay a civil penalty.
    (ii) The FAA makes no finding of a violation.
    (iii) The compromise order shall not be used as evidence of a prior 
violation in any subsequent civil penalty proceeding or certificate 
action proceeding.
    (2) An agency attorney may compromise the amount of any civil 
penalty proposed in a notice, assessed in an order, or imposed in a 
compromise order.

[Amdt. 13-21, 55 FR 27574, July 3, 1990; 55 FR 29293, July 18, 1990; 55 
FR 31027, July 30, 1990; Amdt. 13-29, 62 FR 46865, Sept. 4, 1997]



Sec. 13.17  Seizure of aircraft.

    (a) Under section 903 of the Federal Aviation Act of 1958 (49 U.S.C. 
1473), a State or Federal law enforcement officer, or a Federal Aviation 
Administration safety inspector, authorized in an order of seizure 
issued by the Regional Administrator of the region, or by the Chief 
Counsel, may summarily seize an aircraft that is involved in a violation 
for which a civil penalty may be imposed on its owner or operator.
    (b) Each person seizing an aircraft under this section shall place 
it in the nearest available and adequate public storage facility in the 
judicial district in which it was seized.
    (c) The Regional Administrator or Chief Counsel, without delay, 
sends a written notice and a copy of this section, to the registered 
owner of the seized aircraft, and to each other persons shown by FAA 
records to have an interest in it, stating the--
    (1) Time, date, and place of seizure;
    (2) Name and address of the custodian of the aircraft;
    (3) Reasons for the seizure, including the violations believed, or 
judicially determined, to have been committed; and
    (4) Amount that may be tendered as--
    (i) A compromise of a civil penalty for the alleged violation; or
    (ii) Payment for a civil penalty imposed by a Federal court for a 
proven violation.
    (d) The Chief Counsel, or the Regional Counsel or Assistant Chief 
Counsel for the region or area in which an aircraft is seized under this 
section, immediately sends a report to the United States District 
Attorney for the judicial district in which it was seized, requesting 
the District Attorney to institute proceedings to enforce a lien against 
the aircraft.
    (e) The Regional Administrator or Chief Counsel directs the release 
of a seized aircraft whenever--
    (1) The alleged violator pays a civil penalty or an amount agreed 
upon in compromise, and the costs of seizing, storing, and maintaining 
the aircraft;
    (2) The aircraft is seized under an order of a Federal Court in 
proceedings in rem to enforce a lien against the aircraft, or the United 
States District Attorney for the judicial district concerned notifies 
the FAA that the District Attorney refuses to institute those 
proceedings; or
    (3) A bond in the amount and with the sureties prescribed by the 
Chief Counsel, the Regional Counsel, or the Assistant Chief Counsel is 
deposited, conditioned on payment of the penalty, or the compromise 
amount, and the costs of seizing, storing, and maintaining the aircraft.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-19, 
54 FR 39290, Sept. 25, 1989; Amdt. 13-29, 62 FR 46865, Sept. 4, 1997]



Sec. 13.19  Certificate action.

    (a) Under section 609 of the Federal Aviation Act of 1958 (49 U.S.C. 
1429), the Administrator may reinspect any civil aircraft, aircraft 
engine, propeller, appliance, air navigation facility, or air agency, 
and may re-examine any civil

[[Page 38]]

airman. Under section 501(e) of the FA Act, any Certificate of Aircraft 
Registration may be suspended or revoked by the Administrator for any 
cause that renders the aircraft ineligible for registration.
    (b) If, as a result of such a reinspection re-examination, or other 
investigation made by the Administrator under section 609 of the FA Act, 
the Administrator determines that the public interest and safety in air 
commerce requires it, the Administrator may issue an order amending, 
suspending, or revoking, all or part of any type certificate, production 
certificate, airworthiness certificate, airman certificate, air carrier 
operating certificate, air navigation facility certificate, or air 
agency certificate. This authority may be exercised for remedial 
purposes in cases involving the Hazardous Materials Transportation Act 
(49 U.S.C. 1801 et seq.) or regulations issued under that Act. This 
authority is also exercised by the Chief Counsel, the Assistant Chief 
Counsel, Enforcement, the Assistant Chief Counsel, Regulations, the 
Assistant Chief Counsel, Europe, Africa, and Middle East Area Office, 
each Regional Counsel, and the Aeronautical Center Counsel. If the 
Administrator finds that any aircraft registered under Part 47 of this 
chapter is ineligible for registration or if the holder of a Certificate 
of Aircraft Registration has refused or failed to submit AC Form 8050-
73, as required by Sec. 47.51 of this chapter, the Administrator issues 
an order suspending or revoking that certificate. This authority as to 
aircraft found ineligible for registration is also exercised by each 
Regional Counsel, the Aeronautical Center Counsel, and the Assistant 
Chief Counsel, Europe, Africa, and Middle East Area Office.
    (c) Before issuing an order under paragraph (b) of this section, the 
Chief Counsel, the Assistant Chief Counsel, Enforcement, the Assistant 
Chief Counsel, Regulations, the Assistant Chief Counsel, Europe, Africa, 
and Middle East Area Office, each Regional Counsel, or the Aeronautical 
Center Counsel advises the certificate holder of the charges or other 
reasons upon which the Administrator bases the proposed action and, 
except in an emergency, allows the holder to answer any charges and to 
be heard as to why the certificate should not be amended, suspended, or 
revoked. The holder may, by checking the appropriate box on the form 
that is sent to the holder with the notice of proposed certificate 
action, elect to--
    (1) Admit the charges and surrender his or her certificate;
    (2) Answer the charges in writing;
    (3) Request that an order be issued in accordance with the notice of 
proposed certificate action so that the certificate holder may appeal to 
the National Transportation Safety Board, if the charges concerning a 
matter under Title VI of the FA Act;
    (4) Request an opportunity to be heard in an informal conference 
with the FAA counsel; or
    (5) Request a hearing in accordance with Subpart D of this part if 
the charges concern a matter under Title V of the FA Act.

Except as provided in Sec. 13.35(b), unless the certificate holder 
returns the form and, where required, an answer or motion, with a 
postmark of not later than 15 days after the date of receipt of the 
notice, the order of the Administrator is issued as proposed. If the 
certificate holder has requested an informal conference with the FAA 
counsel and the charges concern a matter under Title V of the FA Act, 
the holder may after that conference also request a formal hearing in 
writing with a postmark of not later than 10 days after the close of the 
conference. After considering any information submitted by the 
certificate holder, the Chief Counsel, the Assistant Chief Counsel for 
Regulations and Enforcement, the Regional Counsel concerned, or the 
Aeronautical Center Counsel (as to matters under Title V of the FA Act) 
issues the order of the Administrator, except that if the holder has 
made a valid request for a formal hearing on a matter under Title V of 
the FA Act initially or after an informal conference, Subpart D of this 
part governs further proceedings.
    (d) Any person whose certificate is affected by an order issued 
under this section may appeal to the National Transportation Safety 
Board. If the certificate holder files an appeal with the Board, the 
Administrator's order is

[[Page 39]]

stayed unless the Administrator advises the Board that an emergency 
exists and safety in air commerce requires that the order become 
effective immediately. If the Board is so advised, the order remains 
effective and the Board shall finally dispose of the appeal within 60 
days after the date of the advice. This paragraph does not apply to any 
person whose Certificate of Aircraft Registration is affected by an 
order issued under this section.

[Doc. No. 13-14, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-15, 
45 FR 20773, Mar. 31, 1980; Amdt. 13-19, 54 FR 39290, Sept. 25, 1989; 
Amdt. 13-29, 62 FR 46865, Sept. 4, 1997]



Sec. 13.20  Orders of compliance, cease and desist orders, orders of denial, and other orders.

    (a) This section applies to orders of compliance, cease and desist 
orders, orders of denial, and other orders issued by the Administrator 
to carry out the provisions of the Federal Aviation Act of 1958, as 
amended, the Hazardous Materials Transportation Act, the Airport and 
Airway Development Act of 1970, and the Airport and Airway Improvement 
Act of 1982, or the Airport and Airway Improvement Act of 1982 as 
amended by the Airport and Airway Safety and Capacity Expansion Act of 
1987. This section does not apply to orders issued pursuant to section 
602 or section 609 of the Federal Aviation Act of 1958, as amended.
    (b) Unless the Administrator determines that an emergency exists and 
safety in air commerce requires the immediate issuance of an order under 
this section, the person subject to the order shall be provided with 
notice prior to issuance.
    (c) Within 30 days after service of the notice, the person subject 
to the order may reply in writing or request a hearing in accordance 
with Subpart D of this part.
    (d) If a reply is filed, as to any charges not dismissed or not 
subject to a consent order, the person subject to the order may, within 
10 days after receipt of notice that the remaining charges are not 
dismissed, request a hearing in accordance with Subpart D of this part.
    (e) Failure to request a hearing within the period provided in 
paragraphs (c) or (d) of this section--
    (1) Constitutes a waiver of the right to appeal and the right to a 
hearing, and
    (2) Authorizes the official who issued the notice to find the facts 
to be as alleged in the notice, or as modified as the official may 
determine necessary based on any written response, and to issue an 
appropriate order, without further notice or proceedings.
    (f) If a hearing is requested in accordance with paragraph (c) or 
(d) of this section, the procedure of Subpart D of this part applies. At 
the close of the hearing, the Hearing Officer, on the record or 
subsequently in writing, shall set forth findings and conclusions and 
the reasons therefor, and either--
    (1) Dismiss the notice; or
    (2) Issue an order.
    (g) Any party to the hearing may appeal from the order of the 
Hearing Officer by filing a notice of appeal with the Administrator 
within 20 days after the date of issuance of the order.
    (h) If a notice of appeal is not filed from the order issued by a 
Hearing Officer, such order is the final agency order.
    (i) Any person filing an appeal authorized by paragraph (g) of this 
section shall file an appeal brief with the Administrator within 40 days 
after the date of issuance of the order, and serve a copy on the other 
party. A reply brief must be filed within 20 days after service of the 
appeal brief and a copy served on the appellant.
    (j) On appeal the Administrator reviews the available record of the 
proceeding, and issues an order dismissing, reversing, modifying or 
affirming the order. The Administrator's order includes the reasons for 
the Administrator's action.
    (k) For good cause shown, requests for extensions of time to file 
any document under this section may be granted by--
    (1) The official who issued the order, if the request is filed prior 
to the designation of a Hearing Officer; or
    (2) The Hearing Officer, if the request is filed prior to the filing 
of a notice of appeal; or

[[Page 40]]

    (3) The Administrator, if the request is filed after the filing of a 
notice of appeal.
    (l) Except in the case of an appeal from the decision of a Hearing 
Officer, the authority of the Administrator under this section is also 
exercised by the Chief Counsel, Deputy Chief Counsel, each Assistant 
Chief Counsel, each Regional Counsel, and the Aeronautical Center 
Counsel (as to matters under Title V of the Federal Aviation Act of 
1958).
    (m) Filing and service of documents under this section shall be 
accomplished in accordance with Sec. 13.43; and the periods of time 
specified in this section shall be computed in accordance with 
Sec. 13.44.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-17, 
53 FR 33783, Aug. 31, 1988; Amdt. 13-19, 54 FR 39290, Sept. 25, 1989; 
Amdt. 13-29, 62 FR 46865, Sept. 4, 1997]



Sec. 13.21  Military personnel.

    If a report made under this part indicates that, while performing 
official duties, a member of the Armed Forces, or a civilian employee of 
the Department of Defense who is subject to the Uniform Code of Military 
Justice (10 U.S.C. Ch. 47), has violated the Federal Aviation Act of 
1958, or a regulation or order issued under it, the Chief Counsel, the 
Assistant Chief Counsel, Enforcement, the Assistant Chief Counsel, 
Regulations, the Assistant Chief Counsel, Europe, Africa, and Middle 
East Area Office, each Regional Counsel, and the Aeronautical Center 
Counsel send a copy of the report to the appropriate military authority 
for such disciplinary action as that authority considers appropriate and 
a report to the Administrator thereon.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-19, 
54 FR 39290, Sept. 25, 1989; Amdt. 13-29, 62 FR 46866, Sept. 4, 1997]



Sec. 13.23  Criminal penalties.

    (a) Sections 902 and 1203 of the Federal Aviation Act of 1958 (49 
U.S.C. 1472 and 1523), provide criminal penalties for any person who 
knowingly and willfully violates specified provisions of that Act, or 
any regulation or order issued under those provisions. Section 110(b) of 
the Hazardous Materials Transportation Act (49 U.S.C. 1809(b)) provides 
for a criminal penalty of a fine of not more than $25,000, imprisonment 
for not more than five years, or both, for any person who willfully 
violates a provision of that Act or a regulation or order issued under 
it.
    (b) If an inspector or other employee of the FAA becomes aware of a 
possible violation of any criminal provision of the Federal Aviation Act 
of 1958 (except a violation of section 902 (i) through (m) which is 
reported directly to the Federal Bureau of Investigation), or of the 
Hazardous Materials Transportation Act, relating to the transportation 
or shipment by air of hazardous materials, he or she shall report it to 
the Office of the Chief Counsel or the Regional Counsel or Assistant 
Chief Counsel for the region or area concerned. If appropriate, that 
office refers the report to the Department of Justice for criminal 
prosecution of the offender. If such an inspector or other employee 
becomes aware of a possible violation of a Federal statute that is 
within the investigatory jurisdiction of another Federal agency, he or 
she shall immediately report it to that agency according to standard FAA 
practices.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-19, 
54 FR 39290, Sept. 25, 1989; Amdt. 13-29, 62 FR 46866, Sept. 4, 1997]



Sec. 13.25  Injunctions.

    (a) Whenever it is determined that a person has engaged, or is about 
to engage, in any act or practice constituting a violation of the 
Federal Aviation Act of 1958, or any regulation or order issued under it 
for which the FAA exercises enforcement responsibility, or, with respect 
to the transportation or shipment by air of any hazardous materials, in 
any act or practice constituting a violation of the Hazardous Materials 
Transportation Act, or any regulation or order issued under it for which 
the FAA exercises enforcement responsibility, the Chief Counsel, the 
Assistant Chief Counsel, Enforcement, the Assistant Chief Counsel, 
Regulations, the Assistant Chief Counsel, Europe, Africa, and Middle 
East Area Office, each Regional Counsel, and the Aeronautical Center 
Counsel may request the United States

[[Page 41]]

Attorney General, or the delegate of the Attorney General, to bring an 
action in the appropriate United States District Court for such relief 
as is necessary or appropriate, including mandatory or prohibitive 
injunctive relief, interim equitable relief, and punitive damages, as 
provided by section 1007 of the Federal Aviation Act of 1958 (49 U.S.C. 
1487) and section 111(a) of the Hazardous Materials Transportation Act 
(49 U.S.C. 1810).
    (b) Whenever it is determined that there is substantial likelihood 
that death, serious illness, or severe personal injury, will result from 
the transportation by air of a particular hazardous material before an 
order of compliance proceeding, or other administrative hearing or 
formal proceeding to abate the risk of the harm can be completed, the 
Chief Counsel, the Assistant Chief Counsel, Enforcement, the Assistant 
Chief Counsel, Regulations, the Assistant Chief Counsel, Europe, Africa, 
and Middle East Area Office, each Regional Counsel, and the Aeronautical 
Center Counsel may bring, or request the United States Attorney General 
to bring, an action in the appropriate United States District Court for 
an order suspending or restricting the transportation by air of the 
hazardous material or for such other order as is necessary to eliminate 
or ameliorate the imminent hazard, as provided by section 111(b) of the 
Hazardous Materials Transportation Act (49 U.S.C. 1810).

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-19, 
54 FR 39290, Sept. 25, 1989; Amdt. 13-29, 62 FR 46866, Sept. 4, 1997]



Sec. 13.27  Final order of Hearing Officer in certificate of aircraft registration proceedings.

    (a) If, in proceedings under section 501(b) of the Federal Aviation 
Act of 1958 (49 USC 1401), the Hearing Officer determines that the 
holder of the Certificate of Aircraft Registration has refused or failed 
to submit AC Form 8050-73, as required by Sec. 47.51 of this chapter, or 
that the aircraft is ineligible for a Certificate of Aircraft 
Registration, the Hearing Officer shall suspend or revoke the 
respondent's certificate, as proposed in the notice of proposed 
certificate action.
    (b) If the final order of the Hearing Officer makes a decision on 
the merits, it shall contain a statement of the findings and conclusions 
of law on all material issues of fact and law. If the Hearing Officer 
finds that the allegations of the notice have been proven, but that no 
sanction is required, the Hearing Officer shall make appropriate 
findings and issue an order terminating the notice. If the Hearing 
Officer finds that the allegations of the notice have not been proven, 
the Hearing Officer shall issue an order dismissing the notice. If the 
Hearing Officer finds it to be equitable and in the public interest, the 
Hearing Officer shall issue an order terminating the proceeding upon 
payment by the respondent of a civil penalty in an amount agreed upon by 
the parties.
    (c) If the order is issued in writing, it shall be served upon the 
parties.

[Doc. No. 13-14, 44 FR 63723, Nov. 5, 1979; as amended by Amdt. 13-15, 
45 FR 20773, Mar. 31, 1980]



Sec. 13.29  Civil penalties: Streamlined enforcement procedures for certain security violations.

    This section may be used, at the agency's discretion, in enforcement 
actions involving individuals presenting dangerous or deadly weapons for 
screening at airports or in checked baggage where the amount of the 
proposed civil penalty is less than $5,000. In these cases, sections 
13.16(a), 13.16(c), and 13.16 (f) through (l) of this chapter are used, 
as well as paragraphs (a) through (d) of this section:
    (a) Delegation of authority. The authority of the Administrator, 
under 49 U.S.C. 46301, to initiate the assessment of civil penalties for 
a violation of 49 U.S.C. Subtitle VII, or a rule, regulation, or order 
issued thereunder, is delegated to the regional Civil Aviation Security 
Division Manager and the regional Civil Aviation Security Deputy 
Division Manager for the purpose of issuing notices of violation in 
cases involving violations of 49 U.S.C. Subtitle VII and the FAA's 
regulations by individuals presenting dangerous or deadly

[[Page 42]]

weapons for screening at airport checkpoints or in checked baggage. This 
authority may not be delegated below the level of the regional Civil 
Aviation Security Deputy Division Manager.
    (b) Notice of violation. A civil penalty action is initiated by 
sending a notice of violation to the person charged with the violation. 
The notice of violation contains a statement of the charges and the 
amount of the proposed civil penalty. Not later than 30 days after 
receipt of the notice of violation, the person charged with a violation 
shall:
    (1) Submit the amount of the proposed civil penalty or an agreed-
upon amount, in which case either an order assessing a civil penalty or 
a compromise order shall be issued in that amount; or
    (2) Submit to the agency attorney identified in the material 
accompanying the notice any of the following:
    (i) Written information, including documents and witness statements, 
demonstrating that a violation of the regulations did not occur or that 
a penalty or the penalty amount is not warranted by the circumstances; 
or
    (ii) A written request to reduce the proposed civil penalty, the 
amount of reduction, and the reasons and any documents supporting a 
reduction of the proposed civil penalty, including records indicating a 
financial inability to pay or records showing that payment of the 
proposed civil penalty would prevent the person from continuing in 
business; or
    (iii) A written request for an informal conference to discuss the 
matter with an agency attorney and submit relevant information or 
documents; or
    (3) Request a hearing in which case a complaint shall be filed with 
the hearing docket clerk.
    (c) Final notice of violation and civil penalty assessment order. A 
final notice of violation and civil penalty assessment order (``final 
notice and order'') may be issued after participation in any informal 
proceedings as provided in paragraph (b)(2) of this section, or after 
failure of the respondent to respond in a timely manner to a notice of 
violation. A final notice and order will be sent to the individual 
charged with a violation. The final notice and order will contain a 
statement of the charges and the amount of the proposed civil penalty 
and, as a result of information submitted to the agency attorney during 
any informal procedures, may reflect a modified allegation or proposed 
civil penalty.
    A final notice and order may be issued--
    (1) If the person charged with a violation fails to respond to the 
notice of violation within 30 days after receipt of that notice; or
    (2) If the parties participated in any informal procedures under 
paragraph (b)(2) of this section and the parties have not agreed to 
compromise the action or the agency attorney has not agreed to withdraw 
the notice of violation.
    (d) Order assessing civil penalty. An order assessing civil penalty 
may be issued after notice and opportunity for a hearing. A person 
charged with a violation may be subject to an order assessing civil 
penalty in the following circumstances:
    (1) An order assessing civil penalty may be issued if a person 
charged with a violation submits, or agrees to submit, the amount of 
civil penalty proposed in the notice of violation.
    (2) An order assessing civil penalty may be issued if a person 
charged with a violation submits, or agrees to submit, an agreed-upon 
amount of civil penalty that is not reflected in either the notice of 
violation or the final notice and order.
    (3) The final notice and order becomes (and contains a statement so 
indicating) an order assessing a civil penalty when the person charged 
with a violation submits the amount of the proposed civil penalty that 
is reflected in the final notice and order.
    (4) The final notice and order becomes (and contains a statement so 
indicating) an order assessing a civil penalty 16 days after receipt of 
the final notice and order, unless not later than 15 days after receipt 
of the final notice and order, the person charged with a violation does 
one of the following--
    (i) Submits an agreed-upon amount of civil penalty that is not 
reflected in the final notice and order, in which case an order 
assessing civil penalty or

[[Page 43]]

a compromise order shall be issued in that amount; or
    (ii) Requests a hearing in which case a complaint shall be filed 
with the hearing docket clerk.
    (5) Unless an appeal is filed with the FAA decisionmaker in a timely 
manner, an initial decision or order of an administrative law judge 
shall be considered an order assessing civil penalty if an 
administrative law judge finds that an alleged violation occurred and 
determines that a civil penalty, in an amount found to be appropriate by 
the administrative law judge, is warranted.
    (6) Unless a petition for review is filed with a U.S. Court of 
Appeals in a timely manner, a final decision and order of the 
Administrator shall be considered an order assessing civil penalty if 
the FAA decisionmaker finds that an alleged violation occurred and a 
civil penalty is warranted.

[Doc. No. 27873, 61 FR 44155, Aug. 28, 1996]



              Subpart D--Rules of Practice for FAA Hearings



Sec. 13.31  Applicability.

    This subpart applies to proceedings in which a hearing has been 
requested in accordance with Secs. 13.19(c)(5), 13.20(c), 13.20(d), 
13.75(a)(2), 13.75(b), or 13.81(e).

[Amdt. 13-18, 53 FR 34655, Sept. 7, 1988]



Sec. 13.33  Appearances.

    Any party to a proceeding under this subpart may appear and be heard 
in person or by attorney.



Sec. 13.35  Request for hearing.

    (a) A request for hearing must be made in writing to the Hearing 
Docket, Room 924A, Federal Aviation Administration, 800 Independence 
Avenue, S.W., Washington, D.C. 20591. It must describe briefly the 
action proposed by the FAA, and must contain a statement that a hearing 
is requested. A copy of the request for hearing and a copy of the answer 
required by paragraph (b) of this section must be served on the official 
who issued the notice of proposed action.
    (b) An answer to the notice of proposed action must be filed with 
the request for hearing. All allegations in the notice not specifically 
denied in the answer are deemed admitted.
    (c) Within 15 days after service of the copy of the request for 
hearing, the official who issued the notice of proposed action forwards 
a copy of that notice, which serves as the complaint, to the Hearing 
Docket.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-19, 
54 FR 39290, Sept. 25, 1989]



Sec. 13.37  Hearing Officer's powers.

    Any Hearing Officer may--
    (a) Give notice concerning, and hold, prehearing conferences and 
hearings;
    (b) Administrator oaths and affirmations;
    (c) Examine witnesses;
    (d) Adopt procedures for the submission of evidence in written form;
    (e) Issue subpoenas and take depositions or cause them to be taken;
    (f) Rule on offers of proof;
    (g) Receive evidence;
    (h) Regulate the course of the hearing;
    (i) Hold conferences, before and during the hearing, to settle and 
simplify issues by consent of the parties;
    (j) Dispose of procedural requests and similar matters; and
    (k) Issue decisions, make findings of fact, make assessments, and 
issue orders, as appropriate.



Sec. 13.39  Disqualification of Hearing Officer.

    If disqualified for any reason, the Hearing Officer shall withdraw 
from the case.



Sec. 13.41  [Reserved]



Sec. 13.43  Service and filing of pleadings, motions, and documents.

    (a) Copies of all pleadings, motions, and documents filed with the 
Hearing Docket must be served upon all parties to the proceedings by the 
person filing them.
    (b) Service may be made by personal delivery or by mail.
    (c) A certificate of service shall accompany all documents when they 
are tendered for filing and shall consist of a certificate of personal 
delivery or a certificate of mailing, executed by the

[[Page 44]]

person making the personal delivery or mailing the document.
    (d) Whenever proof of service by mail is made, the date of mailing 
or the date as shown on the postmark shall be the date of service, and 
where personal service is made, the date of personal delivery shall be 
the date of service.
    (e) The date of filing is the date the document is actually 
received.



Sec. 13.44  Computation of time and extension of time.

    (a) In computing any period of time prescribed or allowed by this 
subpart, the date of the act, event, default, notice or order after 
which the designated period of time begins to run is not to be included 
in the computation. The last day of the period so computed is to be 
included unless it is a Saturday, Sunday, or legal holiday for the FAA, 
in which event the period runs until the end of the next day which is 
neither a Saturday, Sunday nor a legal holiday.
    (b) Upon written request filed with the Hearing Docket and served 
upon all parties, and for good cause shown, a Hearing Officer may grant 
an extension of time to file any documents specified in this subpart.



Sec. 13.45  Amendment of notice and answer.

    At any time more than 10 days before the date of hearing, any party 
may amend his or her notice, answer, or other pleading, by filing the 
amendment with the Hearing Officer and serving a copy of it on each 
other party. After that time, amendments may be allowed only in the 
discretion of the Hearing Officer. If an amendment to an initial 
pleading has been allowed, the Hearing Officer shall allow the other 
parties a reasonable opportunity to answer.



Sec. 13.47  Withdrawal of notice or request for hearing.

    At any time before the hearing, the FAA counsel may withdraw the 
notice of proposed action, and the party requesting the hearing may 
withdraw the request for hearing.



Sec. 13.49  Motions.

    (a) Motion to dismiss for insufficiency. A respondent who requests a 
formal hearing may, in place of an answer, file a motion to dismiss for 
failure of the allegations in the notice of proposed action to state a 
violation of the FA Act or of this chapter or to show lack of 
qualification of the respondent. If the Hearing Officer denies the 
motion, the respondent shall file an answer within 10 days.
    (b) [Reserved]
    (c) Motion for more definite statement. The certificate holder may, 
in place of an answer, file a motion that the allegations in the notice 
be made more definite and certain. If the Hearing Officer grants the 
motion, the FAA counsel shall comply within 10 days after the date it is 
granted. If the Hearing Officer denies the motion the certificate holder 
shall file an answer within 10 days after the date it is denied.
    (d) Motion for judgment on the pleadings. After the pleadings are 
closed, either party may move for a judgment on the pleadings.
    (e) Motion to strike. Upon motion of either party, the Hearing 
Officer may order stricken, from any pleadings, any insufficient 
allegation or defense, or any immaterial, impertinent, or scandalous 
matter.
    (f) Motion for production of documents. Upon motion of any party 
showing good cause, the Hearing Officer may, in the manner provided by 
Rule 34, Federal Rules of Civil Procedure, order any party to produce 
any designated document, paper, book, account, letter, photograph, 
object, or other tangible thing, that is not privileged, that 
constitutes or contains evidence relevant to the subject matter of the 
hearings, and that is in the party's possession, custody, or control.
    (g) Consolidation of motions. A party who makes a motion under this 
section shall join with it all other motions that are then available to 
the party. Any objection that is not so raised is considered to be 
waived.
    (h) Answers to motions. Any party may file an answer to any motion 
under this section within 5 days after service of the motion.

[[Page 45]]



Sec. 13.51  Intervention.

    Any person may move for leave to intervene in a proceeding and may 
become a party thereto, if the Hearing Officer, after the case is sent 
to the Hearing Officer for hearing, finds that the person may be bound 
by the order to be issued in the proceedings or has a property or 
financial interest that may not be adequately represented by existing 
parties, and that the intervention will not unduly broaden the issues or 
delay the proceedings. Except for good cause shown, a motion for leave 
to intervene may not be considered if it is filed less than 10 days 
before the hearing.



Sec. 13.53  Depositions.

    After the respondent has filed a request for hearing and an answer, 
either party may take testimony by deposition in accordance with section 
1004 of the Federal Aviation Act of 1958 (49 U.S.C. 1484) or Rule 26, 
Federal Rules of Civil Procedure.



Sec. 13.55  Notice of hearing.

    The Hearing Officer shall set a reasonable date, time, and place for 
the hearing, and shall give the parties adequate notice thereof and of 
the nature of the hearing. Due regard shall be given to the convenience 
of the parties with respect to the place of the hearing.



Sec. 13.57  Subpoenas and witness fees.

    (a) The Hearing Officer to whom a case is assigned may, upon 
application by any party to the proceeding, issue subpoenas requiring 
the attendance of witnesses or the production of documentary or tangible 
evidence at a hearing or for the purpose of taking depositions. However, 
the application for producing evidence must show its general relevance 
and reasonable scope. This paragraph does not apply to the attendance of 
FAA employees or to the production of documentary evidence in the 
custody of such an employee at a hearing.
    (b) A person who applies for the production of a document in the 
custody of an FAA employee must follow the procedure in Sec. 13.49(f). A 
person who applies for the attendance of an FAA employee must send the 
application, in writing, to the Hearing Officer setting forth the need 
for that employee's attendance.
    (c) A witness in a proceeding under this subpart is entitled to the 
same fees and mileage as is paid to a witness in a court of the United 
States under comparable circumstances. The party at whose instance the 
witness is subpoenaed or appears shall pay the witness fees.
    (d) Notwithstanding the provisions of paragraph (c) of this section, 
the FAA pays the witness fees and mileage if the Hearing Officer who 
issued the subpoena determines, on the basis of a written request and 
good cause shown, that--
    (1) The presence of the witness will materially advance the 
proceeding; and
    (2) The party at whose instance the witness is subpoenaed would 
suffer a serious hardship if required to pay the witness fees and 
mileage.



Sec. 13.59  Evidence.

    (a) Each party to a hearing may present the party's case or defense 
by oral or documentary evidence, submit evidence in rebuttal, and 
conduct such cross-examination as may be needed for a full disclosure of 
the facts.
    (b) Except with respect to affirmative defenses and orders of 
denial, the burden of proof is upon the FAA counsel.
    (c) The Hearing Officer may order information contained in any 
report or document filed or in any testimony given pursuant to this 
subpart withheld from public disclosure when, in the judgment of the 
Hearing Officer, disclosure would adversely affect the interests of any 
person and is not required in the public interest or is not otherwise 
required by statute to be made available to the public. Any person may 
make written objection to the public disclosure of such information, 
stating the ground for such objection.



Sec. 13.61  Argument and submittals.

    The Hearing Officer shall give the parties adequate opportunity to 
present arguments in support of motions, objections, and the final 
order. The Hearing Officer may determine whether arguments are to be 
oral or

[[Page 46]]

written. At the end of the hearing the Hearing Officer may, in the 
discretion of the Hearing Officer, allow each party to submit written 
proposed findings and conclusions and supporting reasons for them.



Sec. 13.63  Record.

    The testimony and exhibits presented at a hearing, together with all 
papers, requests, and rulings filed in the proceedings are the exclusive 
basis for the issuance of an order. Either party may obtain a transcript 
from the official reporter upon payment of the fees fixed therefor.



     Subpart E--Orders of Compliance Under the Hazardous Materials 
                           Transportation Act



Sec. 13.71  Applicability.

    Whenever the Chief Counsel, the Assistant Chief Counsel, 
Enforcement, the Assistant Chief Counsel, Europe, Africa, and Middle 
East Area Office, or a Regional Counsel has reason to believe that a 
person is engaging in the transportation or shipment by air of hazardous 
materials in violation of the Hazardous Materials Transportation Act, or 
any regulation or order issued under it for which the FAA exercises 
enforcement responsibility, and the circumstances do not require the 
issuance of an order of immediate compliance, he may conduct proceedings 
pursuant to section 109 of that Act (49 U.S.C. 1808) to determine the 
nature and extent of the violation, and may thereafter issue an order 
directing compliance.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-19, 
54 FR 39290, Sept. 25, 1989; Amdt. 13-29, 62 FR 46866, Sept. 4, 1997]



Sec. 13.73  Notice of proposed order of compliance.

    A compliance order proceeding commences when the Chief Counsel, the 
Assistant Chief Counsel, Enforcement, the Assistant Chief Counsel, 
Europe, Africa, and Middle East Area Office, or a Regional Counsel sends 
the alleged violator a notice of proposed order of compliance advising 
the alleged violator of the charges and setting forth the remedial 
action sought in the form of a proposed order of compliance.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-19, 
54 FR 39290, Sept. 25, 1989; Amdt. 13-29, 62 FR 46866, Sept. 4, 1997]



Sec. 13.75  Reply or request for hearing.

    (a) Within 30 days after service upon the alleged violator of a 
notice of proposed order of compliance, the alleged violator may--
    (1) File a reply in writing with the official who issued the notice; 
or
    (2) Request a hearing in accordance with Subpart D of this part.
    (b) If a reply is filed, as to any charges not dismissed or not 
subject to a consent order of compliance, the alleged violator may, 
within 10 days after receipt of notice that the remaining charges are 
not dismissed, request a hearing in accordance with Subpart D of this 
part.
    (c) Failure of the alleged violator to file a reply or request a 
hearing within the period provided in paragraph (a) or (b) of this 
section--
    (1) Constitutes a waiver of the right to a hearing and the right to 
an appeal, and
    (2) Authorizes the official who issued the notice to find the facts 
to be as alleged in the notice and to issue an appropriate order 
directing compliance, without further notice or proceedings.



Sec. 13.77  Consent order of compliance.

    (a) At any time before the issuance of an order of compliance, the 
official who issued the notice and the alleged violator may agree to 
dispose of the case by the issuance of a consent order of compliance by 
the official.
    (b) A proposal for a consent order submitted to the official who 
issued the notice under this section must include--
    (1) A proposed order of compliance;
    (2) An admission of all jurisdictional facts;
    (3) An express waiver of right to further procedural steps and of 
all rights to judicial review;
    (4) An incorporation by reference of the notice and an 
acknowledgement that the notice may be used to construe the terms of the 
order of compliance; and

[[Page 47]]

    (5) If the issuance of a consent order has been agreed upon after 
the filing of a request for hearing in accordance with Subpart D of this 
part, the proposal for a consent order shall include a request to be 
filed with the Hearing Officer withdrawing the request for a hearing and 
requesting that the case be dismissed.



Sec. 13.79  Hearing.

    If an alleged violator requests a hearing in accordance with 
Sec. 13.75, the procedure of Subpart D of this part applies. At the 
close of the hearing, the Hearing Officer, on the record or subsequently 
in writing, sets forth the Hearing Officer's findings and conclusion and 
the reasons therefor, and either--
    (a) Dismisses the notice of proposed order of compliance; or
    (b) Issues an order of compliance.



Sec. 13.81  Order of immediate compliance.

    (a) Notwithstanding Secs. 13.73 through 13.79, the Chief Counsel, 
the Assistant Chief Counsel, Enforcement, the Assistant Chief Counsel, 
Europe, Africa, and Middle East Area Office, or a Regional Counsel may 
issue an order of immediate compliance, which is effective upon 
issuance, if the person who issues the order finds that--
    (1) There is strong probability that a violation is occurring or is 
about to occur;
    (2) The violation poses a substantial risk to health or to safety of 
life or property; and
    (3) The public interest requires the avoidance or amelioration of 
that risk through immediate compliance and waiver of the procedures 
afforded under Secs. 13.73 through 13.79.
    (b) An order of immediate compliance is served promptly upon the 
person against whom the order is issued by telephone or telegram, and a 
written statement of the relevant facts and the legal basis for the 
order, including the findings required by paragraph (a) of this section, 
is served promptly by personal service or by mail.
    (c) The official who issued the order of immediate compliance may 
rescind or suspend the order if it appears that the criteria set forth 
in paragraph (a) of this section are no longer satisfied, and, when 
appropriate, may issue a notice of proposed order of compliance under 
Sec. 13.73 in lieu thereof.
    (d) If at any time in the course of a proceeding commenced in 
accordance with Sec. 13.73 the criteria set forth in paragraph (a) of 
this section are satisfied, the official who issued the notice may issue 
an order of immediate compliance, even if the period for filing a reply 
or requesting a hearing specified in Sec. 13.75 has not expired.
    (e) Within three days after receipt of service of an order of 
immediate compliance, the alleged violator may request a hearing in 
accordance with Subpart D of this part and the procedure in that subpart 
will apply except that--
    (1) The case will be heard within fifteen days after the date of the 
order of immediate compliance unless the alleged violator requests a 
later date;
    (2) The order will serve as the complaint; and
    (3) The Hearing Officer shall issue his decision and order 
dismissing, reversing, modifying, or affirming the order of immediate 
compliance on the record at the close of the hearing.
    (f) The filing of a request for hearing in accordance with paragraph 
(e) of this section does not stay the effectiveness of an order of 
immediate compliance.
    (g) At any time after an order of immediate compliance has become 
effective, the official who issued the order may request the United 
States Attorney General, or the delegate of the Attorney General, to 
bring an action for appropriate relief in accordance with Sec. 13.25.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 13-19, 
54 FR 39290, Sept. 25, 1989; Amdt. 13-29, 62 FR 46866, Sept. 4, 1997]



Sec. 13.83  Appeal.

    (a) Any party to the hearing may appeal from the order of the 
Hearing Officer by filing a notice of appeal with the Administrator 
within 20 days after the date of issuance of the order.
    (b) Any person against whom an order of immediate compliance has 
been issued in accordance with Sec. 13.81 or the official who issued the 
order of immediate compliance may appeal

[[Page 48]]

from the order of the Hearing Officer by filing a notice of appeal with 
the Administrator within three days after the date of issuance of the 
order by the Hearing Officer.
    (c) Unless the Administrator expressly so provides, the filing of a 
notice of appeal does not stay the effectiveness of an order of 
immediate compliance.
    (d) If a notice of appeal is not filed from the order of compliance 
issued by a Hearing Officer, such order is the final agency order of 
compliance.
    (e) Any person filing an appeal authorized by paragraph (a) of this 
section shall file an appeal brief with the Administrator within 40 days 
after the date of the issuance of the order, and serve a copy on the 
other party. Any reply brief must be filed within 20 days after service 
of the appeal brief. A copy of the reply brief must be served on the 
appellant.
    (f) Any person filing an appeal authorized by paragraph (b) of this 
section shall file an appeal brief with the Administrator with the 
notice of appeal and serve a copy on the other party. Any reply brief 
must be filed within 3 days after receipt of the appeal brief. A copy of 
the reply brief must be served on the appellant.
    (g) On appeal the Administrator reviews the available record of the 
proceeding, and issues an order dismissing, reversing, modifying or 
affirming the order of compliance or the order of immediate compliance. 
The Administrator's order includes the reasons for the action.
    (h) In cases involving an order of immediate compliance, the 
Administrator's order on appeal is issued within ten days after the 
filing of the notice of appeal.



Sec. 13.85  Filing, service and computation of time.

    Filing and service of documents under this subpart shall be 
accomplished in accordance with Sec. 13.43 except service of orders of 
immediate compliance under Sec. 13.81(b); and the periods of time 
specified in this subpart shall be computed in accordance with 
Sec. 13.44.



Sec. 13.87  Extension of time.

    (a) The official who issued the notice of proposed order of 
compliance, for good cause shown, may grant an extension of time to file 
any document specified in this subpart, except documents to be filed 
with the Administrator.
    (b) Extensions of time to file documents with the Administrator may 
be granted by the Administrator upon written request, served upon all 
parties, and for good cause shown.



     Subpart F--Formal Fact-Finding Investigation Under an Order of 
                              Investigation



Sec. 13.101  Applicability.

    (a) This subpart applies to fact-finding investigations in which an 
order of investigation has been issued under Sec. 13.3(c) or 
Sec. 13.5(i) of this part.
    (b) This subpart does not limit the authority of duly designated 
persons to issue subpoenas, administer oaths, examine witnesses and 
receive evidence in any informal investigation as provided for in 
sections 313 and 1004(a) of the Federal Aviation Act (49 U.S.C. 1354 and 
1484(a)) and section 109(a) of the Hazardous Materials Transportation 
Act (49 U.S.C. 1808(a)).



Sec. 13.103  Order of investigation.

    The order of investigation--
    (a) Defines the scope of the investigation by describing the 
information sought in terms of its subject matter or its relevancy to 
specified FAA functions;
    (b) Sets forth the form of the investigation which may be either by 
individual deposition or investigative proceeding or both; and
    (c) Names the official who is authorized to conduct the 
investigation and serve as the Presiding Officer.



Sec. 13.105  Notification.

    Any person under investigation and any person required to testify 
and produce documentary or physical evidence during the investigation 
will be advised of the purpose of the investigation, and of the place 
where the investigative proceeding or deposition will be convened. This 
may be accomplished by a notice of investigation or by a

[[Page 49]]

subpoena. A copy of the order of investigation may be sent to such 
persons, when appropriate.



Sec. 13.107  Designation of additional parties.

    (a) The Presiding Officer may designate additional persons as 
parties to the investigation, if in the discretion of the Presiding 
Officer, it will aid in the conduct of the investigation.
    (b) The Presiding Officer may designate any person as a party to the 
investigation if that person--
    (1) Petitions the Presiding Officer to participate as a party; and
    (2) Is so situated that the disposition of the investigation may as 
a practical matter impair the ability to protect that person's interest 
unless allowed to participate as a party, and
    (3) Is not adequately represented by existing parties.



Sec. 13.109  Convening the investigation.

    The investigation shall be conducted at such place or places 
designated by the Presiding Officer, and as convenient to the parties 
involved as expeditious and efficient handling of the investigation 
permits.



Sec. 13.111  Subpoenas.

    (a) Upon motion of the Presiding Officer, or upon the request of a 
party to the investigation, the Presiding Officer may issue a subpoena 
directing any person to appear at a designated time and place to testify 
or to produce documentary or physical evidence relating to any matter 
under investigation.
    (b) Subpoenas shall be served by personal service, or upon an agent 
designated in writing for the purpose, or by registered or certified 
mail addressed to such person or agent. Whenever service is made by 
registered or certified mail, the date of mailing shall be considered as 
the time when service is made.
    (c) Subpoenas shall extend in jurisdiction throughout the United 
States or any territory or possession thereof.



Sec. 13.113  Noncompliance with the investigative process.

    If any person fails to comply with the provisions of this subpart or 
with any subpoena or order issued by the Presiding Officer or the 
designee of the Presiding Officer, judicial enforcement may be initiated 
against that person under applicable statutes.



Sec. 13.115  Public proceedings.

    (a) All investigative proceedings and depositions shall be public 
unless the Presiding Officer determines that the public interest 
requires otherwise.
    (b) The Presiding Officer may order information contained in any 
report or document filed or in any testimony given pursuant to this 
subpart withheld from public disclosure when, in the judgment of the 
Presiding Officer, disclosure would adversely affect the interests of 
any person and is not required in the public interest or is not 
otherwise required by statute to be made available to the public. Any 
person may make written objection to the public disclosure of such 
information, stating the grounds for such objection.



Sec. 13.117  Conduct of investigative proceeding or deposition.

    (a) The Presiding Officer or the designee of the Presiding Officer 
may question witnesses.
    (b) Any witness may be accompanied by counsel.
    (c) Any party may be accompanied by counsel and either the party or 
counsel may--
    (1) Question witnesses, provided the questions are relevant and 
material to the matters under investigation and would not unduly impede 
the progress of the investigation; and
    (2) Make objections on the record and argue the basis for such 
objections.
    (d) Copies of all notices or written communications sent to a party 
or witness shall upon request be sent to that person's attorney of 
record.



Sec. 13.119  Rights of persons against self-incrimination.

    (a) Whenever a person refuses, on the basis of a privilege against 
self-incrimination, to testify or provide other information during the 
course of any investigation conducted under this subpart, the Presiding 
Officer may, with the approval of the Attorney General of the United 
States, issue an order requiring the person to give testimony or provide 
other information. However, no

[[Page 50]]

testimony or other information so compelled (or any information directly 
or indirectly derived from such testimony or other information) may be 
used against the person in any criminal case, except in a prosecution 
for perjury, giving a false statement, or otherwise failing to comply 
with the order.
    (b) The Presiding Officer may issue an order under this section if--
    (1) The testimony or other information from the witness may be 
necessary to the public interest; and
    (2) The witness has refused or is likely to refuse to testify or 
provide other information on the basis of a privilege against self-
incrimination.
    (c) Immunity provided by this section will not become effective 
until the person has refused to testify or provide other information on 
the basis of a privilege against self-incrimination, and an order under 
this section has been issued. An order, however, may be issued 
prospectively to become effective in the event of a claim of the 
privilege.



Sec. 13.121  Witness fees.

    All witnesses appearing shall be compensated at the same rate as a 
witness appearing before a United States District Court.



Sec. 13.123  Submission by party to the investigation.

    (a) During an investigation conducted under this subpart, a party 
may submit to the Presiding Officer--
    (1) A list of witnesses to be called, specifying the subject matter 
of the expected testimony of each witness, and
    (2) A list of exhibits to be considered for inclusion in the record.
    (b) If the Presiding Officer determines that the testimony of a 
witness or the receipt of an exhibit in accordance with paragraph (a) of 
this section will be relevant, competent and material to the 
investigation, the Presiding Officer may subpoena the witness or use the 
exhibit during the investigation.



Sec. 13.125  Depositions.

    Depositions for investigative purposes may be taken at the 
discretion of the Presiding Officer with reasonable notice to the party 
under investigation. Such depositions shall be taken before the 
Presiding Officer or other person authorized to administer oaths and 
designated by the Presiding Officer. The testimony shall be reduced to 
writing by the person taking the deposition, or under the direction of 
that person, and where possible shall then be subscribed by the 
deponent. Any person may be compelled to appear and testify and to 
produce physical and documentary evidence.



Sec. 13.127  Reports, decisions and orders.

    The Presiding Officer shall issue a written report based on the 
record developed during the formal investigation, including a summary of 
principal conclusions. A summary of principal conclusions shall be 
prepared by the official who issued the order of investigation in every 
case which results in no action, or no action as to a particular party 
to the investigation. All such reports shall be furnished to the parties 
to the investigation and filed in the public docket. Insertion of the 
report in the Public Docket shall constitute ``entering of record'' and 
publication as prescribed by section 313(b) of the Federal Aviation Act.



Sec. 13.129  Post-investigation action.

    A decision on whether to initiate subsequent action shall be made on 
the basis of the record developed during the formal investigation and 
any other information in the possession of the Administrator.



Sec. 13.131  Other procedures.

    Any question concerning the scope or conduct of a formal 
investigation not covered in this subpart may be ruled on by the 
Presiding Officer on motion of the Presiding Officer, or on the motion 
of a party or a person testifying or producing evidence.



        Subpart G--Rules of Practice in FAA Civil Penalty Actions

    Source: Amdt. 13-21, 55 FR 27575, July 3, 1990, unless otherwise 
noted.

[[Page 51]]



Sec. 13.201  Applicability.

    (a) This subpart applies to the following actions:
    (1) A civil penalty action in which a complaint has been issued for 
an amount not exceeding $50,000 for a violation arising under the 
Federal Aviation Act of 1958, as amended (49 U.S.C. 1301, et seq.), or a 
rule, regulation, or order issued thereunder.
    (2) A civil penalty action in which a complaint has been issued for 
a violation arising under the Federal Aviation Act of 1958, as amended 
(49 U.S.C. 1471, et seq.) and the Hazardous Materials Transportation Act 
(49 U.S.C. 1801 et seq.), or a rule, regulation, or order issued 
thereunder.
    (b) This subpart applies only to proceedings initiated after 
September 7, 1988. All other cases, hearings, or other proceedings 
pending or in progress before September 7, 1988, are not affected by the 
rules in this subpart.
    (c) Notwithstanding the provisions of paragraph (a) of this section, 
the United States district courts shall have exclusive jurisdiction of 
any civil penalty action initiated by the Administrator:
    (1) Which involves an amount in controversy in excess of $50,000;
    (2) Which is an in rem action or in which an in rem action based on 
the same violation has been brought;
    (3) Regarding which an aircraft subject to lien has been seized by 
the United States; and
    (4) In which a suit for injunctive relief based on the violation 
giving rise to the civil penalty has also been brought.



Sec. 13.202  Definitions.

    Administrative law judge means an administrative law judge appointed 
pursuant to the provisions of 5 U.S.C. 3105.
    Agency attorney means the Deputy Chief Counsel, the Assistant Chief 
Counsel, Enforcement, the Assistant Chief Counsel, Regulations, the 
Assistant Chief Counsel, Europe, Africa, and Middle East Area Office, 
each Regional Counsel, the Aeronautical Center Counsel, or the Technical 
Center Counsel, or an attorney on the staff of the Assistant Chief 
Counsel, Enforcement, the Assistant Chief Counsel, Regulations, the 
Assistant Chief Counsel, Europe, Africa, and Middle East Area Office, 
each Regional Counsel, the Aeronautical Center Counsel, or the Technical 
Center Counsel who prosecutes a civil penalty action. An agency attorney 
shall not include:
    (1) The Chief Counsel, the Assistant Chief Counsel for Litigation, 
or the Special Counsel and Director of Civil Penalty Adjudications; or
    (2) Any attorney on the staff of either the Assistant Chief Counsel 
for Litigation or the Special Counsel and Director of Civil Penalty 
Adjudications who advises the FAA decisionmaker regarding an initial 
decision or any appeal to the FAA decisionmaker; or
    (3) Any attorney who is supervised in a civil penalty action by a 
person who provides such advice to the FAA decisionmaker in that action 
or a factually-related action.
    Attorney means a person licensed by a state, the District of 
Columbia, or a territory of the United States to practice law or appear 
before the courts of that state or territory.
    Complaint means a document issued by an agency attorney alleging a 
violation of the Federal Aviation Act of 1958, as amended, or a rule, 
regulation, or order issued thereunder, or the Hazardous Materials 
Transportation Act, or a rule, regulation, or order issued thereunder 
that has been filed with the hearing docket after a hearing has been 
requested pursuant to Sec. 13.16(d)(3) or Sec. 13.16(e)(2)(ii) of this 
part.
    FAA decisionmaker means the Administrator of the Federal Aviation 
Administration, acting in the capacity of the decisionmaker on appeal, 
or any person to whom the Administrator has delegated the 
Administrator's decisionmaking authority in a civil penalty action. As 
used in this subpart, the FAA decisionmaker is the official authorized 
to issue a final decision and order of the Administrator in a civil 
penalty action.
    Mail includes U.S. certified mail, U.S. registered mail, or use of 
an overnight express courier service.
    Order assessing civil penalty means a document that contains a 
finding of violation of the Federal Aviation Act of 1958, as amended, or 
a rule, regulation, or order issued thereunder, or the Hazardous 
Materials Transportation

[[Page 52]]

Act, or a rule, regulation, or order issued thereunder and may direct 
payment of a civil penalty. Unless an appeal is filed with the FAA 
decisionmaker in a timely manner, an initial decision or order of an 
administrative law judge shall be considered an order assessing civil 
penalty if an administrative law judge finds that an alleged violation 
occurred and determines that a civil penalty, in an amount found 
appropriate by the administrative law judge, is warranted. Unless a 
petition for review is filed with a U.S. Court of Appeals in a timely 
manner, a final decision and order of the Administrator shall be 
considered an order assessing civil penalty if the FAA decisionmaker 
finds that an alleged violation occurred and a civil penalty is 
warranted.
    Party means the respondent or the Federal Aviation Administration 
(FAA).
    Personal delivery includes hand-delivery or use of a contract or 
express messenger service. ``Personal delivery'' does not include the 
use of Government interoffice mail service.
    Pleading means a complaint, an answer, and any amendment of these 
documents permitted under this subpart.
    Properly addressed means a document that shows an address contained 
in agency records, a residential, business, or other address submitted 
by a person on any document provided under this subpart, or any other 
address shown by other reasonable and available means.
    Respondent means a person, corporation, or company named in a 
complaint.

[Amdt. 13-21, 55 FR 27575, July 3, 1990, as amended by Amdt. 13-24, 58 
FR 50241, Sept. 24, 1993; Amdt. 13-29, 62 FR 46866, Sept. 4, 1997]



Sec. 13.203  Separation of functions.

    (a) Civil penalty proceedings, including hearings, shall be 
prosecuted by an agency attorney.
    (b) An agency employee engaged in the performance of investigative 
or prosecutorial functions in a civil penalty action shall not, in that 
case or a factually-related case, participate or give advice in a 
decision by the administrative law judge or by the FAA decisionmaker on 
appeal, except as counsel or a witness in the public proceedings.
    (c) The Chief Counsel, the Assistant Chief Counsel for Litigation, 
the Special Counsel and Director of Civil Penalty Adjudications, or an 
attorney on the staff of either the Assistant Chief Counsel for 
Litigation or the Special Counsel and Director of Civil Penalty 
Adjudications, will advise the FAA decisionmaker regarding an initial 
decision or any appeal of a civil penalty action to the FAA 
decisionmaker.

[Amdt. 13-21, 55 FR 27575, July 3, 1990, as amended by Amdt. 13-24, 58 
FR 50241, Sept. 24, 1993]



Sec. 13.204  Appearances and rights of parties.

    (a) Any party may appear and be heard in person.
    (b) Any party may be accompanied, represented, or advised by an 
attorney or representative designated by the party and may be examined 
by that attorney or representative in any proceeding governed by this 
subpart. An attorney or representative who represents a party may file a 
notice of appearance in the action, in the manner provided in 
Sec. 13.210 of this subpart, and shall serve a copy of the notice of 
appearance on each party, in the manner provided in Sec. 13.211 of this 
subpart, before participating in any proceeding governed by this 
subpart. The attorney or representative shall include the name, address, 
and telephone number of the attorney or representative in the notice of 
appearance.
    (c) Any person may request a copy of a document upon payment of 
reasonable costs. A person may keep an original document, data, or 
evidence, with the consent of the administrative law judge, by 
substituting a legible copy of the document for the record.



Sec. 13.205  Administrative law judges.

    (a) Powers of an administrative law judge. In accordance with the 
rules of this subpart, an administrative law judge may:
    (1) Give notice of, and hold, prehearing conferences and hearings;
    (2) Administer oaths and affirmations;
    (3) Issue subpoenas authorized by law and issue notices of 
deposition requested by the parties;
    (4) Rule on offers of proof;

[[Page 53]]

    (5) Receive relevant and material evidence;
    (6) Regulate the course of the hearing in accordance with the rules 
of this subpart;
    (7) Hold conferences to settle or to simplify the issues by consent 
of the parties;
    (8) Dispose of procedural motions and requests; and
    (9) Make findings of fact and conclusions of law, and issue an 
initial decision.
    (b) Limitations on the power of the administrative law judge. The 
administrative law judge shall not issue an order of contempt, award 
costs to any party, or impose any sanction not specified in this 
subpart. If the administrative law judge imposes any sanction not 
specified in this subpart, a party may file an interlocutory appeal of 
right with the FAA decisionmaker pursuant to Sec. 13.219(c)(4) of this 
subpart. This section does not preclude an administrative law judge from 
issuing an order that bars a person from a specific proceeding based on 
a finding of obstreperous or disruptive behavior in that specific 
proceeding.
    (c) Disqualification. The administrative law judge may disqualify 
himself or herself at any time. A party may file a motion, pursuant to 
Sec. 13.218(f)(6), requesting that an administrative law judge be 
disqualified from the proceedings.

[Amdt. 13-21, 55 FR 27575, July 3, 1990; 55 FR 29293, July 18, 1990]



Sec. 13.206  Intervention.

    (a) A person may submit a motion for leave to intervene as a party 
in a civil penalty action. Except for good cause shown, a motion for 
leave to intervene shall be submitted not later than 10 days before the 
hearing.
    (b) If the administrative law judge finds that intervention will not 
unduly broaden the issues or delay the proceedings, the administrative 
law judge may grant a motion for leave to intervene if the person will 
be bound by any order or decision entered in the action or the person 
has a property, financial, or other legitimate interest that may not be 
addressed adequately by the parties. The administrative law judge may 
determine the extent to which an intervenor may participate in the 
proceedings.



Sec. 13.207  Certification of documents.

    (a) Signature required. The attorney of record, the party, or the 
party's representative shall sign each document tendered for filing with 
the hearing docket clerk, the administrative law judge, the FAA 
decisionmaker on appeal, or served on each party.
    (b) Effect of signing a document. By signing a document, the 
attorney of record, the party, or the party's representative certifies 
that the attorney, the party, or the party's representative has read the 
document and, based on reasonable inquiry and to the best of that 
person's knowledge, information, and belief, the document is--
    (1) Consistent with these rules;
    (2) Warranted by existing law or that a good faith argument exists 
for extension, modification, or reversal of existing law; and
    (3) Not unreasonable or unduly burdensome or expensive, not made to 
harass any person, not made to cause unnecessary delay, not made to 
cause needless increase in the cost of the proceedings, or for any other 
improper purpose.
    (c) Sanctions. If the attorney of record, the party, or the party's 
representative signs a document in violation of this section, the 
administrative law judge or the FAA decisionmaker shall:
    (1) Strike the pleading signed in violation of this section;
    (2) Strike the request for discovery or the discovery response 
signed in violation of this section and preclude further discovery by 
the party;
    (3) Deny the motion or request signed in violation of this section;
    (4) Exclude the document signed in violation of this section from 
the record;
    (5) Dismiss the interlocutory appeal and preclude further appeal on 
that issue by the party who filed the appeal until an initial decision 
has been entered on the record; or
    (6) Dismiss the appeal of the administrative law judge's initial 
decision to the FAA decisionmaker.

[[Page 54]]



Sec. 13.208  Complaint.

    (a) Filing. The agency attorney shall file the original and one copy 
of the complaint with the hearing docket clerk, or may file a written 
motion pursuant to Sec. l3.218(f)(2)(i) of this subpart instead of 
filing a complaint, not later than 20 days after receipt by the agency 
attorney of a request for hearing.
    The agency attorney should suggest a location for the hearing when 
filing the complaint.
    (b) Service. An agency attorney shall personally deliver or mail a 
copy of the complaint on the respondent, the president of the 
corporation or company named as a respondent, or a person designated by 
the respondent to accept service of documents in the civil penalty 
action.
    (c) Contents. A complaint shall set forth the facts alleged, any 
regulation allegedly violated by the respondent, and the proposed civil 
penalty in sufficient detail to provide notice of any factual or legal 
allegation and proposed civil penalty.
    (d) Motion to dismiss allegations or complaint. Instead of filing an 
answer to the complaint, a respondent may move to dismiss the complaint, 
or that part of the complaint, alleging a violation that occurred on or 
after August 2, 1990, and more than 2 years before an agency attorney 
issued a notice of proposed civil penalty to the respondent.
    (1) An administrative law judge may not grant the motion and dismiss 
the complaint or part of the complaint if the administrative law judge 
finds that the agency has shown good cause for any delay in issuing the 
notice of proposed civil penalty.
    (2) If the agency fails to show good cause for any delay, an 
administrative law judge may dismiss the complaint, or that part of the 
complaint, alleging a violation that occurred more than 2 years before 
an agency attorney issued the notice of proposed civil penalty to the 
respondent.
    (3) A party may appeal the administrative law judge's ruling on the 
motion to dismiss the complaint or any part of the complaint in 
accordance with Sec. 13.219(b) of this subpart.

[Admt. 13-21, 55 FR 27575, July 3, 1990, as amended by Admt. 13-22, 55 
FR 31176, Aug. 1, 1990]



Sec. 13.209  Answer.

    (a) Writing required. A respondent shall file a written answer to 
the complaint, or may file a written motion pursuant to Sec. 13.208(d) 
or Sec. 13.218(f)(1-4) of this subpart instead of filing an answer, not 
later than 30 days after service of the complaint. The answer may be in 
the form of a letter but must be dated and signed by the person 
responding to the complaint. An answer may be typewritten or may be 
legibly handwritten.
    (b) Filing and address. A person filing an answer shall personally 
deliver or mail the original and one copy of the answer for filing with 
the hearing docket clerk, not later than 30 days after service of the 
complaint, to the Hearing Docket, Federal Aviation Administration, 800 
Independence Avenue, SW., Room 924A, Washington, DC 20591, Attention: 
Hearing Docket Clerk. The person filing an answer should suggest a 
location for the hearing when filing the answer.
    (c) Service. A person filing an answer shall serve a copy of the 
answer on the agency attorney who filed the complaint.
    (d) Contents. An answer shall specifically state any affirmative 
defense that the respondent intends to assert at the hearing. A person 
filing an answer may include a brief statement of any relief requested 
in the answer.
    (e) Specific denial of allegations required. A person filing an 
answer shall admit, deny, or state that the person is without sufficient 
knowledge or information to admit or deny, each numbered paragraph of 
the complaint. Any statement or allegation contained in the complaint 
that is not specifically denied in the answer may be deemed an admission 
of the truth of that allegation. A general denial of the complaint is 
deemed a failure to file an answer.
    (f) Failure to file answer. A person's failure to file an answer 
without good cause shall be deemed an admission of the truth of each 
allegation contained in the complaint.

[[Page 55]]



Sec. 13.210  Filing of documents.

    (a) Address and method of filing. A person tendering a document for 
filing shall personally deliver or mail the signed original and one copy 
of each document to the Hearing Docket, Federal Aviation Administration, 
800 Independence Avenue, SW., Room 924A, Washington, DC 20591, 
Attention: Hearing Docket Clerk. A person shall serve a copy of each 
document on each party in accordance with Sec. 13.211 of this subpart.
    (b) Date of filing. A document shall be considered to be filed on 
the date of personal delivery; or if mailed, the mailing date shown on 
the certificate of service, the date shown on the postmark if there is 
no certificate of service, or other mailing date shown by other evidence 
if there is no certificate of service or postmark.
    (c) Form. Each document shall be typewritten or legibly handwritten.
    (d) Contents. Unless otherwise specified in this subpart, each 
document must contain a short, plain statement of the facts on which the 
person's case rests and a brief statement of the action requested in the 
document.

[Amdt. 13-21, 55 FR 27575, July 3, 1990; 55 FR 29293, July 18, 1990]



Sec. 13.211  Service of documents.

    (a) General. A person shall serve a copy of any document filed with 
the Hearing Docket on each party at the time of filing. Service on a 
party's attorney of record or a party's designated representative may be 
considered adequate service on the party.
    (b) Type of service. A person may serve documents by personal 
delivery or by mail.
    (c) Certificate of service. A person may attach a certificate of 
service to a document tendered for filing with the hearing docket clerk. 
A certificate of service shall consist of a statement, dated and signed 
by the person filing the document, that the document was personally 
delivered or mailed to each party on a specific date.
    (d) Date of service. The date of service shall be the date of 
personal delivery; or if mailed, the mailing date shown on the 
certificate of service, the date shown on the postmark if there is no 
certificate of service, or other mailing date shown by other evidence if 
there is no certificate of service or postmark.
    (e) Additional time after service by mail. Whenever a party has a 
right or a duty to act or to make any response within a prescribed 
period after service by mail, or on a date certain after service by 
mail, 5 days shall be added to the prescribed period.
    (f) Service by the administrative law judge. The administrative law 
judge shall serve a copy of each document including, but not limited to, 
notices of prehearing conferences and hearings, rulings on motions, 
decisions, and orders, upon each party to the proceedings by personal 
delivery or by mail.
    (g) Valid service. A document that was properly addressed, was sent 
in accordance with this subpart, and that was returned, that was not 
claimed, or that was refused, is deemed to have been served in 
accordance with this subpart. The service shall be considered valid as 
of the date and the time that the document was deposited with a contract 
or express messenger, the document was mailed, or personal delivery of 
the document was refused.
    (h) Presumption of service. There shall be a presumption of service 
where a party or a person, who customarily receives mail, or receives it 
in the ordinary course of business, at either the person's residence or 
the person's principal place of business, acknowledges receipt of the 
document.



Sec. 13.212  Computation of time.

    (a) This section applies to any period of time prescribed or allowed 
by this subpart, by notice or order of the administrative law judge, or 
by any applicable statute.
    (b) The date of an act, event, or default, after which a designated 
time period begins to run, is not included in a computation of time 
under this subpart.
    (c) The last day of a time period is included in a computation of 
time unless it is a Saturday, Sunday, or a legal holiday. If the last 
day of the time period is a Saturday, Sunday, or legal holiday, the time 
period runs until the end of the next day that is not a Saturday, 
Sunday, or legal holiday.

[[Page 56]]



Sec. 13.213  Extension of time.

    (a) Oral requests. The parties may agree to extend for a reasonable 
period the time for filing a document under this subpart. If the parties 
agree, the administrative law judge shall grant one extension of time to 
each party. The party seeking the extension of time shall submit a draft 
order to the administrative law judge to be signed by the administrative 
law judge and filed with the hearing docket clerk. The administrative 
law judge may grant additional oral requests for an extension of time 
where the parties agree to the extension.
    (b) Written motion. A party shall file a written motion for an 
extension of time with the administrative law judge not later than 7 
days before the document is due unless good cause for the late filing is 
shown. A party filing a written motion for an extension of time shall 
serve a copy of the motion on each party. The administrative law judge 
may grant the extension of time if good cause for the extension is 
shown.
    (c) Failure to rule. If the administrative law judge fails to rule 
on a written motion for an extension of time by the date the document 
was due, the motion for an extension of time is deemed granted for no 
more than 20 days after the original date the document was to be filed.



Sec. 13.214  Amendment of pleadings.

    (a) Filing and service. A party shall file the amendment with the 
administrative law judge and shall serve a copy of the amendment on all 
parties to the proceeding.
    (b) Time. A party shall file an amendment to a complaint or an 
answer within the following:
    (1) Not later than 15 days before the scheduled date of a hearing, a 
party may amend a complaint or an answer without the consent of the 
administrative law judge.
    (2) Less than 15 days before the scheduled date of a hearing, the 
administrative law judge may allow amendment of a complaint or an answer 
only for good cause shown in a motion to amend.
    (c) Responses. The administrative law judge shall allow a reasonable 
time, but not more than 20 days from the date of filing, for other 
parties to respond if an amendment to a complaint, answer, or other 
pleading has been filed with the administrative law judge.



Sec. 13.215  Withdrawal of complaint or request for hearing.

    At any time before or during a hearing, an agency attorney may 
withdraw a complaint or a party may withdraw a request for a hearing 
without the consent of the administrative law judge. If an agency 
attorney withdraws the complaint or a party withdraws the request for a 
hearing and the answer, the administrative law judge shall dismiss the 
proceedings under this subpart with prejudice.



Sec. 13.216  Waivers.

    Waivers of any rights provided by statute or regulation shall be in 
writing or by stipulation made at a hearing and entered into the record. 
The parties shall set forth the precise terms of the waiver and any 
conditions.



Sec. 13.217  Joint procedural or discovery schedule.

    (a) General. The parties may agree to submit a schedule for filing 
all prehearing motions, a schedule for conducting discovery in the 
proceedings, or a schedule that will govern all prehearing motions and 
discovery in the proceedings.
    (b) Form and content of schedule. If the parties agree to a joint 
procedural or discovery schedule, one of the parties shall file the 
joint schedule with the administrative law judge, setting forth the 
dates to which the parties have agreed, and shall serve a copy of the 
joint schedule on each party.
    (1) The joint schedule may include, but need not be limited to, 
requests for discovery, any objections to discovery requests, responses 
to discovery requests to which there are no objections, submission of 
prehearing motions, responses to prehearing motions, exchange of 
exhibits to be introduced at the hearing, and a list of witnesses that 
may be called at the hearing.
    (2) Each party shall sign the original joint schedule to be filed 
with the administrative law judge.

[[Page 57]]

    (c) Time. The parties may agree to submit all prehearing motions and 
responses and may agree to close discovery in the proceedings under the 
joint schedule within a reasonable time before the date of the hearing, 
but not later than 15 days before the hearing.
    (d) Order establishing joint schedule. The administrative law judge 
shall approve the joint schedule filed by the parties. One party shall 
submit a draft order establishing a joint schedule to the administrative 
law judge to be signed by the administrative law judge and filed with 
the hearing docket clerk.
    (e) Disputes. The administrative law judge shall resolve disputes 
regarding discovery or disputes regarding compliance with the joint 
schedule as soon as possible so that the parties may continue to comply 
with the joint schedule.
    (f) Sanctions for failure to comply with joint schedule. If a party 
fails to comply with the administrative law judge's order establishing a 
joint schedule, the administrative law judge may direct that party to 
comply with a motion to discovery request or, limited to the extent of 
the party's failure to comply with a motion or discovery request, the 
administrative law judge may:
    (1) Strike that portion of a party's pleadings;
    (2) Preclude prehearing or discovery motions by that party;
    (3) Preclude admission of that portion of a party's evidence at the 
hearing, or
    (4) Preclude that portion of the testimony of that party's witnesses 
at the hearing.



Sec. 13.218  Motions.

    (a) General. A party applying for an order or ruling not 
specifically provided in this subpart shall do so by motion. A party 
shall comply with the requirements of this section when filing a motion 
with the administrative law judge. A party shall serve a copy of each 
motion on each party.
    (b) Form and contents. A party shall state the relief sought by the 
motion and the particular grounds supporting that relief. If a party has 
evidence in support of a motion, the party shall attach any supporting 
evidence, including affidavits, to the motion.
    (c) Filing of motions. A motion made prior to the hearing must be in 
writing. Unless otherwise agreed by the parties or for good cause shown, 
a party shall file any prehearing motion, and shall serve a copy on each 
party, not later than 30 days before the hearing. Motions introduced 
during a hearing may be made orally on the record unless the 
administrative law judge directs otherwise.
    (d) Answers to motions. Any party may file an answer, with 
affidavits or other evidence in support of the answer, not later than 10 
days after service of a written motion on that party. When a motion is 
made during a hearing, the answer may be made at the hearing on the 
record, orally or in writing, within a reasonable time determined by the 
administrative law judge.
    (e) Rulings on motions. The administrative law judge shall rule on 
all motions as follows:
    (1) Discovery motions. The administrative law judge shall resolve 
all pending discovery motions not later than 10 days before the hearing.
    (2) Prehearing motions. The administrative law judge shall resolve 
all pending prehearing motions not later than 7 days before the hearing. 
If the administrative law judge issues a ruling or order orally, the 
administrative law judge shall serve a written copy of the ruling or 
order, within 3 days, on each party. In all other cases, the 
administrative law judge shall issue rulings and orders in writing and 
shall serve a copy of the ruling or order on each party.
    (3) Motions made during the hearing. The administrative law judge 
may issue rulings and orders on motions made during the hearing orally. 
Oral rulings or orders on motions must be made on the record.
    (f) Specific motions. A party may file the following motions with 
the administrative law judge:
    (1) Motion to dismiss for insufficiency. A respondent may file a 
motion to dismiss the complaint for insufficiency instead of filing an 
answer. If the administrative law judge denies the motion

[[Page 58]]

to dismiss the complaint for insufficiency, the respondent shall file an 
answer not later than 10 days after service of the administrative law 
judge's denial of the motion. A motion to dismiss the complaint for 
insufficiency must show that the complaint fails to state a violation of 
the Federal Aviation Act of 1958, as amended, or a rule, regulation, or 
order issued thereunder, or a violation of the Hazardous Materials 
Transportation Act, or a rule, regulation, or order issued thereunder.
    (2) Motion to dismiss. A party may file a motion to dismiss, 
specifying the grounds for dismissal. If an administrative law judge 
grants a motion to dismiss in part, a party may appeal the 
administrative law judge's ruling on the motion to dismiss under 
Sec. 13.219(b) of this subpart.
    (i) Motion to dismiss a request for a hearing. An agency attorney 
may file a motion to dismiss a request for a hearing instead of filing a 
complaint. If the motion to dismiss is not granted, the agency attorney 
shall file the complaint and shall serve a copy of the complaint on each 
party not later than 10 days after service of the administrative law 
judge's ruling or order on the motion to dismiss. If the motion to 
dismiss is granted and the proceedings are terminated without a hearing, 
the respondent may file an appeal pursuant to Sec. 13.233 of this 
subpart. If required by the decision on appeal, the agency attorney 
shall file a complaint and shall serve a copy of the complaint on each 
party not later than 10 days after service of the decision on appeal.
    (ii) Motion to dismiss a complaint. A respondent may file a motion 
to dismiss a complaint instead of filing an answer. If the motion to 
dismiss is not granted, the respondent shall file an answer and shall 
serve a copy of the answer on each party not later than 10 days after 
service of the administrative law judge's ruling or order on the motion 
to dismiss. If the motion to dismiss is granted and the proceedings are 
terminated without a hearing, the agency attorney may file an appeal 
pursuant to Sec. 13.233 of this subpart. If required by the decision on 
appeal, the respondent shall file an answer and shall serve a copy of 
the answer on each party not later than 10 days after service of the 
decision on appeal.
    (3) Motion for more definite statement. A party may file a motion 
for more definite statement of any pleading which requires a response 
under this subpart. A party shall set forth, in detail, the indefinite 
or uncertain allegations contained in a complaint or response to any 
pleading and shall submit the details that the party believes would make 
the allegation or response definite and certain.
    (i) Complaint. A respondent may file a motion requesting a more 
definite statement of the allegations contained in the complaint instead 
of filing an answer. If the administrative law judge grants the motion, 
the agency attorney shall supply a more definite statement not later 
than 15 days after service of the ruling granting the motion. If the 
agency attorney fails to supply a more definite statement, the 
administrative law judge shall strike the allegations in the complaint 
to which the motion is directed. If the administrative law judge denies 
the motion, the respondent shall file an answer and shall serve a copy 
of the answer on each party not later than 10 days after service of the 
order of denial.
    (ii) Answer. An agency attorney may file a motion requesting a more 
definite statement if an answer fails to respond clearly to the 
allegations in the complaint. If the administrative law judge grants the 
motion, the respondent shall supply a more definite statement not later 
than 15 days after service of the ruling on the motion. If the 
respondent fails to supply a more definite statement, the administrative 
law judge shall strike those statements in the answer to which the 
motion is directed. The respondent's failure to supply a more definite 
statement may be deemed an admission of unanswered allegations in the 
complaint.
    (4) Motion to strike. Any party may make a motion to strike any 
insufficient allegation or defense, or any redundant, immaterial, or 
irrelevant matter in a pleading. A party shall file a motion to strike 
with the administrative law judge and shall serve a copy

[[Page 59]]

on each party before a response is required under this subpart or, if a 
response is not required, not later than 10 days after service of the 
pleading.
    (5) Motion for decision. A party may make a motion for decision, 
regarding all or any part of the proceedings, at any time before the 
administrative law judge has issued an initial decision in the 
proceedings. The administrative law judge shall grant a party's motion 
for decision if the pleadings, depositions, answers to interrogatories, 
admissions, matters that the administrative law judge has officially 
noticed, or evidence introduced during the hearing show that there is no 
genuine issue of material fact and that the party making the motion is 
entitled to a decision as a matter of law. The party making the motion 
for decision has the burden of showing that there is no genuine issue of 
material fact disputed by the parties.
    (6) Motion for disqualification. A party may file a motion for 
disqualification with the administrative law judge and shall serve a 
copy on each party. A party may file the motion at any time after the 
administrative law judge has been assigned to the proceedings but shall 
make the motion before the administrative law judge files an initial 
decision in the proceedings.
    (i) Motion and supporting affidavit. A party shall state the grounds 
for disqualification, including, but not limited to, personal bias, 
pecuniary interest, or other factors showing disqualification, in the 
motion for disqualification. A party shall submit an affidavit with the 
motion for disqualification that sets forth, in detail, the matters 
alleged to constitute grounds for disqualification.
    (ii) Answer. A party shall respond to the motion for 
disqualification not later than 5 days after service of the motion for 
disqualification.
    (iii) Decision on motion for disqualification. The administrative 
law judge shall render a decision on the motion for disqualification not 
later than 15 days after the motion has been filed. If the 
administrative law judge finds that the motion for disqualification and 
supporting affidavit show a basis for disqualification, the 
administrative law judge shall withdraw from the proceedings 
immediately. If the administrative law judge finds that disqualification 
is not warranted, the administrative law judge shall deny the motion and 
state the grounds for the denial on the record. If the administrative 
law judge fails to rule on a party's motion for disqualification within 
15 days after the motion has been filed, the motion is deemed granted.
    (iv) Appeal. A party may appeal the administrative law judge's 
denial of the motion for disqualification in accordance with 
Sec. 13.219(b) of this subpart.



Sec. 13.219  Interlocutory appeals.

    (a) General. Unless otherwise provided in this subpart, a party may 
not appeal a ruling or decision of the administrative law judge to the 
FAA decisionmaker until the initial decision has been entered on the 
record. A decision or order of the FAA decisionmaker on the 
interlocutory appeal does not constitute a final order of the 
Administrator for the purposes of judicial appellate review under 
section 1006 of the Federal Aviation Act of 1958, as amended.
    (b) Interlocutory appeal for cause. If a party files a written 
request for an interlocutory appeal for cause with the administrative 
law judge, or orally requests an interlocutory appeal for cause, the 
proceedings are stayed until the administrative law judge issues a 
decision on the request. If the administrative law judge grants the 
request, the proceedings are stayed until the FAA decisionmaker issues a 
decision on the interlocutory appeal. The administrative law judge shall 
grant an interlocutory appeal for cause if a party shows that delay of 
the appeal would be detrimental to the public interest or would result 
in undue prejudice to any party.
    (c) Interlocutory appeals of right. If a party notifies the 
administrative law judge of an interlocutory appeal of right, the 
proceedings are stayed until the FAA decisionmaker issues a decision on 
the interlocutory appeal. A party may file an interlocutory appeal with 
the FAA decisionmaker, without the consent of the administrative law 
judge, before an initial decision has been entered in the case of:

[[Page 60]]

    (1) A ruling or order by the administrative law judge barring a 
person from the proceedings.
    (2) Failure of the administrative law judge to dismiss the 
proceedings in accordance with Sec. 13.215 of this subpart.
    (3) A ruling or order by the administrative law judge in violation 
of Sec. 13.205(b) of this subpart.
    (d) Procedure. A party shall file a notice of interlocutory appeal, 
with supporting documents, with the FAA decisionmaker and the hearing 
docket clerk, and shall serve a copy of the notice and supporting 
documents on each party and the administrative law judge, not later than 
10 days after the administrative law judge's decision forming the basis 
of an interlocutory appeal of right or not later than 10 days after the 
administrative law judge's decision granting an interlocutory appeal for 
cause, whichever is appropriate. A party shall file a reply brief, if 
any, with the FAA decisionmaker and serve a copy of the reply brief on 
each party, not later than 10 days after service of the appeal brief. 
The FAA decisionmaker shall render a decision on the interlocutory 
appeal, on the record and as a part of the decision in the proceedings, 
within a reasonable time after receipt of the interlocutory appeal.
    (e) The FAA decisionmaker may reject frivolous, repetitive, or 
dilatory appeals, and may issue an order precluding one or more parties 
from making further interlocutory appeals in a proceeding in which there 
have been frivolous, repetitive, or dilatory interlocutory appeals.

[Amdt. 13-21, 55 FR 27575, July 3, 1990, as amended by Amdt. 13-23, 55 
FR 45983, Oct. 31, 1990]



Sec. 13.220  Discovery.

    (a) Initiation of discovery. Any party may initiate discovery 
described in this section, without the consent or approval of the 
administrative law judge, at any time after a complaint has been filed 
in the proceedings.
    (b) Methods of discovery. The following methods of discovery are 
permitted under this section: depositions on oral examination or written 
questions of any person; written interrogatories directed to a party; 
requests for production of documents or tangible items to any person; 
and requests for admission by a party. A party is not required to file 
written interrogatories and responses, requests for production of 
documents or tangible items and responses, and requests for admission 
and response with the administrative law judge or the hearing docket 
clerk. In the event of a discovery dispute, a party shall attach a copy 
of these documents in support of a motion made under this section.
    (c) Service on the agency. A party shall serve each discovery 
request directed to the agency or any agency employee on the agency 
attorney of record.
    (d) Time for response to discovery requests. Unless otherwise 
directed by this subpart or agreed by the parties, a party shall respond 
to a request for discovery, including filing objections to a request for 
discovery, not later than 30 days of service of the request.
    (e) Scope of discovery. Subject to the limits on discovery set forth 
in paragraph (f) of this section, a party may discover any matter that 
is not privileged and that is relevant to the subject matter of the 
proceeding. A party may discover information that relates to the claim 
or defense of any party including the existence, description, nature, 
custody, condition, and location of any document or other tangible item 
and the identity and location of any person having knowledge of 
discoverable matter. A party may discover facts known, or opinions held, 
by an expert who any other party expects to call to testify at the 
hearing. A party has no ground to object to a discovery request on the 
basis that the information sought would not be admissible at the hearing 
if the information sought during discovery is reasonably calculated to 
lead to the discovery of admissible evidence.
    (f) Limiting discovery. The administrative law judge shall limit the 
frequency and extent of discovery permitted by this section if a party 
shows that--
    (1) The information requested is cumulative or repetitious;
    (2) The information requested can be obtained from another less 
burdensome and more convenient source;

[[Page 61]]

    (3) The party requesting the information has had ample opportunity 
to obtain the information through other discovery methods permitted 
under this section; or
    (4) The method or scope of discovery requested by the party is 
unduly burdensome or expensive.
    (g) Confidential orders. A party or person who has received a 
discovery request for information that is related to a trade secret, 
confidential or sensitive material, competitive or commercial 
information, proprietary data, or information on research and 
development, may file a motion for a confidential order with the 
administrative law judge and shall serve a copy of the motion for a 
confidential order on each party.
    (1) The party or person making the motion must show that the 
confidential order is necessary to protect the information from 
disclosure to the public.
    (2) If the administrative law judge determines that the requested 
material is not necessary to decide the case, the administrative law 
judge shall preclude any inquiry into the matter by any party.
    (3) If the administrative law judge determines that the requested 
material may be disclosed during discovery, the administrative law judge 
may order that the material may be discovered and disclosed under 
limited conditions or may be used only under certain terms and 
conditions.
    (4) If the administrative law judge determines that the requested 
material is necessary to decide the case and that a confidential order 
is warranted, the administrative law judge shall provide:
    (i) An opportunity for review of the document by the parties off the 
record;
    (ii) Procedures for excluding the information from the record; and
    (iii) Order that the parties shall not disclose the information in 
any manner and the parties shall not use the information in any other 
proceeding.
    (h) Protective orders. A party or a person who has received a 
request for discovery may file a motion for protective order with the 
administrative law judge and shall serve a copy of the motion for 
protective order on each party. The party or person making the motion 
must show that the protective order is necessary to protect the party or 
the person from annoyance, embarrassment, oppression, or undue burden or 
expense. As part of the protective order, the administrative law judge 
may:
    (1) Deny the discovery request;
    (2) Order that discovery be conducted only on specified terms and 
conditions, including a designation of the time or place for discovery 
or a determination of the method of discovery; or
    (3) Limit the scope of discovery or preclude any inquiry into 
certain matters during discovery.
    (i) Duty to supplement or amend responses. A party who has responded 
to a discovery request has a duty to supplement or amend the response, 
as soon as the information is known, as follows:
    (1) A party shall supplement or amend any response to a question 
requesting the identity and location of any person having knowledge of 
discoverable matters.
    (2) A party shall supplement or amend any response to a question 
requesting the identity of each person who will be called to testify at 
the hearing as an expert witness and the subject matter and substance of 
that witness' testimony.
    (3) A party shall supplement or amend any response that was 
incorrect when made or any response that was correct when made but is no 
longer correct, accurate, or complete.
    (j) Depositions. The following rules apply to depositions taken 
pursuant to this section:
    (1) Form. A deposition shall be taken on the record and reduced to 
writing. The person being deposed shall sign the deposition unless the 
parties agree to waive the requirement of a signature.
    (2) Administration of oaths. Within the United States, or a 
territory or possession subject to the jurisdiction of the United 
States, a party shall take a deposition before a person authorized to 
administer oaths by the laws of the United States or authorized by the 
law of the place where the examination is held. In foreign countries, a 
party shall take a deposition in any manner allowed by the Federal Rules 
of Civil Procedure.

[[Page 62]]

    (3) Notice of deposition. A party shall serve a notice of 
deposition, stating the time and place of the deposition and the name 
and address of each person to be examined, on the person to be deposed, 
on the administrative law judge, on the hearing docket clerk, and on 
each party not later than 7 days before the deposition. A party may 
serve a notice of deposition less than 7 days before the deposition only 
with consent of the administrative law judge. If a subpoena duces tecum 
is to be served on the person to be examined, the party shall attach a 
copy of the subpoena duces tecum that describes the materials to be 
produced at the deposition to the notice of deposition.
    (4) Use of depositions. A party may use any part or all of a 
deposition at a hearing authorized under this subpart only upon a 
showing of good cause. The deposition may be used against any party who 
was present or represented at the deposition or who had reasonable 
notice of the deposition.
    (k) Interrogatories. A party, the party's attorney, or the party's 
representative may sign the party's responses to interrogatories. A 
party shall answer each interrogatory separately and completely in 
writing.If a party objects to an interrogatory, the party shall state 
the objection and the reasons for the objection. An opposing party may 
use any part or all of a party's responses to interrogatories at a 
hearing authorized under this subpart to the extent that the response is 
relevant, material, and not repetitious.
    (1) A party shall not serve more than 30 interrogatories to each 
other party. Each subpart of an interrogatory shall be counted as a 
separate interrogatory.
    (2) A party shall file a motion for leave to serve additional 
interrogatories on a party with the administrative law judge before 
serving additional interrogatories on a party. The administrative law 
judge shall grant the motion only if the party shows good cause for the 
party's failure to inquire about the information previously and that the 
information cannot reasonably be obtained using less burdensome 
discovery methods or be obtained from other sources.
    (l) Requests for admission. A party may serve a written request for 
admission of the truth of any matter within the scope of discovery under 
this section or the authenticity of any document described in the 
request. A party shall set forth each request for admission separately. 
A party shall serve copies of documents referenced in the request for 
admission unless the documents have been provided or are reasonably 
available for inspection and copying.
    (1) Time. A party's failure to respond to a request for admission, 
in writing and signed by the attorney or the party, not later than 30 
days after service of the request, is deemed an admission of the truth 
of the statement or statements contained in the request for admission. 
The administrative law judge may determine that a failure to respond to 
a request for admission is not deemed an admission of the truth if a 
party shows that the failure was due to circumstances beyond the control 
of the party or the party's attorney.
    (2) Response. A party may object to a request for admission and 
shall state the reasons for objection. A party may specifically deny the 
truth of the matter or describe the reasons why the party is unable to 
truthfully deny or admit the matter. If a party is unable to deny or 
admit the truth of the matter, the party shall show that the party has 
made reasonable inquiry into the matter or that the information known 
to, or readily obtainable by, the party is insufficient to enable the 
party to admit or deny the matter. A party may admit or deny any part of 
the request for admission. If the administrative law judge determines 
that a response does not comply with the requirements of this rule or 
that the response is insufficient, the matter is deemed admitted.
    (3) Effect of admission. Any matter admitted or deemed admitted 
under this section is conclusively established for the purpose of the 
hearing and appeal.
    (m) Motion to compel discovery. A party may make a motion to compel 
discovery if a person refuses to answer a question during a deposition, 
a party fails or refuses to answer an interrogatory, if a person gives 
an evasive or incomplete answer during a deposition or when responding 
to an interrogatory, or a party fails or refuses to

[[Page 63]]

produce documents or tangible items. During a deposition, the proponent 
of a question may complete the deposition or may adjourn the examination 
before making a motion to compel if a person refuses to answer.
    (n) Failure to comply with a discovery order or order to compel. If 
a party fails to comply with a discovery order or an order to compel, 
the administrative law judge, limited to the extent of the party's 
failure to comply with the discovery order or motion to compel, may:
    (1) Strike that portion of a party's pleadings;
    (2) Preclude prehearing or discovery motions by that party;
    (3) Preclude admission of that portion of a party's evidence at the 
hearing; or
    (4) Preclude that portion of the testimony of that party's witnesses 
at the hearing.

[Amdt. 13-21, 55 FR 27575, July 3, 1990, as amended by Amdt. 13-23, 55 
FR 45983, Oct. 31, 1990]



Sec. 13.221  Notice of hearing.

    (a) Notice. The administrative law judge shall give each party at 
least 60 days notice of the date, time, and location of the hearing.
    (b) Date, time, and location of the hearing. The administrative law 
judge to whom the proceedings have been assigned shall set a reasonable 
date, time, and location for the hearing. The administrative law judge 
shall consider the need for discovery and any joint procedural or 
discovery schedule submitted by the parties when determining the hearing 
date. The administrative law judge shall give due regard to the 
convenience of the parties, the location where the majority of the 
witnesses reside or work, and whether the location is served by a 
scheduled air carrier.
    (c) Earlier hearing. With the consent of the administrative law 
judge, the parties may agree to hold the hearing on an earlier date than 
the date specified in the notice of hearing.



Sec. 13.222  Evidence.

    (a) General. A party is entitled to present the party's case or 
defense by oral, documentary, or demonstrative evidence, to submit 
rebuttal evidence, and to conduct any cross-examination that may be 
required for a full and true disclosure of the facts.
    (b) Admissibility. A party may introduce any oral, documentary, or 
demonstrative evidence in support of the party's case or defense. The 
administrative law judge shall admit any oral, documentary, or 
demonstrative evidence introduced by a party but shall exclude 
irrelevant, immaterial, or unduly repetitious evidence.
    (c) Hearsay evidence. Hearsay evidence is admissible in proceedings 
governed by this subpart. The fact that evidence submitted by a party is 
hearsay goes only to the weight of the evidence and does not affect its 
admissibility.



Sec. 13.223  Standard of proof.

    The administrative law judge shall issue an initial decision or 
shall rule in a party's favor only if the decision or ruling is 
supported by, and in accordance with, the reliable, probative, and 
substantial evidence contained in the record. In order to prevail, the 
party with the burden of proof shall prove the party's case or defense 
by a preponderance of reliable, probative, and substantial evidence.



Sec. 13.224  Burden of proof.

    (a) Except in the case of an affirmative defense, the burden of 
proof is on the agency.
    (b) Except as otherwise provided by statute or rule, the proponent 
of a motion, request, or order has the burden of proof.
    (c) A party who has asserted an affirmative defense has the burden 
of proving the affirmative defense.



Sec. 13.225  Offer of proof.

    A party whose evidence has been excluded by a ruling of the 
administrative law judge may offer the evidence for the record on 
appeal.



Sec. 13.226  Public disclosure of evidence.

    (a) The administrative law judge may order that any information 
contained in the record be withheld from public disclosure. Any person 
may object to disclosure of information in the record by filing a 
written motion to withhold

[[Page 64]]

specific information with the administrative law judge and serving a 
copy of the motion on each party. The party shall state the specific 
grounds for nondisclosure in the motion.
    (b) The administrative law judge shall grant the motion to withhold 
information in the record if, based on the motion and any response to 
the motion, the administrative law judge determines that disclosure 
would be detrimental to aviation safety, disclosure would not be in the 
public interest, or that the information is not otherwise required to be 
made available to the public.



Sec. 13.227  Expert or opinion witnesses.

    An employee of the agency may not be called as an expert or opinion 
witness, for any party other than the FAA, in any proceeding governed by 
this subpart. An employee of a respondent may not be called by an agency 
attorney as an expert or opinion witness for the FAA in any proceeding 
governed by this subpart to which the respondent is a party.



Sec. 13.228  Subpoenas.

    (a) Request for subpoena. A party may obtain a subpoena to compel 
the attendance of a witness at a deposition or hearing or to require the 
production of documents or tangible items from the hearing docket clerk. 
The hearing docket clerk shall deliver the subpoena, signed by the 
hearing docket clerk or an administrative law judge but otherwise in 
blank, to the party. The party shall complete the subpoena, stating the 
title of the action and the date and time for the witness' attendance or 
production of documents or items. The party who obtained the subpoena 
shall serve the subpoena on the witness.
    (b) Motion to quash or modify the subpoena. A party, or any person 
upon whom a subpoena has been served, may file a motion to quash or 
modify the subpoena with the administrative law judge at or before the 
time specified in the subpoena for compliance. The applicant shall 
describe, in detail, the basis for the application to quash or modify 
the supoena including, but not limited to, a statement that the 
testimony, document, or tangible evidence is not relevant to the 
proceeding, that the subpoena is not reasonably tailored to the scope of 
the proceeding, or that the subpoena is unreasonable and oppressive. A 
motion to quash or modify the subpoena will stay the effect of the 
subpoena pending a decision by the administrative law judge on the 
motion.
    (c) Enforcement of subpoena. Upon a showing that a person has failed 
or refused to comply with a subpoena, a party may apply to the local 
Federal district court to seek judicial enforcement of the subpoena in 
accordance with section 1004 of the Federal Aviation Act of 1958, as 
amended.



Sec. 13.229  Witness fees.

    (a) General. Unless otherwise authorized by the administrative law 
judge, the party who applies for a subpoena to compel the attendance of 
a witness at a deposition or hearing, or the party at whose request a 
witness appears at a deposition or hearing, shall pay the witness fees 
described in this section.
    (b) Amount. Except for an employee of the agency who appears at the 
direction of the agency, a witness who appears at a deposition or 
hearing is entitled to the same fees and mileage expenses as are paid to 
a witness in a court of the United States in comparable circumstances.



Sec. 13.230  Record.

    (a) Exclusive record. The transcript of all testimony in the 
hearing, all exhibits received into evidence, and all motions, 
applications, requests, and rulings shall constitute the exclusive 
record for decision of the proceedings and the basis for the issuance of 
any orders in the proceeding. Any proceedings regarding the 
disqualification of an administrative law judge shall be included in the 
record.
    (b) Examination and copying of record. Any person may examine the 
record at the Hearing Docket, Federal Aviation Administration, 800 
Independence Avenue, SW., Room 924A, Washington, DC 20591. Any person 
may have a copy of the record after payment of reasonable costs to copy 
the record.

[[Page 65]]



Sec. 13.231  Argument before the administrative law judge.

    (a) Arguments during the hearing. During the hearing, the 
administrative law judge shall give the parties a reasonable opportunity 
to present arguments on the record supporting or opposing motions, 
objections, and rulings if the parties request an opportunity for 
argument. The administrative law judge may request written arguments 
during the hearing if the administrative law judge finds that submission 
of written arguments would be reasonable.
    (b) Final oral argument. At the conclusion of the hearing and before 
the administrative law judge issues an initial decision in the 
proceedings, the parties are entitled to submit oral proposed findings 
of fact and conclusions of law, exceptions to rulings of the 
administrative law judge, and supporting arguments for the findings, 
conclusions, or exceptions. At the conclusion of the hearing, a party 
may waive final oral argument.
    (c) Posthearing briefs. The administrative law judge may request 
written posthearing briefs before the administrative law judge issues an 
initial decision in the proceedings if the administrative law judge 
finds that submission of written arguments would be reasonable. If a 
party files a written posthearing brief, the party shall include 
proposed findings of fact and conclusions of law, exceptions to rulings 
of the administrative law judge, and supporting arguments for the 
findings, conclusions, or exceptions. The administrative law judge shall 
give the parties a reasonable opportunity, not more than 30 days after 
receipt of the transcript, to prepare and submit the briefs.



Sec. 13.232  Initial decision.

    (a) Contents. The administrative law judge shall issue an initial 
decision at the conclusion of the hearing. In each oral or written 
decision, the administrative law judge shall include findings of fact 
and conclusions of law, and the grounds supporting those findings and 
conclusions, upon all material issues of fact, the credibility of 
witnesses, the applicable law, any exercise of the administrative law 
judge's discretion, the amount of any civil penalty found appropriate by 
the administrative law judge, and a discussion of the basis for any 
order issued in the proceedings. The administrative law judge is not 
required to provide a written explanation for rulings on objections, 
procedural motions, and other matters not directly relevant to the 
substance of the initial decision. If the administrative law judge 
refers to any previous unreported or unpublished initial decision, the 
administrative law judge shall make copies of that initial decision 
available to all parties and the FAA decisionmaker.
    (b) Oral decision. Except as provided in paragraph (c) of this 
section, at the conclusion of the hearing, the administrative law judge 
shall issue the initial decision and order orally on the record.
    (c) Written decision. The administrative law judge may issue a 
written initial decision not later than 30 days after the conclusion of 
the hearing or submission of the last posthearing brief if the 
administrative law judge finds that issuing a written initial decision 
is reasonable. The administrative law judge shall serve a copy of any 
written initial decision on each party.
    (d) Order assessing civil penalty. Unless appealed pursuant to 
Sec. 13.233 of this subpart, the initial decision issued by the 
administrative law judge shall be considered an order assessing civil 
penalty if the administrative law judge finds that an alleged violation 
occurred and determines that a civil penalty, in an amount found 
appropriate by the administrative law judge, is warranted.



Sec. 13.233  Appeal from initial decision.

    (a) Notice of appeal. A party may appeal the initial decision, and 
any decision not previously appealed pursuant to Sec. 13.219, by filing 
a notice of appeal with the FAA decisionmaker. A party shall file the 
notice of appeal with the Federal Aviation Administration, 800 
Independence Avenue, SW., Room 924A, Washington, DC 20591, Attention: 
Appellate Docket Clerk. A party shall file the notice of appeal not 
later than 10 days after entry of the oral initial decision on the 
record or service of the written initial decision on the parties and 
shall serve a copy of the notice of appeal on each party.

[[Page 66]]

    (b) Issues on appeal. A party may appeal only the following issues:
    (1) Whether each filing of fact is supported by a preponderance of 
reliable, probative, and substantial evidence;
    (2) Whether each conclusion of law is made in accordance with 
applicable law, precedent, and public policy; and
    (3) Whether the administrative law judge committed any prejudicial 
errors during the hearing that support the appeal.
    (c) Perfecting an appeal. Unless otherwise agreed by the parties, a 
party shall perfect an appeal, not later than 50 days after entry of the 
oral initial decision on the record or service of the written initial 
decision on the party, by filing an appeal brief with the FAA 
decisionmaker.
    (1) Extension of time by agreement of the parties. The parties may 
agree to extend the time for perfecting the appeal with the consent of 
the FAA decisionmaker. If the FAA decisionmaker grants an extension of 
time to perfect the appeal, the appellate docket clerk shall serve a 
letter confirming the extension of time on each party.
    (2) Written motion for extension. If the parties do not agree to an 
extension of time for perfecting an appeal, a party desiring an 
extension of time may file a written motion for an extension with the 
FAA decisionmaker and shall serve a copy of the motion on each party. 
The FAA decisionmaker may grant an extension if good cause for the 
extension is shown in the motion.
    (d) Appeal briefs. A party shall file the appeal brief with the FAA 
decisionmaker and shall serve a copy of the appeal brief on each party.
    (1) A party shall set forth, in detail, the party's specific 
objections to the initial decision or rulings in the appeal brief. A 
party also shall set forth, in detail, the basis for the appeal, the 
reasons supporting the appeal, and the relief requested in the appeal. 
If the party relies on evidence contained in the record for the appeal, 
the party shall specifically refer to the pertinent evidence contained 
in the transcript in the appeal brief.
    (2) The FAA decisionmaker may dismiss an appeal, on the FAA 
decisionmaker's own initiative or upon motion of any other party, where 
a party has filed a notice of appeal but fails to perfect the appeal by 
timely filing an appeal brief with the FAA decisionmaker.
    (e) Reply brief. Unless otherwise agreed by the parties, any party 
may file a reply brief with the FAA decisionmaker not later than 35 days 
after the appeal brief has been served on that party. The party filing 
the reply brief shall serve a copy of the reply brief on each party. If 
the party relies on evidence contained in the record for the reply, the 
party shall specifically refer to the pertinent evidence contained in 
the transcript in the reply brief.
    (1) Extension of time by agreement of the parties. The parties may 
agree to extend the time for filing a reply brief with the consent of 
the FAA decisionmaker. If the FAA decisionmaker grants an extension of 
time to file the reply brief, the appellate docket clerk shall serve a 
letter confirming the extension of time on each party.
    (2) Written motion for extension. If the parties do not agree to an 
extension of time for filing a reply brief, a party desiring an 
extension of time may file a written motion for an extension with the 
FAA decisionmaker and shall serve a copy of the motion on each party. 
The FAA decisionmaker may grant an extension if good cause for the 
extension is shown in the motion.
    (f) Other briefs. The FAA decisionmaker may allow any person to 
submit an amicus curiae brief in an appeal of an initial decision. A 
party may not file more than one appeal brief or reply brief. A party 
may petition the FAA decisionmaker, in writing, for leave to file an 
additional brief and shall serve a copy of the petition on each party. 
The party may not file the additional brief with the petition. The FAA 
decisionmaker may grant leave to file an additional brief if the party 
demonstrates good cause for allowing additional argument on the appeal. 
The FAA decisionmaker will allow a reasonable time for the party to file 
the additional brief.
    (g) Number of copies. A party shall file the original appeal brief 
or the original reply brief, and two copies of the brief, with the FAA 
decisionmaker.
    (h) Oral argument. The FAA decisionmaker has sole discretion to 
permit

[[Page 67]]

oral argument on the appeal. On the FAA decisionmaker's own initiative 
or upon written motion by any party, the FAA decisionmaker may find that 
oral argument will contribute substantially to the development of the 
issues on appeal and may grant the parties an opportunity for oral 
argument.
    (i) Waiver of objections on appeal. If a party fails to object to 
any alleged error regarding the proceedings in an appeal or a reply 
brief, the party waives any objection to the alleged error. The FAA 
decisionmaker is not required to consider any objection in an appeal 
brief or any argument in the reply brief if a party's objection is based 
on evidence contained on the record and the party does not specifically 
refer to the pertinent evidence from the record in the brief.
    (j) FAA decisionmaker's decision on appeal. The FAA decisionmaker 
will review the briefs on appeal and the oral argument, if any, to 
determine if the administrative law judge committed prejudicial error in 
the proceedings or that the initial decision should be affirmed, 
modified, or reversed. The FAA decisionmaker may affirm, modify, or 
reverse the initial decision, make any necessary findings, or may remand 
the case for any proceedings that the FAA decisionmaker determines may 
be necessary.
    (1) The FAA decisionmaker may raise any issue, on the FAA 
decisionmaker's own initiative, that is required for proper disposition 
of the proceedings. The FAA decisionmaker will give the parties a 
reasonable opportunity to submit arguments on the new issues before 
making a decision on appeal. If an issue raised by the FAA decisionmaker 
requires the consideration of additional testimony or evidence, the FAA 
decisionmaker will remand the case to the administrative law judge for 
further proceedings and an initial decision related to that issue. If an 
issue raised by the FAA decisionmaker is solely an issue of law or the 
issue was addressed at the hearing but was not raised by a party in the 
briefs on appeal, a remand of the case to the administrative law judge 
for further proceedings is not required but may be provided in the 
discretion of the FAA decisionmaker.
    (2) The FAA decisionmaker will issue the final decision and order of 
the Administrator on appeal in writing and will serve a copy of the 
decision and order on each party. Unless a petition for review is filed 
pursuant to Sec. 13.235, a final decision and order of the Administrator 
shall be considered an order assessing civil penalty if the FAA 
decisionmaker finds that an alleged violation occurred and a civil 
penalty is warranted.
    (3) A final decision and order of the Administrator after appeal is 
precedent in any other civil penalty action. Any issue, finding or 
conclusion, order, ruling, or initial decision of an administrative law 
judge that has not been appealed to the FAA decisionmaker is not 
precedent in any other civil penalty action.



Sec. 13.234  Petition to reconsider or modify a final decision and order of the FAA decisionmaker on appeal.

    (a) General. Any party may petition the FAA decisionmaker to 
reconsider or modify a final decision and order issued by the FAA 
decisionmaker on appeal from an initial decision. A party shall file a 
petition to reconsider or modify with the FAA decisionmaker not later 
than 30 days after service of the FAA decisionmaker's final decision and 
order on appeal and shall serve a copy of the petition on each party. 
The FAA decisionmaker will not reconsider or modify an initial decision 
and order issued by an administrative law judge that has not been 
appealed by any party to the FAA decisionmaker.
    (b) Form and number of copies. A party shall file a petition to 
reconsider or modify, in writing, with the FAA decisionmaker. The party 
shall file the original petition with the FAA decisionmaker and shall 
serve a copy of the petition on each party.
    (c) Contents. A party shall state briefly and specifically the 
alleged errors in the final decision and order on appeal, the relief 
sought by the party, and the grounds that support, the petition to 
reconsider or modify.
    (1) If the petition is based, in whole or in part, on allegations 
regarding the

[[Page 68]]

consequences of the FAA decisionmaker's decision, the party shall 
describe these allegations and shall describe, and support, the basis 
for the allegations.
    (2) If the petition is based, in whole or in part, on new material 
not previously raised in the proceedings, the party shall set forth the 
new material and include affidavits of prospective witnesses and 
authenticated documents that would be introduced in support of the new 
material. The party shall explain, in detail, why the new material was 
not discovered through due diligence prior to the hearing.
    (d) Repetitious and frivolous petitions. The FAA decisionmaker will 
not consider repetitious or frivolous petitions. The FAA decisionmaker 
may summarily dismiss repetitious or frivolous petitions to reconsider 
or modify.
    (e) Reply petitions. Any other party may reply to a petition to 
reconsider or modify, not later than 10 days after service of the 
petition on that party, by filing a reply with the FAA decisionmaker. A 
party shall serve a copy of the reply on each party.
    (f) Effect of filing petition. Unless otherwise ordered by the FAA 
decisionmaker, filing of a petition pursuant to this section will not 
stay or delay the effective date of the FAA decisionmaker's final 
decision and order on appeal and shall not toll the time allowed for 
judicial review.
    (g) FAA decisionmaker's decision on petition. The FAA decisionmaker 
has sole discretion to grant or deny a petition to reconsider or modify. 
The FAA decisionmaker will grant or deny a petition to reconsider or 
modify within a reasonable time after receipt of the petition or receipt 
of the reply petition, if any. The FAA decisionmaker may affirm, modify, 
or reverse the final decision and order on appeal, or may remand the 
case for any proceedings that the FAA decisionmaker determines may be 
necessary.

[Amdt. 13-21, 55 FR 27575, July 3, 1990; 55 FR 29293, July 18, 1990; 
Amdt. 13-23, 55 FR 45983, Oct. 31, 1990]



Sec. 13.235  Judicial review of a final decision and order.

    A person may seek judicial review of a final decision and order of 
the Administrator as provided in section 1006 of the Federal Aviation 
Act of 1958, as amended. A party seeking judicial review of a final 
decision and order shall file a petition for review not later than 60 
days after the final decision and order has been served on the party.



         Subpart H--Civil Monetary Penalty Inflation Adjustment

    Source: Docket No. 28762, 61 FR 67445, Dec. 20, 1996, unless 
otherwise noted.



Sec. 13.301  Scope and purpose.

    (a) This subpart provides a mechanism for the regular adjustment for 
inflation of civil monetary penalties in conformity with the Federal 
Civil Penalties Inflation Adjustment Act of 1990, 28 U.S.C. 2461 (note), 
as amended by the Debt Collection Improvement Act of 1996, Public Law 
104-134, April 26, 1996, in order to maintain the deterrent effect of 
civil monetary penalties and to promote compliance with the law. This 
subpart also sets out the current adjusted maximum civil monetary 
penalties or range of minimum and maximum civil monetary penalties for 
each statutory civil penalty subject to the FAA's jurisdiction.
    (b) Each adjustment to the maximum civil monetary penalty or the 
range of minimum and maximum civil monetary penalties, as applicable, 
made in accordance with this subpart applies prospectively from the date 
it becomes effective to actions initiated under this part, 
notwithstanding references to a specific maximum civil monetary penalty 
or range of minimum and maximum civil monetary penalties contained 
elsewhere in this part.



Sec. 13.303  Definitions.

    (a) Civil Monetary Penalty means any penalty, fine, or other 
sanction that:
    (1) Is for a specific monetary amount as provided by Federal law or 
has a maximum amount provided by Federal law;
    (2) Is assessed or enforced by the FAA pursuant to Federal law; and
    (3) Is assessed or enforced pursuant to an administrative proceeding 
or a civil action in the Federal courts.
    (b) Consumer Price Index means the Consumer Price Index for all 
urban

[[Page 69]]

consumers published by the Department of Labor.



Sec. 13.305  Cost of living adjustments of civil monetary penalties.

    (a) Except for the limitation to the initial adjustment to statutory 
maximum civil monetary penalties or range of minimum and maximum civil 
monetary penalties set forth in paragraph (c) of this section, the 
inflation adjustment under this subpart is determined by increasing the 
maximum civil monetary penalty or range of minimum and maximum civil 
monetary penalty for each civil monetary penalty by the cost-of-living 
adjustment. Any increase determined under paragraph (a) of this section 
is rounded to the nearest:
    (1) Multiple of $10 in the case of penalties less than or equal to 
$100;
    (2) Multiple of $100 in the case of penalties greater than $100 but 
less than or equal to $1,000;
    (3) Multiple of $1,000 in the case of penalties greater than $1,000 
but less than or equal to $10,000;
    (4) Multiple of $5,000 in the case of penalties greater than $10,000 
but less than or equal to $100,000;
    (5) Multiple of $10,000 in the case of penalties greater than 
$100,000 but less than or equal to $200,000; and
    (6) Multiple of $25,000 in the case of penalties greater than 
$200,000.
    (b) For purposes of paragraph (a) of this section, the term ``cost-
of-living adjustment'' means the percentage (if any) for each civil 
monetary penalty by which the Consumer Price Index for the month of June 
of the calendar year preceding the adjustment exceeds the Consumer Price 
Index for the month of June of the calendar year in which the amount of 
such civil monetary penalty was last set or adjusted pursuant to law.
    (c) Limitation on initial adjustment. The initial adjustment of 
maximum civil penalty or range of minimum and maximum civil monetary 
penalties made pursuant to this subpart does not exceed 10 percent of 
the statutory maximum civil penalty before an adjustment under this 
subpart is made. This limitation applies only to the initial adjustment, 
effective on January 21, 1997.
    (d) Inflation adjustment. Minimum and maximum civil monetary 
penalties within the jurisdiction of the FAA are adjusted for inflation 
as follows:

             Minimum and Maximum Civil Penalties--Adjusted for Inflation, Effective January 21, 1997
----------------------------------------------------------------------------------------------------------------
                                                     Minimum      New adjusted
                                Civil monetary   penalty amount     minimum     Maximum penalty    New adjusted
 United States Code  citation       penalty       as of  10/23/     penalty     amount as of 10/ maximum penalty
                                  description          96            amount          26/96            amount
----------------------------------------------------------------------------------------------------------------
49 U.S.C. 5123(a) (changed     Violations of     $250 per        $250 per       $25,000 per      $27,500 per
 1990).                         hazardous         violation per   violation      violation per    violation per
                                materials         day             per day        day.             day.
                                transportation
                                law or
                                regulations.
49 U.S.C. 46301(a)(1) (1958).  Violations of     N/A             N/A            $1,000 per       $1,100 per
                                FAA statute or                                   violation per    violation per
                                regulations by                                   day or per       day or per
                                a person.                                        flight.          flight.
49 U.S.C. 46301(a)(2)          Violations of     N/A             N/A            $10,000 per      $11,000 per
 (changed 1987).                FAA statute or                                   violation per    violation per
                                regulations by                                   day or per       day or per
                                a person                                         flight.          flight.
                                operating an
                                aircraft for
                                the
                                transportation
                                of passengers
                                or property for
                                compensation.
49 U.S.C. 46301(a)(3)(A)       Violations of     N/A             N/A            $10,000 per      $11,000 per
 (1974).                        FAA statute or                                   violation per    violation per
                                regulations                                      day or per       day or per
                                involving the                                    flight.          flight.
                                transportation
                                of hazardous
                                materials by
                                air.
49 U.S.C. 463(a)(3)(B) (1988)  Violations of     N/A             N/A            $10,000 per      $11,000 per
                                FAA statute or                                   violation per    violation per
                                regulations                                      day or per       day or per
                                involving the                                    flight.          flight.
                                registration or
                                recordation
                                under chapter
                                441 of aircraft
                                not used to
                                provide air
                                transportation.
49 U.S.C. 46301(b) (1987)....  Tampering with a  N/A             N/A            $2,000 per       $2,200 per
                                smoke alarm                                      violation.       violation.
                                device.

[[Page 70]]

 
49 U.S.C. 46302 (1984).......  Knowingly         N/A             N/A            $10,000 per      $11,000 per
                                providing false                                  violation.       violation.
                                information
                                about alleged
                                violations
                                involving the
                                special
                                aircraft
                                jurisdiction of
                                the United
                                States.
49 U.S.C. 46303 (1984).......  Carrying a        N/A             N/A            $10,000 per      $11,000 per
                                concealed                                        violation.       violation.
                                deadly or
                                dangerous
                                weapon.
----------------------------------------------------------------------------------------------------------------

[61 FR 67445, Dec. 20, 1996, as amended by Amdt. 13-28, 62 FR 4134, Jan. 
29, 1997]



        Subpart I--Flight Operational Quality Assurance Programs



Sec. 13.401  Flight Operational Quality Assurance Program: Prohibition Against Use of Data for Enforcement Purposes.

    (a) Applicability. This section applies to any operator of an 
aircraft who operates such aircraft under an approved Flight Operational 
Quality Assurance (FOQA) program.
    (b) Definitions. For the purpose of this section, the terms--
    (1) Flight Operational Quality Assurance (FOQA) program means an 
FAA-approved program for the routine collection and analysis of digital 
flight data gathered during aircraft operations, including data 
currently collected pursuant to existing regulatory provisions, when 
such data is included in an approved FOQA program.
    (2) FOQA data means any digital flight data that has been collected 
from an individual aircraft pursuant to an FAA-approved FOQA program, 
regardless of the electronic format of that data.
    (3) Aggregate FOQA data means the summary statistical indices that 
are associated with FOQA event categories, based on an analysis of FOQA 
data from multiple aircraft operations.
    (c) Requirements. In order for paragraph (e) of this section to 
apply, the operator must submit, maintain, and adhere to a FOQA 
Implementation and Operation Plan that is approved by the Administrator 
and which contains the following elements:
    (1) A description of the operator's plan for collecting and 
analyzing flight recorded data from line operations on a routine basis, 
including identification of the data to be collected;
    (2) Procedures for taking corrective action that analysis of the 
data indicates is necessary in the interest of safety;
    (3) Procedures for providing the FAA with aggregate FOQA data;
    (4) Procedures for informing the FAA as to any corrective action 
being undertaken pursuant to paragraph (c)(2) of this section.
    (d) Submission of aggregate data. The operator will provide the FAA 
with aggregate FOQA data in a form and manner acceptable to the 
Administrator.
    (e) Enforcement. Except for criminal or deliberate acts, the 
Administrator will not use an operator's FOQA data for aggregate FOQA 
data in an enforcement action against that operator or its employees 
when such FOQA data or aggregate FOQA data is obtained from a FOQA 
program that is approved by the Administrator.
    (f) Disclosure. FOQA data and aggregate FOQA data, if submitted in 
accordance with an order designating the information as protected under 
part 193 of this chapter, will be afforded the nondisclosure protections 
of part 193 of this chapter.
    (g) Withdrawal of program approval. The Administrator may withdraw 
approval of a previously approved FOQA program for failure to comply 
with the requirements of this chapter. Grounds for withdrawal of 
approval may include, but are not limited to--
    (1) Failure to implement corrective action that analysis of 
available FOQA data indicates is necessary in the interest of safety; or

[[Page 71]]

    (2) Failure to correct a continuing pattern of violations following 
notice by the agency; or also
    (3) Willful misconduct or willful violation of the FAA regulations 
in this chapter.

[Doc. No. FAA-2000-7554, 66 FR 55048, Oct. 31, 2001]



PART 14--RULES IMPLEMENTING THE EQUAL ACCESS TO JUSTICE ACT OF 1980--Table of Contents




                      Subpart A--General Provisions

Sec.
14.01  Purpose of these rules.
14.02  Proceedings covered.
14.03  Eligibility of applicants.
14.04  Standards for awards.
14.05  Allowance fees and expenses.

             Subpart B--Information Required From Applicants

14.10  Contents of application.
14.11  Net worth exhibit.
14.12  Documentation of fees and expenses.

           Subpart C--Procedures for Considering Applications

14.20  When an application may be filed.
14.21  Filing and service of documents.
14.22  Answer to application.
14.23  Reply.
14.24  Comments by other parties.
14.25  Settlement.
14.26  Further proceedings.
14.27  Decision.
14.28  Review by FAA decisionmaker.
14.29  Judicial review.
14.30  Payment of award.

    Authority: 5 U.S.C. 504; 49 U.S.C. 106(f), 40113, 46104 and 47122.

    Source: 54 FR 46199, Nov. 1, 1989, unless otherwise noted.



                      Subpart A--General Provisions



Sec. 14.01  Purpose of these rules.

    The Equal Access to Justice Act, 5 U.S.C. 504 (the Act), provides 
for the award of attorney fees and other expenses to eligible 
individuals and entities who are parties to certain administrative 
proceedings (adversary adjudications) before the Federal Aviation 
Administration (FAA). An eligible party may receive an award when it 
prevails over the FAA, unless the agency's position in the proceeding 
was substantially justified or special circumstances make an award 
unjust. The rules in this part describe the parties eligible for awards 
and the proceedings that are covered. They also explain how to apply for 
awards, and the procedures and standards that the FAA Decisionmaker will 
use to make them. As used hereinafter, the term ``agency'' applies to 
the FAA.



Sec. 14.02  Proceedings covered.

    (a) The Act applies to certain adversary adjudications conducted by 
the FAA under 49 CFR part 17 and the Acquisition Management System 
(AMS). These are adjudications under 5 U.S.C. 554, in which the position 
of the FAA is represented by an attorney or other representative who 
enters an appearance and participates in the proceeding. This subpart 
applies to proceedings under 49 U.S.C. 46301, 46302, and 46303 and to 
the Default Adjudicative Process under part 17 of this chapter and the 
AMS.
    (b) If a proceeding includes both matters covered by the Act and 
matters specifically excluded from coverage, any award made will include 
only fees and expenses related to covered issues.
    (c) Fees and other expenses may not be awarded to a party for any 
portion of the adversary adjudication in which such party has 
unreasonably protracted the proceedings.

[54 FR 46199, Nov. 1, 1989, as amended by Amdt. 14-03, 64 FR 32935, June 
18, 1999]



Sec. 14.03  Eligibility of applicants.

    (a) To be eligible for an award of attorney fees and other expenses 
under the Act, the applicant must be a party to the adversary 
adjudication for which it seeks an award. The term ``party'' is defined 
in 5 U.S.C. 504(b)(1)(B) and 5 U.S.C. 551(3). The applicant must show 
that it meets all conditions or eligibility set out in this subpart.
    (b) The types of eligible applicants are as follows:
    (1) An individual with a net worth of not more than $2 million at 
the time the adversary adjudication was initiated;
    (2) The sole owner of an unincorporated business who has a net worth 
of not more than $7 million, including both personal and business 
interests,

[[Page 72]]

and not more than 500 employees at the time the adversary adjudication 
was initiated;
    (3) A charitable or other tax-exempt organization described in 
section 501(c)(3) of the Internal Revenue Code (26 U.S.C. 501(c)(3)) 
with not more than 500 employees at the time the adversary adjudication 
was initiated; and
    (4) A cooperative association as defined in section 15(a) of the 
Agricultural Marketing Act (12 U.S.C. 1141j(a)) with not more than 500 
employees at the time the adversary adjudication was initiated; and
    (5) Any other partnership, corporation, association, or public or 
private organization with a net worth of not more than $7 million and 
not more than 500 employees at the time the adversary adjudication was 
initiated.
    (c) For the purpose of eligibility, the net worth and number of 
employees of an applicant shall be determined as of the date the 
proceeding was initiated.
    (d) An applicant who owns an unincorporated business will be 
considered an ``individual'' rather than a ``sole owner of an 
unincorporated business'' if the issues on which the applicant prevails 
are related primarily to personal interests rather than to business 
interest.
    (e) The employees of an applicant include all persons who regularly 
perform services for remuneration for the applicant, under the 
applicant's direction and control. Part-time employees shall be included 
on a proportional basis.
    (f) The net worth and number of employees of the applicant and all 
of its affiliates shall be aggregated to determine eligibility. Any 
individual, corporation, or other entity that directly or indirectly 
controls or owns a majority of the voting shares or other interest of 
the applicant, or any corporation or other entity of which the applicant 
directly or indirectly owns or controls a majority of the voting shares 
or other interest, will be considered an affiliate for purposes of this 
part, unless the ALJ or adjudicative officer determines that such 
treatment would be unjust and contrary to the purposes of the Act in 
light of the actual relationship between the affiliated entities. In 
addition, the ALJ or adjudicative officer may determine that financial 
relationships of the applicant, other than those described in this 
paragraph, constitute special circumstances that would make an award 
unjust.
    (g) An applicant that participates in a proceeding primarily on 
behalf of one or more other persons or entities that would be ineligible 
if not itself eligible for an award.

[54 FR 46199, Nov. 1, 1989, as amended by Amdt. 14-03, 64 FR 32935, June 
18, 1999]



Sec. 14.04  Standards for awards.

    (a) A prevailing applicant may receive an award for attorney fees 
and other expenses incurred in connection with a proceeding, or in a 
significant and discrete substantive portion of the proceeding, unless 
the position of the agency over which the applicant has prevailed was 
substantially justified. Whether or not the position of the FAA was 
substantially justified shall be determined on the basis of the record 
(including the record with respect to the action or failure to act by 
the agency upon which the civil action is based) which was made in the 
civil action for which fees and other expenses are sought. The burden of 
proof that an award should not be made to an eligible prevailing 
applicant is on the agency counsel, who may avoid an award by showing 
that the agency's position was reasonable in law and fact.
    (b) An award will be reduced or denied if the applicant has unduly 
or unreasonably protracted the proceeding or if special circumstances 
make the award sought unjust.



Sec. 14.05  Allowance fees and expenses.

    (a) Awards will be based on rates customarily charged by persons 
engaged in the business of acting as attorneys, agents, and expert 
witnesses, even if the services were made available without charge or at 
a reduced rate to the applicant.
    (b) No award for the fee of an attorney or agent under this part may 
exceed $125 per hour, or such rate as prescribed by 5 U.S.C. 504. No 
award to compensate an expert witness may exceed the highest rate at 
which the agency pays expert witnesses. However, an award may also 
include the reasonable expenses of the attorney, agent, or

[[Page 73]]

witness as a separate item, if the attorney, agent, or witness 
ordinarily charges clients separately for such expenses.
    (c) In determining the reasonableness of the fee sought for an 
attorney, agent, or expert witness, the ALJ or adjudicative officer 
shall consider the following:
    (1) If the attorney, agent, or witness is in private practice, his 
or her customary fee for similar services, or if an employee of the 
applicant, the fully allocated cost of the services;
    (2) The prevailing rate for similar services in the community in 
which the attorney, agent, or witness ordinarily performs services;
    (3) The time actually spent in the representation of the applicant;
    (4) The time reasonably spent in light of the difficulty or 
complexity of the issues in the proceeding; and
    (5) Such other factors as may bear on the value of the services 
provided.
    (d) The reasonable cost of any study, analysis, engineering report, 
test, project, or similar matter prepared on behalf of a party may be 
awarded, to the extent that the charge for the service does not exceed 
the prevailing rate for similar services, and the study or other matter 
was necessary for preparation of the applicant's case.
    (e) Fees may be awarded only for work performed after the issuance 
of a complaint, or in the Default Adjudicative Process for a protest or 
contract dispute under part 17 of this chapter and the AMS.

[Amdt. 13-18, 53 FR 34655, Sept. 7, 1988, as amended by Amdt. 14-1, 55 
FR 15131, Apr. 20, 1990; Amdt. 14-03, 64 FR 32935, June 18, 1999]



             Subpart B--Information Required From Applicants



Sec. 14.10  Contents of application.

    (a) An application for an award of fees and expenses under the Act 
shall identify the applicant and the proceeding for which an award is 
sought. The application shall show that the applicant has prevailed and 
identify the position of the agency in the proceeding that the applicant 
alleges was not substantially justified. Unless the applicant is an 
individual, the application shall also state the number of employees of 
the applicant and describe briefly the type and purpose of its 
organization or business.
    (b) The application shall also include a statement that the 
applicant's net worth does not exceed $2 million (if an individual) or 
$7 million (for all other applicants, including their affiliates) at the 
time the adversary adjudication was initiated. However, an applicant may 
omit this statement if:
    (1) It attaches a copy of a ruling by the Internal Revenue Service 
that it qualifies as an organization described in section 501(c)(3) of 
the Internal Revenue Code (26 U.S.C. 501(c)(3)), or in the case of a 
tax-exempt organization not required to obtain a ruling from the 
Internal Revenue Service on its exempt status, a statement that 
describes the basis for the applicant's belief that it qualifies under 
such section; or
    (2) It states that it is a cooperative association as defined in 
section 15(a) of the Agricultural Marketing Act (12 U.S.C. 1141j(a)).
    (c) The application shall state the amount of fees and expenses for 
which an award is sought.
    (d) The application may also include any other matters that the 
applicant wishes this agency to consider in determining whether and in 
what amount an award should be made.
    (e) The application shall be signed by the applicant or an 
authorized officer or attorney for the applicant. It shall also contain 
or be accompanied by a written verification under oath or under penalty 
of perjury that the information provided in the application is true and 
correct.
    (f) If the applicant is a partnership, corporation, association, 
organization, or sole owner of an unincorporated business, the 
application shall state that the applicant did not have more than 500 
employees at the time the adversary adjudication was initiated, giving 
the number of its employees and describing briefly the type and purpose 
of its organization or business.



Sec. 14.11  Net worth exhibit.

    (a) Each applicant except a qualified tax-exempt organization or 
cooperative association must provide with its application a detailed 
exhibit showing the net worth of the applicant and any

[[Page 74]]

affiliates when the proceeding was initiated. If any individual, 
corporation, or other entity directly or indirectly controls or owns a 
majority of the voting shares or other interest of the applicant, or if 
the applicant directly or indirectly owns or controls a majority of the 
voting shares or other interest of any corporation or other entity, the 
exhibit must include a showing of the net worth of all such affiliates 
or of the applicant including the affiliates. The exhibit may be in any 
form convenient to the applicant that provides full disclosure of the 
applicant's and its affiliates' assets and liabilities and is sufficient 
to determine whether the applicant qualifies under the standards in this 
part. The administrative law judge may require an applicant to file 
additional information to determine the eligibility for an award.
    (b) The net worth exhibit shall describe any transfers of assets 
from, or obligations incurred by, the applicant or any affiliate, 
occurring in the one-year period prior to the date on which the 
proceeding was initiated, that reduced the net worth of the applicant 
and its affiliates below the applicable net worth ceiling. If there were 
no such transactions, the applicant shall so state.
    (c) Ordinarily, the net worth exhibit will be included in the public 
record of the proceeding. However, an applicant that objects to public 
disclosure of the net worth exhibit, or any part of it, may submit that 
portion of the exhibit directly to the ALJ or adjudicative officer in a 
sealed envelope labeled ``Confidential Financial Information,'' 
accompanied by a motion to withhold the information.
    (1) The motion shall describe the information sought to be withheld 
and explain, in detail, why it should be exempt under applicable law or 
regulation, why public disclosure would adversely affect the applicant, 
and why disclosure is not required in the public interest.
    (2) The net worth exhibit shall be served on the FAA counsel, but 
need not be served on any other party to the proceeding.
    (3) If the ALJ or adjudicative officer finds that the net worth 
exhibit, or any part of it, should not be withheld from disclosure, it 
shall be placed in the public record of the proceeding. Otherwise, any 
request to inspect or copy the exhibit shall be disposed of in 
accordance with the FAA's established procedures.

[54 FR 46199, Nov. 1, 1989, as amended by Amdt. 14-03, 64 FR 32935, June 
18, 1999]



Sec. 14.12  Documentation of fees and expenses.

    The application shall be accompanied by full documentation of the 
fees and expenses, including the cost of any study, analysis, 
engineering report, test, project or similar matter, for which an award 
is sought. A separate itemized statement shall be submitted for each 
professional firm or individual whose services are covered by the 
application, showing the hours spent in connection with the proceedings 
by each individual, a description of the specific services performed, 
the rate at which each fee has been computed, any expenses for which 
reimbursement is sought, the total amount claimed, and the total amount 
paid or payable by the applicant or by any other person or entity for 
the services provided. The administrative law judge may require the 
applicant to provide vouchers, receipts, or other substantiation for any 
expenses claimed.



           Subpart C--Procedures for Considering Applications



Sec. 14.20  When an application may be filed.

    (a) An application may be filed whenever the applicant has prevailed 
in the proceeding, but in no case later than 30 days after the FAA 
Decisionmaker's final disposition of the proceeding, or service of the 
order of the Administrator in a proceeding under the AMS.
    (b) If review or reconsideration is sought or taken of a decision to 
which an applicant believes it has prevailed, proceedings for the award 
of fees shall be stayed pending final disposition of the underlying 
controversy.
    (c) For purposes of this part, final disposition means the later of:
    (1) Under part 17 of this chapter and the AMS, the date on which the 
order of the Administrator is served;

[[Page 75]]

    (2) The date on which an unappealed initial decision becomes 
administratively final;
    (3) Issuance of an order disposing of any petitions for 
reconsideration of the FAA Decisionmaker's final order in the 
proceeding;
    (4) If no petition for reconsideration is filed, the last date on 
which such a petition could have been filed; or
    (5) Issuance of a final order or any other final resolution of a 
proceeding, such as a settlement or voluntary dismissal, which is not 
subject to a petition for reconsideration.

[54 FR 46199, Nov. 1, 1989, as amended by Amdt. 14-03, 64 FR 32936, June 
18, 1999]



Sec. 14.21  Filing and service of documents.

    Any application for an award or other pleading or document related 
to an application shall be filed and served on all parties to the 
proceeding in the same manner as other pleadings in the proceeding, 
except as provided in Sec. 14.11(b) for confidential financial 
information. Where the proceeding was held under part 17 of this chapter 
and the AMS, the application shall be filed with the FAA's attorney and 
with the Office of Dispute Resolution for Acquisition.

[Doc. No. FAA-1998-4379, 64 FR 32936, June 18, 1999]



Sec. 14.22  Answer to application.

    (a) Within 30 days after service of an application, counsel 
representing the agency against which an award is sought may file an 
answer to the application. Unless agency counsel requests an extension 
of time for filing or files a statement of intent to negotiate under 
paragraph (b) of the section, failure to file an answer within the 30-
day period may be treated as a consent to the award requested.
    (b) If the FAA's counsel and the applicant believe that the issues 
in the fee application can be settled, they may jointly file a statement 
of their intent to negotiate a settlement. The filing of this statement 
shall extend the time for filing an answer for an additional 30 days, 
and further extensions may be granted by the ALJ or adjudicative officer 
upon request by the FAA's counsel and the applicant.
    (c) The answer shall explain in detail any objections to the award 
requested and identify the facts relied on in support of agency 
counsel's position. If the answer is based on any alleged facts not 
already in the record of the proceeding, agency counsel shall include 
with the answer either supporting affidavits or a request for further 
proceedings under Sec. 14.26.

[54 FR 46199, Nov. 1, 1989, as amended by Amdt. 14-03, 64 FR 32936, June 
18, 1999]



Sec. 14.23  Reply.

    Within 15 days after service of an answer, the applicant may file a 
reply. If the reply is based on any alleged facts not already in the 
record of the proceeding, the applicant shall include with the reply 
either supporting affidavits or a request for further proceedings under 
Sec. 14.26.



Sec. 14.24  Comments by other parties.

    Any party to a proceeding other than the applicant and the FAA's 
counsel may file comments on an application within 30 days after it is 
served, or on an answer within 15 days after it is served. A commenting 
party may not participate further in proceedings on the application 
unless the ALJ or adjudicative officer determines that the public 
interest requires such participation in order to permit full exploration 
of matters raised in the comments.

[Doc. No. FAA-1998-4379, 64 FR 32936, June 18, 1999]



Sec. 14.25  Settlement.

    The applicant and agency counsel may agree on a proposed settlement 
of the award before final action on the application, either in 
connection with a settlement of the underlying proceeding, or after the 
underlying proceeding has been concluded. If a prevailing party and 
agency counsel agree on a proposed settlement of an award before an 
application has been filed, the application shall be filed with the 
proposed settlement.



Sec. 14.26  Further proceedings.

    (a) Ordinarily the determination of an award will be made on the 
basis of

[[Page 76]]

the written record; however, on request of either the applicant or 
agency counsel, or on his or her own initiative, the ALJ or adjudicative 
officer assigned to the matter may order further proceedings, such as an 
informal conference, oral argument, additional written submissions, or 
an evidentiary hearing. Such further proceedings shall be held only when 
necessary for full and fair resolution of the issues arising from the 
application and shall be conducted as promptly as possible.
    (b) A request that the administrative law judge order further 
proceedings under this section shall specifically identify the 
information sought or the disputed issues and shall explain why the 
additional proceedings are necessary to resolve the issues.

[54 FR 46199, Nov. 1, 1989, as amended by Amdt. 14-03, 64 FR 32936, June 
18, 1999]



Sec. 14.27  Decision.

    (a) The ALJ shall issue an initial decision on the application 
within 60 days after completion of proceedings on the application.
    (b) An adjudicative officer in a proceeding under part 17 of this 
chapter and the AMS shall prepare a findings and recommendations for the 
Office of Dispute Resolution for Acquisition.
    (c) A decision under paragraph (a) or (b) of this section shall 
include written findings and conclusions on the applicant's eligibility 
and status as prevailing party and an explanation of the reasons for any 
difference between the amount requested and the amount awarded. The 
decision shall also include, if at issue, findings on whether the FAA's 
position was substantially justified, or whether special circumstances 
make an award unjust.

[Doc. No. FAA-1998-4379, 64 FR 32936, June 18, 1999]



Sec. 14.28  Review by FAA decisionmaker.

    (a) In proceedings other than those under part 17 of this chapter 
and the AMS, either the applicant or the FAA counsel may seek review of 
the initial decision on the fee application. Additionally, the FAA 
Decisionmaker may decide to review the decision on his/her own 
initiative. If neither the applicant nor the FAA's counsel seeks review 
within 30 days after the decision is issued, it shall become final. 
Whether to review a decision is a matter within the discretion of the 
FAA Decisionmaker. If review is taken, the FAA Decisionmaker will issue 
a final decision on the application or remand the application to the ALJ 
who issue the initial fee award determination for further proceedings.
    (b) In proceedings under part 17 of this chapter and the AMS, the 
adjudicative officer shall prepare findings and recommendations for the 
Office of Dispute Resolution for Acquisition with recommendations as to 
whether or not an award should be made, the amount of the award, and the 
reasons therefor. The Office of Dispute Resolution for Acquisition shall 
submit a recommended order to the Administrator after the completion of 
all submissions related to the EAJA application. Upon the 
Administrator's action, the order shall become final, and may be 
reviewed under 49 U.S.C. 46110.

[Doc. No. FAA-1998-4379, 64 FR 32936, June 18, 1999]



Sec. 14.29  Judicial review.

    If an applicant is dissatisfied with the determination of fees and 
other expenses made under this subsection, pursuant 5 U.S.C. 504(c)(2), 
that applicant may, within thirty (30) days after the determination is 
made, appeal the determination to the court of the United States having 
jurisdiction to review the merits of the underlying decision of the FAA 
adversary adjudication. The court's determination on any appeal heard 
under this paragraph shall be based solely on the factual record made 
before the FAA. The court may modify the determination of fees and other 
expenses only if the court finds that the failure to make an award of 
fees and other expenses, or the calculation of the amount of the award, 
was unsupported by substantial evidence.



Sec. 14.30  Payment of award.

    An applicant seeking payment of an award shall submit to the 
disbursing official of the FAA a copy of the FAA Decisionmaker's final 
decision granting the award, accompanied by a statement that the 
applicant will not seek

[[Page 77]]

review of the decision in the United States courts. Applications for 
award grants in cases involving the FAA shall be sent to: The Office of 
Accounting and Audit, AAA-1, Federal Aviation Administration, 800 
Independence Avenue, SW., Washington, DC 20591. The agency will pay the 
amount awarded to the applicant within 60 days, unless judicial review 
of the award or of the underlying decision of the adversary adjudication 
has been sought by the applicant or any other party to the proceeding.



PART 15--ADMINISTRATIVE CLAIMS UNDER FEDERAL TORT CLAIMS ACT--Table of Contents




                      Subpart A--General Procedures

Sec.
15.1  Scope of regulations.
15.3  Administrative claim, when presented; appropriate office.
15.5  Administrative claim, who may file.
15.7  Administrative claims; evidence and information to be submitted.
15.9  Investigation and examination.

 Subpart B--Indemnification Under Section 1118 of the Federal Aviation 
                               Act of 1958

15.101  Applicability.
15.103  Exclusions.
15.105  Filing of requests for indemnification.
15.107  Notification requirements.
15.109  Settlements.
15.111  Conduct of litigation.
15.113  Indemnification agreements.
15.115  Payment.

    Authority: 5 U.S.C. 301; 28 U.S.C. 2672, 2675; 49 U.S.C. 106(g), 
40113, 44721.



                      Subpart A--General Procedures

    Source: Docket No. 25264, 52 FR 18171, May 13, 1987, unless 
otherwise noted.



Sec. 15.1  Scope of regulations.

    (a) These regulations apply to claims asserted under the Federal 
Tort Claims Act, as amended, for money damages against the United States 
for injury to, or loss of property, or for personal injury or death, 
caused by the negligent or wrongful act or omission of an employee of 
the FAA acting within the scope of office or employment. The regulations 
in this part supplement the Attorney General's regulations in 28 CFR 
Part 14, as amended. The regulations in 28 CFR Part 14, as amended, and 
the regulations in this part apply to consideration by the FAA of 
administrative claims under the Federal Tort Claims Act.



Sec. 15.3  Administrative claim, when presented; appropriate office.

    (a) A claim is deemed to have been presented when the FAA receives, 
at a place designated in paragraph (b) of this section, an executed 
Standard Form 95 or other written notification of an incident, 
accompanied by a claim for money damages in a sum certain for injury to, 
or loss of, property or for personal injury or death, alleged to have 
occurred by reason of the incident. A claim which should have been 
presented to the FAA but which was mistakenly filed with another Federal 
agency, is deemed presented to the FAA on the date the claim is received 
by the FAA at a place designated in paragraph (b) of this section. A 
claim addressed to, or filed with, the FAA by mistake will be 
transferred to the appropriate Federal agency, if that agency can be 
determined, or returned to the claimant.
    (b) Claims shall be delivered or mailed to the Assistant Chief 
Counsel, Litigation Division, AGC-400, Federal Aviation Administration, 
800 Independence Avenue, SW., Washington, DC 20591, or alternatively, 
may be mailed or delivered to the Regional Counsel in any of the FAA 
Regional Offices or the Assistant Chief Counsel, Europe, Africa, and 
Middle East Area Office.
    (d) A claim presented in accordance with this section may be amended 
by the claimant at any time prior to final FAA action or prior to the 
exercise of the claimant's option, under 28 U.S.C. 2675(a), to deem the 
agency's failure to make a final disposition of his or her claim within 
6 months after it was filed as a final denial. Each amendment to a claim 
shall be submitted in writing and signed by the claimant or the 
claimant's duly authorized agent or legal representative. Upon the 
timely filing of an amendment to a pending claim, the FAA has 6 months 
thereafter in which to make a final disposition of the claim as amended, 
and the claimant's option under 28 U.S.C. 2675(a) does

[[Page 78]]

not accrue until 6 months after the filing of the amendment.

[Doc. No. 18884, 44 FR 63723, Nov. 5, 1979, as amended by Amdt. 15-1, 54 
FR 39290, Sept. 25, 1989; Amdt. 15-4, 62 FR 46866, Sept. 4, 1997]



Sec. 15.5  Administrative claim, who may file.

    (a) A claim for injury to, or loss of, property may be presented by 
the owner of the property interest which is the subject of the claim or 
by the owner's duly authorized agent or legal representative.
    (b) A claim for personal injury may be presented by the injured 
person or that person's duly authorized agent or legal representative.
    (c) A claim based on death may be presented by the executor or 
administrator of the decedent's estate or by any other person legally 
entitled to assert such a claim under applicable State law.
    (d) A claim for loss wholly compensated by an insurer with the 
rights of a subrogee may be presented by the insurer. A claim for loss 
partially compensated by an insurer with the rights of a subrogee may be 
presented by the insurer or the insured individually, as their 
respective interest appear, or jointly. Whenever an insurer presents a 
claim asserting the rights of a subrogee, it shall present with its 
claim appropriate evidence that it has the rights of a subrogee.
    (e) A claim presented by an agent or legal representative shall be 
presented in the name of the claimant, be signed by the agent or legal 
representative, show the title or legal capacity of the person signing, 
and be accompanied by evidence of authority to present a claim on behalf 
of the claimant as agent, executor, administrator, parent, guardian, or 
other representative.



Sec. 15.7  Administrative claims; evidence and information to be submitted.

    (a) Death. In support of a claim based on death, the claimant may be 
required to submit the following evidence or information:
    (1) An authenticated death certificate or other competent evidence 
showing cause of death, date of death, and age of the decedent.
    (2) The decedent's employment or occupation at time of death, 
including monthly or yearly salary or earnings (if any), and the 
duration of last employment or occupation.
    (3) Full names, addresses, birth dates, kinship, and marital status 
of the decedent's survivors, including identification of those survivors 
who were dependent for support upon the decedent at the time of death.
    (4) Degree of support afforded by the decedent to each survivor 
dependent upon decedent for support at the time of death.
    (5) Decedent's general, physical, and mental conditions before 
death.
    (6) Itemized bills for medical and burial expenses incurred by 
reason of the incident causing death or itemized receipts of payment for 
such expenses.
    (7) If damages for pain and suffering prior to death are claimed, a 
physician's detailed statement specifying the injuries suffered, 
duration of pain and suffering, any drugs administered for pain, and the 
decedent's physical condition in the interval between injury and death.
    (8) Any other evidence or information which may have a bearing on 
either the responsibility of the United States for the death or the 
amount of damages claimed.
    (b) Personal injury. In support of a claim for personal injury, 
including pain and suffering, the claimant may be required to submit the 
following evidence or information:
    (1) A written report by the attending physician or dentist setting 
forth the nature and extent of the injuries, nature and extent of 
treatment, any degree of temporary or permanent disability, the 
prognosis, period of hospitalization, and any diminished earning 
capacity.
    (2) In addition to the report required by paragraph (b)(1) of this 
section, the claimant may be required to submit to a physical or mental 
examination by a physician employed by the FAA or another Federal 
agency. A copy of the report of the examining physician is made 
available to the claimant upon the claimant's written request if the 
claimant has, upon request, furnished the report required by paragraph 
(b)(1),

[[Page 79]]

and has made or agrees to make available to the FAA any other 
physician's reports previously or thereafter made on the physical or 
mental condition which is the subject matter of the claim.
    (3) Itemized bills for medical, dental, and hospital expenses 
incurred or itemized receipts of payment for such expenses.
    (4) If the prognosis reveals the necessity for future treatment, a 
statement of expected expenses for such treatment.
    (5) If a claim is made for loss of time from employment, a written 
statement from the claimant's employer showing actual time lost from 
employment, whether the claimant is a full or part-time employee, and 
wages or salary actually lost.
    (6) If a claim is made for loss of income and the claimant is self-
employed, documentary evidence showing the amount of earnings actually 
lost.
    (7) Any other evidence or information which may have a bearing on 
the responsibility of the United States for the personal injury or the 
damages claimed.
    (c) Property damage. In support of a claim for injury to or loss of 
property, real or personal, the claimant may be required to submit the 
following evidence or information:
    (1) Proof of ownership of the property interest which is the subject 
of the claim.
    (2) A detailed statement of the amount claimed with respect to each 
item of property.
    (3) An itemized receipt of payment for necessary repairs or itemized 
written estimates of the cost of such repairs.
    (4) A statement listing date of purchase, purchase price, and 
salvage value, where repair is not economical.
    (5) Any other evidence or information which may have a bearing on 
either the responsibility of the United States for the injury to or loss 
of property or the damages claimed.



Sec. 15.9  Investigation and examination.

    The FAA may investigate a claim or conduct a physical examination of 
a claimant. The FAA may request any other Federal agency to investigate 
a claim or conduct a physical examination of a claimant and provide a 
report of the investigation or examination to the FAA.



 Subpart B--Indemnification Under Section 1118 of the Federal Aviation 
                               Act of 1958

    Source: Amdt. 15-2, 55 FR 18710, May 3, 1990, unless otherwise 
noted.



Sec. 15.101  Applicability.

    This subpart prescribes procedural requirements for the 
indemnification of a publisher of aeronautical charts or maps under 
section 1118 of the Federal Aviation Act of 1958, as amended, when the 
publisher incurs liability as a result of publishing--
    (a) A chart or map accurately depicting a defective or deficient 
flight procedure or airway that was promulgated by the FAA; or
    (b) Aeronautical data that--
    (1) Is visually displayed in the cockpit of an aircraft; and
    (2) When visually displayed, accurately depicts a defective or 
deficient flight procedure or airway promulgated by the FAA.



Sec. 15.103  Exclusions.

    A publisher that requests indemnification under this part will not 
be indemnified if--
    (a) The complaint filed against the publisher, or demand for payment 
against the publisher, first occurred before December 19, 1985;
    (b) The publisher does not negotiate a good faith settlement;
    (c) The publisher does not conduct a good faith defense;
    (d) The defective or deficient flight procedure or airway--
    (1) Was not promulgated by the FAA;
    (2) Was not accurately depicted on the publisher's chart or map;
    (3) Was not accurately displayed on a visual display in the cockpit, 
or
    (4) Was obviously defective or deficient;
    (e) The publisher does not give notice as required by Sec. 15.107 of 
this part and that failure is prejudicial to the Government; or

[[Page 80]]

    (f) The publisher does not appeal a lower court's decision pursuant 
to a request by the Administrator under Sec. 15.111(d)(2) of this part.



Sec. 15.105  Filing of requests for indemnification.

    A request for indemnification under this part--
    (a) May be filed by--
    (1) A publisher described in Sec. 15.101 of this part; or
    (2) The publisher's duly authorized agent or legal representative;
    (b) Shall be filed with the Chief Counsel, Federal Aviation 
Administration, 800 Independence Avenue SW., Washington, DC 20591; and
    (c) Shall state the basis for the publisher's assertion that 
indemnification under this part is required.



Sec. 15.107  Notification requirements.

    A request for indemnification will not be considered by the FAA 
unless the following conditions are met:
    (a) The publisher must notify the Chief Counsel of the FAA, within 
the time limits prescribed in paragraph (b) or (c) of this section, of 
the publisher's first receipt of a demand for payment, or service of a 
complaint in any proceeding, federal or state, in which it appears that 
indemnification under this part may be required.
    (b) For each complaint filed, or demand for payment made, on or 
after December 19, 1985, and before June 4, 1990, the notice required by 
paragraph (a) of this section must be received by the FAA on or before 
July 2, 1990.
    (c) For each complaint filed, or demand for payment made, on or 
after June 4, 1990, the notice required by paragraph (a) of this section 
must be received by the FAA within 60 days after the day the publisher 
first receives the demand for payment or service of the complaint.
    (d) Within 5 days after the day a judgment is rendered against the 
publisher in any proceeding, or within 30 days of the denial of an 
appeal, whichever is later, the publisher must notify the FAA Chief 
Counsel that--
    (1) There is an adverse judgment against the publisher; and
    (2) The publisher has a claim for indemnification against the FAA 
arising out of that judgment.



Sec. 15.109  Settlements.

    (a) A publisher may not settle a claim with another party, for which 
the publisher has sought, or intends to seek, indemnification under this 
part, unless--
    (1) The publisher submits a copy of the proposed settlement, and a 
statement justifying the settlement, to the Chief Counsel of the FAA; 
and
    (2) The Administrator and where necessary, the appropriate official 
of the Department of Justice, approves the proposed settlement.
    (3) The publisher submits a signed release that clearly releases the 
United States from any further liability to the publisher and the 
claimant.
    (b) If the Administrator does not approve the proposed settlement, 
the Administrator will--
    (1) So notify the publisher by registered mail within 60 days of 
receipt of the proposed settlement; and
    (2) Explain why the request for indemnification was not approved.
    (c) If the Administrator approves the proposed settlement, the 
Administrator will so notify the publisher by registered mail within 60 
days after the FAA's receipt of the proposed settlement.
    (d) If the Administrator does not have sufficient information to 
approve or disapprove the proposed settlement, the Administrator will 
request, within 60 days after receipt of the proposed settlement, the 
additional information needed to make a determination.



Sec. 15.111  Conduct of litigation.

    (a) If a lawsuit is filed against the publisher and the publisher 
has sought, or intends to seek, indemnification under this part, the 
publisher shall--
    (1) Give notice as required by Sec. 15.107 of this part;
    (2) If requested by the United States--
    (i) Implead the United States as a third-party defendant in the 
action; and
    (ii) Arrange for the removal of the action to Federal Court;

[[Page 81]]

    (3) Promptly provide any additional information requested by the 
United States; and
    (4) Cooperate with the United States in the defense of the lawsuit.
    (b) If the lawsuit filed against the publisher results in a proposed 
settlement, the publisher shall submit that proposed settlement to the 
FAA for approval in accordance with Sec. 15.109 of this part.
    (c) If the lawsuit filed against the publisher results in a judgment 
against the publisher and the publisher has sought, or intends to seek, 
indemnification under this part as a result of the adverse judgment, the 
publisher shall--
    (1) Give notice to the FAA as required by Sec. 15.107(d) of this 
part;
    (2) Submit a copy of the trial court's decision to the FAA Chief 
Counsel not more than 5 business days after the adverse judgment is 
rendered; and
    (3) If an appeal is taken from the adverse judgment, submit a copy 
of the appellate decision to the FAA Chief Counsel not more than 30 days 
after that decision is rendered.
    (d) Within 60 days after receipt of the trial court's decision, the 
Administrator by registered mail will--
    (1) Notify the publisher that indemnification is required under this 
part;
    (2) Request that the publisher appeal the trial court's adverse 
decision; or
    (3) Notify the publisher that it is not entitled to indemnification 
under this part and briefly state the basis for the denial.



Sec. 15.113  Indemnification agreements.

    (a) Upon a finding of the Administrator that indemnification is 
required under this part, and after obtaining the concurrence of the 
United States Department of Justice, the FAA will promptly enter into an 
indemnification agreement providing for the payment of the costs 
specified in paragraph (c) of this section.
    (b) The indemnification agreement will be signed by the Chief 
Counsel and the publisher.
    (c) The FAA will indemnify the publisher for--
    (1) Compensatory damages awarded by the court against the publisher;
    (2) Reasonable costs and fees, including reasonable attorney fees at 
a rate not to exceed that permitted under the Equal Access to Justice 
Act (5 U.S.C. 504), and any postjudgment interest, if the publisher 
conducts a good faith defense, or pursues a good faith appeal, at the 
request, or with the concurrence, of the FAA.
    (d) Except as otherwise provided in this section, the FAA will not 
indemnify the publisher for--
    (1) Punitive or exemplary damages;
    (2) Civil or criminal fines or any other litigation sanctions;
    (3) Postjudgment interest;
    (4) Costs;
    (5) Attorney fees; or
    (6) Other incidental expenses.
    (e) The indemnification agreement must provide that the Government 
will be subrogated to all claims or rights of the publisher, including 
third-party claims, cross-claims, and counterclaims.



Sec. 15.115  Payment.

    After execution of the indemnification agreement, the FAA will 
submit the agreement to the United States Department of Justice and 
request payment, in accordance with the agreement, from the Judgment 
Fund.



PART 16--RULES OF PRACTICE FOR FEDERALLY-ASSISTED AIRPORT ENFORCEMENT PROCEEDINGS--Table of Contents




                      Subpart A--General Provisions

Sec.
16.1  Applicability and description of part.
16.3  Definitions.
16.5  Separation of functions.

Subpart B--General Rules Applicable to Complaints, Proceedings Initiated 
                         by the FAA, and Appeals

16.11  Expedition and other modification of process.
16.13  Filing of documents.
16.15  Service of documents on the parties and the agency.
16.17  Computation of time.
16.19  Motions.

            Subpart C--Special Rules Applicable to Complaints

16.21  Pre-complaint resolution.

[[Page 82]]

16.23  Complaints, answers, replies, rebuttals, and other documents.
16.25  Dismissals.
16.27  Incomplete complaints.
16.29  Investigations.
16.31  Director's determinations after investigations.
16.33  Final decisions without hearing.

 Subpart D--Special Rules Applicable to Proceedings Initiated by the FAA

16.101  Basis for the initiation of agency action.
16.103  Notice of investigation.
16.105  Failure to resolve informally.

                Subpart E--Proposed Orders of Compliance

16.109  Orders terminating eligibility for grants, cease and desist 
          orders, and other compliance orders.

                           Subpart F--Hearings

16.201  Notice and order of hearing.
16.202  Powers of a hearing officer.
16.203  Appearances, parties, and rights of parties.
16.207  Intervention and other participation.
16.209  Extension of time.
16.211  Prehearing conference.
16.213  Discovery.
16.215  Depositions.
16.217  Witnesses.
16.219  Subpoenas.
16.221  Witness fees.
16.223  Evidence.
16.225  Public disclosure of evidence.
16.227  Standard of proof.
16.229  Burden of proof.
16.231  Offer of proof.
16.233  Record.
16.235  Argument before the hearing officer.
16.237  Waiver of procedures.

            Subpart G--Initial Decisions, Orders and Appeals

16.241  Initial decisions, orders, and appeals.
16.243  Consent orders.

                       Subpart H--Judicial Review

16.247  Judicial review of a final decision and order.

                   Subpart I--Ex Parte Communications

16.301  Definitions.
16.303  Prohibited ex parte communications.
16.305  Procedures for handling ex parte communications.
16.307  Requirement to show cause and imposition of sanction.

    Authority: 49 U.S.C. 106(g), 322, 1110, 1111, 1115, 1116, 1718 (a) 
and (b), 1719, 1723, 1726, 1727, 40103(e), 40113, 40116, 44502(b), 
46101, 46104, 46110, 47104, 47106(e), 47107, 47108, 47111(d), 47122, 
47123-47125, 47151-47153, 48103.

    Source: Docket No. 27783, 61 FR 54004, October 16, 1996, unless 
otherwise noted.



                      Subpart A--General Provisions



Sec. 16.1  Applicability and description of part.

    (a) General. The provisions of this part govern all proceedings 
involving Federally-assisted airports, except for disputes between U.S. 
and foreign air carriers and airport proprietors concerning the 
reasonableness of airport fees covered by 14 CFR part 302, whether the 
proceedings are instituted by order of the FAA or by filing with the FAA 
a complaint, under the following authorities:
    (1) 49 U.S.C. 40103(e), prohibiting the grant of exclusive rights 
for the use of any landing area or air navigation facility on which 
Federal funds have been expended (formerly section 308 of the Federal 
Aviation Act of 1958, as amended).
    (2) Requirements of the Anti-Head Tax Act, 49 U.S.C. 40116.
    (3) The assurances contained in grant-in-aid agreements issued under 
the Federal Airport Act of 1946, 49 U.S.C. 1101 et seq (repealed 1970).
    (4) The assurances contained in grant-in-aid agreements issued under 
the Airport and Airway Development Act of 1970, as amended, 49 U.S.C. 
1701 et seq.
    (5) The assurances contained in grant-in-aid agreements issued under 
the Airport and Airway Improvement Act of 1982 (AAIA), as amended, 49 
U.S.C. 47101 et seq., specifically section 511(a), 49 U.S.C. 47107(a) 
and (b).
    (6) Section 505(d) of the Airport and Airway Improvement Act of 
1982, as amended, 49 U.S.C. 47113.
    (7) Obligations contained in property deeds for property transferred 
pursuant to section 16 of the Federal Airport Act (49 U.S.C. 1115), 
section 23 of the Airport and Airway Development Act (49 U.S.C. 1723), 
or section 516 of the Airport and Airway Improvement Act (49 U.S.C. 
47125).
    (8) Obligations contained in property deeds for property transferred 
under

[[Page 83]]

the Surplus Property Act (49 U.S.C. 47151-47153).
    (b) Other agencies. Where a grant assurance concerns a statute, 
executive order, regulation, or other authority that provides an 
administrative process for the investigation or adjudication of 
complaints by a Federal agency other than the FAA, persons shall use the 
administrative process established by those authorities. Where a grant 
assurance concerns a statute, executive order, regulation, or other 
authority that enables a Federal agency other than the FAA to 
investigate, adjudicate, and enforce compliance under those authorities 
on its own initiative, the FAA may defer to that Federal agency.
    (c) Other enforcement. If a complaint or action initiated by the FAA 
involves a violation of the 49 U.S.C. subtitle VII or FAA regulations, 
except as specified in paragraphs (a)(1) and (a)(2) of this section, the 
FAA may take investigative and enforcement action under 14 CFR part 13, 
``Investigative and Enforcement Procedures.''
    (d) Effective date. This part applies to a complaint filed with the 
FAA and to an investigation initiated by the FAA on or after December 
16, 1996.



Sec. 16.3  Definitions.

    Terms defined in the Acts are used as so defined. As used in this 
part:
    Act means a statute listed in Sec. 16.1 and any regulation, 
agreement, or document of conveyance issued or made under that statute.
    Agency attorney means the Deputy Chief Counsel; the Assistant Chief 
Counsel and attorneys in the Airports/Environmental Law Division of the 
Office of the Chief Counsel; the Assistant Chief Counsel and attorneys 
in an FAA region or center who represent the FAA during the 
investigation of a complaint or at a hearing on a complaint, and who 
prosecute on behalf of the FAA, as appropriate. An agency attorney shall 
not include the Chief Counsel; the Assistant Chief Counsel for 
Litigation, or any attorney on the staff of the Assistant Chief Counsel 
for Litigation, who advises the Associate Administrator regarding an 
initial decision of the hearing officer or any appeal to the Associate 
Administrator or who is supervised in that action by a person who 
provides such advice in an action covered by this part.
    Agency employee means any employee of the U.S. Department of 
Transportation.
    Associate Administrator means the Associate Administrator for 
Airports or a designee.
    Complainant means the person submitting a complaint.
    Complaint means a written document meeting the requirements of this 
part filed with the FAA by a person directly and substantially affected 
by anything allegedly done or omitted to be done by any person in 
contravention of any provision of any Act, as defined in this section, 
as to matters within the jurisdiction of the Administrator.
    Director means the Director of the Office of Airport Safety and 
Standards.
    Director's determination means the initial determination made by the 
Director following an investigation, which is a non-final agency 
decision.
    File means to submit written documents to the FAA for inclusion in 
the Part 16 Airport Proceedings Docket or to a hearing officer.
    Final decision and order means a final agency decision that disposes 
of a complaint or determines a respondent's compliance with any Act, as 
defined in this section, and directs appropriate action.
    Hearing officer means an attorney designated by the FAA in a hearing 
order to serve as a hearing officer in a hearing under this part. The 
following are not designated as hearing officers: the Chief Counsel and 
Deputy Chief Counsel; the Assistant Chief Counsel and attorneys in the 
FAA region or center in which the noncompliance has allegedly occurred 
or is occurring; the Assistant Chief Counsel and attorneys in the 
Airports and Environmental Law Division of the FAA Office of the Chief 
Counsel; and the Assistant Chief Counsel and attorneys in the Litigation 
Division of the FAA Office of Chief Counsel.
    Initial decision means a decision made by the hearing officer in a 
hearing under subpart F of this part.
    Mail means U.S. first class mail; U.S. certified mail; and U.S. 
express mail.

[[Page 84]]

    Noncompliance means anything done or omitted to be done by any 
person in contravention of any provision of any Act, as defined in this 
section, as to matters within the jurisdiction of the Administrator.
    Party means the complainant(s) and the respondent(s) named in the 
complaint and, after an initial determination providing an opportunity 
for hearing is issued under Sec. 16.31 and subpart E of this part, the 
agency.
    Person in addition to its meaning under 49 U.S.C. 40102(a)(33), 
includes a public agency as defined in 49 U.S.C. 47102(a)(15).
    Personal delivery means hand delivery or overnight express delivery 
service.
    Respondent means any person named in a complaint as a person 
responsible for noncompliance.
    Sponsor means:
    (1) Any public agency which, either individually or jointly with one 
or more other public agencies, has received Federal financial assistance 
for airport development or planning under the Federal Airport Act, 
Airport and Airway Development Act or Airport and Airway Improvement 
Act;
    (2) Any private owner of a public-use airport that has received 
financial assistance from the FAA for such airport; and
    (3) Any person to whom the Federal Government has conveyed property 
for airport purposes under section 13(g) of the Surplus Property Act of 
1944, as amended.



Sec. 16.5  Separation of functions.

    (a) Proceedings under this part, including hearings under subpart F 
of this part, will be prosecuted by an agency attorney.
    (b) After issuance of an initial determination in which the FAA 
provides the opportunity for a hearing, an agency employee engaged in 
the performance of investigative or prosecutorial functions in a 
proceeding under this part will not, in that case or a factually related 
case, participate or give advice in an initial decision by the hearing 
officer, or a final decision by the Associate Administrator or designee 
on written appeal, and will not, except as counsel or as witness in the 
public proceedings, engage in any substantive communication regarding 
that case or a related case with the hearing officer, the Associate 
Administrator on written appeal, or agency employees advising those 
officials in that capacity.
    (c) The Chief Counsel, the Assistant Chief Counsel for Litigation, 
or an attorney on the staff of the Assistant Chief Counsel for 
Litigation advises the Associate Administrator regarding an initial 
decision, an appeal, or a final decision regarding any case brought 
under this part.



Subpart B--General Rules Applicable to Complaints, Proceedings Initiated 
                         by the FAA, and Appeals



Sec. 16.11  Expedition and other modification of process.

    (a) Under the authority of 49 U.S.C. 40113 and 47121, the Director 
may conduct investigations, issue orders, and take such other actions as 
are necessary to fulfill the purposes of this part, including the 
extension of any time period prescribed where necessary or appropriate 
for a fair and complete hearing of matters before the agency.
    (b) Notwithstanding any other provision of this part, upon finding 
that circumstances require expedited handling of a particular case or 
controversy, the Director may issue an order directing any of the 
following prior to the issuance of the Director's determination:
    (1) Shortening the time period for any action under this part 
consistent with due process;
    (2) If other adequate opportunity to respond to pleadings is 
available, eliminating the reply, rebuttal, or other actions prescribed 
by this part;
    (3) Designating alternative methods of service; or
    (4) Directing such other measures as may be required.



Sec. 16.13  Filing of documents.

    Except as otherwise provided in this part, documents shall be filed 
with the FAA during a proceeding under this part as follows:
    (a) Filing address. Documents to be filed with the FAA shall be 
filed with

[[Page 85]]

the Office of the Chief Counsel, Attention: FAA Part 16 Airport 
Proceedings Docket, AGC-610, Federal Aviation Administration, 800 
Independence Ave., SW., Washington, DC, 20591. Documents to be filed 
with a hearing officer shall be filed at the address stated in the 
hearing order.
    (b) Date and method of filing. Filing of any document shall be by 
personal delivery or mail as defined in this part, or by facsimile (when 
confirmed by filing on the same date by one of the foregoing methods). 
Unless the date is shown to be inaccurate, documents to be filed with 
the FAA shall be deemed to be filed on the date of personal delivery, on 
the mailing date shown on the certificate of service, on the date shown 
on the postmark if there is no certificate of service, on the send date 
shown on the facsimile (provided filing has been confirmed through one 
of the foregoing methods), or on the mailing date shown by other 
evidence if there is no certificate of service and no postmark.
    (c) Number of copies. Unless otherwise specified, an executed 
original and three copies of each document shall be filed with the FAA 
Part 16 Airport Proceedings Docket. Copies need not be signed, but the 
name of the person signing the original shall be shown. If a hearing 
order has been issued in the case, one of the three copies shall be 
filed with the hearing officer. If filing by facsimile, the facsimile 
copy does not constitute one of the copies required under this section.
    (d) Form. Documents filed with the FAA shall be typewritten or 
legibly printed. In the case of docketed proceedings, the document shall 
include the docket number of the proceeding on the front page.
    (e) Signing of documents and other papers. The original of every 
document filed shall be signed by the person filing it or the person's 
duly authorized representative. The signature shall serve as a 
certification that the signer has read the document and, based on 
reasonable inquiry and to the best of the signer's knowledge, 
information, and belief, the document is--
    (1) Consistent with this part;
    (2) Warranted by existing law or that a good faith argument exists 
for extension, modification, or reversal of existing law; and
    (3) Not interposed for any improper purpose, such as to harass or to 
cause unnecessary delay or needless increase in the cost of the 
administrative process.
    (f) Designation of person to receive service. The initial document 
filed by any person shall state on the first page the name, post office 
address, telephone number, and facsimile number, if any, of the 
person(s) to be served with documents in the proceeding. If any of these 
items change during the proceeding, the person shall promptly file 
notice of the change with the FAA Part 16 Airport Proceedings Docket and 
the hearing officer and shall serve the notice on all parties.
    (g) Docket numbers. Each submission identified as a complaint under 
this part by the submitting person will be assigned a docket number.



Sec. 16.15  Service of documents on the parties and the agency.

    Except as otherwise provided in this part, documents shall be served 
as follows:
    (a) Who must be served. Copies of all documents filed with the FAA 
Part 16 Airport Proceedings Docket shall be served by the persons filing 
them on all parties to the proceeding. A certificate of service shall 
accompany all documents when they are tendered for filing and shall 
certify concurrent service on the FAA and all parties. Certificates of 
service shall be in substantially the following form:

    I hereby certify that I have this day served the foregoing [name of 
document] on the following persons at the following addresses and 
facsimile numbers (if also served by facsimile) by [specify method of 
service]:

[list persons, addresses, facsimile numbers]

    Dated this ______ day of ______, 19____.
[signature], for [party]

    (b) Method of service. Except as otherwise agreed by the parties and 
the hearing officer, the method of service is the same as set forth in 
Sec. 16.13(b) for filing documents.
    (c) Where service shall be made. Service shall be made to the 
persons identified in accordance with Sec. 16.13(f). If no such person 
has been designated, service shall be made on the party.

[[Page 86]]

    (d) Presumption of service. There shall be a presumption of lawful 
service--
    (1) When acknowledgment of receipt is by a person who customarily or 
in the ordinary course of business receives mail at the address of the 
party or of the person designated under Sec. 16.13(f); or
    (2) When a properly addressed envelope, sent to the most current 
address submitted under Sec. 16.13(f), has been returned as 
undeliverable, unclaimed, or refused.
    (e) Date of service. The date of service shall be determined in the 
same manner as the filing date under Sec. 16.13(b).



Sec. 16.17  Computation of time.

    This section applies to any period of time prescribed or allowed by 
this part, by notice or order of the hearing officer, or by an 
applicable statute.
    (a) The date of an act, event, or default, after which a designated 
time period begins to run, is not included in a computation of time 
under this part.
    (b) The last day of a time period is included in a computation of 
time unless it is a Saturday, Sunday, or legal holiday for the FAA, in 
which case, the time period runs until the end of the next day that is 
not a Saturday, Sunday, or legal holiday.
    (c) Whenever a party has the right or is required to do some act 
within a prescribed period after service of a document upon the party, 
and the document is served on the party by mail, 3 days shall be added 
to the prescribed period.



Sec. 16.19  Motions.

    (a) General. An application for an order or ruling not otherwise 
specifically provided for in this part shall be by motion. Unless 
otherwise ordered by the agency, the filing of a motion will not stay 
the date that any action is permitted or required by this part.
    (b) Form and contents. Unless made during a hearing, motions shall 
be made in writing, shall state with particularity the relief sought and 
the grounds for the relief sought, and shall be accompanied by 
affidavits or other evidence relied upon. Motions introduced during 
hearings may be made orally on the record, unless the hearing officer 
directs otherwise.
    (c) Answers to motions. Except as otherwise provided in this part, 
or except when a motion is made during a hearing, any party may file an 
answer in support of or in opposition to a motion, accompanied by 
affidavits or other evidence relied upon, provided that the answer to 
the motion is filed within 10 days after the motion has been served upon 
the person answering, or any other period set by the hearing officer. 
Where a motion is made during a hearing, the answer and the ruling 
thereon may be made at the hearing, or orally or in writing within the 
time set by the hearing officer.



            Subpart C--Special Rules Applicable to Complaints



Sec. 16.21  Pre-complaint resolution.

    (a) Prior to filing a complaint under this part, a person directly 
and substantially affected by the alleged noncompliance shall initiate 
and engage in good faith efforts to resolve the disputed matter 
informally with those individuals or entities believed responsible for 
the noncompliance. These efforts at informal resolution may include, 
without limitation, at the parties' expense, mediation, arbitration, or 
the use of a dispute resolution board, or other form of third party 
assistance. The FAA Airports District Office, FAA Airports Field Office, 
or FAA Regional Airports Division responsible for administrating 
financial assistance to the respondent airport proprietor, will be 
available upon request to assist the parties with informal resolution.
    (b) A complaint under this part will not be considered unless the 
person or authorized representative filing the complaint certifies that 
substantial and reasonable good faith efforts to resolve the disputed 
matter informally prior to filing the complaint have been made and that 
there appears no reasonable prospect for timely resolution of the 
dispute. This certification shall include a brief description of the 
party's efforts to obtain informal resolution but shall not include 
information on monetary or other settlement offers made but not agreed 
upon in writing by all parties.

[[Page 87]]



Sec. 16.23  Complaints, answers, replies, rebuttals, and other documents.

    (a) A person directly and substantially affected by any alleged 
noncompliance may file a complaint with the Administrator. A person 
doing business with an airport and paying fees or rentals to the airport 
shall be considered directly and substantially affected by alleged 
revenue diversion as defined in 49 U.S.C. 47107(b).
    (b) Complaints filed under this part shall--
    (1) State the name and address of each person who is the subject of 
the complaint and, with respect to each person, the specific provisions 
of each Act that the complainant believes were violated;
    (2) Be served, in accordance with Sec. 16.15, along with all 
documents then available in the exercise of reasonable diligence, 
offered in support of the complaint, upon all persons named in the 
complaint as persons responsible for the alleged action(s) or 
omission(s) upon which the complaint is based;
    (3) Provide a concise but complete statement of the facts relied 
upon to substantiate each allegation; and
    (4) Describe how the complainant was directly and substantially 
affected by the things done or omitted to be done by the respondents.
    (c) Unless the complaint is dismissed pursuant to Sec. 16.25 or 
Sec. 16.27, the FAA notifies the complainant and respondents in writing 
within 20 days after the date the FAA receives the complaint that the 
complaint has been docketed and that respondents are required to file an 
answer within 20 days of the date of service of the notification.
    (d) The respondent shall file an answer within 20 days of the date 
of service of the FAA notification.
    (e) The complainant may file a reply within 10 days of the date of 
service of the answer.
    (f) The respondent may file a rebuttal within 10 days of the date of 
service of the complainant's reply.
    (g) The answer, reply, and rebuttal shall, like the complaint, be 
accompanied by supporting documentation upon which the parties rely.
    (h) The answer shall deny or admit the allegations made in the 
complaint or state that the person filing the document is without 
sufficient knowledge or information to admit or deny an allegation, and 
shall assert any affirmative defense.
    (i) The answer, reply, and rebuttal shall each contain a concise but 
complete statement of the facts relied upon to substantiate the answers, 
admissions, denials, or averments made.
    (j) The respondent's answer may include a motion to dismiss the 
complaint, or any portion thereof, with a supporting memorandum of 
points and authorities. If a motion to dismiss is filed, the complainant 
may respond as part of its reply notwithstanding the 10-day time limit 
for answers to motions in Sec. 16.19(c).



Sec. 16.25  Dismissals.

    Within 20 days after the receipt of the complaint, the Director will 
dismiss a complaint, or any claim made in a complaint, with prejudice 
if:
    (a) It appears on its face to be outside the jurisdiction of the 
Administrator under the Acts listed in Sec. 16.1;
    (b) On its face it does not state a claim that warrants an 
investigation or further action by the FAA; or
    (c) The complainant lacks standing to file a complaint under 
Secs. 16.3 and 16.23. The Director's dismissal will include the reasons 
for the dismissal.



Sec. 16.27  Incomplete complaints.

    If a complaint is not dismissed pursuant to Sec. 16.25 of this part, 
but is deficient as to one or more of the requirements set forth in 
Sec. 16.21 or Sec. 16.23(b), the Director will dismiss the complaint 
within 20 days after receiving it. Dismissal will be without prejudice 
to the refiling of the complaint after amendment to correct the 
deficiency. The Director's dismissal will include the reasons for the 
dismissal.



Sec. 16.29  Investigations.

    (a) If, based on the pleadings, there appears to be a reasonable 
basis for further investigation, the FAA investigates the subject matter 
of the complaint.
    (b) The investigation may include one or more of the following, at 
the sole discretion of the FAA:
    (1) A review of the written submissions or pleadings of the parties, 
as

[[Page 88]]

supplemented by any informal investigation the FAA considers necessary 
and by additional information furnished by the parties at FAA request. 
In rendering its initial determination, the FAA may rely entirely on the 
complaint and the responsive pleadings provided under this subpart. Each 
party shall file documents that it considers sufficient to present all 
relevant facts and argument necessary for the FAA to determine whether 
the sponsor is in compliance.
    (2) Obtaining additional oral and documentary evidence by use of the 
agency's authority to compel production of such evidence under section 
313 Aviation Act, 49 U.S.C. 40113 and 46104, and section 519 of the 
Airport and Airway Improvement Act, 49 U.S.C. 47122. The Administrator's 
statutory authority to issue compulsory process has been delegated to 
the Chief Counsel, the Deputy Chief Counsel, the Assistant Chief Counsel 
for Airports and Environmental Law, and each Assistant Chief Counsel for 
a region or center.
    (3) Conducting or requiring that a sponsor conduct an audit of 
airport financial records and transactions as provided in 49 U.S.C. 
47107 and 47121.



Sec. 16.31  Director's determinations after investigations.

    (a) After consideration of the pleadings and other information 
obtained by the FAA after investigation, the Director will render an 
initial determination and provide it to each party by certified mail 
within 120 days of the date the last pleading specified in Sec. 16.23 
was due.
    (b) The Director's determination will set forth a concise 
explanation of the factual and legal basis for the Director's 
determination on each claim made by the complainant.
    (c) A party adversely affected by the Director's determination may 
appeal the initial determination to the Associate Administrator as 
provided in Sec. 16.33.
    (d) If the Director's determination finds the respondent in 
noncompliance and proposes the issuance of a compliance order, the 
initial determination will include notice of opportunity for a hearing 
under subpart F of this part, if such an opportunity is provided by the 
FAA. The respondent may elect or waive a hearing as provided in subpart 
E of this part.



Sec. 16.33  Final decisions without hearing.

    (a) The Associate Administrator will issue a final decision on 
appeal from the Director's determination, without a hearing, where--
    (1) The complaint is dismissed after investigation;
    (2) A hearing is not required by statute and is not otherwise made 
available by the FAA; or
    (3) The FAA provides opportunity for a hearing to the respondent and 
the respondent waives the opportunity for a hearing as provided in 
subpart E of this part.
    (b) In the cases described in paragraph (a) of this section, a party 
adversely affected by the Director's determination may file an appeal 
with the Associate Administrator within 30 days after the date of 
service of the initial determination.
    (c) A reply to an appeal may be filed with the Associate 
Administrator within 20 days after the date of service of the appeal.
    (d) The Associate Administrator will issue a final decision and 
order within 60 days after the due date of the reply.
    (e) If no appeal is filed within the time period specified in 
paragraph (b) of this section, the Director's determination becomes the 
final decision and order of the FAA without further action. A Director's 
determination that becomes final because there is no administrative 
appeal is not judicially reviewable.



 Subpart D--Special Rules Applicable to Proceedings Initiated by the FAA



Sec. 16.101  Basis for the initiation of agency action.

    The FAA may initiate its own investigation of any matter within the 
applicability of this part without having received a complaint. The 
investigation may include, without limitation, any of the actions 
described in Sec. 16.29(b).

[[Page 89]]



Sec. 16.103  Notice of investigation.

    Following the initiation of an investigation under Sec. 16.101, the 
FAA sends a notice to the person(s) subject to investigation. The notice 
will set forth the areas of the agency's concern and the reasons 
therefor; request a response to the notice within 30 days of the date of 
service; and inform the respondent that the FAA will, in its discretion, 
invite good faith efforts to resolve the matter.



Sec. 16.105  Failure to resolve informally.

    If the matters addressed in the FAA notices are not resolved 
informally, the FAA may issue a Director's determination under 
Sec. 16.31.



                Subpart E--Proposed Orders of Compliance



Sec. 16.109  Orders terminating eligibility for grants, cease and desist orders, and other compliance orders.

    This section applies to initial determinations issued under 
Sec. 16.31 that provide the opportunity for a hearing.
    (a) The agency will provide the opportunity for a hearing if, in the 
Director's determination, the agency proposes to issue an order 
terminating eligibility for grants pursuant to 49 U.S.C. 47106(e) and 
47111(d), an order suspending the payment of grant funds, an order 
withholding approval of any new application to impose a passenger 
facility charge pursuant to section 112 of the Federal Aviation 
Administration Act of 1994, 49 U.S.C. 47111(e), a cease and desist 
order, an order directing the refund of fees unlawfully collected, or 
any other compliance order issued by the Administrator to carry out the 
provisions of the Acts, and required to be issued after notice and 
opportunity for a hearing. In cases in which a hearing is not required 
by statute, the FAA may provide opportunity for a hearing at its 
discretion.
    (b) In a case in which the agency provides the opportunity for a 
hearing, the Director's determination issued under Sec. 16.31 will 
include a statement of the availability of a hearing under subpart F of 
this part.
    (c) Within 20 days after service of a Director's determination under 
Sec. 16.31 and paragraph (b) of this section, a person subject to the 
proposed compliance order may--
    (1) Request a hearing under subpart F of this part;
    (2) Waive hearing and appeal the Director's determination in writing 
to the Associate Administrator, as provided in Sec. 16.33;
    (3) File, jointly with a complainant, a motion to withdraw the 
complaint and to dismiss the proposed compliance action; or
    (4) Submit, jointly with the agency attorney, a proposed consent 
order under Sec. 16.243(e).
    (d) If the respondent fails to request a hearing or to file an 
appeal in writing within the time periods provided in paragraph (c) of 
this section, the Director's determination becomes final.



                           Subpart F--Hearings



Sec. 16.201  Notice and order of hearing.

    (a) If a respondent is provided the opportunity for hearing in an 
initial determination and does not waive hearing, the Deputy Chief 
Counsel within 10 days after the respondent elects a hearing will issue 
and serve on the respondent and complainant a hearing order. The hearing 
order will set forth:
    (1) The allegations in the complaint, or notice of investigation, 
and the chronology and results of the investigation preliminary to the 
hearing;
    (2) The relevant statutory, judicial, regulatory, and other 
authorities;
    (3) The issues to be decided;
    (4) Such rules of procedure as may be necessary to supplement the 
provisions of this part;
    (5) The name and address of the person designated as hearing 
officer, and the assignment of authority to the hearing officer to 
conduct the hearing in accordance with the procedures set forth in this 
part; and
    (6) The date by which the hearing officer is directed to issue an 
initial decision.
    (b) Where there are no genuine issues of material fact requiring 
oral examination of witnesses, the hearing order may contain a direction 
to the hearing

[[Page 90]]

officer to conduct a hearing by submission of briefs and oral argument 
without the presentation of testimony or other evidence.



Sec. 16.202  Powers of a hearing officer.

    In accordance with the rules of this subpart, a hearing officer may:
    (a) Give notice of, and hold, prehearing conferences and hearings;
    (b) Administer oaths and affirmations;
    (c) Issue subpoenas authorized by law and issue notices of 
deposition requested by the parties;
    (d) Limit the frequency and extent of discovery;
    (e) Rule on offers of proof;
    (f) Receive relevant and material evidence;
    (g) Regulate the course of the hearing in accordance with the rules 
of this part to avoid unnecessary and duplicative proceedings in the 
interest of prompt and fair resolution of the matters at issue;
    (h) Hold conferences to settle or to simplify the issues by consent 
of the parties;
    (i) Dispose of procedural motions and requests;
    (j) Examine witnesses; and
    (k) Make findings of fact and conclusions of law, and issue an 
initial decision.



Sec. 16.203  Appearances, parties, and rights of parties.

    (a) Appearances. Any party may appear and be heard in person.
    (1) Any party may be accompanied, represented, or advised by an 
attorney licensed by a State, the District of Columbia, or a territory 
of the United States to practice law or appear before the courts of that 
State or territory, or by another duly authorized representative.
    (2) An attorney, or other duly authorized representative, who 
represents a party shall file a notice of appearance in accordance with 
Sec. 16.13.
    (b) Parties and agency participation.
    (1) The parties to the hearing are the respondent (s) named in the 
hearing order, the complainant(s), and the agency.
    (2) Unless otherwise specified in the hearing order, the agency 
attorney will serve as prosecutor for the agency from the date of 
issuance of the Director's determination providing an opportunity for 
hearing.



Sec. 16.207  Intervention and other participation.

    (a) A person may submit a motion for leave to intervene as a party. 
Except for good cause shown, a motion for leave to intervene shall be 
submitted not later than 10 days after the notice of hearing and hearing 
order.
    (b) If the hearing officer finds that intervention will not unduly 
broaden the issues or delay the proceedings and, if the person has a 
property or financial interest that may not be addressed adequately by 
the parties, the hearing officer may grant a motion for leave to 
intervene. The hearing officer may determine the extent to which an 
intervenor may participate in the proceedings.
    (c) Other persons may petition the hearing officer for leave to 
participate in the hearing. Participation is limited to the filing of 
post-hearing briefs and reply to the hearing officer and the Associate 
Administrator. Such briefs shall be filed and served on all parties in 
the same manner as the parties' post hearing briefs are filed.
    (d) Participation under this section is at the discretion of the 
FAA, and no decision permitting participation shall be deemed to 
constitute an expression by the FAA that the participant has such a 
substantial interest in the proceeding as would entitle it to judicial 
review of such decision.



Sec. 16.209  Extension of time.

    (a) Extension by oral agreement. The parties may agree to extend for 
a reasonable period of time for filing a document under this part. If 
the parties agree, the hearing officer shall grant one extension of time 
to each party. The party seeking the extension of time shall submit a 
draft order to the hearing officer to be signed by the hearing officer 
and filed with the hearing docket. The hearing officer may grant 
additional oral requests for an extension of time where the parties 
agree to the extension.
    (b) Extension by motion. A party shall file a written motion for an 
extension

[[Page 91]]

of time with the hearing officer not later than 7 days before the 
document is due unless good cause for the late filing is shown. A party 
filing a written motion for an extension of time shall serve a copy of 
the motion on each party.
    (c) Failure to rule. If the hearing officer fails to rule on a 
written motion for an extension of time by the date the document was 
due, the motion for an extension of time is deemed denied.
    (d) Effect on time limits. In a hearing required by section 519(b) 
of the Airport and Airways Improvement Act, as amended in 1987, 49 
U.S.C. 47106(e) and 47111(d), the due date for the hearing officer's 
initial decision and for the final agency decision are extended by the 
length of the extension granted by the hearing officer only if the 
hearing officer grants an extension of time as a result of an agreement 
by the parties as specified in paragraph (a) of this section or, if the 
hearing officer grants an extension of time as a result of the sponsor's 
failure to adhere to the hearing schedule. In any other hearing, an 
extension of time granted by the hearing officer for any reason extends 
the due date for the hearing officer's initial decision and for the 
final agency decision by the length of time of the hearing officer's 
decision.



Sec. 16.211  Prehearing conference.

    (a) Prehearing conference notice. The hearing officer schedules a 
prehearing conference and serves a prehearing conference notice on the 
parties promptly after being designated as a hearing officer.
    (1) The prehearing conference notice specifies the date, time, 
place, and manner (in person or by telephone) of the prehearing 
conference.
    (2) The prehearing conference notice may direct the parties to 
exchange proposed witness lists, requests for evidence and the 
production of documents in the possession of another party, responses to 
interrogatories, admissions, proposed procedural schedules, and proposed 
stipulations before the date of the prehearing conference.
    (b) The prehearing conference. The prehearing conference is 
conducted by telephone or in person, at the hearing officer's 
discretion. The prehearing conference addresses matters raised in the 
prehearing conference notice and such other matters as the hearing 
officer determines will assist in a prompt, full and fair hearing of the 
issues.
    (c) Prehearing conference report. At the close of the prehearing 
conference, the hearing officer rules on any requests for evidence and 
the production of documents in the possession of other parties, 
responses to interrogatories, and admissions; on any requests for 
depositions; on any proposed stipulations; and on any pending 
applications for subpoenas as permitted by Sec. 16.219. In addition, the 
hearing officer establishes the schedule, which shall provide for the 
issuance of an initial decision not later than 110 days after issuance 
of the Director's determination order unless otherwise provided in the 
hearing order.



Sec. 16.213  Discovery.

    (a) Discovery is limited to requests for admissions, requests for 
production of documents, interrogatories, and depositions as authorized 
by Sec. 16.215.
    (b) The hearing officer shall limit the frequency and extent of 
discovery permitted by this section if a party shows that--
    (1) The information requested is cumulative or repetitious;
    (2) The information requested may be obtained from another less 
burdensome and more convenient source;
    (3) The party requesting the information has had ample opportunity 
to obtain the information through other discovery methods permitted 
under this section; or
    (4) The method or scope of discovery requested by the party is 
unduly burdensome or expensive.



Sec. 16.215  Depositions.

    (a) General. For good cause shown, the hearing officer may order 
that the testimony of a witness may be taken by deposition and that the 
witness produce documentary evidence in connection with such testimony. 
Generally, an order to take the deposition of a witness is entered only 
if:
    (1) The person whose deposition is to be taken would be unavailable 
at the hearing;

[[Page 92]]

    (2) The deposition is deemed necessary to perpetuate the testimony 
of the witness; or
    (3) The taking of the deposition is necessary to prevent undue and 
excessive expense to a party and will not result in undue burden to 
other parties or in undue delay.
    (b) Application for deposition. Any party desiring to take the 
deposition of a witness shall make application therefor to the hearing 
officer in writing, with a copy of the application served on each party. 
The application shall include:
    (1) The name and residence of the witness;
    (2) The time and place for the taking of the proposed deposition;
    (3) The reasons why such deposition should be taken; and
    (4) A general description of the matters concerning which the 
witness will be asked to testify.
    (c) Order authorizing deposition. If good cause is shown, the 
hearing officer, in his or her discretion, issues an order authorizing 
the deposition and specifying the name of the witness to be deposed, the 
location and time of the deposition and the general scope and subject 
matter of the testimony to be taken.
    (d) Procedures for deposition.
    (1) Witnesses whose testimony is taken by deposition shall be sworn 
or shall affirm before any questions are put to them. Each question 
propounded shall be recorded and the answers of the witness transcribed 
verbatim.
    (2) Objections to questions or evidence shall be recorded in the 
transcript of the deposition. The interposing of an objection shall not 
relieve the witness of the obligation to answer questions, except where 
the answer would violate a privilege.
    (3) The written transcript shall be subscribed by the witness, 
unless the parties by stipulation waive the signing, or the witness is 
ill, cannot be found, or refuses to sign. The reporter shall note the 
reason for failure to sign.



Sec. 16.217  Witnesses.

    (a) Each party may designate as a witness any person who is able and 
willing to give testimony that is relevant and material to the issues in 
the hearing case, subject to the limitation set forth in paragraph (b) 
of this section.
    (b) The hearing officer may exclude testimony of witnesses that 
would be irrelevant, immaterial, or unduly repetitious.
    (c) Any witness may be accompanied by counsel. Counsel representing 
a nonparty witness has no right to examine the witness or otherwise 
participate in the development of testimony.



Sec. 16.219  Subpoenas.

    (a) Request for subpoena. A party may apply to the hearing officer, 
within the time specified for such applications in the prehearing 
conference report, for a subpoena to compel testimony at a hearing or to 
require the production of documents only from the following persons:
    (1) Another party;
    (2) An officer, employee, or agent of another party;
    (3) Any other person named in the complaint as participating in or 
benefiting from the actions of the respondent alleged to have violated 
any Act;
    (4) An officer, employee, or agent of any other person named in the 
complaint as participating in or benefiting from the actions of the 
respondent alleged to have violated any Act.
    (b) Issuance and service of subpoena.
    (1) The hearing officer issues the subpoena if the hearing officer 
determines that the evidence to be obtained by the subpoena is relevant 
and material to the resolution of the issues in the case.
    (2) Subpoenas shall be served by personal service, or upon an agent 
designated in writing for the purpose, or by certified mail, return 
receipt addressed to such person or agent. Whenever service is made by 
registered or certified mail, the date of mailing shall be considered as 
the time when service is made.
    (3) A subpoena issued under this part is effective throughout the 
United States or any territory or possession thereof.
    (c) Motions to quash or modify subpoena.
    (1) A party or any person upon whom a subpoena has been served may 
file a

[[Page 93]]

motion to quash or modify the subpoena with the hearing officer at or 
before the time specified in the subpoena for the filing of such 
motions. The applicant shall describe in detail the basis for the 
application to quash or modify the subpoena including, but not limited 
to, a statement that the testimony, document, or tangible evidence is 
not relevant to the proceeding, that the subpoena is not reasonably 
tailored to the scope of the proceeding, or that the subpoena is 
unreasonable and oppressive.
    (2) A motion to quash or modify the subpoena stays the effect of the 
subpoena pending a decision by the hearing officer on the motion.



Sec. 16.221  Witness fees.

    (a) The party on whose behalf a witness appears is responsible for 
paying any witness fees and mileage expenses.
    (b) Except for employees of the United States summoned to testify as 
to matters related to their public employment, witnesses summoned by 
subpoena shall be paid the same fees and mileage expenses as are paid to 
a witness in a court of the United States in comparable circumstances.



Sec. 16.223  Evidence.

    (a) General. A party may submit direct and rebuttal evidence in 
accordance with this section.
    (b) Requirement for written testimony and evidence. Except in the 
case of evidence obtained by subpoena, or in the case of a special 
ruling by the hearing officer to admit oral testimony, a party's direct 
and rebuttal evidence shall be submitted in written form in advance of 
the oral hearing pursuant to the schedule established in the hearing 
officer's prehearing conference report. Written direct and rebuttal fact 
testimony shall be certified by the witness as true and correct. Subject 
to the same exception (for evidence obtained by subpoena or subject to a 
special ruling by the hearing officer), oral examination of a party's 
own witness is limited to certification of the accuracy of written 
evidence, including correction and updating, if necessary, and 
reexamination following cross-examination by other parties.
    (c) Subpoenaed testimony. Testimony of witnesses appearing under 
subpoena may be obtained orally.
    (d) Cross-examination. A party may conduct cross-examination that 
may be required for disclosure of the facts, subject to control by the 
hearing officer for fairness, expedition and exclusion of extraneous 
matters.
    (e) Hearsay evidence. Hearsay evidence is admissible in proceedings 
governed by this part. The fact that evidence is hearsay goes to the 
weight of evidence and does not affect its admissibility.
    (f) Admission of evidence. The hearing officer admits evidence 
introduced by a party in support of its case in accordance with this 
section, but may exclude irrelevant, immaterial, or unduly repetitious 
evidence.
    (g) Expert or opinion witnesses. An employee of the FAA or DOT may 
not be called as an expert or opinion witness for any party other than 
the agency except as provided in Department of Transportation 
regulations at 49 CFR part 9.



Sec. 16.225  Public disclosure of evidence.

    (a) Except as provided in this section, the hearing shall be open to 
the public.
    (b) The hearing officer may order that any information contained in 
the record be withheld from public disclosure. Any person may object to 
disclosure of information in the record by filing a written motion to 
withhold specific information with the hearing officer. The person shall 
state specific grounds for nondisclosure in the motion.
    (c) The hearing officer shall grant the motion to withhold 
information from public disclosure if the hearing officer determines 
that disclosure would be in violation of the Privacy Act, would reveal 
trade secrets or privileged or confidential commercial or financial 
information, or is otherwise prohibited by law.



Sec. 16.227  Standard of proof.

    The hearing officer shall issue an initial decision or shall rule in 
a party's favor only if the decision or ruling is supported by, and in 
accordance with,

[[Page 94]]

reliable, probative, and substantial evidence contained in the record 
and is in accordance with law.



Sec. 16.229  Burden of proof.

    (a) The burden of proof of noncompliance with an Act or any 
regulation, order, agreement or document of conveyance issued under the 
authority of an Act is on the agency.
    (b) Except as otherwise provided by statute or rule, the proponent 
of a motion, request, or order has the burden of proof.
    (c) A party who has asserted an affirmative defense has the burden 
of proving the affirmative defense.



Sec. 16.231  Offer of proof.

    A party whose evidence has been excluded by a ruling of the hearing 
officer may offer the evidence on the record when filing an appeal.



Sec. 16.233  Record.

    (a) Exclusive record. The transcript of all testimony in the 
hearing, all exhibits received into evidence, all motions, applications 
requests and rulings, and all documents included in the hearing record 
shall constitute the exclusive record for decision in the proceedings 
and the basis for the issuance of any orders.
    (b) Examination and copy of record. Any interested person may 
examine the record at the Part 16 Airport Proceedings Docket, AGC-600, 
Federal Aviation Administration, 800 Independence Avenue, SW., 
Washington, DC 20591. Any person may have a copy of the record after 
payment of reasonable costs for search and reproduction of the record.



Sec. 16.235  Argument before the hearing officer.

    (a) Argument during the hearing. During the hearing, the hearing 
officer shall give the parties reasonable opportunity to present oral 
argument on the record supporting or opposing motions, objections, and 
rulings if the parties request an opportunity for argument. The hearing 
officer may direct written argument during the hearing if the hearing 
officer finds that submission of written arguments would not delay the 
hearing.
    (b) Posthearing briefs. The hearing officer may request or permit 
the parties to submit posthearing briefs. The hearing officer may 
provide for the filing of simultaneous reply briefs as well, if such 
filing will not unduly delay the issuance of the hearing officer's 
initial decision. Posthearing briefs shall include proposed findings of 
fact and conclusions of law; exceptions to rulings of the hearing 
officer; references to the record in support of the findings of fact; 
and supporting arguments for the proposed findings, proposed 
conclusions, and exceptions.



Sec. 16.237  Waiver of procedures.

    (a) The hearing officer shall waive such procedural steps as all 
parties to the hearing agree to waive before issuance of an initial 
decision.
    (b) Consent to a waiver of any procedural step bars the raising of 
this issue on appeal.
    (c) The parties may not by consent waive the obligation of the 
hearing officer to enter an initial decision on the record.



            Subpart G--Initial Decisions, Orders and Appeals



Sec. 16.241  Initial decisions, order, and appeals.

    (a) The hearing officer shall issue an initial decision based on the 
record developed during the proceeding and shall send the initial 
decision to the parties not later than 110 days after the Director's 
determination unless otherwise provided in the hearing order.
    (b) Each party adversely affected by the hearing officer's initial 
decision may file an appeal with the Associate Administrator within 15 
days of the date the initial decision is issued. Each party may file a 
reply to an appeal within 10 days after it is served on the party. 
Filing and service of appeals and replies shall be by personal delivery.
    (c) If an appeal is filed, the Associate Administrator reviews the 
entire record and issues a final agency decision and order within 30 
days of the due date of the reply. If no appeal is filed, the Associate 
Administrator may take review of the case on his or her own motion. If 
the Associate Administrator finds that the respondent is not in

[[Page 95]]

compliance with any Act or any regulation, agreement, or document of 
conveyance issued or made under such Act, the final agency order 
includes a statement of corrective action, if appropriate, and 
identifies sanctions for continued noncompliance.
    (d) If no appeal is filed, and the Associate Administrator does not 
take review of the initial decision on the Associate Administrator's own 
motion, the initial decision shall take effect as the final agency 
decision and order on the sixteenth day after the actual date the 
initial decision is issued.
    (e) The failure to file an appeal is deemed a waiver of any rights 
to seek judicial review of an initial decision that becomes a final 
agency decision by operation of paragraph (d) of this section.
    (f) If the Associate Administrator takes review on the Associate 
Administrator's own motion, the Associate Administrator issues a notice 
of review by the sixteenth day after the actual date the initial 
decision is issued.
    (1) The notice sets forth the specific findings of fact and 
conclusions of law in the initial decision that are subject to review by 
the Associate Administrator.
    (2) Parties may file one brief on review to the Associate 
Administrator or rely on their posthearing briefs to the hearing 
officer. Briefs on review shall be filed not later than 10 days after 
service of the notice of review. Filing and service of briefs on review 
shall be by personal delivery.
    (3) The Associate Administrator issues a final agency decision and 
order within 30 days of the due date of the briefs on review. If the 
Associate Administrator finds that the respondent is not in compliance 
with any Act or any regulation, agreement or document of conveyance 
issued under such Act, the final agency order includes a statement of 
corrective action, if appropriate, and identifies sanctions for 
continued noncompliance.



Sec. 16.243  Consent orders.

    (a) The agency attorney and the respondents may agree at any time 
before the issuance of a final decision and order to dispose of the case 
by issuance of a consent order. Good faith efforts to resolve a 
complaint through issuance of a consent order may continue throughout 
the administrative process. Except as provided in Sec. 16.209, such 
efforts may not serve as the basis for extensions of the times set forth 
in this part.
    (b) A proposal for a consent order, specified in paragraph (a) of 
this section, shall include:
    (1) A proposed consent order;
    (2) An admission of all jurisdictional facts;
    (3) An express waiver of the right to further procedural steps and 
of all rights of judicial review; and
    (4) The hearing order, if issued, and an acknowledgment that the 
hearing order may be used to construe the terms of the consent order.
    (c) If the issuance of a consent order has been agreed upon by all 
parties to the hearing, the proposed consent order shall be filed with 
the hearing officer, along with a draft order adopting the consent 
decree and dismissing the case, for the hearing officer's adoption.
    (d) The deadline for the hearing officer's initial decision and the 
final agency decision is extended by the amount of days elapsed between 
the filing of the proposed consent order with the hearing officer and 
the issuance of the hearing officer's order continuing the hearing.
    (e) If the agency attorney and sponsor agree to dispose of a case by 
issuance of a consent order before the FAA issues a hearing order, the 
proposal for a consent order is submitted jointly to the official 
authorized to issue a hearing order, together with a request to adopt 
the consent order and dismiss the case. The official authorized to issue 
the hearing order issues the consent order as an order of the FAA and 
terminates the proceeding.



                       Subpart H--Judicial Review



Sec. 16.247  Judicial review of a final decision and order.

    (a) A person may seek judicial review, in a United States Court of 
Appeals, of a final decision and order of the Associate Administrator as 
provided in 49 U.S.C. 46110 or section 519(b)(4) of the Airport and 
Airway Improvement Act of 1982, as amended,

[[Page 96]]

(AAIA), 49 U.S.C. 47106(d) and 47111(d). A party seeking judicial review 
of a final decision and order shall file a petition for review with the 
Court not later than 60 days after a final decision and order under the 
AAIA has been served on the party or within 60 days after the entry of 
an order under 49 U.S.C. 40101 et seq.
    (b) The following do not constitute final decisions and orders 
subject to judicial review:
    (1) An FAA decision to dismiss a complaint without prejudice, as set 
forth in Sec. 16.27;
    (2) A Director's determination;
    (3) An initial decision issued by a hearing officer at the 
conclusion of a hearing;
    (4) A Director's determination or an initial decision of a hearing 
officer that becomes the final decision of the Associate Administrator 
because it was not appealed within the applicable time periods provided 
under Secs. 16.33(b) and 16.241(b).



                   Subpart I--Ex Parte Communications



Sec. 16.301  Definitions.

    As used in this subpart:
    Decisional employee means the Administrator, Deputy Administrator, 
Associate Administrator, Director, hearing officer, or other FAA 
employee who is or who may reasonably be expected to be involved in the 
decisional process of the proceeding.
    Ex parte communication means an oral or written communication not on 
the public record with respect to which reasonable prior notice to all 
parties is not given, but it shall not include requests for status 
reports on any matter or proceeding covered by this part, or 
communications between FAA employees who participate as parties to a 
hearing pursuant to 16.203(b) of this part and other parties to a 
hearing.



Sec. 16.303  Prohibited ex parte communications.

    (a) The prohibitions of this section shall apply from the time a 
proceeding is noticed for hearing unless the person responsible for the 
communication has knowledge that it will be noticed, in which case the 
prohibitions shall apply at the time of the acquisition of such 
knowledge.
    (b) Except to the extent required for the disposition of ex parte 
matters as authorized by law:
    (1) No interested person outside the FAA and no FAA employee 
participating as a party shall make or knowingly cause to be made to any 
decisional employee an ex parte communication relevant to the merits of 
the proceeding;
    (2) No FAA employee shall make or knowingly cause to be made to any 
interested person outside the FAA an ex parte communication relevant to 
the merits of the proceeding; or
    (3) Ex parte communications regarding solely matters of agency 
procedure or practice are not prohibited by this section.



Sec. 16.305  Procedures for handling ex parte communications.

    A decisional employee who receives or who makes or knowingly causes 
to be made a communication prohibited by Sec. 16.303 shall place in the 
public record of the proceeding:
    (a) All such written communications;
    (b) Memoranda stating the substance of all such oral communications; 
and
    (c) All written responses, and memoranda stating the substance of 
all oral responses, to the materials described in paragraphs (a) and (b) 
of this section.



Sec. 16.307  Requirement to show cause and imposition of sanction.

    (a) Upon receipt of a communication knowingly made or knowingly 
caused to be made by a party in violation of Sec. 16.303, the Associate 
Administrator or his designee or the hearing officer may, to the extent 
consistent with the interests of justice and the policy of the 
underlying statutes, require the party to show cause why his or her 
claim or interest in the proceeding should not be dismissed, denied, 
disregarded, or otherwise adversely affected on account of such 
violation.
    (b) The Associate Administrator may, to the extent consistent with 
the interests of justice and the policy of the underlying statutes 
administered by the FAA, consider a violation of this subpart sufficient 
grounds for a decision adverse to a party who has

[[Page 97]]

knowingly committed such violation or knowingly caused such violation to 
occur.



PART 17--PROCEDURES FOR PROTESTS AND CONTRACTS DISPUTES--Table of Contents




                           Subpart A--General

Sec.
17.1  Applicability.
17.3  Definitions.
17.5  Delegation of authority.
17.7  Filing and computation of time.
17.9  Protective orders.

                           Subpart B--Protests

17.11  Matters not subject to protest.
17.13  Dispute resolution process for protests.
17.15  Filing a protest.
17.17  Initial protest procedures.
17.19  Dismissal or summary decision of protest.
17.21  Protest remedies.

                      Subpart C--Contract Disputes

17.23  Dispute resolution process for contract disputes.
17.25  Filing a contract dispute.
17.27  Submission of joint or separate statements.
17.29  Dismissal or summary decision of contract disputes.

                Subpart D--Alternative Dispute Resolution

17.31  Use of alternative dispute resolution.
17.33  Election of alternative dispute resolution process.
17.35  Selection of neutrals for the alternative dispute resolution 
          process.

                 Subpart E--Default Adjudicative Process

17.37  Default adjudicative process for protests.
17.39  Default adjudicative process for contract disputes.

                     Subpart F--Finality and Review

17.41  Final orders.
17.43  Judicial review.
17.45  Conforming amendments.

Appendix A to Part 17--Alternative Dispute Resolution (ADR)

    Authority: 5 U.S.C. 570-581, 49 U.S.C. 106(f)(2), 40110, 40111, 
40112, 46102, 46014, 46105, 46109, and 46110.

    Source: Docket No. FAA-1998-4379, 64 FR 32936, June 18, 1999, unless 
otherwise noted.]



                           Subpart A--General



Sec. 17.1  Applicability.

    This part applies to all protests or contract disputes against the 
FAA that are brought on or after June 28, 1999, with the exception of 
those contract disputes arising under or related to FAA contracts 
entered into prior to April 1, 1996.



Sec. 17.3  Definitions.

    (a) Accrual mean to come into existence as a legally enforceable 
claim.
    (b) Accrual of a contract claim means that all events relating to a 
claim have occurred which fix liability of either the government or the 
contractor and permit assertion of the claim, regardless of when the 
claimant actually discovered those events. For liability to be fixed, 
some injury must have occurred. Monetary damages need not have been 
incurred, but if the claim is for money, such damages must be capable of 
reasonable estimation. The accrual of a claim or the running of the 
limitations period may be tolled on such equitable grounds as where the 
office of Dispute Resolution for Acquisition determines that there has 
been active concealment or fraud or where it finds that the facts were 
inherently unknowable.
    (c) Acquisition Management System (AMS) establishes the policies, 
guiding principles, and internal procedures for the FAA's acquisition 
system.
    (d) Administrator means the Administrator of the Federal Aviation 
Administration.
    (e) Alternative Dispute Resolution (ADR) is the primary means of 
dispute resolution that would be employed by the FAA's Office of Dispute 
Resolution for Acquisition. See Appendix A of this part.
    (f) Compensated Neutral refers to an impartial third party chosen by 
the parties to act as a facilitator, mediator, or arbitrator functioning 
to resolve the protest or contract dispute under the auspices of the 
Office of Dispute Resolution for Acquisition. The parties pay equally 
for the services of a Compensated Neutral, unless otherwise agreed to by 
the parties. A Dispute Resolution Officer (DRO) or Neutral cannot be a 
Compensated Neutral.

[[Page 98]]

    (g) Contract dispute, as used in this part, means a written request 
to the Office of Dispute Resolution for Acquisition seeking resolution, 
under an existing FAA contract subject to the AMS, of a claim for the 
payment of money in a sum certain, the adjustment or interpretation of 
contract terms, or for other relief arising under, relating to or 
involving an alleged breach of that contract. A contract dispute does 
not require, as a prerequisite, the issuance of a Contracting Officer 
final decision. Contract disputes for purposes of ADR only may also 
involve contracts not subject to the AMS.
    (h) Default Adjudicative Process is an adjudicative process used to 
resolve protests or contract disputes where the parties cannot achieve 
resolution through informal communication or the use of ADR. The Default 
Adjudicative Process is conducted by a DRO or Special Master selected by 
the Office of Dispute Resolution for Acquisition to serve as 
``adjudicative officers,'' as that term is used in part 14 of this 
chapter.
    (i) Discovery is the procedure where opposing parties in a protest 
or contract dispute may, either voluntarily or to the extent directed by 
the Office of Dispute Resolution for Acquisition, obtain testimony from, 
or documents and information held by, other parties or non-parties.
    (j) Dispute Resolution Officer (DRO) is a licensed attorney 
reporting to the Office of Dispute Resolution for Acquisition. The term 
DRO can include the Director of the Office of Dispute Resolution for 
Acquisition, Office of Dispute Resolution for Acquisition staff 
attorneys or other FAA attorneys assigned to the Office of Dispute 
Resolution for Acquisition.
    (k) An interested party, in the context of a bid protest, is one 
whose direct economic interest has been or would be affected by the 
award or failure to award an FAA contract. Proposed subcontractors are 
not ``interested parties'' within this definition and are not eligible 
to submit protests to the Office of Dispute Resolution for Acquisition.
    (l) An intervenor is an interested party other than the protester 
whose participation in a protest is allowed by the Office of Dispute 
Resolution for Acquisition. For a post-award protest, the awardee of the 
contract that is the subject of the protest shall be allowed, upon 
request, to participate as an intervenor in the protest. In such a 
protest, no other interested parties shall be allowed to participate as 
intervenors.
    (m) Neutral refers to an impartial third party in the ADR process 
chosen by the Office of Dispute Resolution for Acquisition to act as a 
facilitator, mediator, arbitrator, or otherwise to resolve a protest or 
contract dispute. A Neutral can be a DRO or a person not an employee of 
the FAA who serves on behalf of the Office of Dispute Resolution for 
Acquisition.
    (n) The Office of Dispute Resolution for Acquisition (ODRA), under 
the direction of the Director, acts on behalf of the Administrator to 
manage the FAA Dispute Resolution Process, and to recommend action to be 
the Administrator on matters concerning protests or contract disputes.
    (o) Parties include the protester(s) or (in the case of a contract 
dispute) the contractor, the FAA, and any intervenor(s).
    (p) Product Team, as used in these rules, refers to the FAA 
organization(s) responsible for the procurement activity, without regard 
to funding source, and includes the Contracting Officer (CO) and 
assigned FAA legal counsel, when the FAA organization(s) represent(s) 
the FAA as a party to a protest or contract dispute before the Office of 
Dispute Resolution for Acquisition. The CO is responsible for all 
Product Team communications with and submissions to the Office of 
Dispute Resolution for Acquisition through assigned FAA counsel.
    (q) Screening Information Request (SIR) means a request by the FAA 
for documentation, information, presentations, proposals, or binding 
offers concerning an approach to meeting potential acquisition 
requirements established by the FAA. The purpose of a SIR is for the FAA 
to obtain information needed for it to proceed with a source selection 
decision and contract award.
    (r) A Special Master is an attorney, usually with extensive 
adjudicative experience, who has been assigned by the

[[Page 99]]

Office of Dispute Resolution for Acquisition to act as its finder of 
fact, and to make findings and recommendations based upon AMS policy and 
applicable law and authorities in the Default Adjudicative Process.



Sec. 17.5   Delegation of authority.

    (a) The authority of the Administrator to conduct dispute resolution 
proceedings concerning acquisition matters, is delegated to the Director 
of the Office of Dispute Resolution for Acquisition.
    (b) The Director of the Office of Dispute Resolution for Acquisition 
may redelegate to Special Masters and DROs such delegated authority in 
paragraph (a) of this section as is deemed necessary by the Director for 
efficient resolution of an assigned protest or contract dispute, 
including the imposition of sanctions or other disciplinary actions.



Sec. 17.7   Filing and computation of time.

    (a) Filing of a protest or contract dispute may be accomplished by 
mail, overnight delivery, hand delivery, or by facsimile. A protest or 
contract dispute is considered to be filed on the date it is received by 
the Office of Dispute Resolution for Acquisition during normal business 
hours. The Office of Dispute Resolution for Acquisition's normal 
business hours are from 8:30 a.m. to 5 p.m. est or edt, whichever is in 
use. A protest or contract dispute received via mail, after the time 
period prescribed for filing, shall not be considered timely filed even 
though it may be postmarked within the time period prescribed for 
filing.
    (b) Submissions to the Office of Dispute Resolution for Acquisition 
after the initial filing of a contract dispute may be accomplished by 
any means available in paragraph (a) of this section. Submissions to the 
Office of Dispute Resolution for Acquisition after the initial filing of 
a protest may only be accomplished by overnight delivery, hand delivery 
or facsimile.
    (c) The time limits stated in this part are calculated in business 
days, which exclude weekends and Federal holidays. In computing time, 
the day of the event beginning a period of time shall not be included. 
If the last day of a period falls on a weekend or a Federal holiday, the 
first business day following the weekend or holiday shall be considered 
the last day of the period.



Sec. 17.9   Protective orders.

    (a) The Office of Dispute Resolution for Acquisition may issue 
protective orders addressing the treatment of protected information, 
either at the request of a party or upon its own initiative. Such 
information may include proprietary, confidential, or source-selection-
sensitive material, or other information the release of which could 
result in a competitive advantage to one or more firms.
    (b) The terms of the Office of Dispute Resolution for Acquisition's 
standard protective order may be altered to suit particular 
circumstances, by negotiation of the parties, subject to the approval of 
the Office of Dispute Resolution for Acquisition. The protective order 
establishes procedures for application for access to protected 
information, identification and safeguarding of that information, and 
submission of redacted copies of documents omitting protected 
information.
    (c) After a protective order has been issued, counsel or consultants 
retained by counsel appearing on behalf of a party may apply for access 
to the material under the order by submitting an application to the 
Office of Dispute Resolution for Acquisition, with copies furnished 
simultaneously to all parties. The application shall establish that the 
applicant is not involved in competitive decisionmaking for any firm 
that could gain a competitive advantage from access to the protected 
information and that the applicant will diligently protect any protected 
information received from inadvertent disclosure. Objections to an 
applicant's admission shall be raised within two (2) days of the 
application, although the Office of Dispute Resolution for Acquisition 
may consider objections raised after that time for good cause.
    (d) Any violation of the terms of a protective order may result in 
the imposition of sanctions or the taking of the actions as the Office 
of Dispute Resolution for Acquisition deems appropriate.

[[Page 100]]

    (e) The parties are permitted to agree upon what material is to be 
covered by a protective order, subject to approval by the Office of 
Dispute Resolution for Acquisition.



                           Subpart B--Protests



Sec. 17.11  Matters not subject to protest.

    The following matters may not be protested before the Office of 
Dispute Resolution for Acquisition:
    (a) FAA purchases from or through, state, local, and tribal 
governments and public authorities;
    (b) FAA purchases from or through other federal agencies;
    (c) Grants;
    (d) Cooperative agreements;
    (e) Other transactions which do not fall into the category of 
procurement contracts subject to the AMS.



Sec. 17.13  Dispute resolution process for protests.

    (a) Protests concerning FAA SIRs or contract awards shall be 
resolved pursuant to this part.
    (b) The offeror initially should attempt to resolve any issues 
concerning potential protests with the CO. The CO, in coordination with 
FAA legal counsel, will make reasonable efforts to answer questions 
promptly and completely, and, where possible, to resolve concerns or 
controversies.
    (c) Offerors or prospective offerors shall file a protest with the 
Office of Dispute Resolution for Acquisition in accordance with 
Sec. 17.15. The protest time limitations set forth in Sec. 17.15 will 
not be extended by attempts to resolve a potential protest with the CO. 
Other than the time limitations specified in Sec. 17.15 for the filing 
of protests, the Office of Dispute Resolution for Acquisition retains 
the discretion to modify any time constraints imposed in connection with 
protests.
    (d) In accordance with Sec. 17.17, the Office of Dispute Resolution 
for Acquisition shall convene a status conference for the protest. Under 
the procedures set forth in that section, the parties generally will 
either decide to utilize Alternative Dispute Resolution (ADR) techniques 
to resolve the protest, pursuant to subpart D of this part, or they will 
proceed under the Default Adjudicative Process set forth in subpart E of 
this part. However, as provided in Sec. 17.31(c), informal ADR 
techniques may be utilized simultaneously with ongoing adjudication.
    (e) The Office of Dispute Resolution for Acquisition Director shall 
designate Dispute Resolution Officers (DROs) or Special Masters for 
protests.
    (f) Multiple protests concerning the same SIR, solicitation, or 
contract award may be consolidated at the discretion of the Office of 
Dispute Resolution for Acquisition, and assigned to a single DRO or 
Special Master for adjudication.
    (g) Procurement activities, and, where applicable, contractor 
performance pending resolution of a protest shall continue during the 
pendency of a protest, unless there is a compelling reason to suspend or 
delay all or part of the procurement activities. Pursuant to 
Secs. 17.15(d) and 17.17(b), the Office of Dispute Resolution for 
Acquisition may recommend suspension of award or delay of contract 
performance, in whole or in part, for a compelling reason. A decision to 
suspend or delay procurement activities or contractor performance would 
be made in writing by the FAA Administrator or the Administrator's 
delegee.



Sec. 17.15  Filing a protest.

    (a) Only an interested party may file a protest, and shall initiate 
a protest by filing a written protest with the Office of Dispute 
Resolution for Acquisition within the times set forth below, or the 
protest shall be dismissed as untimely:
    (1) Protests based upon alleged improprieties in a solicitation or a 
SIR that are apparent prior to bid opening or the time set for receipt 
of initial proposals shall be filed prior to bid opening or the time set 
for the receipt of initial proposals.
    (2) In procurements where proposals are requested, alleged 
improprieties that do not exist in the initial solicitation, but which 
are subsequently incorporated into the solicitation, must be protested 
not later than the next closing time for receipt of proposals following 
the incorporation;

[[Page 101]]

    (3) For protests other than those related to alleged solicitation 
improprieties, the protest must be filed on the later of the following 
two dates:
    (i) Not later than seven (7) business days after the date the 
protester knew or should have known of the grounds for the protest; or
    (ii) If the protester has requested a post-award debriefing from the 
FAA Product Team, not later than five (5) business days after the date 
on which the Product Team holds that debriefing.
    (b) Protest shall be filed at:
    (1) Office of Dispute Resolution for Acquisition, AGC-70, Federal 
Aviation Administration, 400 7th Street, SW., Room 8332, Washington, DC 
20590, Telephone: (202) 366-6400, Facsimile: (202) 366-7400; or
    (2) Other address as shall be published from time to time in the 
Federal Register.
    (c) A Protest shall be in writing, and set forth:
    (1) The protester's name, address, telephone number, and facsimile 
(FAX) number;
    (2) The name, address, telephone number, and FAX number of a person 
designated by the protester (Protester Designee), and who shall be duly 
authorized to represent the protester, to be the point of contact;
    (3) The SIR number or, if available, the contract number and the 
name of the CO;
    (4) The basis for the protester's status as an interested party;
    (5) The facts supporting the timeliness of the protest;
    (6) Whether the protester requests a protective order, the material 
to be protected, and attach a redacted copy of that material;
    (7) A detailed statement of both the legal and factual grounds of 
the protest, and attach one (1) copy of each relevant document;
    (8) The remedy or remedies sought by the protester, as set forth in 
Sec. 17.21;
    (9) The signature of the Protester Designee, or another person duly 
authorized to represent the protester.
    (d) If the protester wishes to request a suspension or delay of the 
procurement, in whole or in part, and believes there are compelling 
reasons that, if known to the FAA, would cause the FAA to suspend or 
delay the procurement because of the protested action, the protester 
shall:
    (1) Set forth each such compelling reason, supply all facts 
supporting the protester's position, identify each person with knowledge 
of the facts supporting each compelling reason, and identify all 
documents that support each compelling reason.
    (2) Clearly identify any adverse consequences to the protester, the 
FAA, or any interested party, should the FAA not suspend or delay the 
procurement.
    (e) At the same time as filing the protest with the Office of 
Dispute Resolution for Acquisition, the protester shall serve a copy of 
the protest on the CO and any other official designated in the SIR for 
receipt of protests by means reasonably calculated to be received by the 
CO on the same day as it is to be received by the Office of Dispute 
Resolution for Acquisition. The protest shall include a signed statement 
from the protester, certifying to the Office of Dispute Resolution for 
Acquisition the manner of service, date, and time when a copy of the 
protest was served on the CO and other designated official(s).
    (f) Upon receipt of the protest, the CO shall inform the Office of 
Dispute Resolution for Acquisition of the names, addresses, and 
telephone and facsimile numbers of the awardee and/or other interested 
parties, if known, and shall, in such notice, designate a person as the 
point of contact for the Office of Dispute Resolution for Acquisition by 
facsimile. The CO shall also notify the awardee and/or interested 
parties in writing of the existence of the protest the same day as the 
CO provides the foregoing information to the Office of Dispute 
Resolution for Acquisition. The awardee and/or interested parties shall 
notify the ODRA in writing, of their interest in participating in the 
protest as intervenors within two (2) business days of receipt of the 
CO's notification, and shall, in such notice, designate a person as the 
point of contact for the ODRA. Such notice may be submitted to the ODRA 
by facsimile.
    (g) The Office of Dispute Resolution for Acquisition has discretion 
to designate the parties who shall participate

[[Page 102]]

in the protest as intervenors. For awarded contracts, only the awardee 
may participate as an intervenor.

[Doc. No. FAA-1998-4379, 64 FR 32936, June 18, 1999; 64 FR 47362, Aug. 
31, 1999]



Sec. 17.17  Initial protest procedures.

    (a) If, as part of a protest, the protester requests a suspension or 
delay of procurement, in whole or in part, pursuant to Sec. 17.15(d), 
the Product Team shall submit a response to the request to the Office of 
Dispute Resolution for Acquisition within two (2) business days of 
receipt of the protest. Copies of the response shall be furnished to the 
protester and any intervenor(s) so as to be received within the same two 
(2) business days. The protester and any intervenor(s) shall have the 
opportunity of providing additional comments on the response within an 
additional period of two (2) business days. Based on its review of such 
submissions, the Office of Dispute Resolution for Acquisition, in its 
discretion, may recommend such suspension or delay to the Administrator 
or the Administrator's designee.
    (b) Within five (5) business days of the filing of a protest, or as 
soon thereafter as practicable, the Office of Dispute Resolution for 
Acquisition shall convene a status conference to--
    (1) Review procedures;
    (2) Identify and develop issues related to summary dismissal and 
suspension recommendations;
    (3) Handle issues related to protected information and the issuance 
of any needed protective order;
    (4) Encourage the parties to use ADR;
    (5) Conduct or arrange for early neutral evaluation of the protest 
by a DRO or Neutral or Compensated Neutral, at the discretion of the 
Office of Dispute Resolution for Acquisition and/or based upon the 
agreement or request of any party(ies) seeking such evaluation; and
    (6) For any other reason deemed appropriate by the DRO or by the 
Office of Dispute Resolution for Acquisition.
    (c) On the fifth business day following the status conference, the 
Product Team and protester will file with the Office of Dispute 
Resolution for Acquisition--
    (1) A joint statement that they have decided to pursue ADR 
proceedings in lieu of adjudication in order to resolve the protest; or
    (2) Joint or separate written explanations as to why ADR proceedings 
will not be used and why the Default Adjudicative Process will be 
needed..
    (d) Should the Product Team and protester elect to utilize ADR 
proceedings to resolve the protest, they will agree upon the neutral to 
conduct the ADR proceedings (either an Office of Dispute Resolution for 
Acquisition-designated Neutral or a Compensated Neutral of their own 
choosing) pursuant to Sec. 17.33(c), and shall execute and file with the 
Office of Dispute Resolution for Acquisition a written ADR agreement 
within five (5) business days after the status conference. Agreement of 
any intervenor(s) to the use of ADR or the resolution of a dispute 
through ADR shall not be required.
    (e) Should the Product Team or protester indicate at the status 
conference that ADR proceedings will not be used, then within ten (10) 
business days following the status conference, the Product Team will 
file with the Office of Dispute Resolution for Acquisition a Product 
Team Response to the protest. The Office of Dispute Resolution for 
Acquisition may alter the schedule for filing of the Product Team 
Response to accommodate the requirements of a particular protest.
    (f) The Product Team Response shall consist of a written 
chronological statement of pertinent facts, and a written presentation 
of applicable legal or other defenses. The Product Team Response shall 
cite to and be accompanied by all relevant documents, which shall be 
chronologically indexed and tabbed. A copy of the response shall be 
furnished so as to be received by the protester and any intervenor(s) on 
the same date it is filed with the Office of Dispute Resolution for 
Acquisition, if practicable, but in any event no later than one (1) 
business day after the date if it is filed with the Office of Dispute 
Resolution for Acquisition. In all cases, the Product Team shall 
indicate the method of service used.
    (g) Should the parties pursue ADR proceedings under subpart D of 
this

[[Page 103]]

part and fail to achieve a complete resolution of the protest via ADR, 
the Office of Dispute Resolution for Acquisition, upon notification of 
that fact by any of the parties, shall designate a DRO or Special Master 
for purposes of adjudication under subpart E of this part, and the DRO 
or Special Master shall convene a status conference, wherein he/she 
shall establish a schedule for the filing of the Product Team Response 
and further submissions.
    (h) Upon submission of the Product Team Response, the protest will 
proceed under the Default Adjudicative Process pursuant to Sec. 17.37.
    (i) The time limitations of this section maybe extended by the 
Office of Dispute Resolution for Acquisition for good cause.



Sec. 17.19   Dismissal or summary decision of protests.

    (a) At any time during the protest, any party may request, by motion 
to the Office of Dispute Resolution for Acquisition, that--
    (1) The protest, or any count or portion of a protest, be dismissed 
for lack of jurisdiction, if the protester fails to establish that the 
protest is timely, or that the protester has no standing to pursue the 
protest;
    (2) The protest, or any count or portion of a protest, be dismissed, 
if frivolous or without basis in fact or law, or for failure to state a 
claim upon which relief may be had;
    (3) A summary decision be issued with respect to the protest, or any 
count or portion of a protest, if:
    (i) The undisputed material facts demonstrate a rational basis for 
the Product Team action or inaction in question, and there are no other 
material facts in dispute that would overcome a finding of such a 
rational basis; or
    (ii) The undisputed material facts demonstrate, that no rational 
basis exists for the Product Team action or inaction in question, and 
there are no material facts in dispute that would overcome a finding of 
the lack of such a rational basis.
    (b) In connection with any request for dismissal or summary 
decision, the Office of Dispute Resolution for Acquisition shall 
consider any material facts in dispute, in a light most favorable to the 
party against whom the request is made.
    (c) Either upon motion by a party or on its own initiative, the 
Office of Dispute Resolution for Acquisition may, at any time, exercise 
its discretion to:
    (1) Recommend to the Administrator dismissal or the issuance of a 
summary decision with respect to the entire protest;
    (2) Dismiss the entire protest or issue a summary decision with 
respect to the entire protest, if delegated that authority by the 
Administrator; or
    (3) Dismiss or issue a summary decision with respect to any count or 
portion of a protest.
    (d) A dismissal or summary decision regarding the entire protest by 
either the Administrator, or the Office of Dispute Resolution for 
Acquisition by delegation, shall be construed as a final agency order. A 
dismissal or summary decision that does not resolve all counts or 
portions of a protest shall not constitute a final agency order, unless 
and until such dismissal or decision is incorporated or otherwise 
adopted in a decision by the Administrator (or the Office of Dispute 
Resolution for Acquisition, by delegation) regarding the entire protest.
    (e) Prior to recommending or entering either a dismissal or a 
summary decision, either in whole or in part, the Office of Dispute 
Resolution for Acquisition shall afford all parties against whom the 
dismissal or summary decision is to be entered the opportunity to 
respond to the proposed dismissal or summary decision.



Sec. 17.21  Protest remedies.

    (a) The Office of Dispute Resolution for Acquisition has broad 
discretion to recommend remedies for a successful protest that are 
consistent with the AMS and applicable statutes. Such remedies may 
include, but are not limited to one or more, or a combination of, the 
following--
    (1) Amend the SIR;
    (2) Refrain from exercising options under the contract;
    (3) Issue a new SIR;
    (4) Require recompetition;
    (5) Terminate an existing contract for the FAA's convenience;

[[Page 104]]

    (6) Direct an award to the protester;
    (7) Award bid and proposal costs; or
    (8) Any combination of the above remedies, or any other action 
consistent with the AMS that is appropriate under the circumstances.
    (b) In determining the appropriate recommendation, the Office of 
Dispute Resolution for Acquisition should consider the circumstances 
surrounding the procurement or proposed procurement including, but not 
limited to: the nature of the procurement deficiency; the degree of 
prejudice to other parties or to the integrity of the acquisition 
system; the good faith of the parties; the extent of performance 
completed; the cost of any proposed remedy to the FAA; the urgency of 
the procurement; and the impact of the recommendation on the FAA.
    (c) Attorney's fees of a prevailing protester are allowable to the 
extent permitted by the Equal Access to Justice Act, 5 U.S.C. 
504(a)(1)(EAJA).



                      Subpart C--Contract Disputes



Sec. 17.23  Dispute resolution process for contract disputes.

    (a) All contract disputes arising under contracts subject to the AMS 
shall be resolved under this subpart.
    (b) Contractors shall file contract disputes with the Office of 
Dispute Resolution for Acquisition and the CO pursuant to Sec. 17.25.
    (c) After filing the contract dispute, the contractor should seek 
informal resolution with the CO:
    (1) The CO, with the advice of FAA legal counsel, has full 
discretion to settle contract disputes, except where the matter involves 
fraud;
    (2) The parties shall have up to twenty (20) business days within 
which to resolve the dispute informally, and may contact the Office of 
Dispute Resolution for Acquisition for assistance in facilitating such a 
resolution; and
    (3) If no informal resolution is achieved during the twenty (20) 
business day period, the parties shall file joint or separate statements 
with the Office of Dispute Resolution for Acquisition pursuant to 
Sec. 17.27.
    (d) If informal resolution of the contract dispute appears probable, 
the Office of Dispute Resolution for Acquisition shall extend the time 
for the filing of the joint statement under Sec. 17.27 for up to an 
additional twenty (20) business days, upon joint request of the CO and 
contractor.
    (e) The Office of Dispute Resolution for Acquisition shall hold a 
status conference with the parties within ten (10) business days after 
receipt of the joint statement required by Sec. 17.27, or as soon 
thereafter as is practicable, in order to establish the procedures to be 
utilized to resolve the contract dispute.
    (f) The Office of Dispute Resolution for Acquisition has broad 
discretion to recommend remedies for a successful contract dispute, that 
are consistent with the AMS and applicable law.



Sec. 17.25  Filing a contract dispute.

    (a) Contract disputes are to be in writing and shall contain:
    (1) The contractor's name, address, telephone and fax numbers and 
the name, address, telephone and fax numbers of the contractor's legal 
representative(s) (if any) for the contract dispute;
    (2) The contract number and the name of the Contracting Officer;
    (3) A detailed chronological statement of the facts and of the legal 
grounds for the contractor's positions regarding each element or count 
of the contract dispute (i.e., broken down by individual claim item), 
citing to relevant contract provisions and documents and attaching 
copies of those provisions and documents;
    (4) All information establishing that the contract dispute was 
timely filed;
    (5) A request for a specific remedy, and if a monetary remedy is 
requested, a sum certain must be specified and pertinent cost 
information and documentation (e.g., invoices and cancelled checks) 
attached, broken down by individual claim item and summarized; and
    (6) The signature of a duly authorized representative of the 
initiating party.
    (b) Contract disputes shall be filed by mail, in person, by 
overnight delivery or by facsimile at the following address:
    (1) Office of Dispute Resolution for Acquisition, AGC-70, Federal 
Aviation Administration, 400 7th Street, SW.,

[[Page 105]]

Room 8332, Washington, DC 20590, Telephone: (202) 366-6400, Facsimile: 
(202) 366-7400; or
    (2) Other address as shall be published from time to time in the 
Federal Register.
    (c) A contract dispute against the FAA shall be filed with the 
Office of Dispute Resolution for Acquisition within two (2) years of the 
accrual of the contract claim involved. A contract dispute by the FAA 
against a contractor (excluding contract disputes alleging warranty 
issues, fraud or latent defects) likewise shall be filed within two (2) 
years after the accrual of the contract claim. If an underlying contract 
entered into prior to the effective date of this part provides for time 
limitations for filing of contract disputes with The Office of Dispute 
Resolution for Acquisition which differ from the aforesaid two (2) year 
period, the limitation periods in the contract shall control over the 
limitation period of this section. In no event will either party be 
permitted to file with the Office of Dispute Resolution for Acquisition 
a contract dispute seeking an equitable adjustment or other damages 
after the contractor has accepted final contract payment, with the 
exception of FAA claims related to warranty issues, gross mistakes 
amounting to fraud or latent defects. FAA claims against the contractor 
based on warranty issues must be filed within the time specified under 
applicable contract warranty provisions. Any FAA claims against the 
contractor based on gross mistakes amounting to fraud or latent defects 
shall be filed with the Office of Dispute Resolution for Acquisition 
within two (2) years of the date on which the FAA knew or should have 
known of the presence of the fraud or latent defect.
    (d) A party shall serve a copy of the contract dispute upon the 
other party, by means reasonably calculated to be received on the same 
day as the filing is to be received by the Office of Dispute Resolution 
for Acquisition.



Sec. 17.27  Submission of joint or separate statements.

    (a) If the matter has not been resolved informally, the parties 
shall file joint or separate statements with the Office of Dispute 
Resolution for Acquisition no later than twenty (20) business days after 
the filing of the contract dispute. The Office of Dispute Resolution for 
Acquisition may extend this time, pursuant to Sec. 17.23(d).
    (b) The statement(s) shall include either--
    (1) A joint request for ADR, and an executed ADR agreement, pursuant 
to Sec. 17.33(d), specifying which ADR techniques will be employed; or
    (2) Written explanation(s) as to why ADR proceedings will not be 
used and why the Default Adjudicative Process will be needed.
    (c) Such statements shall be directed to the following address:
    (1) Office of Dispute Resolution for Acquisition, AGC-70, Federal 
Aviation Administration, 400 7th Street, SW., Room 8332, Washington, DC 
20590, Telephone: (202) 366-6400, Facsimile: (202) 366-7400; or
    (2) Other address as shall be published from time to time in the 
Federal Register.
    (d) The submission of a statement which indicates that ADR will not 
be utilized will not in any way preclude the parties from engaging in 
informal ADR techniques with the Office of Dispute Resolution for 
Acquisition (neutral evaluation and/or informal mediation) concurrently 
with ongoing adjudication under the Default Adjudicative Process, 
pursuant to Sec. 17.31(c).



Sec. 17.29  Dismissal or summary decision of contract disputes.

    (a) Any party may request, by motion to the Office of Dispute 
Resolution for Acquisition, that a contract dispute be dismissed, or 
that a count or portion of a contract dispute be stricken, if:
    (1) It was not timely filed with the Office of Dispute Resolution 
for Acquisition;
    (2) It was filed by a subcontractor;
    (3) It fails to state a matter upon which relief may be had; or
    (4) It involves a matter not subject to the jurisdiction of the 
Office of Dispute Resolution for Acquisition.
    (b) In connection with any request for dismissal of a contract 
dispute, or to strike a count or portion thereof, the Office of Dispute 
Resolution for Acquisition should consider any material

[[Page 106]]

facts in dispute in a light most favorable to the party against whom the 
request for dismissal is made.
    (c) At any time, whether pursuant to a motion or request or on its 
own initiative and at its discretion, the Office of Dispute Resolution 
for Acquisition may--
    (1) Dismiss or strike a count or portion of a contract dispute;
    (2) Recommend to the Administrator that the entire contract dispute 
be dismissed; or
    (3) With delegation from the Administrator, dismiss the entire 
contract dispute.
    (d) An order of dismissal of the entire contract dispute, issued 
either by the Administrator or by the Office of Dispute Resolution for 
Acquisition where delegation exists, on the grounds set forth in this 
section, shall constitute a final agency order. An Office of Dispute 
Resolution for Acquisition order dismissing or striking a count or 
portion of a contract dispute shall not constitute a final agency order, 
unless and until such Office of Dispute Resolution for Acquisition order 
is incorporated or otherwise adopted in a decision of the Administrator 
or the Administrator's delegee.
    (e) Prior to recommending or entering either a dismissal or a 
summary decision, either in whole or in part, the Office of Dispute 
Resolution for Acquisition shall afford all parties against whom the 
dismissal or summary decision is to be entered the opportunity to 
respond to a proposed dismissal or summary decision.



                Subpart D--Alternative Dispute Resolution



Sec. 17.31  Use of alternative dispute resolution.

    (a) The Office of Dispute Resolution for Acquisition shall encourage 
the parties to utilize ADR as their primary means to resolve protests 
and contract disputes.
    (b) The parties shall make a good faith effort to explore ADR 
possibilities in all cases and to employ ADR in every appropriate case. 
The Office of Dispute Resolution for Acquisition will encourage use of 
ADR techniques such as mediation, neutral evaluation, or minitrials, or 
variations of these techniques as agreed by the parties and approved by 
the Office of Dispute Resolution for Acquisition. The Office of Dispute 
Resolution for Acquisition shall assign a DRO to explore ADR options 
with the parties and to arrange for an early neutral evaluation of the 
merits of a case, if requested by any party.
    (c) The Default Adjudicative Process will be used where the parties 
cannot achieve agreement on the use of ADR; or where ADR has been 
employed but has not resolved all pending issues in dispute; or where 
the Office of Dispute Resolution for Acquisition concludes that ADR will 
not provide an expeditious means of resolving a particular dispute. Even 
where the Default Adjudicative Process is to be used, the Office of 
Dispute Resolution for Acquisition, with the parties consent, may employ 
informal ADR techniques concurrently with and in parallel to 
adjudication.



Sec. 17.33  Election of alternative dispute resolution process.

    (a) The Office of Dispute Resolution for Acquisition will make its 
personnel available to serve as Neutrals in ADR proceedings and, upon 
request by the parties, will attempt to make qualified non-FAA personnel 
available to serve as Neutrals through neutral-sharing programs and 
other similar arrangements. The parties may elect to employ a mutually 
Compensated Neutral, if the parties agree as to how the costs of any 
such Compensated Neutral are to be shared.
    (b) The parties using an ADR process to resolve a protest shall 
submit an executed ADR agreement containing the information outlined in 
paragraph (d) of this section to the Office of Dispute Resolution for 
Acquisition within five (5) business days after the Office of Dispute 
Resolution for Acquisition conducts a status conference pursuant to 
Sec. 17.17(c). The Office of Dispute Resolution for Acquisition may 
extend this time for good cause.
    (c) The parties using an ADR process to resolve a contract dispute 
shall submit an executed ADR agreement containing the information 
outlined in

[[Page 107]]

paragraph (d) of this section to the Office of Dispute Resolution for 
Acquisition as part of the joint statement specified under Sec. 17.27.
    (d) The parties to a protest or contract dispute who elect to use 
ADR must submit to the Office of Dispute Resolution for Acquisition an 
ADR agreement setting forth:
    (1) The type of ADR technique(s) to be used;
    (2) The agreed-upon manner of using the ADR process; and
    (3) Whether the parties agree to use a Neutral through The Office of 
Dispute Resolution for Acquisition or to use a Compensated Neutral of 
their choosing, and, if a Compensated Neutral is to be used, how the 
cost of the Compensated Neutral's services will be shared.
    (e) Non-binding ADR techniques are not mutually exclusive, and may 
be used in combination if the parties agree that a combination is most 
appropriate to the dispute. The techniques to be employed must be 
determined in advance by the parties and shall be expressly described in 
their ADR agreement. The agreement may provide for the use of any fair 
and reasonable ADR technique that is designed to achieve a prompt 
resolution of the matter. An ADR agreement for non-binding ADR shall 
provide for a termination of ADR proceedings and the commencement of 
adjudication under the Default Adjudicative Process, upon the election 
of any party. Notwithstanding such termination, the parties may still 
engage with the Office of Dispute Resolution for Acquisition in informal 
ADR techniques (neutral evaluation and/or informal mediation) 
concurrently with adjudication, pursuant to Sec. 17.31(c).
    (f) Binding arbitration may be permitted by the Office of Dispute 
Resolution for Acquisition on a case-by-case basis; and shall be subject 
to the provisions of 5 U.S.C. 575(a), (b), and (c), and any other 
applicable law. Arbitration that is binding on the parties, subject to 
the Administrator's right to approve or disapprove the arbitrator's 
decision, may also be permitted.
    (g) For protests, the ADR process shall be completed within twenty 
(20) business days from the filing of an executed ADR agreement with the 
Office of Dispute Resolution for Acquisition unless the parties request, 
and are granted an extension of time from the Office of Dispute 
Resolution for Acquisition.
    (h) For contract disputes, the ADR process shall be completed within 
forty (40) business days from the filing of an executed ADR agreement 
with the Office of Dispute Resolution for Acquisition, unless the 
parties request, and are granted an extension of time from the Office of 
Dispute Resolution for Acquisition.
    (i) The parties shall submit to the Office of Dispute Resolution for 
Acquisition an agreed-upon protective order, if necessary, in accordance 
with the requirements of Sec. 17.9.



Sec. 17.35  Selection of neutrals for the alternative dispute resolution process.

    (a) In connection with the ADR process, the parties may select a 
Compensated Neutral acceptable to both, or may request the Office of 
Dispute Resolution for Acquisition to provide the services of a DRO or 
other Neutral.
    (b) In cases where the parties select a Compensated Neutral who is 
not familiar with Office of Dispute Resolution for Acquisition 
procedural matters, the parties or Compensated Neutral may request the 
Office of Dispute Resolution for Acquisition for the services of a DRO 
to advise on such matters.



                 Subpart E--Default Adjudicative Process



Sec. 17.37  Default adjudicative process for protests.

    (a) Other than for the resolution of preliminary or dispositive 
matters, the Default Adjudicative Process for protests will commence 
upon the submission of the Product Team Response to the Office of 
Dispute Resolution for Acquisition, pursuant to Sec. 17.17.
    (b) The Director of the Office of Dispute Resolution for Acquisition 
shall select a DRO or a Special Master to conduct fact-finding 
proceedings and to provide findings and recommendations concerning some 
or all of the matters in controversy.

[[Page 108]]

    (c) The DRO or Special Master may prepare procedural orders for the 
proceedings as deemed appropriate; and may require additional 
submissions from the parties. As a minimum, the protester and any 
intervenor(s) must submit to the Office of Dispute Resolution for 
Acquisition written comments with respect to the Product Team Response 
within five (5) business days of the Response having been filed with the 
Office of Dispute Resolution for Acquisition or within five (5) business 
days of their receipt of the Response, whichever is later. Copies of 
such comments shall be provided to the other participating parties by 
the same means and on the same date as they are furnished to the Office 
of Dispute Resolution for Acquisition.
    (d) The DRO or Special Master may convene the parties and/or their 
representatives, as needed, to pursue the Default Adjudicative Process.
    (e) If, in the sole judgment of the DRO or Special Master, the 
parties have presented written material sufficient to allow the protest 
to be decided on the record presented, the DRO or Special Master shall 
have the discretion to decide the protest on that basis.
    (f) The parties may engage in voluntary discovery with one another 
and, if justified, with non-parties, so as to obtain information 
relevant to the allegations of the protest. The DRO or Special Master 
may also direct the parties to exchange, in an expedited manner, 
relevant, non-privileged documents. Where justified, the DRO or Special 
Master may direct the taking of deposition testimony, however, the FAA 
dispute resolution process does not contemplate extensive discovery. The 
DRO or Special Master shall manage the discovery process, including 
limiting its length and availability, and shall establish schedules and 
deadlines for discovery, which are consistent with time frames 
established in this part and with the FAA policy of providing fair and 
expeditious dispute resolution.
    (g) The DRO or Special Master may conduct hearings, and may limit 
the hearings to the testimony of specific witnesses and/or presentations 
regarding specific issues. The DRO or Special Master shall control the 
nature and conduct of all hearings, including the sequence and extent of 
any testimony. Hearings will be conducted:
    (1) Where the DRO or Special Master determines that there are 
complex factual issues in dispute that cannot adequately or efficiently 
be developed solely by means of written presentations and/or that 
resolution of the controversy will be dependent on his/her assessment of 
the credibility of statements provided by individuals with first-hand 
knowledge of the facts; or
    (2) Upon request of any party to the protest, unless the DRO or 
Special Master finds specifically that a hearing is unnecessary and that 
no party will be prejudiced by limiting the record in the adjudication 
to the parties' written submissions. All witnesses at any such hearing 
shall be subject to cross-examination by the opposing party and to 
questioning by the DRO or Special Master.
    (h) The Director of the Office of Dispute Resolution for Acquisition 
may review the status of any protest in the Default Adjudicative Process 
with the DRO or Special Master during the pendency of the process.
    (i) Within thirty (30) business days of the commencement of the 
Default Adjudicative Process, or at the discretion of the Office of 
Dispute Resolution for Acquisition, the DRO or Special Master will 
submit findings and recommendations to the Office of Dispute Resolution 
for Acquisition that shall contain the following:
    (1) Findings of fact;
    (2) Application of the principles of the AMS, and any applicable law 
or authority to the findings of fact;
    (3) A recommendation for a final FAA order; and
    (4) If appropriate, suggestions for future FAA action.
    (j) In arriving at findings and recommendations relating to 
protests, the DRO or Special Master shall consider whether or not the 
Product Team actions in question had a rational basis, and whether or 
not the Product Team decision under question was arbitrary, capricious 
or an abuse of discretion. Findings of fact underlying the 
recommendations must be supported by substantial evidence.

[[Page 109]]

    (k) The DRO or Special Master has broad discretion to recommend a 
remedy that is consistent with Sec. 17.21.
    (l) A DRO or Special Master shall submit findings and 
recommendations only to the Director of the Office of Dispute Resolution 
for Acquisition. The findings and recommendations will be released to 
the parties and to the public, only upon issuance of the final FAA order 
in the case. Should an Office of Dispute Resolution for Acquisition 
protective order be issued in connection with the protest, a redacted 
version of the findings and recommendations, omitting any protected 
information, shall be prepared wherever possible and released to the 
public along with a copy of the final FAA order. Only persons admitted 
by the Office of Dispute Resolution for Acquisition under the protective 
order and Government personnel shall be provided copies of the 
unredacted findings and recommendations.
    (m) The time limitations set forth in this section may be extended 
by the Office of Dispute Resolution for Acquisition for good cause.



Sec. 17.39  Default adjudicative process for contract disputes.

    (a) The Default Adjudicative Process for contract disputes will 
commence on the latter of:
    (1) The parties' submission to the Office of Dispute Resolution for 
Acquisition of a joint statement pursuant to Sec. 17.27 which indicates 
that ADR will not be utilized; or
    (2) The parties' submission to the Office of Dispute Resolution for 
Acquisition of notification by any party that the parties have not 
settled some or all of the dispute issues via ADR, and it is unlikely 
that they can do so within the time period allotted and/or any 
reasonable extension.
    (b) Within twenty (2) business days of the commencement of the 
Default Adjudicative Process, the Product Team shall prepare and submit 
to the Office of Dispute Resolution for Acquisition, with a copy to the 
contractor, a chronologically arranged and indexed Dispute File, 
containing all documents which are relevant to the facts and issues in 
dispute. The contractor will be entitled to supplement such a Dispute 
File with additional documents.
    (c) The Director of the Office of Dispute Resolution for Acquisition 
shall assign a DRO or a Special Master to conduct fact-finding 
proceedings and provide findings and recommendations concerning the 
issues in dispute.
    (d) The Director of the Office of Dispute Resolution for Acquisition 
may delegate authority to the DRO or Special Master to conduct a Status 
Conference within ten (10) business days of the commencement of the 
Default Adjudicative Process, and, may further delegate to the DRO or 
Special Master the authority to issue such orders or decisions to 
promote the efficient resolution of the contract dispute.
    (e) At any such Status Conference, or as necessary during the 
Default Adjudicative Process, the DRO or Special Master will:
    (1) Determine the appropriate amount of discovery required to 
resolve the dispute;
    (2) Review the need for a protective order, and if one is needed, 
prepare a protective order pursuant to Sec. 17.9;
    (3) Determine whether any issue can be stricken; and
    (4) Prepare necessary procedural orders for the proceedings.
    (f) At a time or at times determined by the DRO or Special Master, 
and in advance of the decision of the case, the parties shall make final 
submissions to the Office of Dispute Resolution for Acquisition and to 
the DRO or Special Master, which submissions shall include the 
following:
    (1) A joint statement of the issues;
    (2) A joint statement of undisputed facts related to each issue;
    (3) Separate statements of disputed facts related to each issue, 
with appropriate citations to documents in the Dispute File, to pages of 
transcripts of any hearing or deposition, or to any affidavit or exhibit 
which a party may wish to submit with its statement;
    (4) Separate legal analyses in support of the parties' respective 
positions on disputed issues.
    (g) Each party shall serve a copy of its final submission on the 
other party by means reasonable calculated so that the other party 
receives such submissions on the same day it is received by

[[Page 110]]

the Office of Dispute Resolution for Acquisition.
    (h) The DRO or Special Master may decide the contract dispute on the 
basis of the record and the submissions referenced in this section, or 
may, in the DRO or Special Master's discretion, allow the parties to 
make additional presentations in writing. The DRO or Special Master may 
conduct hearings, and may limit the hearings to the testimony of 
specific witnesses and/or presentations regarding specific issues. The 
DRO or Special Master shall control the nature and conduct of all 
hearings, including the sequence and extent of any testimony. Hearings 
on the record shall be conducted by the ODRA:
    (1) Where the DRO or Special Master determines that there are 
complex factual issues in dispute that cannot adequately or efficiently 
be developed solely by means of written presentations and/or that 
resolution of the controversy will be dependent on his/her assessment of 
the credibility of statements provided by individuals with first-hand 
knowledge of the facts; or
    (2) Upon request of any party to the contract dispute, unless the 
DRO or Special Master finds specifically that a hearing is unnecessary 
and that no party will be prejudiced by limiting the record in the 
adjudication to the parties written submissions. All witnesses at any 
such hearing shall be subject to cross-examination by the opposing party 
and to questioning by the DRO or Special Master.
    (i) The DRO or Special Master shall prepare findings and 
recommendations within thirty (30) business days from receipt of the 
final submissions of the parties, unless that time is extended by the 
Officer of Dispute Resolution for Acquisition for good cause. The 
findings and recommendations shall contain findings of fact, application 
of the principles of the AMS and other law or authority applicable to 
the findings of fact, a recommendation for a final FAA order, and, if 
appropriate, suggestions for future FAA action.
    (j) As a party of the findings and recommendations, the DRO or 
Special Master shall review the disputed issue or issues in the context 
of the contract, any applicable law and the AMS. Any finding of fact set 
forth in the fundings and recommendation must be supported by 
substantial evidence.
    (k) The Director of the Office of Dispute Resolution for Acquisition 
may review the status of any contract dispute in the Default 
Adjudicative Process with the DRO or Special Master during the pendency 
of the process.
    (l) A DRO or Special Master shall submit findings and 
recommendations only to the Director of the Office of Dispute Resolution 
for Acquisition. The findings and recommendations will be released to 
the parties and to the public, upon issuance of the final FAA order in 
the case. Should an Office of Dispute Resolution for Acquisition 
protective order be issued in connection with the contract dispute, a 
redacted version of the findings and recommendations omitting any 
protected information, shall be prepared wherever possible and released 
to the public along with a copy of the final FAA order. Only persons 
admitted by the Office of Dispute Resolution for Acquisition under the 
protective order and Government personal shall be provided copies of the 
unredacted findings and recommendation.
    (m) The time limitations set forth in this section may be extended 
by the Office of Dispute Resolution for Acquisition for good cause.
    (n) Attorneys fees of a qualified prevailing contractor are 
allowable to the extent permitted by the EAJA, 5 U.S.C. 504 (a)(1).

[Doc. No. FAA-1998-4379, 64 FR 32936, June 18, 1999; 64 FR 47362, Aug. 
31, 1999]



                     Subpart F--Finality and Review



Sec. 17.41  Final orders.

    All final FAA orders regarding protests or connect disputes under 
this part are to be issued by the FAA Administrator or by a delegee of 
the Administrator.



Sec. 17.43  Judicial review.

    (a) A protestor or contractor may seek of a final FAA order, 
pursuant to 49 U.S.C. 46110, only after the administrative remedies of 
this part have been exhausted.

[[Page 111]]

    (b) A copy of the petition for review shall be filed with the Office 
of Dispute Resolution for Acquisition and the FAA Chief Counsel on the 
date that the petition for review is filed with the appropriate circuit 
court of appeals.



Sec. 17.45  Conforming amendments.

    The FAA shall amend pertinent provisions of the AMS, standard 
contract forms and clauses, and any guidance to contracting officials, 
so as to conform to the provisions of this part.

       Appendix A to Part 17--Alternative Dispute Resolution (ADR)

    A. The FAA dispute resolution procedures encourage the parties to 
protests and contract disputes to use ADR as the primary means to 
resolve protests and contract disputes, pursuant to the Administrative 
Dispute Resolution Act of 1996, Pub. L. 104-320, 5 U.S.C. 570-579, and 
Department of Transportation and FAA policies to utilize ADR to the 
maximum extent practicable. Under the procedures presented in this part, 
the Office of Dispute Resolution for Acquisition would encourage parties 
to consider ADR techniques such as case evaluation, mediation, or 
arbitration.
    B. ADR encompasses a number of processes and techniques for 
resolving protests or contract disputes. The most commonly used types 
include:
    (1) Mediation. The Neutral or Compensated Neutral ascertains the 
needs and interests of both parties and facilitates discussions between 
or among the parties and an amicable resolution of their differences, 
seeking approaches to bridge the gaps between the parties' respective 
positions. The Neutral or Compensated Neutral can meet with the parties 
separately, conduct joint meetings with the parties' representatives, or 
employ both methods in appropriate cases.
    (2) Neutral Evaluation. At any stage during the ADR process, as the 
parties may agree, the Neutral or Compensated Neutral will provide a 
candid assessment and opinion of the strengths and weaknesses of the 
parties' positions as to the facts and law, so as to facilitate further 
discussion and resolution.
    (3) Minitrial. The minitrial resembles adjudication, but is less 
formal. It is used to provide an efficient process for airing and 
resolving more complex, fact-intensive disputes. The parties select 
principal representatives who should be senior officials of their 
respective organizations, having authority to negotiate a complete 
settlement. It is preferable that the principals be individuals who were 
not directly involved in the events leading to the dispute and who, 
thus, may be able to maintain a degree of impartiality during the 
proceeding. In order to maintain such impartiality, the principals 
typically serve as ``judges'' over the mini-trial proceeding together 
with the Neutral or Compensated Neutral. The proceeding is aimed at 
informing the principal representatives and the Neutral or Compensated 
Neutral of the underlying bases of the parties' positions. Each party is 
given the opportunity and responsibility to present its position. The 
presentations may be made through the parties' counsel and/or through 
some limited testimony of fact witnesses or experts, which may be 
subject to cross-examination or rebuttal. Normally, witnesses are not 
sworn in and transcripts are not made of the proceedings. Similarly, 
rules of evidence are not directly applicable, though it is recommended 
that the Neutral or Compensated Neutral be provided authority by the 
parties' ADR agreement to exclude evidence which is not relevant to the 
issues in dispute, for the sake of an efficient proceeding. Frequently, 
minitrials are followed either by direct one-on-one negotiations by the 
parties' principals or by meetings between the Neutral/Compensated 
Neutral and the parties' principals, at which the Neutral/Compensated 
Neutral may offer his or her views on the parties' positions (i.e., 
Neutral Evaluation) and/or facilitate negotiations and ultimate 
resolution via Mediation.

[[Page 112]]





                         SUBCHAPTER C--AIRCRAFT



PART 21--CERTIFICATION PROCEDURES FOR PRODUCTS AND PARTS--Table of Contents




Special Federal Aviation Regulation No. 26
Special Federal Aviation Regulation No. 41
Special Federal Aviation Regulation No. 88--Fuel Tank System Fault 
          Tolerance Evaluation Requirements

                           Subpart A--General

Sec.
21.1  Applicability.
21.2  Falsification of applications, reports, or records.
21.3  Reporting of failures, malfunctions, and defects.
21.5  Airplane or Rotorcraft Flight Manual.

                      Subpart B--Type Certificates

21.11  Applicability.
21.13  Eligibility.
21.15  Application for type certificate.
21.16  Special conditions.
21.17  Designation of applicable regulations.
21.19  Changes requiring a new type certificate.
21.21  Issue of type certificate: normal, utility, acrobatic, commuter, 
          and transport category aircraft; manned free balloons; special 
          classes of aircraft; aircraft engines; propellers.
21.23  [Reserved]
21.24  Issuance of type certificate: primary category aircraft.
21.25  Issue of type certificate: Restricted category aircraft.
21.27  Issue of type certificate: surplus aircraft of the Armed Forces.
21.29  Issue of type certificate: import products.
21.31  Type design.
21.33  Inspection and tests.
21.35  Flight tests.
21.37  Flight test pilot.
21.39  Flight test instrument calibration and correction report.
21.41  Type certificate.
21.43  Location of manufacturing facilities.
21.45  Privileges.
21.47  Transferability.
21.49  Availability.
21.50  Instructions for continued airworthiness and manufacturer's 
          maintenance manuals having airworthiness limitations sections.
21.51  Duration.
21.53  Statement of conformity.

                Subpart C--Provisional Type Certificates

21.71  Applicability.
21.73  Eligibility.
21.75  Application.
21.77  Duration.
21.79  Transferability.
21.81  Requirements for issue and amendment of Class I provisional type 
          certificates.
21.83  Requirements for issue and amendment of Class II provisional type 
          certificates.
21.85  Provisional amendments to type certificates.

                 Subpart D--Changes to Type Certificates

21.91  Applicability.
21.93  Classification of changes in type design.
21.95  Approval of minor changes in type design.
21.97  Approval of major changes in type design.
21.99  Required design changes.
21.101  Designation of applicable regulations.

                Subpart E--Supplemental Type Certificates

21.111  Applicability.
21.113  Requirement of supplemental type certificate.
21.115  Applicable requirements.
21.117  Issue of supplemental type certificates.
21.119  Privileges.

            Subpart F--Production Under Type Certificate Only

21.121  Applicability.
21.123  Production under type certificate.
21.125  Production inspection system: Materials Review Board.
21.127  Tests: aircraft.
21.128  Tests: aircraft engines.
21.129  Tests: propellers.
21.130  Statement of conformity.

                   Subpart G--Production Certificates

21.131  Applicability.
21.133  Eligibility.
21.135  Requirements for issuance.
21.137  Location of manufacturing facilities.
21.139  Quality control.
21.143  Quality control data requirements; prime manufacturer.
21.147  Changes in quality control system.
21.149  Multiple products.
21.151  Production limitation record.
21.153  Amendment of the production certificates.

[[Page 113]]

21.155  Transferability.
21.157  Inspections and tests.
21.159  Duration.
21.161  Display.
21.163  Privileges.
21.165  Responsibility of holder.

                  Subpart H--Airworthiness Certificates

21.171  Applicability.
21.173  Eligibility.
21.175  Airworthiness certificates: classification.
21.177  Amendment or modification.
21.179  Transferability.
21.181  Duration.
21.182  Aircraft identification.
21.183  Issue of standard airworthiness certificates for normal, 
          utility, acrobatic, commuter, and transport category aircraft; 
          manned free balloons; and special classes of aircraft.
21.184  Issue of special airworthiness certificates for primary category 
          aircraft.
21.185  Issue of airworthiness certificates for restricted category 
          aircraft.
21.187  Issue of multiple airworthiness certification.
21.189  Issue of airworthiness certificate for limited category 
          aircraft.
21.191  Experimental certificates.
21.193  Experimental certificates: general.
21.195  Experimental certificates: Aircraft to be used for market 
          surveys, sales demonstrations, and customer crew training.
21.197  Special flight permits.
21.199  Issue of special flight permits.

            Subpart I--Provisional Airworthiness Certificates

21.211  Applicability.
21.213  Eligibility.
21.215  Application.
21.217  Duration.
21.219  Transferability.
21.221  Class I provisional airworthiness certificates.
21.223  Class II provisional airworthiness certificates.
21.225  Provisional airworthiness certificates corresponding with 
          provisional amendments to type certificates.

          Subpart J--Delegation Option Authorization Procedures

21.231  Applicability.
21.235  Application.
21.239  Eligibility.
21.243  Duration.
21.245  Maintenance of eligibility.
21.247  Transferability.
21.249  Inspections.
21.251  Limits of applicability.
21.253  Type certificates: application.
21.257  Type certificates: issue.
21.261  Equivalent safety provisions.
21.267  Production certificates.
21.269  Export airworthiness approvals.
21.271  Airworthiness approval tags.
21.273  Airworthiness certificates other than experimental.
21.275  Experimental certificates.
21.277  Data review and service experience.
21.289  Major repairs, rebuilding and alteration.
21.293  Current records.

   Subpart K--Approval of Materials, Parts, Processes, and Appliances

21.301  Applicability.
21.303  Replacement and modification parts.
21.305  Approval of materials, parts, processes, and appliances.

                Subpart L--Export Airworthiness Approvals

21.321  Applicability.
21.323  Eligibility.
21.325  Export airworthiness approvals.
21.327  Application.
21.329  Issue of export certificates of airworthiness for Class I 
          products.
21.331  Issue of airworthiness approval tags for Class II products.
21.333  Issue of export airworthiness approval tags for Class III 
          products.
21.335  Responsibilities of exporters.
21.337  Performance of inspections and overhauls.
21.339  Special export airworthiness approval for aircraft.

    Subpart M--Designated Alteration Station Authorization Procedures

21.431  Applicability.
21.435  Application.
21.439  Eligibility.
21.441  Procedure manual.
21.443  Duration.
21.445  Maintenance of eligibility.
21.447  Transferability.
21.449  Inspections.
21.451  Limits of applicability.
21.461  Equivalent safety provisions.
21.463  Supplemental type certificates.
21.473  Airworthiness certificates other than experimental.
21.475  Experimental certificates.
21.477  Data review and service experience.
21.493  Current records.

   Subpart N--Approval of Engines, Propellers, Materials, Parts, and 
                           Appliances: Import

21.500  Approval of engines and propellers.
21.502  Approval of materials, parts, and appliances.

[[Page 114]]

           Subpart O--Technical Standard Order Authorizations

21.601  Applicability.
21.603  TSO marking and privileges.
21.605  Application and issue.
21.607  General rules governing holders of TSO authorizations.
21.609  Approval for deviation.
21.611  Design changes.
21.613  Recordkeeping requirements.
21.615  FAA inspection.
21.617  Issue of letters of TSO design approval: import appliances.
21.619  Noncompliance.
21.621  Transferability and duration.

    Authority: 42 U.S.C. 7572; 49 U.S.C. 106(g), 40105, 40113, 44701-
44702, 44707, 44709, 44711, 44713, 44715, 45303.

    Editorial Note: For miscellaneous amendments to cross references in 
this Part 21 see Amdt. 21-10, 31 FR 9211, July 6, 1966.

               Special Federal Aviation Regulation No. 26

    Contrary provisions of Secs. 21.29, 21.500, and 21.502 of the 
Federal Aviation Regulations notwithstanding--
    1. A type certificate may be issued under Sec. 21.29 for an aircraft 
engine or propeller manufactured in a foreign country with which the 
United States has a currently effective bilateral agreement for the 
acceptance of powered aircraft for export and import and that is to be 
imported into the United States if (i) a type certificate has previously 
been issued by the Administrator for a product manufactured in that 
country which is of the same kind as the product for which a type 
certificate is requested; and (ii) the Administrator determines that the 
design standards and practices, the quality control standards, and the 
certification procedures utilized by such country for the particular 
product being imported are the equivalent of those required in the 
United States.
    2. Aircraft engines, propellers, materials, parts (including 
subassemblies), or appliances (hereinafter referred to as aircraft 
components), manufactured in a foreign country with which the United 
States has a currently effective bilateral agreement for the acceptance 
of powered aircraft may be approved under Sec. 21.500 or Sec. 21.502, as 
applicable, if (i) an approval has previously been issued by the 
Administrator for an aircraft component manufactured in that country 
which is of the same kind as the aircraft component for which approval 
is requested; and (ii) the Administrator determines that the quality 
control standards and the certification and approval procedures utilized 
by such country for the particular aircraft component being imported are 
the equivalent of those required in the United States.
    3. Aircraft subassemblies not covered under paragraph 2 that are to 
be incorporated on aircraft designed and manufactured in the United 
States, and that are manufactured in a foreign country with which the 
United States has a currently effective bilateral agreement for the 
acceptance of powered aircraft may be approved if (i) an approval has 
previously been issued by the Administrator for any other subassembly 
manufactured in that country; (ii) the Administrator determines that the 
quality control standards and the certification and approval procedures 
utilized by that country for the particular subassembly being imported 
are equivalent to those required in the United States; and (iii) the 
competent aeronautical authorities of the country certify that the 
subassembly meets the applicable design requirements.
    4. Appropriate procedures for the execution of the provisions 
contained in paragraphs 1, 2, and 3 of the regulation may be embodied in 
agreements between the Administrator and the competent aeronautical 
authorities of the country of manufacture of the aircraft component.
    5. In the event that the Administrator determines that the quality 
control standards and certification and approval procedures being 
utilized in the foreign countries to which this regulation is applicable 
no longer meet the quality control and certification and approval 
requirements equivalent to those required in the United States, the 
approval given under this regulation for the import into the United 
States of those aeronautical products covered by the regulation will be 
terminated.
    6. After October 1, 1977, this special regulation applies only to 
aircraft components and subassemblies produced in Japan pursuant to 
contracts between Japanese manufacturers and United States product 
manufacturers entered into prior to October 1, 1977.
    This special regulation shall terminate December 1, 1977, unless 
sooner rescinded or superseded.

[35 FR 12749, Aug. 12, 1970, as amended at 40 FR 28604, July 8, 1975; 41 
FR 27954, July 8, 1976; Doc. No. 10492, 42 FR 35634, July 11, 1977; 
Amdt. 26-11, 42 FR 54408, Oct. 6, 1977]

               Special Federal Aviation Regulation No. 41

    1. Applicability.
    (a) Contrary provisions of Parts 21 and 23 of the Federal Aviation 
Regulations notwithstanding, an applicant is entitled to an amended or 
supplemental type certificate in the normal category for a reciprocating 
or turbopropeller-powered multiengine small airplane originally type 
certificated prior to October 17, 1979 in accordance with Part 23 of the 
Federal Aviation Regulations in effect

[[Page 115]]

on March 13, 1971, or later, that is to be certificated with a passenger 
seating configuration, excluding pilot seats, of 10 seats or more (but 
not more than 19 seats) at a maximum certificated takeoff weight of 
12,500 pounds or less, if the applicant complies with--
    (1) The regulations incorporated in the type certificate; and
    (2) The requirements of appendix A of Part 135 of the Federal 
Aviation Regulations in effect on September 26, 1978, except that the 
landing distance must be determined for standard atmosphere at each 
weight, altitude, and wind within the operating limits established by 
the applicant in accordance with Sec. 23.75(a) of this chapter in effect 
on September 26, 1978. Instead of a gliding approach specified in 
Sec. 23.75(a), the landing may be preceded by a steady approach down to 
the 50-foot height at a gradient of descent not greater than 5.2 percent 
(3 deg.) at a calibrated airspeed not less than 1.3Vs1.
    (b) Contrary provisions of Parts 1, 21, 23, 91, 121, and 135 of the 
Federal Aviation Regulations notwithstanding, an applicant is entitled 
to an amended or supplemental type certificate in the normal category 
for a reciprocating or turbopropeller powered multiengine airplane 
originally type certified prior to October 17, 1979 that is to be 
certificated with a maximum takeoff weight in excess of 12,500 pounds, a 
specified maximum zero fuel weight to be established by the applicant, 
and, where requested by the applicant, an increase in passenger seating 
configuration, (but not more than 19 passenger seats), if the applicant 
complies with--
    (1) The regulations incorporated in the type certificate;
    (2) The requirements of appendix A of Part 135 of the Federal 
Aviation Regulations in effect on September 26, 1978 with the exceptions 
specified in section 5 of this Special Federal Aviation Regulation; and
    (3) The additional requirements specified in sections 7 through 14 
of this Special Federal Aviation Regulation applicable to takeoff 
weights in excess of 12,500 pounds.
    (c) Contrary provisions of Part 1 of the Federal Aviation 
Regulations notwithstanding, an airplane certificated under paragraph 
(b) of this section is considered to be a small airplane for purposes of 
Parts 21, 23, 36, 121, 135, and 139 of the Federal Aviation Regulations, 
and a large airplane for purposes of Parts 61 and 91. Compliance with 
the small airplane provisions of Part 36 of the Federal Aviation 
Regulations must be shown at the maximum certificated takeoff weight 
approved under this Special Federal Aviation Regulation.
    2. Eligibility. Any person may apply for a supplemental type 
certificate (or an amended type certificate in the case of a type 
certificate holder) under this Special Federal Aviation Regulation.
    3. Production limitation. An amended or supplemental type 
certificate issued pursuant to section 1.(b) of this Special Federal 
Aviation Regulation is effective for the purpose of obtaining an 
original or an amended airworthiness certificate, until October 17, 1991 
unless the type certificate is sooner surrendered, suspended, revoked, 
or terminated.
    4. Restrictions. For airplanes certificated under section 1.(b) of 
this Special Federal Aviation Regulation--
    (a) The maximum zero fuel weight of the airplane must be established 
as an operating limitation; and
    (b) Except as provided in paragraph (c) of this section the 
airworthiness certificate shall be endorsed ``This airplane at weights 
in excess of 5,700 kg does not meet the airworthiness requirements of 
ICAO, as prescribed by Annex 8 of the Convention on International Civil 
Aviation.''
    (c) An applicant is entitled to type certificate amendment or a 
supplemental type certificate that shows compliance with ICAO Annex 8 if 
the airplane meets SFAR 41 and the following requirements prescribed by 
the Administrator in effect on October 17, 1979:
    (1) At each weight, altitude, and temperature within the operational 
limits selected by the applicant--
    (i) For approach climb performance, comply with Secs. 25.121(d) and 
25.1533(a)(2).
    (ii) For takeoff performance, comply with Secs. 25.105(d), 25.111, 
25.113(a), and 25.115.
    (2) For gust loads design at rough air gust speed VB, 
comply with Secs. 25.335(d), 25.341(a)(1), and 25.351(b).
    (3) For smoke evacuation design, comply with Sec. 25.831(d).
    (4) For engine rotation and restarting design, comply with 
Sec. 25.903 (c) and (e).
    (5) For engine cooling design, comply with Sec. 25.1521(e).
    5. Exceptions. For purposes of obtaining an amended or supplemental 
type certificate under section 1.(b) of this Special Federal Aviation 
Regulation, the following exceptions apply. All references in this 
section to specific sections of Parts 23 and 25 of this chapter are to 
those in effect on September 26, 1978 if no other date is given:
    (a) Compliance with section 1 of appendix A of Part 135 of the 
Federal Aviation Regulations is not required.
    (b) Compliance may be shown with the applicable regulations 
incorporated in the type certificate in lieu of the requirements of 
appendix A of Part 135 of the Federal Aviation Regulations for takeoff 
weights of 12,500 pounds or less, if the airplane was type 
certificated--
    (1) Under FAR Part 23 in effect prior to Amendment 23-10 and the 
airplane is to be used only in FAR Part 91 operations;
    (2) Before July 19, 1970, in the normal category with a passenger 
seating configuration, excluding any pilot seat, of 10 seats or

[[Page 116]]

more, (but not to exceed 19 passenger seats), and meets special 
conditions issued by the Administrator for airplanes intended for use in 
operations under FAR Part 135; or
    (3) Before July 19, 1970, in the normal category with a passenger 
seating configuration, excluding any pilot seat, of 10 seats or more, 
(but not to exceed 19 passenger seats), and meets the additional 
airworthiness standards in Special Federal Aviation Regulation No. 23.
    (c) In lieu of compliance with sections 7., and 19.(c) of appendix A 
of Part 135 of the Federal Aviation Regulations, comply with the 
following at takeoff weights in excess of 12,500 pounds:

                                 Landing

    (a) The landing distance must be determined for standard atmosphere 
at each weight, altitude, and wind within the operational limits 
established by the applicant in accordance with Sec. 23.75(a) of this 
chapter. Instead of a gliding approach specified in Sec. 23.75(a), the 
landing may be preceded by a steady approach down to the 50-foot height 
at a gradient of descent not greater than 5.2 percent (3 deg.) at a 
calibrated airspeed not less than 1.3 VS1.
    (b) The landing distance data must include correction factors for 
not more than 50 percent of the nominal wind components along the 
landing path opposite to the direction of landing, and not less than 150 
percent of the nominal wind components along the landing path in the 
direction of landing.
    (d) In lieu of compliance with section 28 of appendix A of Part 135 
of the Federal Aviation Regulations, comply with the following:
    Fatigue evaluation of flight structure. Unless it is shown that the 
structure, operating stress levels, materials, and expected use are 
comparable from a fatigue standpoint to a similar design which has had 
substantial satifactory service experience, the strength, detail design, 
and the fabrication of those parts of the wing, wing carrythrough, 
vertical fin, horizortal stabilizer, and attaching structure whose 
failure would be catastrophic must be evaluted under either--
    (a) A fatigue strength investigation in which the structure is shown 
by analysis, tests, or both, to be able to withstand the repeated loads 
of variable magnitude expected in service. Analysis alone is acceptable 
only when it is conservative and applied to simple structures; or
    (b) A fail-safe strength investigation in which it is shown by 
analysis, tests, or both, that catastrophic failure of the structure is 
not probable after fatigue, or obvious partial failure, of a principal 
structural element, and that the remaining structure is able to 
withstand a static ultimate load factor of 75 percent of the critical 
limit load factor at VC. These loads must be multiplied by a 
factor of 1.15 unless the dynamic effects of failure under static load 
are otherwise considered.
    (e) In lieu of compliance with section 32 of appendix A of Part 135 
of the Federal Aviation Regulations, comply with the following:
    Doors and exits. The airplane must meet the requirements of 
Secs. 23.783 and 23.807 (a)(3), (b), and (c) of this chapter, and in 
addition the following requirements:
    (a) Each cabin must have at least one easily accessible external 
door.
    (b) There must be a means to lock and safeguard each external door 
against opening in flight (either inadvertently by persons or as a 
result of mechanical failure or failure of a single structural element). 
Each external door must be operable from both the inside and the 
outside, even though persons may be crowded against the door on the 
inside of the airplane. Inward opening doors may be used if there are 
means to prevent occupants from crowding against the door to an extent 
that would interfere with the opening of the door. The means of opening 
must be simple and obvious and must be arranged and marked so that it 
can be readily located and operated, even in darkness. Auxiliary locking 
devices may be used.
    (c) Each external door must be reasonably free from jamming as a 
result of fuselage deformation in a minor crash.
    (d) Each external door must be located where persons using it will 
not be endangered by the propellers when appropriate operating 
procedures are used.
    (e) There must be a provision for direct visual inspection of the 
locking mechanism by crewmembers to determine whether external doors, 
for which the initial opening movement is outward (including passenger, 
crew, service, and cargo doors), are fully locked. In addition, there 
must be a visual means to signal to appropriate crewmembers when 
normally used external doors are closed and fully locked.
    (f) Cargo and service doors not suitable for use as exits in an 
emergency need only meet paragraph (e) of section 5(e) of this 
regulation and be safeguarded against opening in flight as a result of 
mechanical failure or failure of a single structural element.
    (g) The passenger entrance door must qualify as a floor level 
emergency exit. If an integral stair is installed at such a passenger 
entry door, the stair must be designed so that when subjected to the 
inertia forces specified in Sec. 23.561 of this chapter, and following 
the collapse of one or more legs of the landing gear, it will not 
interfere to an extent that will reduce the effectiveness of emergency 
egress through the passenger entry door. Each additional required 
emergency exit except floor level exits must be located over the wing or 
must be provided with acceptable means to assist the occupants in 
descending to the ground. In addition to the passenger entrance door--

[[Page 117]]

    (1) For a total passenger seating capacity of 15 or less, an 
emergency exit, as defined in Sec. 23.807(b) of this chapter, is 
required on each side of the cabin; and
    (2) For a total passenger seating capacity of 16 through 19, three 
emergency exits, as defined in Sec. 23.807(b) of this chapter, are 
required with one on the same side as the door and two on the side 
opposite the door.
    (h) An evacuation demonstration must be conducted utilizing the 
maximum number of occupants for which certification is desired. It must 
be conducted under simulated night conditions utilizing only the 
emergency exits on the most critical side of the aircraft. The 
participants must be representative of average airline passengers with 
no prior practice or rehearsal for the demonstration. Evacuation must be 
completed within 90 seconds.
    (i) Each emergency exit must be marked with the word ``Exit'' by a 
sign which has white letters 1 inch high on a red background 2 inches 
high, be self-illuminated or independently internally electrically 
illuminated, and have a minimum luminescence (brightness) of at least 
160 microlamberts. The colors may be reversed if the passenger 
compartment illumination is essentially the same.
    (j) Access to window type emergency exits may not be obstructed by 
seats or seat backs.
    (k) The width of the main passenger aisle at any point between seats 
must equal or exceed the values in the following table:

------------------------------------------------------------------------
                                    Minimum main passenger aisle width
                                 ---------------------------------------
    Number of passenger seats        Less than 25     25 inches and more
                                   inches from floor      from floor
------------------------------------------------------------------------
10 through 19...................  9 inches..........  15 inches.
------------------------------------------------------------------------

    (f) In lieu of compliance with Section 45 of appendix A of Part 135 
of the Federal Aviation Regulations, comply with Sec. 23.954 of this 
chapter.
    (g) In lieu of compliance with Section 56 of appendix A of Part 135 
of the Federal Aviation Regulations, comply with the following:
    Cowlings. The airplane must be designed and constructed so that no 
fire originating in any engine compartment can enter, either through 
openings or by burn through, any other region where it would create 
additional hazards.
    (h) In lieu of complaince with Section 57 of appendix A of Part 135 
of the Federal Aviation Regulations, comply with Sec. 25.863 of this 
chapter.
    6. Additional requirements--general. The additional requirements 
specified in sections 7 through 14 apply to the certification of 
airplanes pursuant to section 1.(b) of this Special Federal Aviation 
Regulation.
    7. Compartment interiors.
    (a) If smoking is to be prohibited, there must be a placard so 
stating, and if smoking is to be allowed--
    (1) There must be an adequate number of self-contained removable 
ashtrays; and
    (2) Where the crew compartment is separated from the passenger 
compartment, there must be at least one sign (using either letters or 
symbols) notifying all passengers when smoking is prohibited. Signs 
which notify when smoking is prohibited must--
    (i) Be legible to each passenger seated in the passenger cabin under 
all probable lighting conditions; and
    (ii) When illuminated, be so constructed that the crew can turn them 
on and off.
    (b) Each disposal receptacle for towels, paper, or waste must be 
fully enclosed and constructed of at least fire resistant materials, and 
must contain fires likely to occur in it under normal use. The ability 
of the disposal receptacle to contain those fires under all probable 
conditions of wear, misalignment, and ventilation expected in service 
must be demonstrated by test. A placard containing the legible words 
``No Cigarette Disposal'' must be located on or near each disposal 
receptacle door.
    (c) Lavatories must have ``No Smoking'' or ``No Smoking in 
Lavatory'' placards located conspicuously on each side of the entry 
door, and self-contained removable ashtrays located conspicuously on or 
near the entry side of each lavatory door, except that one ashtray may 
serve more than one lavatory door if it can be seen from the cabin side 
of each lavatory door served. The placards must have red letters at 
least one-half inch high on a white background at least one inch high. 
(A ``No smoking'' symbol may be included on the placard).
    (d) There must be at least one hand fire extinguisher conventiently 
located in the pilot compartment.
    (e) There must be at least one hand fire extinguisher conventiently 
located in the passenger compartment.
    8. Landing gear. Comply with Sec. 25.721(a)(2), (b), and (c) of this 
chapter in effect on September 26, 1978.
    9. Fuel system components crashworthiness. Comply with 
Secs. 25.963(d) and 25.994 of this chapter in effect on September 26, 
1978.
    10. Shutoff means. Comply with Sec. 23.1189 of this chapter in 
effect on September 26, 1978.
    11. Fire detector and extinguishing systems--(a) Fire detector 
systems. (1) There must be a means which ensures the prompt detection of 
a fire in an engine compartment.
    (2) Each fire detector must be constructed and installed to 
withstand the vibration, inertia, and other loads to which it may be 
subjected in operation.
    (3) No fire detector may be affected by any oil, water, other 
fluids, or fumes that might be present.

[[Page 118]]

    (4) There must be means to allow the crew to check, in flight, the 
function of each fire detector electric circuit.
    (5) Wiring and other components of each fire detector system in an 
engine compartment must be at least fire resistant.
    (b) Fire extinguishing systems. (1) Except for combustor, turbine, 
and tail pipe sections of turbine engine installations that contain 
lines or components carrying flammable fluids or gases for which it is 
shown that a fire originating in these sections can be controlled, there 
must be a fire extinguisher system serving each engine compartment.
    (2) The fire extinguishing system, the quantity of the extinguishing 
agent, the rate of discharge, and the discharge distribution must be 
adequate to extinguish fires. An individual ``one shot'' system may be 
used.
    (3) The fire-extinguishing system for a nacelle must be able to 
simultaneously protect each compartment of the nacelle for which 
protection is provided.
    12. Fire extinguishing agents. Comply with Sec. 25.1197 of this 
chapter in effect on September 26, 1978.
    13. Extinguishing agent containers. Comply with Sec. 25.1199 of this 
chapter in effect on September 26, 1978.
    14. Fire extinguishing system materials. Comply with Sec. 25.1201 of 
this chapter in effect on September 26, 1978.
    15. Expiration. This Special Federal Aviation Regulation terminates 
on September 13, 1983, unless sooner rescinded or superseded.

[Doc. No. 18315, 44 FR 53729, Sept. 17, 1979; 45 FR 25047, Apr. 14, 
1980; 45 FR 80973, Dec. 8, 1980, as amended by Doc. No. 21716, 47 FR 
35153, Aug. 12, 1982]

   Special Federal Aviation Regulation No. 88--Fuel Tank System Fault 
                    Tolerance Evaluation Requirements

    1. Applicability. This SFAR applies to the holders of type 
certificates, and supplemental type certificates that may affect the 
airplane fuel tank system, for turbine-powered transport category 
airplanes, provided the type certificate was issued after January 1, 
1958, and the airplane has either a maximum type certificated passenger 
capacity of 30 or more, or a maximum type certificated payload capacity 
of 7,500 pounds or more. This SFAR also applies to applicants for type 
certificates, amendments to a type certificate, and supplemental type 
certificates affecting the fuel tank systems for those airplanes 
identified above, if the application was filed before June 6, 2001, the 
effective date of this SFAR, and the certificate was not issued before 
June 6, 2001.
    2. Compliance: No later than December 6, 2002, or within 18 months 
after the issuance of a certificate for which application was filed 
before June 6, 2001, whichever is later, each type certificate holder, 
or supplemental type certificate holder of a modification affecting the 
airplane fuel tank system, must accomplish the following:
    (a) Conduct a safety review of the airplane fuel tank system to 
determine that the design meets the requirements of Secs. 25.901 and 
25.981(a) and (b) of this chapter. If the current design does not meet 
these requirements, develop all design changes to the fuel tank system 
that are necessary to meet these requirements. The FAA (Aircraft 
Certification Office (ACO), or office of the Transport Airplane 
Directorate, having cognizance over the type certificate for the 
affected airplane) may grant an extension of the 18-month compliance 
time for development of design changes if:
    (1) The safety review is completed within the compliance time;
    (2) Necessary design changes are identified within the compliance 
time; and
    (3) Additional time can be justified, based on the holder's 
demonstrated aggressiveness in performing the safety review, the 
complexity of the necessary design changes, the availability of interim 
actions to provide an acceptable level of safety, and the resulting 
level of safety.
    (b) Develop all maintenance and inspection instructions necessary to 
maintain the design features required to preclude the existence or 
development of an ignition source within the fuel tank system of the 
airplane.
    (c) Submit a report for approval to the FAA Aircraft Certification 
Office (ACO), or office of the Transport Airplane Directorate, having 
cognizance over the type certificate for the affected airplane, that:
    (1) Provides substantiation that the airplane fuel tank system 
design, including all necessary design changes, meets the requirements 
of Secs. 25.901 and 25.981(a) and (b) of this chapter; and
    (2) Contains all maintenance and inspection instructions necessary 
to maintain the design features required to preclude the existence or 
development of an ignition source within the fuel tank system throughout 
the operational life of the airplane.

[Doc. No. 1999-6411, 66 FR 23129, May 7, 2001]



                           Subpart A--General



Sec. 21.1  Applicability.

    (a) This part prescribes--
    (1) Procedural requirements for the issue of type certificates and 
changes to those certificates; the issue of production certificates; the 
issue of airworthiness certificates; and the issue of export 
airworthiness approvals.

[[Page 119]]

    (2) Rules governing the holders of any certificate specified in 
paragraph (a)(1) of this section; and
    (3) Procedural requirements for the approval of certain materials, 
parts, processes, and appliances.
    (b) For the purposes of this part, the word ``product'' means an 
aircraft, aircraft engine, or propeller. In addition, for the purposes 
of Subpart L only, it includes components and parts of aircraft, of 
aircraft engines, and of propellers; also parts, materials, and 
appliances, approved under the Technical Standard Order system.

[Doc. No. 5085, 29 FR 14563, Oct. 24, 1964, as amended by Amdt. 21-2, 30 
FR 8465, July 2, 1965; Amdt. 21-6, 30 FR 11379, Sept. 8, 1965]



Sec. 21.2  Falsification of applications, reports, or records.

    (a) No person shall make or cause to be made--
    (1) Any fraudulent or intentionally false statement on any 
application for a certificate or approval under this part;
    (2) Any fraudulent or intentionally false entry in any record or 
report that is required to be kept, made, or used to show compliance 
with any requirement for the issuance or the exercise of the privileges 
of any certificate or approval issued under this part;
    (3) Any reproduction for a fraudulent purpose of any certificate or 
approval issued under this part.
    (4) Any alteration of any certificate or approval issued under this 
part.
    (b) The commission by any person of an act prohibited under 
paragraph (a) of this section is a basis for suspending or revoking any 
certificate or approval issued under this part and held by that person.

[Doc. No. 23345, 57 FR 41367, Sept. 9, 1992]



Sec. 21.3  Reporting of failures, malfunctions, and defects.

    (a) Except as provided in paragraph (d) of this section, the holder 
of a Type Certificate (including a Supplemental Type Certificate), a 
Parts Manufacturer Approval (PMA), or a TSO authorization, or the 
licensee of a Type Certificate shall report any failure, malfunction, or 
defect in any product, part, process, or article manufactured by it that 
it determines has resulted in any of the occurrences listed in paragraph 
(c) of this section.
    (b) The holder of a Type Certificate (including a Supplemental Type 
Certificate), a Parts Manufacturer Approval (PMA), or a TSO 
authorization, or the licensee of a Type of Certificate shall report any 
defect in any product, part, or article manufactured by it that has left 
its quality control system and that it determines could result in any of 
the occurrences listed in paragraph (c) of this section.
    (c) The following occurrences must be reported as provided in 
paragraphs (a) and (b) of this section:
    (1) Fires caused by a system or equipment failure, malfunction, or 
defect.
    (2) An engine exhaust system failure, malfunction, or defect which 
causes damage to the engine, adjacent aircraft structure, equipment, or 
components.
    (3) The accumulation or circulation of toxic or noxious gases in the 
crew compartment or passenger cabin.
    (4) A malfunction, failure, or defect of a propeller control system.
    (5) A propeller or rotorcraft hub or blade structural failure.
    (6) Flammable fluid leakage in areas where an ignition source 
normally exists.
    (7) A brake system failure caused by structural or material failure 
during operation.
    (8) A significant aircraft primary structural defect or failure 
caused by any autogenous condition (fatigue, understrength, corrosion, 
etc.).
    (9) Any abnormal vibration or buffeting caused by a structural or 
system malfunction, defect, or failure.
    (10) An engine failure.
    (11) Any structural or flight control system malfunction, defect, or 
failure which causes an interference with normal control of the aircraft 
for which derogates the flying qualities.
    (12) A complete loss of more than one electrical power generating 
system or hydraulic power system during a given operation of the 
aircraft.
    (13) A failure or malfunction of more than one attitude, airspeed, 
or altitude instrument during a given operation of the aircraft.
    (d) The requirements of paragraph (a) of this section do not apply 
to--

[[Page 120]]

    (1) Failures, malfunctions, or defects that the holder of a Type 
Certificate (including a Supplemental Type Certificate), Parts 
Manufacturer Approval (PMA), or TSO authorization, or the licensee of a 
Type Certificate--
    (i) Determines were caused by improper maintenance, or improper 
usage;
    (ii) Knows were reported to the FAA by another person under the 
Federal Aviation Regulations; or
    (iii) Has already reported under the accident reporting provisions 
of Part 430 of the regulations of the National Transportation Safety 
Board.
    (2) Failures, malfunctions, or defects in products, parts, or 
articles manufactured by a foreign manufacturer under a U.S. Type 
Certificate issued under Sec. 21.29 or Sec. 21.617, or exported to the 
United States under Sec. 21.502.
    (e) Each report required by this section--
    (1) Shall be made to the Aircraft Certification Office in the region 
in which the person required to make the report is located within 24 
hours after it has determined that the failure, malfunction, or defect 
required to be reported has occurred. However, a report that is due on a 
Saturday or a Sunday may be delivered on the following Monday and one 
that is due on a holiday may be delivered on the next workday;
    (2) Shall be transmitted in a manner and form acceptable to the 
Administrator and by the most expeditious method available; and
    (3) Shall include as much of the following information as is 
available and applicable:
    (i) Aircraft serial number.
    (ii) When the failure, malfunction, or defect is associated with an 
article approved under a TSO authorization, the article serial number 
and model designation, as appropriate.
    (iii) When the failure, malfunction, or defect is associated with an 
engine or propeller, the engine or propeller serial number, as 
appropriate.
    (iv) Product model.
    (v) Identification of the part, component, or system involved. The 
identification must include the part number.
    (vi) Nature of the failure, malfunction, or defect.
    (f) Whenever the investigation of an accident or service difficulty 
report shows that an article manufactured under a TSO authorization is 
unsafe because of a manufacturing or design defect, the manufacturer 
shall, upon request of the Administrator, report to the Administrator 
the results of its investigation and any action taken or proposed by the 
manufacturer to correct that defect. If action is required to correct 
the defect in existing articles, the manufacturer shall submit the data 
necessary for the issuance of an appropriate airworthiness directive to 
the Manager of the Aircraft Certification Office for the geographic area 
of the FAA regional office in the region in which it is located.

[Amdt. 21-36, 35 FR 18187, Nov. 28, 1970, as amended by Amdt. 21-37, 35 
FR 18450, Dec. 4, 1970; Amdt. 21-50, 45 FR 38346, June 9, 1980; Amdt. 
21-67, 54 FR 39291, Sept. 25, 1989]



Sec. 21.5  Airplane or Rotorcraft Flight Manual.

    (a) With each airplane or rotorcraft that was not type certificated 
with an Airplane or Rotorcraft Flight Manual and that has had no flight 
time prior to March 1, 1979, the holder of a Type Certificate (including 
a Supplemental Type Certificate) or the licensee of a Type Certificate 
shall make available to the owner at the time of delivery of the 
aircraft a current approved Airplane or Rotorcraft Flight Manual.
    (b) The Airplane or Rotorcraft Flight Manual required by paragraph 
(a) of this section must contain the following information:
    (1) The operating limitations and information required to be 
furnished in an Airplane or Rotorcraft Flight Manual or in manual 
material, markings, and placards, by the applicable regulations under 
which the airplane or rotorcraft was type certificated.
    (2) The maximum ambient atmospheric temperature for which engine 
cooling was demonstrated must be stated in the performance information 
section of the Flight Manual, if the applicable regulations under which 
the aircraft was type certificated do not require ambient temperature on 
engine cooling operating limitations in the Flight Manual.

[Amdt. 21-46, 43 FR 2316, Jan. 16, 1978]

[[Page 121]]



                      Subpart B--Type Certificates

    Source: Docket No. 5085, 29 FR 14564, Oct. 24, 1964, unless 
otherwise noted.



Sec. 21.11  Applicability.

    This subpart prescribes--
    (a) Procedural requirements for the issue of type certificates for 
aircraft, aircraft engines, and propellers; and
    (b) Rules governing the holders of those certificates.



Sec. 21.13  Eligibility.

    Any interested person may apply for a type certificate.

[Amdt. 21-25, 34 FR 14068, Sept. 5, 1969]



Sec. 21.15  Application for type certificate.

    (a) An application for a type certificate is made on a form and in a 
manner prescribed by the Administrator and is submitted to the 
appropriate Aircraft Certification Office.
    (b) An application for an aircraft type certificate must be 
accompanied by a three-view drawing of that aircraft and available 
preliminary basic data.
    (c) An application for an aircraft engine type certificate must be 
accompanied by a description of the engine design features, the engine 
operating characteristics, and the proposed engine operating 
limitations.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-40, 
39 FR 35459, Oct. 1, 1974; Amdt. 21-67, 54 FR 39291, Sept. 25, 1989]



Sec. 21.16  Special conditions.

    If the Administrator finds that the airworthiness regulations of 
this subchapter do not contain adequate or appropriate safety standards 
for an aircraft, aircraft engine, or propeller because of a novel or 
unusual design feature of the aircraft, aircraft engine or propeller, he 
prescribes special conditions and amendments thereto for the product. 
The special conditions are issued in accordance with Part 11 of this 
chapter and contain such safety standards for the aircraft, aircraft 
engine or propeller as the Administrator finds necessary to establish a 
level of safety equivalent to that established in the regulations.

[Amdt. 21-19, 32 FR 17851, Dec. 13, 1967; as amended by Amdt. 21-51, 45 
FR 60170, Sept. 11, 1980]



Sec. 21.17  Designation of applicable regulations.

    (a) Except as provided in Sec. 23.2, Sec. 25.2, Sec. 27.2, Sec. 29.2 
and in parts 34 and 36 of this chapter, an applicant for a type 
certificate must show that the aircraft, aircraft engine, or propeller 
concerned meets--
    (1) The applicable requirements of this subchapter that are 
effective on the date of application for that certificate unless--
    (i) Otherwise specified by the Administrator; or
    (ii) Compliance with later effective amendments is elected or 
required under this section; and
    (2) Any special conditions prescribed by the Administrator.
    (b) For special classes of aircraft, including the engines and 
propellers installed thereon (e.g., gliders, airships, and other 
nonconventional aircraft), for which airworthiness standards have not 
been issued under this subchapter, the applicable requirements will be 
the portions of those other airworthiness requirements contained in 
Parts 23, 25, 27, 29, 31, 33, and 35 found by the Administrator to be 
appropriate for the aircraft and applicable to a specific type design, 
or such airworthiness criteria as the Administrator may find provide an 
equivalent level of safety to those parts.
    (c) An application for type certification of a transport category 
aircraft is effective for 5 years and an application for any other type 
certificate is effective for 3 years, unless an applicant shows at the 
time of application that his product requires a longer period of time 
for design, development, and testing, and the Administrator approves a 
longer period.
    (d) In a case where a type certificate has not been issued, or it is 
clear that a type certificate will not be issued, within the time limit 
established under paragraph (c) of this section, the applicant may--

[[Page 122]]

    (1) File a new application for a type certificate and comply with 
all the provisions of paragraph (a) of this section applicable to an 
original application; or
    (2) File for an extension of the original application and comply 
with the applicable airworthiness requirements of this subchapter that 
were effective on a date, to be selected by the applicant, not earlier 
than the date which precedes the date of issue of the type certificate 
by the time limit established under paragraph (c) of this section for 
the original application.
    (e) If an applicant elects to comply with an amendment to this 
subchapter that is effective after the filing of the application for a 
type certificate, he must also comply with any other amendment that the 
Administrator finds is directly related.
    (f) For primary category aircraft, the requirements are:
    (1) The applicable airworthiness requirements contained in parts 23, 
27, 31, 33, and 35 of this subchapter, or such other airworthiness 
criteria as the Administrator may find appropriate and applicable to the 
specific design and intended use and provide a level of safety 
acceptable to the Administrator.
    (2) The noise standards of part 36 applicable to primary category 
aircraft.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-19, 
32 FR 17851, Dec. 13, 1967; Amdt. 21-24, 34 FR 364, Jan. 10, 1969; Amdt. 
21-42, 40 FR 1033, Jan. 6, 1975; Amdt. 21-58, 50 FR 46877, Nov. 13, 
1985; Amdt. 21-60, 52 FR 8042, Mar. 13, 1987; Amdt. 21-68, 55 FR 32860, 
Aug. 10, 1990; Amdt. 21-69, 56 FR 41051, Aug. 16, 1991; Amdt. 21-70, 57 
FR 41367, Sept. 9, 1992]



Sec. 21.19  Changes requiring a new type certificate.

    Each person who proposes to change a product must apply for a new 
type certificate if the Administrator finds that the proposed change in 
design, power, thrust, or weight is so extensive that a substantially 
complete investigation of compliance with the applicable regulations is 
required.

[Doc. No. 28903, 65 FR 36265, June 7, 2000]



Sec. 21.21  Issue of type certificate: normal, utility, acrobatic, commuter, and transport category aircraft; manned free balloons; special classes of aircraft; 
          aircraft engines; propellers.

    An applicant is entitled to a type certificate for an aircraft in 
the normal, utility, acrobatic, commuter, or transport category, or for 
a manned free balloon, special class of aircraft, or an aircraft engine 
or propeller, if--
    (a) The product qualifies under Sec. 21.27; or
    (b) The applicant submits the type design, test reports, and 
computations necessary to show that the product to be certificated meets 
the applicable airworthiness, aircraft noise, fuel venting, and exhaust 
emission requirements of the Federal Aviation Regulations and any 
special conditions prescribed by the Administrator, and the 
Administrator finds--
    (1) Upon examination of the type design, and after completing all 
tests and inspections, that the type design and the product meet the 
applicable noise, fuel venting, and emissions requirements of the 
Federal Aviation Regulations, and further finds that they meet the 
applicable airworthiness requirements of the Federal Aviation 
Regulations or that any airworthiness provisions not complied with are 
compensated for by factors that provide an equivalent level of safety; 
and
    (2) For an aircraft, that no feature or characteristic makes it 
unsafe for the category in which certification is requested.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-15, 
32 FR 3735, Mar. 4, 1967; Amdt. 21-27, 34 FR 18368, Nov. 18, 1969; Amdt. 
21-60, 52 FR 8042, Mar. 13, 1987; Amdt. 21-68, 55 FR 32860, Aug. 10, 
1990]



Sec. 21.23  [Reserved]



Sec. 21.24  Issuance of type certificate: primary category aircraft.

    (a) The applicant is entitled to a type certificate for an aircraft 
in the primary category if--
    (1) The aircraft--
    (i) Is unpowered; is an airplane powered by a single, naturally 
aspirated engine with a 61-knot or less Vso stall

[[Page 123]]

speed as defined in Sec. 23.49; or is a rotorcraft with a 6-pound per 
square foot main rotor disc loading limitation, under sea level standard 
day conditions;
    (ii) Weighs not more than 2,700 pounds; or, for seaplanes, not more 
than 3,375 pounds;
    (iii) Has a maximum seating capacity of not more than four persons, 
including the pilot; and
    (iv) Has an unpressurized cabin.
    (2) The applicant has submitted--
    (i) Except as provided by paragraph (c) of this section, a 
statement, in a form and manner acceptable to the Administrator, 
certifying that: the applicant has completed the engineering analysis 
necessary to demonstrate compliance with the applicable airworthiness 
requirements; the applicant has conducted appropriate flight, 
structural, propulsion, and systems tests necessary to show that the 
aircraft, its components, and its equipment are reliable and function 
properly; the type design complies with the airworthiness standards and 
noise requirements established for the aircraft under Sec. 21.17(f); and 
no feature or characteristic makes it unsafe for its intended use;
    (ii) The flight manual required by Sec. 21.5(b), including any 
information required to be furnished by the applicable airworthiness 
standards;
    (iii) Instructions for continued airworthiness in accordance with 
Sec. 21.50(b); and
    (iv) A report that: summarizes how compliance with each provision of 
the type certification basis was determined; lists the specific 
documents in which the type certification data information is provided; 
lists all necessary drawings and documents used to define the type 
design; and lists all the engineering reports on tests and computations 
that the applicant must retain and make available under Sec. 21.49 to 
substantiate compliance with the applicable airworthiness standards.
    (3) The Administrator finds that--
    (i) The aircraft complies with those applicable airworthiness 
requirements approved under Sec. 21.17(f) of this part; and
    (ii) The aircraft has no feature or characteristic that makes it 
unsafe for its intended use.
    (b) An applicant may include a special inspection and preventive 
maintenance program as part of the aircraft's type design or 
supplemental type design.
    (c) For aircraft manufactured outside of the United States in a 
country with which the United States has a bilateral airworthiness 
agreement for the acceptance of these aircraft, and from which the 
aircraft is to be imported into the United States--
    (1) The statement required by paragraph (a)(2)(i) of this section 
must be made by the civil airworthiness authority of the exporting 
country; and
    (2) The required manuals, placards, listings, instrument markings, 
and documents required by paragraphs (a) and (b) of this section must be 
submitted in English.

[Doc. No. 23345, 57 FR 41367, Sept. 9, 1992; as amended by Amdt. 21-75, 
62 FR 62808, Nov. 25, 1997]



Sec. 21.25  Issue of type certificate: Restricted category aircraft.

    (a) An applicant is entitled to a type certificate for an aircraft 
in the restricted category for special purpose operations if he shows 
compliance with the applicable noise requirements of Part 36 of this 
chapter, and if he shows that no feature or characteristic of the 
aircraft makes it unsafe when it is operated under the limitations 
prescribed for its intended use, and that the aircraft--
    (1) Meets the airworthiness requirements of an aircraft category 
except those requirements that the Administrator finds inappropriate for 
the special purpose for which the aircraft is to be used; or
    (2) Is of a type that has been manufactured in accordance with the 
requirements of and accepted for use by, an Armed Force of the United 
States and has been later modified for a special purpose.
    (b) For the purposes of this section, ``special purpose operations'' 
includes--
    (1) Agricultural (spraying, dusting, and seeding, and livestock and 
predatory animal control);
    (2) Forest and wildlife conservation;

[[Page 124]]

    (3) Aerial surveying (photography, mapping, and oil and mineral 
exploration);
    (4) Patrolling (pipelines, power lines, and canals);
    (5) Weather control (cloud seeding);
    (6) Aerial advertising (skywriting, banner towing, airborne signs 
and public address systems); and
    (7) Any other operation specified by the Administrator.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-42, 
40 FR 1033, Jan. 6, 1975]



Sec. 21.27  Issue of type certificate: surplus aircraft of the Armed Forces.

    (a) Except as provided in paragraph (b) of this section an applicant 
is entitled to a type certificate for an aircraft in the normal, 
utility, acrobatic, commuter, or transport category that was designed 
and constructed in the United States, accepted for operational use, and 
declared surplus by, an Armed Force of the United States, and that is 
shown to comply with the applicable certification requirements in 
paragraph (f) of this section.
    (b) An applicant is entitled to a type certificate for a surplus 
aircraft of the Armed Forces of the United States that is a counterpart 
of a previously type certificated civil aircraft, if he shows compliance 
with the regulations governing the original civil aircraft type 
certificate.
    (c) Aircraft engines, propellers, and their related accessories 
installed in surplus Armed Forces aircraft, for which a type certificate 
is sought under this section, will be approved for use on those aircraft 
if the applicant shows that on the basis of the previous military 
qualifications, acceptance, and service record, the product provides 
substantially the same level of airworthiness as would be provided if 
the engines or propellers were type certificated under Part 33 or 35 of 
the Federal Aviation Regulations.
    (d) The Administrator may relieve an applicant from strict 
compliance with a specific provision of the applicable requirements in 
paragraph (f) of this section, if the Administrator finds that the 
method of compliance proposed by the applicant provides substantially 
the same level of airworthiness and that strict compliance with those 
regulations would impose a severe burden on the applicant. The 
Administrator may use experience that was satisfactory to an Armed Force 
of the United States in making such a determination.
    (e) The Administrator may require an applicant to comply with 
special conditions and later requirements than those in paragraphs (c) 
and (f) of this section, if the Administrator finds that compliance with 
the listed regulations would not ensure an adequate level of 
airworthiness for the aircraft.
    (f) Except as provided in paragraphs (b) through (e) of this 
section, an applicant for a type certificate under this section must 
comply with the appropriate regulations listed in the following table:

------------------------------------------------------------------------
                                Date accepted for
                                 operational use
       Type of aircraft            by the Armed       Regulations that
                                  Forces of the           apply\1\
                                  United States
------------------------------------------------------------------------
Small reciprocating-engine      Before May 16,     CAR Part 3, as
 powered airplanes.              1956.              effective May 15,
                                After May 15,       1956.
                                 1956.             CAR Part 3, or FAR
                                                    Part 23.
Small turbine engine-powered    Before Oct. 2,     CAR Part 3, as
 airplanes.                      1959.              effective Oct. 1,
                                After Oct. 1,       1959.
                                 1959.             CAR Part 3 or FAR
                                                    Part 23.
Commuter category airplanes...  After (Feb. 17,
                                 1987).
                                FAR Part 23 as of
                                 (Feb. 17, 1987)..
Large reciprocating-engine      Before Aug. 26,    CAR Part 4b, as
 powered airplanes.              1955.              effective Aug. 25,
                                After Aug. 25,      1955.
                                 1959.             CAR Part 4b or FAR
                                                    Part 25.
Large turbine engine-powered    Before Oct. 2,     CAR Part 4b, as
 airplanes.                      1959.              effective Oct. 1,
                                After Oct. 1,       1959.
                                 1959.             CAR Part 4b or FAR
                                                    Part 25.
Rotorcraft with maximum
 certificated takeoff weight
 of:
  6,000 pounds or less........  Before Oct. 2,     CAR Part 6, as
                                 1959.              effective Oct. 1,
                                After Oct. 1,       1959.
                                 1959.             CAR Part 6, or FAR
                                                    Part 27.
  Over 6,000 pounds...........  Before Oct. 2,     CAR Part 7, as
                                 1959.              effective Oct. 1,
                                After Oct. 1,       1959.
                                 1959.             CAR Part 7, or FAR
                                                    Part 29.
------------------------------------------------------------------------
\1\ Where no specific date is listed, the applicable regulations are
  those in effect on the date that the first aircraft of the particular
  model was accepted for operational use by the Armed Forces.


[[Page 125]]

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-59, 
52 FR 1835, Jan. 15, 1987; 52 FR 7262, Mar. 9, 1987]



Sec. 21.29  Issue of type certificate: import products.

    (a) A type certificate may be issued for a product that is 
manufactured in a foreign country with which the United States has an 
agreement for the acceptance of these products for export and import and 
that is to be imported into the United States if--
    (1) The country in which the product was manufactured certifies that 
the product has been examined, tested, and found to meet--
    (i) The applicable aircraft noise, fuel venting and exhaust 
emissions requirements of this subchapter as designated in Sec. 21.17, 
or the applicable aircraft noise, fuel venting and exhaust emissions 
requirements of the country in which the product was manufactured, and 
any other requirements the Administrator may prescribe to provide noise, 
fuel venting and exhaust emission levels no greater than those provided 
by the applicable aircraft noise, fuel venting, and exhaust emission 
requirements of this subchapter as designated in Sec. 21.17; and
    (ii) The applicable airworthiness requirements of this subchapter as 
designated in Sec. 21.17, or the applicable airworthiness requirements 
of the country in which the product was manufactured and any other 
requirements the Administrator may prescribe to provide a level of 
safety equivalent to that provided by the applicable airworthiness 
requirements of this subchapter as designated in Sec. 21.17;
    (2) The applicant has submitted the technical data, concerning 
aircraft noise and airworthiness, respecting the product required by the 
Administrator; and
    (3) The manuals, placards, listings, and instrument markings 
required by the applicable airworthiness (and noise, where applicable) 
requirements are presented in the English language.
    (b) A product type certificated under this section is considered to 
be type certificated under the noise standards of part 36, and the fuel 
venting and exhaust emission standards of part 34, of the Federal 
Aviation Regulations where compliance therewith is certified under 
paragraph (a)(1)(i) of this section, and under the airworthiness 
standards of that part of the Federal Aviation Regulations with which 
compliance is certified under paragraph (a)(1)(ii) of this section or to 
which an equivalent level of safety is certified under paragraph 
(a)(1)(ii) of this section.

[Amdt. 21-27, 34 FR 18363, Nov. 18, 1969, as amended by Amdt. 21-68, 55 
FR 32860, Aug. 10, 1990; 55 FR 37287, Sept. 10, 1990]



Sec. 21.31  Type design.

    The type design consists of--
    (a) The drawings and specifications, and a listing of those drawings 
and specifications, necessary to define the configuration and the design 
features of the product shown to comply with the requirements of that 
part of this subchapter applicable to the product;
    (b) Information on dimensions, materials, and processes necessary to 
define the structural strength of the product;
    (c) The Airworthiness Limitations section of the Instructions for 
Continued Airworthiness as required by Parts 23, 25, 27, 29, 31, 33, and 
35 of this chapter or as otherwise required by the Administrator; and as 
specified in the applicable airworthiness criteria for special classes 
of aircraft defined in Sec. 21.17(b); and
    (d) For primary category aircraft, if desired, a special inspection 
and preventive maintenance program designed to be accomplished by an 
appropriately rated and trained pilot-owner.
    (e) Any other data necessary to allow, by comparison, the 
determination of the airworthiness, noise characteristics, fuel venting, 
and exhaust emissions (where applicable) of later products of the same 
type.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-27, 
34 FR 18363, Nov. 18, 1969; Amdt. 21-51, 45 FR 60170, Sept. 11, 1980; 
Amdt. 21-60, 52 FR 8042, Mar. 13, 1987; Amdt. 21-68, 55 FR 32860, Aug. 
10, 1990; Amdt. 21-70, 57 FR 41368, Sept. 9, 1992]

[[Page 126]]



Sec. 21.33  Inspection and tests.

    (a) Each applicant must allow the Administrator to make any 
inspection and any flight and ground test necessary to determine 
compliance with the applicable requirements of the Federal Aviation 
Regulations. However, unless otherwise authorized by the Administrator--
    (1) No aircraft, aircraft engine, propeller, or part thereof may be 
presented to the Administrator for test unless compliance with 
paragraphs (b)(2) through (b)(4) of this section has been shown for that 
aircraft, aircraft engine, propeller, or part thereof; and
    (2) No change may be made to an aircraft, aircraft engine, 
propeller, or part thereof between the time that compliance with 
paragraphs (b)(2) through (b)(4) of this section is shown for that 
aircraft, aircraft engine, propeller, or part thereof and the time that 
it is presented to the Administrator for test.
    (b) Each applicant must make all inspections and tests necessary to 
determine--
    (1) Compliance with the applicable airworthiness, aircraft noise, 
fuel venting, and exhaust emission requirements;
    (2) That materials and products conform to the specifications in the 
type design;
    (3) That parts of the products conform to the drawings in the type 
design; and
    (4) That the manufacturing processes, construction and assembly 
conform to those specified in the type design.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-17, 
32 FR 14926, Oct. 28, 1967; Amdt. 21-27, 34 FR 18363, Nov. 18, 1969; 
Amdt. 21-44, 41 FR 55463, Dec. 20, 1976; Amdt. 21-68, 55 FR 32860, Aug. 
10, 1990; Amdt. 21-68, 55 FR 32860, Aug. 10, 1990]



Sec. 21.35  Flight tests.

    (a) Each applicant for an aircraft type certificate (other than 
under Secs. 21.24 through 21.29) must make the tests listed in paragraph 
(b) of this section. Before making the tests the applicant must show--
    (1) Compliance with the applicable structural requirements of this 
subchapter;
    (2) Completion of necessary ground inspections and tests;
    (3) That the aircraft conforms with the type design; and
    (4) That the Administrator received a flight test report from the 
applicant (signed, in the case of aircraft to be certificated under Part 
25 [New] of this chapter, by the applicant's test pilot) containing the 
results of his tests.
    (b) Upon showing compliance with paragraph (a) of this section, the 
applicant must make all flight tests that the Administrator finds 
necessary--
    (1) To determine compliance with the applicable requirements of this 
subchapter; and
    (2) For aircraft to be certificated under this subchapter, except 
gliders and except airplanes of 6,000 lbs. or less maximum certificated 
weight that are to be certificated under Part 23 of this chapter, to 
determine whether there is reasonable assurance that the aircraft, its 
components, and its equipment are reliable and function properly.
    (c) Each applicant must, if practicable, make the tests prescribed 
in paragraph (b)(2) of this section upon the aircraft that was used to 
show compliance with--
    (1) Paragraph (b)(1) of this section; and
    (2) For rotorcraft, the rotor drive endurance tests prescribed in 
Sec. 27.923 or Sec. 29.923 of this chapter, as applicable.
    (d) Each applicant must show for each flight test (except in a 
glider or a manned free balloon) that adequate provision is made for the 
flight test crew for emergency egress and the use of parachutes.
    (e) Except in gliders and manned free balloons, an applicant must 
discontinue flight tests under this section until he shows that 
corrective action has been taken, whenever--
    (1) The applicant's test pilot is unable or unwilling to make any of 
the required flight tests; or
    (2) Items of noncompliance with requirements are found that may make 
additional test data meaningless or that would make further testing 
unduly hazardous.
    (f) The flight tests prescribed in paragraph (b)(2) of this section 
must include--

[[Page 127]]

    (1) For aircraft incorporating turbine engines of a type not 
previously used in a type certificated aircraft, at least 300 hours of 
operation with a full complement of engines that conform to a type 
certificate; and
    (2) For all other aircraft, at least 150 hours of operation.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-40, 
39 FR 35459, Oct. 1, 1974; Amdt. 21-51, 45 FR 60170, Sept. 11, 1980; 
Amdt. 21-70, 57 FR 41368, Sept. 9, 1992]



Sec. 21.37  Flight test pilot.

    Each applicant for a normal, utility, acrobatic, commuter, or 
transport category aircraft type certificate must provide a person 
holding an appropriate pilot certificate to make the flight tests 
required by this part.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-59, 
52 FR 1835, Jan. 15, 1987]



Sec. 21.39  Flight test instrument calibration and correction report.

    (a) Each applicant for a normal, utility, acrobatic, commuter, or 
transport category aircraft type certificate must submit a report to the 
Administrator showing the computations and tests required in connection 
with the calibration of instruments used for test purposes and in the 
correction of test results to standard atmospheric conditions.
    (b) Each applicant must allow the Administrator to conduct any 
flight tests that he finds necessary to check the accuracy of the report 
submitted under paragraph (a) of this section.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-59, 
52 FR 1835, Jan. 15, 1987]



Sec. 21.41  Type certificate.

    Each type certificate is considered to include the type design, the 
operating limitations, the certificate data sheet, the applicable 
regulations of this subchapter with which the Administrator records 
compliance, and any other conditions or limitations prescribed for the 
product in this subchapter.



Sec. 21.43  Location of manufacturing facilities.

    Except as provided in Sec. 21.29, the Administrator does not issue a 
type certificate if the manufacturing facilities for the product are 
located outside of the United States, unless the Administrator finds 
that the location of the manufacturer's facilities places no undue 
burden on the FAA in administering applicable airworthiness 
requirements.



Sec. 21.45  Privileges.

    The holder or licensee of a type certificate for a product may--
    (a) In the case of aircraft, upon compliance with Secs. 21.173 
through 21.189, obtain airworthiness certificates;
    (b) In the case of aircraft engines or propellers, obtain approval 
for installation or certified aircraft;
    (c) In the case of any product, upon compliance with Secs. 21.133 
through 21.163, obtain a production certificate for the type 
certificated product;
    (d) Obtain approval of replacement parts for that product.



Sec. 21.47  Transferability.

    A type certificate may be transferred to or made available to third 
persons by licensing agreements. Each grantor shall, within 30 days 
after the transfer of a certificate or execution or termination of a 
licensing agreement, notify in writing the appropriate Aircraft 
Certification Office. The notification must state the name and address 
of the transferee or licensee, date of the transaction, and in the case 
of a licensing agreement, the extent of authority granted the licensee.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Amdt. 21-67, 
54 FR 39291, Sept. 25, 1989]



Sec. 21.49  Availability.

    The holder of a type certificate shall make the certificate 
available for examination upon the request of the Administrator or the 
National Transportation Safety Board.

[Doc. No. 5085, 29 FR 14564, Oct. 24, 1964, as amended by Doc. No. 8084, 
32 FR 5769, Apr. 11, 1967]

[[Page 128]]



Sec. 21.50  Instructions for continued airworthiness and manufacturer's maintenance manuals having airworthiness limitations sections.

    (a) The holder of a type certificate for a rotorcraft for which a 
Rotorcraft Maintenance Manual containing an ``Airworthiness 
Limitations'' section has been issued under Sec. 27.1529 (a)(2) or 
Sec. 29.1529 (a)(2) of this chapter, and who obtains approval of changes 
to any replacement time, inspection interval, or related procedure in 
that section of the manual, shall make those changes available upon 
request to any operator of the same type of rotorcraft.
    (b) The holder of a design approval, including either the type 
certificate or supplemental type certificate for an aircraft, aircraft 
engine, or propeller for which application was made after January 28, 
1981, shall furnish at least one set of complete Instructions for 
Continued Airworthiness, prepared in accordance with Secs. 23.1529, 
25.1529, 27.1529, 29.1529, 31.82, 33.4, or 35.4 of this chapter, or as 
specified in the applicable airworthiness criteria for special classes 
of aircraft defined in Sec. 21.17(b), as applicable, to the owner of 
each type of aircraft, aircraft engine, or propeller upon its delivery, 
or upon issuance of the first standard airworthiness certificate for the 
affected aircraft, whichever occurs later, and thereafter make those 
instructions available to any other person required by this chapter to 
comply with any of the terms of these instructions. In addition, changes 
to the Instructions for Continued Airworthiness shall be made available 
to any person required by this chapter to comply with any of those 
instructions.

[Amdt. No. 21-23, 33 FR 14105, Sept. 18, 1968, as amended by Amdt. No 
21-51, 45 FR 60170, Sept. 11, 1980; Amdt. 21-60, 52 FR 8042, Mar. 13, 
1987]



Sec. 21.51  Duration.

    A type certificate is effective until surrendered, suspended, 
revoked, or a termination date is otherwise established by the 
Administrator.



Sec. 21.53  Statement of conformity.

    (a) Each applicant must submit a statement of conformity (FAA Form 
317) to the Administrator for each aircraft engine and propeller 
presented to the Administrator for type certification. This statement of 
conformity must include a statement that the aircraft engine or 
propeller conforms to the type design therefor.
    (b) Each applicant must submit a statement of conformity to the 
Administrator for each aircraft or part thereof presented to the 
Administrator for tests. This statement of conformity must include a 
statement that the applicant has complied with Sec. 21.33(a) (unless 
otherwise authorized under that paragraph).

[Amdt. 21-17, 32 FR 14926, Oct. 28, 1967]



                Subpart C--Provisional Type Certificates

    Source: Docket No. 5085, 29 FR 14566, Oct. 24, 1964, unless 
otherwise noted.



Sec. 21.71  Applicability.

    This subpart prescribes--
    (a) Procedural requirements for the issue of provisional type 
certificates, amendments to provisional type certificates, and 
provisional amendments to type certificates; and
    (b) Rules governing the holders of those certificates.



Sec. 21.73  Eligibility.

    (a) Any manufacturer of aircraft manufactured within the United 
States who is a United States citizen may apply for Class I or Class II 
provisional type certificates, for amendments to provisional type 
certificates held by him, and for provisional amendments to type 
certificates held by him.
    (b) Any manufacturer of aircraft manufactured in a foreign country 
with which the United States has an agreement for the acceptance of 
those aircraft for export and import may apply for a Class II 
provisional type certificate, for amendments to provisional type 
certificates held by him, and for provisional amendments to type 
certificates held by him.
    (c) An aircraft engine manufacturer who is a United States citizen 
and who has altered a type certificated aircraft by installing different 
type certificated aircraft engines manufactured by him within the United 
States may apply for a Class I provisional type certificate

[[Page 129]]

for the aircraft, and for amendments to Class I provisional type 
certificates held by him, if the basic aircraft, before alteration, was 
type certificated in the normal, utility, acrobatic, commuter, or 
transport category.

[Doc. No. 5085, 29 FR 14566, Oct. 24, 1964, as amended by Amdt. 21-12, 
31 FR 13380, Oct. 15, 1966; Amdt. 21-59, 52 FR 1836, Jan. 15, 1987]



Sec. 21.75  Application.

    Applications for provisional type certificates, for amendments 
thereto, and for provisional amendments to type certificates must be 
submitted to the Manager of the Aircraft Certification Office for the 
geographic area in which the applicant is located (or in the case of 
European, African, Middle East Region, the Manager, Aircraft Engineering 
Division), and must be accompanied by the pertinent information 
specified in this subpart.

[Amdt. 21-67, 54 FR 39291, Sept. 25, 1989]



Sec. 21.77  Duration.

    (a) Unless sooner surrendered, superseded, revoked, or otherwise 
terminated, provisional type certificates and amendments thereto are 
effective for the periods specified in this section.
    (b) A Class I provisional type certificate is effective for 24 
months after the date of issue.
    (c) A Class II provisional type certificate is effective for twelve 
months after the date of issue.
    (d) An amendment to a Class I or Class II provisional type 
certificate is effective for the duration of the amended certificate.
    (e) A provisional amendment to a type certificate is effective for 
six months after its approval or until the amendment of the type 
certificate is approved, whichever is first.

[Doc. No. 5085, 29 FR 14566, Oct. 24, 1964 as amended by Amdt. 21-7, 30 
FR 14311, Nov. 16, 1965]



Sec. 21.79  Transferability.

    Provisional type certificates are not transferable.



Sec. 21.81  Requirements for issue and amendment of Class I provisional type certificates.

    (a) An applicant is entitled to the issue or amendment of a Class I 
provisional type certificate if he shows compliance with this section 
and the Administrator finds that there is no feature, characteristic, or 
condition that would make the aircraft unsafe when operated in 
accordance with the limitations established in paragraph (e) of this 
section and in Sec. 91.317 of this chapter.
    (b) The applicant must apply for the issue of a type or supplemental 
type certificate for the aircraft.
    (c) The applicant must certify that--
    (1) The aircraft has been designed and constructed in accordance 
with the airworthiness requirements applicable to the issue of the type 
or supplemental type certificate applied for;
    (2) The aircraft substantially meets the applicable flight 
characteristic requirements for the type or supplemental type 
certificate applied for; and
    (3) The aircraft can be operated safely under the appropriate 
operating limitations specified in paragraph (a) of this section.
    (d) The applicant must submit a report showing that the aircraft had 
been flown in all maneuvers necessary to show compliance with the flight 
requirements for the issue of the type or supplemental type certificate 
applied for, and to establish that the aircraft can be operated safely 
in accordance with the limitations contained in this subchapter.
    (e) The applicant must establish all limitations required for the 
issue of the type or supplemental type certificate applied for, 
including limitations on weights, speeds, flight maneuvers, loading, and 
operation of controls and equipment unless, for each limitation not so 
established, appropriate operating restrictions are established for the 
aircraft.
    (f) The applicant must establish an inspection and maintenance 
program for the continued airworthiness of the aircraft.
    (g) The applicant must show that a prototype aircraft has been flown 
for at

[[Page 130]]

least 50 hours under an experimental certificate issued under 
Secs. 21.191 through 21.195, or under the auspices of an Armed Force of 
the United States. However, in the case of an amendment to a provisional 
type certificate, the Administrator may reduce the number of required 
flight hours.

[Doc. No. 5085, 29 FR 14566, Oct. 24, 1964, as amended by Amdt. 21-66, 
54 FR 34329, Aug. 18, 1989]



Sec. 21.83  Requirements for issue and amendment of Class II provisional type certificates.

    (a) An applicant who manufactures aircraft within the United States 
is entitled to the issue or amendment of a Class II provisional type 
certificate if he shows compliance with this section and the 
Administrator finds that there is no feature, characteristic, or 
condition that would make the aircraft unsafe when operated in 
accordance with the limitations in paragraph (h) of this section, and 
Secs. 91.317 and 121.207 of this chapter.
    (b) An applicant who manufactures aircraft in a country with which 
the United States has an agreement for the acceptance of those aircraft 
for export and import is entitled to the issue or amendment of a Class 
II provisional type certificate if the country in which the aircraft was 
manufactured certifies that the applicant has shown compliance with this 
section, that the aircraft meets the requirements of paragraph (f) of 
this section and that there is no feature, characteristic, or condition 
that would make the aircraft unsafe when operated in accordance with the 
limitations in paragraph (h) of this section and Secs. 91.317 and 
121.207 of this chapter.
    (c) The applicant must apply for a type certificate, in the 
transport category, for the aircraft.
    (d) The applicant must hold a U.S. type certificate for at least one 
other aircraft in the same transport category as the subject aircraft.
    (e) The FAA's official flight test program or the flight test 
program conducted by the authorities of the country in which the 
aircraft was manufactured, with respect to the issue of a type 
certificate for that aircraft, must be in progress.
    (f) The applicant or, in the case of a foreign manufactured 
aircraft, the country in which the aircraft was manufactured, must 
certify that--
    (1) The aircraft has been designed and constructed in accordance 
with the airworthiness requirements applicable to the issue of the type 
certificate applied for;
    (2) The aircraft substantially complies with the applicable flight 
characteristic requirements for the type certificate applied for; and
    (3) The aircraft can be operated safely under the appropriate 
operating limitations in this subchapter.
    (g) The applicant must submit a report showing that the aircraft has 
been flown in all maneuvers necessary to show compliance with the flight 
requirements for the issue of the type certificate and to establish that 
the aircraft can be operated safely in accordance with the limitations 
in this subchapter.
    (h) The applicant must prepare a provisional aircraft flight manual 
containing all limitations required for the issue of the type 
certificate applied for, including limitations on weights, speeds, 
flight maneuvers, loading, and operation of controls and equipment 
unless, for each limitation not so established, appropriate operating 
restrictions are established for the aircraft.
    (i) The applicant must establish an inspection and maintenance 
program for the continued airworthiness of the aircraft.
    (j) The applicant must show that a prototype aircraft has been flown 
for at least 100 hours. In the case of an amendment to a provisional 
type certificate, the Administrator may reduce the number of required 
flight hours.

[Amdt. 21-12, 31 FR 13386, Oct. 15, 1966, as amended by Amdt. 21-66, 54 
FR 34329, Aug. 18, 1989]



Sec. 21.85  Provisional amendments to type certificates.

    (a) An applicant who manufactures aircraft within the United States 
is entitled to a provisional amendment to a type certificate if he shows 
compliance with this section and the Administrator finds that there is 
no feature, characteristic, or condition that would

[[Page 131]]

make the aircraft unsafe when operated under the appropriate limitations 
contained in this subchapter.
    (b) An applicant who manufactures aircraft in a foreign country with 
which the United States has an agreement for the acceptance of those 
aircraft for export and import is entitled to a provisional amendment to 
a type certificate if the country in which the aircraft was manufactured 
certifies that the applicant has shown compliance with this section, 
that the aircraft meets the requirements of paragraph (e) of this 
section and that there is no feature, characteristic, or condition that 
would make the aircraft unsafe when operated under the appropriate 
limitations contained in this subchapter.
    (c) The applicant must apply for an amendment to the type 
certificate.
    (d) The FAA's official flight test program or the flight test 
program conducted by the authorities of the country in which the 
aircraft was manufactured, with respect to the amendment of the type 
certificate, must be in progress.
    (e) The applicant or, in the case of foreign manufactured aircraft, 
the country in which the aircraft was manufactured, must certify that--
    (1) The modification involved in the amendment to the type 
certificate has been designed and constructed in accordance with the 
airworthiness requirements applicable to the issue of the type 
certificate for the aircraft;
    (2) The aircraft substantially complies with the applicable flight 
characteristic requirements for the type certificate; and
    (3) The aircraft can be operated safely under the appropriate 
operating limitations in this subchapter.
    (f) The applicant must submit a report showing that the aircraft 
incorporating the modifications involved has been flown in all maneuvers 
necessary to show compliance with the flight requirements applicable to 
those modifications and to establish that the aircraft can be operated 
safely in accordance with the limitations specified in Secs. 91.317 and 
121.207 of this chapter.
    (g) The applicant must establish and publish, in a provisional 
aircraft flight manual or other document and on appropriate placards, 
all limitations required for the issue of the type certificate applied 
for, including weight, speed, flight maneuvers, loading, and operation 
of controls and equipment, unless, for each limitation not so 
established, appropriate operating restrictions are established for the 
aircraft.
    (h) The applicant must establish an inspection and maintenance 
program for the continued airworthiness of the aircraft.
    (i) The applicant must operate a prototype aircraft modified in 
accordance with the corresponding amendment to the type certificate for 
the number of hours found necessary by the Administrator.

[Amdt. 21-12, 31 FR 13388, Oct. 15, 1966, as amended by Amdt. 21-66, 54 
FR 34329, Aug. 18, 1989]



                 Subpart D--Changes to Type Certificates

    Source: Docket No. 5085, 29 FR 14567, Oct. 24, 1964, unless 
otherwise noted.



Sec. 21.91  Applicability.

    This subpart prescribes procedural requirements for the approval of 
changes to type certificates.



Sec. 21.93  Classification of changes in type design.

    (a) In addition to changes in type design specified in paragraph (b) 
of this section, changes in type design are classified as minor and 
major. A ``minor change'' is one that has no appreciable effect on the 
weight, balance, structural strength, reliability, operational 
characteristics, or other characteristics affecting the airworthiness of 
the product. All other changes are ``major changes'' (except as provided 
in paragraph (b) of this section).
    (b) For the purpose of complying with Part 36 of this chapter, and 
except as provided in paragraphs (b)(2), (b)(3), and (b)(4) of this 
section, any voluntary change in the type design of an aircraft that may 
increase the noise levels of that aircraft is an ``acoustical change'' 
(in addition to being a minor or major change as classified in paragraph 
(a) of this section) for the following aircraft:

[[Page 132]]

    (1) Transport category large airplanes.
    (2) Turbojet powered airplanes (regardless of category). For 
airplanes to which this paragraph applies, ``acoustical changes'' do not 
include changes in type design that are limited to one of the 
following--
    (i) Gear down flight with one or more retractable landing gear down 
during the entire flight, or
    (ii) Spare engine and nacelle carriage external to the skin of the 
airplane (and return of the pylon or other external mount), or
    (iii) Time-limited engine and/or nacelle changes, where the change 
in type design specifies that the airplane may not be operated for a 
period of more than 90 days unless compliance with the applicable 
acoustical change provisions of Part 36 of this chapter is shown for 
that change in type design.
    (3) Propeller driven commuter category and small airplanes in the 
primary, normal, utility, acrobatic, transport, and restricted 
categories, except for airplanes that are:
    (i) Designated for ``agricultural aircraft operations'' (as defined 
in Sec. 137.3 of this chapter, effective January 1, 1966) to which 
Sec. 36.1583 of this chapter does not apply, or
    (ii) Designated for dispensing fire fighting materials to which 
Sec. 36.1583 of this chapter does not apply, or
    (iii) U.S. registered, and that had flight time prior to January 1, 
1955 or
    (iv) Land configured aircraft reconfigured with floats or skis. This 
reconfiguration does not permit further exception from the requirements 
of this section upon any acoustical change not enumerated in 
Sec. 21.93(b).
    (4) Helicopters except:
    (i) Those helicopters that are designated exclusively:
    (A) For ``agricultural aircraft operations'', as defined in 
Sec. 137.3 of this chapter, as effective on January 1, 1966;
    (B) For dispensing fire fighting materials; or
    (C) For carrying external loads, as defined in Sec. 133.1(b) of this 
chapter, as effective on December 20, 1976.
    (ii) Those helicopters modified by installation or removal of 
external equipment. For purposes of this paragraph, ``external 
equipment'' means any instrument, mechanism, part, apparatus, 
appurtenance, or accessory that is attached to, or extends from, the 
helicopter exterior but is not used nor is intended to be used in 
operating or controlling a helicopter in flight and is not part of an 
airframe or engine. An ``acoustical change'' does not include:
    (A) Addition or removal of external equipment;
    (B) Changes in the airframe made to accommodate the addition or 
removal of external equipment, to provide for an external load attaching 
means, to facilitate the use of external equipment or external loads, or 
to facilitate the safe operation of the helicopter with external 
equipment mounted to, or external loads carried by, the helicopter;
    (C) Reconfiguration of the helicopter by the addition or removal of 
floats and skis;
    (D) Flight with one or more doors and/or windows removed or in an 
open position; or
    (E) Any changes in the operational limitations placed on the 
helicopter as a consequence of the addition or removal of external 
equipment, floats, and skis, or flight operations with doors and/or 
windows removed or in an open position.
    (c) For purposes of complying with part 34 of this chapter, any 
voluntary change in the type design of the airplane or engine which may 
increase fuel venting or exhaust emissions is an ``emissions change.''

[Amdt. 21-27, 34 FR 18363, Nov. 18, 1969, as amended by Amdt. 21-42, 40 
FR 1033, Jan. 6, 1975; Amdt. 21-47, 43 FR 28419, June 29, 1978; Amdt. 
21-56, 47 FR 758, Jan. 7, 1982; Amdt. 21-61, 53 FR 3539, Feb. 5, 1988; 
Amdt. 21-62, 53 FR 16365, May 6, 1988; Amdt. 21-63, 53 FR 47399, Nov. 
22, 1988; Amdt. 21-68, 55 FR 32860, Aug. 10, 1990; Amdt. 21-70, 57 FR 
41368, Sept. 9, 1992; Amdt. 21-73, 61 FR 20699, May 7, 1996; 61 FR 
57002, Nov. 5, 1996]



Sec. 21.95  Approval of minor changes in type design.

    Minor changes in a type design may be approved under a method 
acceptable to the Administrator before submitting to the Administrator 
any substantiating or descriptive data.

[[Page 133]]



Sec. 21.97  Approval of major changes in type design.

    (a) In the case of a major change in type design, the applicant must 
submit substantiating data and necessary descriptive data for inclusion 
in the type design.
    (b) Approval of a major change in the type design of an aircraft 
engine is limited to the specific engine configuration upon which the 
change is made unless the applicant identifies in the necessary 
descriptive data for inclusion in the type design the other 
configurations of the same engine type for which approval is requested 
and shows that the change is compatible with the other configurations.

[Amdt. 21-40, 39 FR 35459, Oct. 1, 1974]



Sec. 21.99  Required design changes.

    (a) When an Airworthiness Directive is issued under Part 39 the 
holder of the type certificate for the product concerned must--
    (1) If the Administrator finds that design changes are necessary to 
correct the unsafe condition of the product, and upon his request, 
submit appropriate design changes for approval; and
    (2) Upon approval of the design changes, make available the 
descriptive data covering the changes to all operators of products 
previously certificated under the type certificate.
    (b) In a case where there are no current unsafe conditions, but the 
Administrator or the holder of the type certificate finds through 
service experience that changes in type design will contribute to the 
safety of the product, the holder of the type certificate may submit 
appropriate design changes for approval. Upon approval of the changes, 
the manufacturer shall make information on the design changes available 
to all operators of the same type of product.

[Doc. No. 5085, 29 FR 14567, Oct. 24, 1964, as amended by Amdt. 21-3, 30 
FR 8826, July 24, 1965]



Sec. 21.101  Designation of applicable regulations.

    (a) An applicant for a change to a type certificate must show that 
the changed product complies with the airworthiness requirements 
applicable to the category of the product in effect on the date of the 
application for the change and with parts 34 and 36 of this chapter. 
Exceptions are detailed in paragraphs (b) and (c) of this section.
    (b) If paragraphs (b)(1), (2), or (3) of this section apply, an 
applicant may show that the changed product complies with an earlier 
amendment of a regulation required by paragraph (a) of this section, and 
of any other regulation the Administrator finds is directly related. 
However, the earlier amended regulation may not precede either the 
corresponding regulation incorporated by reference in the type 
certificate, or any regulation in Secs. 23.2, 25.2, 27.2, or 29.2 of 
this chapter that is related to the change. The applicant may show 
compliance with an earlier amendment of a regulation for any of the 
following:
    (1) A change that the Administrator finds not to be significant. In 
determining whether a specific change is significant, the Administrator 
considers the change in context with all previous relevant design 
changes and all related revisions to the applicable regulations 
incorporated in the type certificate for the product. Changes that meet 
one of the following criteria are automatically considered significant:
    (i) The general configuration or the principles of construction are 
not retained.
    (ii) The assumptions used for certification of the product to be 
changed do not remain valid.
    (2) Each area, system, component, equipment, or appliance that the 
Administrator finds is not affected by the change.
    (3) Each area, system, component, equipment, or appliance that is 
affected by the change, for which the Administrator finds that 
compliance with a regulation described in paragraph (a) of this section 
would not contribute materially to the level of safety of the changed 
product or would be impractical.
    (c) An applicant for a change to an aircraft (other than a 
rotorcraft) of 6,000 pounds or less maximum weight, or to a non-turbine 
rotorcraft of 3,000 pounds or less maximum weight may show that the 
changed product complies with the regulations incorporated

[[Page 134]]

by reference in the type certificate. However, if the Administrator 
finds that the change is significant in an area, the Administrator may 
designate compliance with an amendment to the regulation incorporated by 
reference in the type certificate that applies to the change and any 
regulation that the Administrator finds is directly related, unless the 
Administrator also finds that compliance with that amendment or 
regulation would not contribute materially to the level of safety of the 
changed product or would be impractical.
    (d) If the Administrator finds that the regulations in effect on the 
date of the application for the change do not provide adequate standards 
with respect to the proposed change because of a novel or unusual design 
feature, the applicant must also comply with special conditions, and 
amendments to those special conditions, prescribed under the provisions 
of Sec. 21.16, to provide a level of safety equal to that established by 
the regulations in effect on the date of the application for the change.
    (e) An application for a change to a type certificate for a 
transport category aircraft is effective for 5 years, and an application 
for a change to any other type certificate is effective for 3 years. If 
the change has not been approved, or if it is clear that it will not be 
approved under the time limit established under this paragraph, the 
applicant may do either of the following:
    (1) File a new application for a change to the type certificate and 
comply with all the provisions of paragraph (a) of this section 
applicable to an original application for a change.
    (2) File for an extension of the original application and comply 
with the provisions of paragraph (a) of this section. The applicant must 
then select a new application date. The new application date may not 
precede the date the change is approved by more than the time period 
established under this paragraph (e).
    (f) For aircraft certificated under Secs. 21.17(b), 21.24, 21.25, 
and 21.27 the airworthiness requirements applicable to the category of 
the product in effect on the date of the application for the change 
include each airworthiness requirement that the Administrator finds to 
be appropriate for the type certification of the aircraft in accordance 
with those sections.

[Doc. No. 28903, 65 FR 36266, June 7, 2000]



                Subpart E--Supplemental Type Certificates

    Source: Docket No. 5085, 29 FR 14568, Oct. 24, 1964, unless 
otherwise noted.



Sec. 21.111  Applicability.

    This subpart prescribes procedural requirements for the issue of 
supplemental type certificates.



Sec. 21.113  Requirement of supplemental type certificate.

    Any person who alters a product by introducing a major change in 
type design, not great enough to require a new application for a type 
certificate under Sec. 21.19, shall apply to the Administrator for a 
supplemental type certificate, except that the holder of a type 
certificate for the product may apply for amendment of the original type 
certificate. The application must be made in a form and manner 
prescribed by the Administrator.



Sec. 21.115  Applicable requirements.

    (a) Each applicant for a supplemental type certificate must show 
that the altered product meets applicable requirements specified in 
Sec. 21.101 and, in the case of an acoustical change described in 
Sec. 21.93(b), show compliance with the applicable noise requirements of 
part 36 of this chapter and, in the case of an emissions change 
described in Sec. 21.93(c), show compliance with the applicable fuel 
venting and exhaust emissions requirements of part 34 of this chapter.
    (b) Each applicant for a supplemental type certificate must meet 
Secs. 21.33 and 21.53 with respect to each change in the type design.

[Amdt. 21-17, 32 FR 14927, Oct. 28, 1967, as amended by Amdt. 21-42, 40 
FR 1033, Jan. 6, 1975; Amdt. 21-52A, 45 FR 79009, Nov. 28, 1980; Amdt. 
21-61, 53 FR 3540, Feb. 5, 1988; Amdt. 21-68, 55 FR 32860, Aug. 10, 
1990; Amdt. 21-71, 57 FR 42854, Sept. 16, 1992; Amdt. 21-77, 65 FR 
36266, June 7, 2000]

[[Page 135]]



Sec. 21.117  Issue of supplemental type certificates.

    (a) An applicant is entitled to a supplemental type certificate if 
he meets the requirements of Secs. 21.113 and 21.115.
    (b) A supplemental type certificate consists of--
    (1) The approval by the Administrator of a change in the type design 
of the product; and
    (2) The type certificate previously issued for the product.



Sec. 21.119  Privileges.

    The holder of a supplemental type certificate may--
    (a) In the case of aircraft, obtain airworthiness certificates;
    (b) In the case of other products, obtain approval for installation 
on certificated aircraft; and
    (c) Obtain a production certificate for the change in the type 
design that was approved by that supplemental type certificate.



            Subpart F--Production Under Type Certificate Only

    Source: Docket No. 5085, 29 FR 14568, Oct. 24, 1964, unless 
otherwise noted.



Sec. 21.121  Applicability.

    This subpart prescribes rules for production under a type 
certificate only.



Sec. 21.123  Production under type certificate.

    Each manufacturer of a product being manufactured under a type 
certificate only shall--
    (a) Make each product available for inspection by the Administrator;
    (b) Maintain at the place of manufacture the technical data and 
drawings necessary for the Administrator to determine whether the 
product and its parts conform to the type design;
    (c) Except as otherwise authorized by the Aircraft Certification 
Directorate Manager for the geographic area which the manufacturer is 
located, for products manufactured more than 6 months after the date of 
issue of the type certificate, establish and maintain an approved 
production inspection system that insures that each product conforms to 
the type design and is in condition for safe operation; and
    (d) Upon the establishment of the approved production inspection 
system (as required by paragraph (c) of this section) submit to the 
Administrator a manual that describes that system and the means for 
making the determinations required by Sec. 21.125(b).

[Doc. No. 5085, 29 FR 14568, Oct. 24, 1964, as amended by Amdt. 21-34, 
35 FR 13008, Aug. 15, 1970; Amdt. 21-51, 45 FR 60170, Sept. 11, 1980; 
Amdt. 21-67, 54 FR 39291, Sept. 25, 1989]



Sec. 21.125  Production inspection system: Materials Review Board.

    (a) Each manufacturer required to establish a production inspection 
system by Sec. 21.123(c) shall--
    (1) Establish a Materials Review Board (to include representatives 
from the inspection and engineering departments) and materials review 
procedures; and
    (2) Maintain complete records of Materials Review Board action for 
at least two years.
    (b) The production inspection system required in Sec. 21.123(c) must 
provide a means for determining at least the following:
    (1) Incoming materials, and bought or subcontracted parts, used in 
the finished product must be as specified in the type design data, or 
must be suitable equivalents.
    (2) Incoming materials, and bought or subcontracted parts, must be 
properly identified if their physical or chemical properties cannot be 
readily and accurately determined.
    (3) Materials subject to damage and deterioration must be suitably 
stored and adequately protected.
    (4) Processes affecting the quality and safety of the finished 
product must be accomplished in accordance with acceptable industry or 
United States specifications.
    (5) Parts and components in process must be inspected for conformity 
with the type design data at points in production where accurate 
determinations can be made.
    (6) Current design drawings must be readily available to 
manufacturing and inspection personnel, and used when necessary.

[[Page 136]]

    (7) Design changes, including material substitutions, must be 
controlled and approved before being incorporated in the finished 
product.
    (8) Rejected materials and parts must be segregated and identified 
in a manner that precludes installation in the finished product.
    (9) Materials and parts that are withheld because of departures from 
design data or specifications, and that are to be considered for 
installation in the finished product, must be processed through the 
Materials Review Board. Those materials and parts determined by the 
Board to be serviceable must be properly identified and reinspected if 
rework or repair is necessary. Materials and parts rejected by the Board 
must be marked and disposed of to ensure that they are not incorporated 
in the final product.
    (10) Inspection records must be maintained, identified with the 
completed product where practicable, and retained by the manufacturer 
for at least two years.



Sec. 21.127  Tests: aircraft.

    (a) Each person manufacturing aircraft under a type certificate only 
shall establish an approved production flight test procedure and flight 
check-off form, and in accordance with that form, flight test each 
aircraft produced.
    (b) Each production flight test procedure must include the 
following:
    (1) An operational check of the trim, controllability, or other 
flight characteristics to establish that the production aircraft has the 
same range and degree of control as the prototype aircraft.
    (2) An operational check of each part or system operated by the crew 
while in flight to establish that, during flight, instrument readings 
are within normal range.
    (3) A determination that all instruments are properly marked, and 
that all placards and required flight manuals are installed after flight 
test.
    (4) A check of the operational characteristics of the aircraft on 
the ground.
    (5) A check on any other items peculiar to the aircraft being tested 
that can best be done during the ground or flight operation of the 
aircraft.



Sec. 21.128  Tests: aircraft engines.

    (a) Each person manufacturing aircraft engines under a type 
certificate only shall subject each engine (except rocket engines for 
which the manufacturer must establish a sampling technique) to an 
acceptable test run that includes the following:
    (1) Break-in runs that include a determination of fuel and oil 
consumption and a determination of power characteristics at rated 
maximum continuous power or thrust and, if applicable, at rated takeoff 
power or thrust.
    (2) At least five hours of operation at rated maximum continuous 
power or thrust. For engines having a rated takeoff power or thrust 
higher than rated maximum continuous power or thrust, the five-hour run 
must include 30 minutes at rated takeoff power or thrust.
    (b) The test runs required by paragraph (a) of this section may be 
made with the engine appropriately mounted and using current types of 
power and thrust measuring equipment.

[Doc. No. 5085, 29 FR 14568, Oct. 24, 1964, as amended by Amdt. 21-5, 32 
FR 3735, Mar. 4, 1967]



Sec. 21.129  Tests: propellers.

    Each person manufacturing propellers under a type certificate only 
shall give each variable pitch propeller an acceptable functional test 
to determine if it operates properly throughout the normal range of 
operation.



Sec. 21.130  Statement of conformity.

    Each holder or licensee of a type certificate only, for a product 
manufactured in the United States, shall, upon the initial transfer by 
him of the ownership of such product manufactured under that type 
certificate, or upon application for the original issue of an aircraft 
airworthiness certificate or an aircraft engine or propeller 
airworthiness approval tag (FAA Form 8130-3), give the Administrator a 
statement of conformity (FAA Form 317). This statement must be signed by 
an authorized person who holds a responsible position in the 
manufacturing organization, and must include--
    (a) For each product, a statement that the product conforms to its 
type

[[Page 137]]

certificate and is in condition for safe operation;
    (b) For each aircraft, a statement that the aircraft has been flight 
checked; and
    (c) For each aircraft engine or variable pitch propeller, a 
statement that the engine or propeller has been subjected by the 
manufacturer to a final operational check.

However, in the case of a product manufactured for an Armed Force of the 
United States, a statement of conformity is not required if the product 
has been accepted by that Armed Force.

[Amdt. 21-25, 34 FR 14068, Sept. 5, 1969]



                   Subpart G--Production Certificates

    Source: Docket No. 5085, 29 FR 14569, Oct. 24, 1964, unless 
otherwise noted.



Sec. 21.131  Applicability.

    This subpart prescribes procedural requirements for the issue of 
production certificates and rules governing the holders of those 
certificates.



Sec. 21.133  Eligibility.

    (a) Any person may apply for a production certificate if he holds, 
for the product concerned, a--
    (1) Current type certificate;
    (2) Right to the benefits of that type certificate under a licensing 
agreement; or
    (3) Supplemental type certificate.
    (b) Each application for a production certificate must be made in a 
form and manner prescribed by the Administrator.



Sec. 21.135  Requirements for issuance.

    An applicant is entitled to a production certificate if the 
Administrator finds, after examination of the supporting data and after 
inspection of the organization and production facilities, that the 
applicant has complied with Secs. 21.139 and 21.143.



Sec. 21.137  Location of manufacturing facilities.

    The Administrator does not issue a production certificate if the 
manufacturing facilities concerned are located outside the United 
States, unless the Administrator finds no undue burden on the United 
States in administering the applicable requirements of the Federal 
Aviation Act of 1958 or of the Federal Aviation Regulations.



Sec. 21.139  Quality control.

    The applicant must show that he has established and can maintain a 
quality control system for any product, for which he requests a 
production certificate, so that each article will meet the design 
provisions of the pertinent type certificate.



Sec. 21.143  Quality control data requirements; prime manufacturer.

    (a) Each applicant must submit, for approval, data describing the 
inspection and test procedures necessary to ensure that each article 
produced conforms to the type design and is in a condition for safe 
operation, including as applicable--
    (1) A statement describing assigned responsibilities and delegated 
authority of the quality control organization, together with a chart 
indicating the functional relationship of the quality control 
organization to management and to other organizational components, and 
indicating the chain of authority and responsibility within the quality 
control organization;
    (2) A description of inspection procedures for raw materials, 
purchased items, and parts and assemblies produced by manufacturers' 
suppliers including methods used to ensure acceptable quality of parts 
and assemblies that cannot be completely inspected for conformity and 
quality when delivered to the prime manufacturer's plant;
    (3) A description of the methods used for production inspection of 
individual parts and complete assemblies, including the identification 
of any special manufacturing processes involved, the means used to 
control the processes, the final test procedure for the complete 
product, and, in the case of aircraft, a copy of the manufacturer's 
production flight test procedures and checkoff list;

[[Page 138]]

    (4) An outline of the materials review system, including the 
procedure for recording review board decisions and disposing of rejected 
parts;
    (5) An outline of a system for informing company inspectors of 
current changes in engineering drawings, specifications, and quality 
control procedures; and
    (6) A list or chart showing the location and type of inspection 
stations.
    (b) Each prime manufacturer shall make available to the 
Administrator information regarding all delegation of authority to 
suppliers to make major inspections of parts or assemblies for which the 
prime manufacturer is responsible.

[Doc. No. 5085, 29 FR 14569, Oct. 24, 1964, as amended by Amdt. 21-51, 
45 FR 60170, Sept. 11, 1980]



Sec. 21.147  Changes in quality control system.

    After the issue of a production certificate, each change to the 
quality control system is subject to review by the Administrator. The 
holder of a production certificate shall immediately notify the 
Administrator, in writing of any change that may affect the inspection, 
conformity, or airworthiness of the product.



Sec. 21.149  Multiple products.

    The Administrator may authorize more than one type certificated 
product to be manufactured under the terms of one production 
certificate, if the products have similar production characteristics.



Sec. 21.151  Production limitation record.

    A production limitation record is issued as part of a production 
certificate. The record lists the type certificate of every product that 
the applicant is authorized to manufacture under the terms of the 
production certificate.



Sec. 21.153  Amendment of the production certificates.

    The holder of a production certificate desiring to amend it to add a 
type certificate or model, or both, must apply therefor in a form and 
manner prescribed by the Administrator. The applicant must comply with 
the applicable requirements of Secs. 21.139, 21.143, and 21.147.



Sec. 21.155  Transferability.

    A production certificate is not transferable.



Sec. 21.157  Inspections and tests.

    Each holder of a production certificate shall allow the 
Administrator to make any inspections and tests necessary to determine 
compliance with the applicable regulations in this subchapter.



Sec. 21.159  Duration.

    A production certificate is effective until surrendered, suspended, 
revoked, or a termination date is otherwise established by the 
Administrator, or the location of the manufacturing facility is changed.



Sec. 21.161  Display.

    The holder of a production certificate shall display it prominently 
in the main office of the factory in which the product concerned is 
manufactured.



Sec. 21.163  Privileges.

    (a) The holder of a production certificate may--
    (1) Obtain an aircraft airworthiness certificate without further 
showing, except that the Administrator may inspect the aircraft for 
conformity with the type design; or
    (2) In the case of other products, obtain approval for installation 
on type certificated aircraft.
    (b) Notwithstanding the provisions of Sec. 147.3 of this chapter, 
the holder of a production certificate for a primary category aircraft, 
or for a normal, utility, or acrobatic category aircraft of a type 
design that is eligible for a special airworthiness certificate in the 
primary category under Sec. 21.184(c), may--
    (1) Conduct training for persons in the performance of a special 
inspection and preventive maintenance program approved as a part of the 
aircraft's type design under Sec. 21.24(b), provided the training is 
given by a person holding a mechanic certificate with appropriate 
airframe and powerplant ratings issued under part 65 of this chapter; 
and

[[Page 139]]

    (2) Issue a certificate of competency to persons successfully 
completing the approved training program, provided the certificate 
specifies the aircraft make and model to which the certificate applies.

[Doc. No. 23345, 57 FR 41368, Sept. 9, 1992]



Sec. 21.165  Responsibility of holder.

    The holder of a production certificate shall--
    (a) Maintain the quality control system in conformity with the data 
and procedures approved for the production certificate; and
    (b) Determine that each part and each completed product, including 
primary category aircraft assembled under a production certificate by 
another person from a kit provided by the holder of the production 
certificate, submitted for airworthiness certification or approval 
conforms to the approved design and is in a condition for safe 
operation.

[Doc. No. 5085, 29 FR 14569, Oct. 24, 1964, as amended by Amdt. 21-64, 
53 FR 48521, Dec. 1, 1988; Amdt. 21-70, 57 FR 41368, Sept. 9, 1992]



                  Subpart H--Airworthiness Certificates

    Source: Docket No. 5085, 29 FR 14569, Oct. 24, 1964, unless 
otherwise noted.



Sec. 21.171  Applicability.

    This subpart prescribes procedural requirements for the issue of 
airworthiness certificates.



Sec. 21.173  Eligibility.

    Any registered owner of a U.S.-registered aircraft (or the agent of 
the owner) may apply for an airworthiness certificate for that aircraft. 
An application for an airworthiness certificate must be made in a form 
and manner acceptable to the Administrator, and may be submitted to any 
FAA office.

[Amdt. 21-26, 34 FR 15244, Sept. 30, 1969]



Sec. 21.175  Airworthiness certificates: classification.

    (a) Standard airworthiness certificates are airworthiness 
certificates issued for aircraft type certificated in the normal, 
utility, acrobatic, commuter, or transport category, and for manned free 
balloons, and for aircraft designated by the Administrator as special 
classes of aircraft.
    (b) Special airworthiness certificates are primary, restricted, 
limited, and provisional airworthiness certificates, special flight 
permits, and experimental certificates.

[Amdt. 21-21, 33 FR 6858, May 7, 1968, as amended by Amdt. 21-60, 52 FR 
8043, Mar. 13, 1987; Amdt. 21-70, 57 FR 41368, Sept. 9, 1992]



Sec. 21.177  Amendment or modification.

    An airworthiness certificate may be amended or modified only upon 
application to the Administrator.



Sec. 21.179  Transferability.

    An airworthiness certificate is transferred with the aircraft.



Sec. 21.181  Duration.

    (a) Unless sooner surrendered, suspended, revoked, or a termination 
date is otherwise established by the Administrator, airworthiness 
certificates are effective as follows:
    (1) Standard airworthiness certificates, special airworthiness 
certificates--primary category, and airworthiness certificates issued 
for restricted or limited category aircraft are effective as long as the 
maintenance, preventive maintenance, and alterations are performed in 
accordance with Parts 43 and 91 of this chapter and the aircraft are 
registered in the United States.
    (2) A special flight permit is effective for the period of time 
specified in the permit.
    (3) An experimental certificate for research and development, 
showing compliance with regulations, crew training, or market surveys is 
effective for one year after the date of issue or renewal unless a 
shorter period is prescribed by the Administrator. The duration of 
amateur-built, exhibition, and air-racing experimental certificates will 
be unlimited unless the Administrator finds for good cause that a 
specific period should be established.
    (b) The owner, operator, or bailee of the aircraft shall, upon 
request, make it available for inspection by the Administrator.

[[Page 140]]

    (c) Upon suspension, revocation, or termination by order of the 
Administrator of an airworthiness certificate, the owner, operator, or 
bailee of an aircraft shall, upon request, surrender the certificate to 
the Administrator.

[Amdt. 21-21, 33 FR 6858, May 7, 1968, as amended by Amdt. 21-49, 44 FR 
46781, Aug. 9, 1979; Amdt. 21-70, 57 FR 41368, Sept. 9, 1992]



Sec. 21.182  Aircraft identification.

    (a) Except as provided in paragraph (b) of this section, each 
applicant for an airworthiness certificate under this subpart must show 
that his aircraft is identified as prescribed in Sec. 45.11.
    (b) Paragraph (a) of this section does not apply to applicants for 
the following:
    (1) A special flight permit.
    (2) An experimental certificate for an aircraft that is not amateur-
built or kit-built.
    (3) A change from one airworthiness classification to another, for 
an aircraft already identified as prescribed in Sec. 45.11.

[Amdt. 21-13, 32 FR 188, Jan. 10, 1967, as amended by Amdt. 21-51, 45 FR 
60170, Sept. 11, 1980; Amdt. 21-70, 57 FR 41368, Sept. 9, 1992]



Sec. 21.183  Issue of standard airworthiness certificates for normal, utility, acrobatic, commuter, and transport category aircraft; manned free balloons; and 
          special classes of aircraft.

    (a) New aircraft manufactured under a production certificate. An 
applicant for a standard airworthiness certificate for a new aircraft 
manufactured under a production certificate is entitled to a standard 
airworthiness certificate without further showing, except that the 
Administrator may inspect the aircraft to determine conformity to the 
type design and condition for safe operation.
    (b) New aircraft manufactured under type certificate only. An 
applicant for a standard airworthiness certificate for a new aircraft 
manufactured under a type certificate only is entitled to a standard 
airworthiness certificate upon presentation, by the holder or licensee 
of the type certificate, of the statement of conformity prescribed in 
Sec. 21.130 if the Administrator finds after inspection that the 
aircraft conforms to the type design and is in condition for safe 
operation.
    (c) Import aircraft. An applicant for a standard airworthiness 
certificate for an import aircraft type certificated in accordance with 
Sec. 21.29 is entitled to an airworthiness certificate if the country in 
which the aircraft was manufactured certifies, and the Administrator 
finds, that the aircraft conforms to the type design and is in condition 
for safe operation.
    (d) Other aircraft. An applicant for a standard airworthiness 
certificate for aircraft not covered by paragraphs (a) through (c) of 
this section is entitled to a standard airworthiness certificate if--
    (1) He presents evidence to the Administrator that the aircraft 
conforms to a type design approved under a type certificate or a 
supplemental type certificate and to applicable Airworthiness 
Directives;
    (2) The aircraft (except an experimentally certificated aircraft 
that previously had been issued a different airworthiness certificate 
under this section) has been inspected in accordance with the 
performance rules for 100-hour inspections set forth in Sec. 43.15 of 
this chapter and found airworthy by--
    (i) The manufacturer;
    (ii) The holder of a repair station certificate as provided in Part 
145 of this chapter;
    (iii) The holder of a mechanic certificate as authorized in Part 65 
of this chapter; or
    (iv) The holder of a certificate issued under Part 121 of this 
chapter, and having a maintenance and inspection organization 
appropriate to the aircraft type; and
    (3) The Administrator finds after inspection, that the aircraft 
conforms to the type design, and is in condition for safe operation.
    (e) Noise requirements. Notwithstanding all other provisions of this 
section, the following must be complied with for the original issuance 
of a standard airworthiness certificate:
    (1) For transport category large airplanes and turbojet powered 
airplanes that have not had any flight time before the dates specified 
in Sec. 36.1(d), no standard airworthiness certificate is

[[Page 141]]

originally issued under this section unless the Administrator finds that 
the type design complies with the noise requirements in Sec. 36.1(d) in 
addition to the applicable airworthiness requirements in this section. 
For import airplanes, compliance with this paragraph is shown if the 
country in which the airplane was manufactured certifies, and the 
Administrator finds, that Sec. 36.1(d) (or the applicable airplane noise 
requirements of the country in which the airplane was manufactured and 
any other requirements the Administrator may prescribe to provide noise 
levels no greater than those provided by compliance with Sec. 36.1(d)) 
and paragraph (c) of this section are complied with.
    (2) For normal, utility, acrobatic, commuter, or transport category 
propeller driven small airplanes (except for those airplanes that are 
designed for ``agricultural aircraft operations'' (as defined in 
Sec. 137.3 of this chapter, as effective on January 1, 1966) or for 
dispensing fire fighting materials to which Sec. 36.1583 of this chapter 
does not apply) that have not had any flight time before the applicable 
date specified in Part 36 of this chapter, no standard airworthiness 
certificate is originally issued under this section unless the applicant 
shows that the type design complies with the applicable noise 
requirements of Part 36 of this chapter in addition to the applicable 
airworthiness requirements in this section. For import airplanes, 
compliance with this paragraph is shown if the country in which the 
airplane was manufactured certifies, and the Administrator finds, that 
the applicable requirements of Part 36 of this chapter (or the 
applicable airplane noise requirements of the country in which the 
airplane was manufactured and any other requirements the Administrator 
may prescribe to provide noise levels no greater than those provided by 
compliance with the applicable requirements of Part 36 of this chapter) 
and paragraph (c) of this section are complied with.
    (f) Passenger emergency exit requirements. Notwithstanding all other 
provisions of this section, each applicant for issuance of a standard 
airworthiness certificate for a transport category airplane manufactured 
after October 16, 1987, must show that the airplane meets the 
requirements of Sec. 25.807(c)(7) in effect on July 24, 1989. For the 
purposes of this paragraph, the date of manufacture of an airplane is 
the date the inspection acceptance records reflect that the airplane is 
complete and meets the FAA-approved type design data.
    (g) Fuel venting and exhaust emission requirements. Notwithstanding 
all other provisions of this section, and irrespective of the date of 
application, no airworthiness certificate is issued, on and after the 
dates specified in part 34 for the airplanes specified therein, unless 
the airplane complies with the applicable requirements of that part.

[Amdt. 21-17, 32 FR 14927, Oct. 28, 1967, as amended by Amdt. 21-20, 33 
FR 3055, Feb. 16, 1968; Amdt. 21-25, 34 FR 14068, Sept. 5, 1969; Amdt. 
21-42, 40 FR 1033, Jan. 6, 1975; Amdt. 21-47, 43 FR 28419, June 29, 
1978; Amdt. 21-52, 45 FR 67066, Oct. 9, 1980; Amdt. 21-59, 52 FR 1836, 
Jan. 15, 1987; Amdt. 21-60, 52 FR 8043, Mar. 13, 1987; Amdt. 21-65, 54 
FR 26695, June 23, 1989; Amdt. 21-68, 55 FR 32860, Aug. 10, 1990; Amdt. 
21-79, 66 FR 21065, Apr. 27, 2001]



Sec. 21.184  Issue of special airworthiness certificates for primary category aircraft.

    (a) New primary category aircraft manufactured under a production 
certificate. An applicant for an original, special airworthiness 
certificate-primary category for a new aircraft that meets the criteria 
of Sec. 21.24(a)(1), manufactured under a production certificate, 
including aircraft assembled by another person from a kit provided by 
the holder of the production certificate and under the supervision and 
quality control of that holder, is entitled to a special airworthiness 
certificate without further showing, except that the Administrator may 
inspect the aircraft to determine conformity to the type design and 
condition for safe operation.
    (b) Imported aircraft. An applicant for a special airworthiness 
certificate-primary category for an imported aircraft type certificated 
under Sec. 21.29 is entitled to a special airworthiness certificate if 
the civil airworthiness authority of the country in which the aircraft 
was manufactured certifies, and the Administrator finds after 
inspection,

[[Page 142]]

that the aircraft conforms to an approved type design that meets the 
criteria of Sec. 21.24(a)(1) and is in a condition for safe operation.
    (c) Aircraft having a current standard airworthiness certificate. An 
applicant for a special airworthiness certificate-primary category, for 
an aircraft having a current standard airworthiness certificate that 
meets the criteria of Sec. 21.24(a)(1), may obtain the primary category 
certificate in exchange for its standard airworthiness certificate 
through the supplemental type certification process. For the purposes of 
this paragraph, a current standard airworthiness certificate means that 
the aircraft conforms to its approved normal, utility, or acrobatic type 
design, complies with all applicable airworthiness directives, has been 
inspected and found airworthy within the last 12 calendar months in 
accordance with Sec. 91.409(a)(1) of this chapter, and is found to be in 
a condition for safe operation by the Administrator.
    (d) Other aircraft. An applicant for a special airworthiness 
certificate-primary category for an aircraft that meets the criteria of 
Sec. 21.24(a)(1), and is not covered by paragraph (a), (b), or (c) of 
this section, is entitled to a special airworthiness certificate if--
    (1) The applicant presents evidence to the Administrator that the 
aircraft conforms to an approved primary, normal, utility, or acrobatic 
type design, including compliance with all applicable airworthiness 
directives;
    (2) The aircraft has been inspected and found airworthy within the 
past 12 calendar months in accordance with Sec. 91.409(a)(1) of this 
chapter and;
    (3) The aircraft is found by the Administrator to conform to an 
approved type design and to be in a condition for safe operation.
    (e) Multiple-category airworthiness certificates in the primary 
category and any other category will not be issued; a primary category 
aircraft may hold only one airworthiness certificate.

[Doc. No. 23345, 57 FR 41368, Sept. 9, 1992, as amended by Amdt. 21-70, 
57 FR 43776, Sept. 22, 1992]



Sec. 21.185  Issue of airworthiness certificates for restricted category aircraft.

    (a) Aircraft manufactured under a production certificate or type 
certificate only. An applicant for the original issue of a restricted 
category airworthiness certificate for an aircraft type certificated in 
the restricted category, that was not previously type certificated in 
any other category, must comply with the appropriate provisions of 
Sec. 21.183.
    (b) Other aircraft. An applicant for a restricted category 
airworthiness certificate for an aircraft type certificated in the 
restricted category, that was either a surplus aircraft of the Armed 
Forces or previously type certificated in another category, is entitled 
to an airworthiness certificate if the aircraft has been inspected by 
the Administrator and found by him to be in a good state of preservation 
and repair and in a condition for safe operation.
    (c) Import aircraft. An applicant for the original issue of a 
restricted category airworthiness certificate for an import aircraft 
type certificated in the restricted category only in accordance with 
Sec. 21.29 is entitled to an airworthiness certificate if the country in 
which the aircraft was manufactured certifies, and the Administrator 
finds, that the aircraft conforms to the type design and is in a 
condition for safe operation.
    (d) Noise requirements. For propeller-driven small airplanes (except 
airplanes designed for ``agricultural aircraft operations,'' as defined 
in Sec. 137.3 of this chapter, as effective on January 1, 1966, or for 
dispensing fire fighting materials) that have not had any flight time 
before the applicable date specified in Part 36 of this chapter, and 
notwithstanding the other provisions of this section, no original 
restricted category airworthiness certificate is issued under this 
section unless the Administrator finds that the type design complies 
with the applicable noise requirements of Part 36 of this chapter in 
addition to the applicable airworthiness requirements of this section. 
For import airplanes, compliance with this paragraph is shown if the 
country in which the airplane was manufactured certifies, and the 
Administrator finds, that the applicable requirements of

[[Page 143]]

Part 36 of this chapter (or the applicable airplane noise requirements 
of the country in which the airplane was manufactured and any other 
requirements the Administrator may prescribe to provide noise levels no 
greater than those provided by compliance with the applicable 
requirements of Part 36 of this chapter) and paragraph (c) of this 
section are complied with.

[Amdt. 21-10, 31 FR 9211, July 6, 1966; as amended by Amdt. 21-32, 35 FR 
10202, June 23, 1970; Amdt. 21-42, 40 FR 1034, Jan. 6, 1975]



Sec. 21.187  Issue of multiple airworthiness certification.

    (a) An applicant for an airworthiness certificate in the restricted 
category, and in one or more other categories except primary category, 
is entitled to the certificate, if--
    (1) He shows compliance with the requirements for each category, 
when the aircraft is in the configuration for that category; and
    (2) He shows that the aircraft can be converted from one category to 
another by removing or adding equipment by simple mechanical means.
    (b) The operator of an aircraft certificated under this section 
shall have the aircraft inspected by the Administrator, or by a 
certificated mechanic with an appropriate airframe rating, to determine 
airworthiness each time the aircraft is converted from the restricted 
category to another category for the carriage of passengers for 
compensation or hire, unless the Administrator finds this unnecessary 
for safety in a particular case.
    (c) The aircraft complies with the applicable requirements of part 
34.

[Doc. No. 5085, 29 FR 14569, Oct. 24, 1964, as amended by Amdt. 21-68, 
55 FR 32860, Aug. 10, 1990; Amdt. 21-70, 57 FR 41369, Sept. 9, 1992]



Sec. 21.189  Issue of airworthiness certificate for limited category aircraft.

    (a) An applicant for an airworthiness certificate for an aircraft in 
the limited category is entitled to the certificate when--
    (1) He shows that the aircraft has been previously issued a limited 
category type certificate and that the aircraft conforms to that type 
certificate; and
    (2) The Administrator finds, after inspection (including a flight 
check by the applicant), that the aircraft is in a good state of 
preservation and repair and is in a condition for safe operation.
    (b) The Administrator prescribes limitations and conditions 
necessary for safe operation.

[Doc. No. 5085, 29 FR 14570, Oct. 24, 1964, as amended by Amdt. 21-4, 30 
FR 9437, July 29, 1965]



Sec. 21.191  Experimental certificates.

    Experimental certificates are issued for the following purposes:
    (a) Research and development. Testing new aircraft design concepts, 
new aircraft equipment, new aircraft installations, new aircraft 
operating techniques, or new uses for aircraft.
    (b) Showing compliance with regulations. Conducting flight tests and 
other operations to show compliance with the airworthiness regulations 
including flights to show compliance for issuance of type and 
supplemental type certificates, flights to substantiate major design 
changes, and flights to show compliance with the function and 
reliability requirements of the regulations.
    (c) Crew training. Training of the applicant's flight crews.
    (d) Exhibition. Exhibiting the aircraft's flight capabilities, 
performance, or unusual characteristics at air shows, motion picture, 
television, and similar productions, and the maintenance of exhibition 
flight proficiency, including (for persons exhibiting aircraft) flying 
to and from such air shows and productions.
    (e) Air racing. Participating in air races, including (for such 
participants) practicing for such air races and flying to and from 
racing events.
    (f) Market surveys. Use of aircraft for purposes of conducting 
market surveys, sales demonstrations, and customer crew training only as 
provided in Sec. 21.195.
    (g) Operating amateur-built aircraft. Operating an aircraft the 
major portion of which has been fabricated and assembled by persons who 
undertook the construction project solely for their own education or 
recreation.
    (h) Operating kit-built aircraft. Operating a primary category 
aircraft that

[[Page 144]]

meets the criteria of Sec. 21.24(a)(1) that was assembled by a person 
from a kit manufactured by the holder of a production certificate for 
that kit, without the supervision and quality control of the production 
certificate holder under Sec. 21.184(a).

[Amdt. 21-21, 38 FR 6858, May 7, 1968, as amended by Amdt. 21-57, 49 FR 
39651, Oct. 9, 1984; Amdt. 21-70, 57 FR 41369, Sept. 9, 1992]



Sec. 21.193  Experimental certificates: general.

    An applicant for an experimental certificate must submit the 
following information:
    (a) A statement, in a form and manner prescribed by the 
Administrator setting forth the purpose for which the aircraft is to be 
used.
    (b) Enough data (such as photographs) to identify the aircraft.
    (c) Upon inspection of the aircraft, any pertinent information found 
necessary by the Administrator to safeguard the general public.
    (d) In the case of an aircraft to be used for experimental 
purposes--
    (1) The purpose of the experiment;
    (2) The estimated time or number of flights required for the 
experiment;
    (3) The areas over which the experiment will be conducted; and
    (4) Except for aircraft converted from a previously certificated 
type without appreciable change in the external configuration, three-
view drawings or three-view dimensioned photographs of the aircraft.



Sec. 21.195  Experimental certificates: Aircraft to be used for market surveys, sales demonstrations, and customer crew training.

    (a) A manufacturer of aircraft manufactured within the United States 
may apply for an experimental certificate for an aircraft that is to be 
used for market surveys, sales demonstrations, or customer crew 
training.
    (b) A manufacturer of aircraft engines who has altered a type 
certificated aircraft by installing different engines, manufactured by 
him within the United States, may apply for an experimental certificate 
for that aircraft to be used for market surveys, sales demonstrations, 
or customer crew training, if the basic aircraft, before alteration, was 
type certificated in the normal, acrobatic, commuter, or transport 
category.
    (c) A person who has altered the design of a type certificated 
aircraft may apply for an experimental certificate for the altered 
aircraft to be used for market surveys, sales demonstrations, or 
customer crew training if the basic aircraft, before alteration, was 
type certificated in the normal, utility, acrobatic, or transport 
category.
    (d) An applicant for an experimental certificate under this section 
is entitled to that certificate if, in addition to meeting the 
requirements of Sec. 21.193--
    (1) He has established an inspection and maintenance program for the 
continued airworthiness of the aircraft; and
    (2) He shows that the aircraft has been flown for at least 50 hours, 
or for at least 5 hours if it is a type certificated aircraft which has 
been modified.

[Amdt. 21-21, 33 FR 6858, May 7, 1968, as amended by Amdt. 21-28, 35 FR 
2818, Feb. 11, 1970; Amdt. 21-57, 49 FR 39651, Oct. 9, 1984; Amdt. 21-
59, 52 FR 1836, Jan. 15, 1987]



Sec. 21.197  Special flight permits.

    (a) A special flight permit may be issued for an aircraft that may 
not currently meet applicable airworthiness requirements but is capable 
of safe flight, for the following purposes:
    (1) Flying the aircraft to a base where repairs, alterations, or 
maintenance are to be performed, or to a point of storage.
    (2) Delivering or exporting the aircraft.
    (3) Production flight testing new production aircraft.
    (4) Evacuating aircraft from areas of impending danger.
    (5) Conducting customer demonstration flights in new production 
aircraft that have satisfactorily completed production flight tests.
    (b) A special flight permit may also be issued to authorize the 
operation of an aircraft at a weight in excess of its maximum 
certificated takeoff weight for flight beyond the normal range over 
water, or over land areas where adequate landing facilities or 
appropriate fuel is not available. The excess weight that may be 
authorized under this

[[Page 145]]

paragraph is limited to the additional fuel, fuel-carrying facilities, 
and navigation equipment necessary for the flight.
    (c) Upon application, as prescribed in Secs. 121.79 and 135.17 of 
this chapter, a special flight permit with a continuing authorization 
may be issued for aircraft that may not meet applicable airworthiness 
requirements but are capable of safe flight for the purpose of flying 
aircraft to a base where maintenance or alterations are to be performed. 
The permit issued under this paragraph is an authorization, including 
conditions and limitations for flight, which is set forth in the 
certificate holder's operations specifications. The permit issued under 
this paragraph may be issued to--
    (1) Certificate holders authorized to conduct operations under Part 
121 of this chapter; or
    (2) Certificate holders authorized to conduct operations under Part 
135 for those aircraft they operate and maintain under a continuous 
airworthiness maintenance program prescribed by Sec. 135.411 (a)(2) or 
(b) of that part.

The permit issued under this paragraph is an authorization, including 
any conditions and limitations for flight, which is set forth in the 
certificate holder's operations specifications.

[Doc. No. 5085, 29 FR 14570, Oct. 24, 1964, as amended by Amdt. 21-21, 
33 FR 6859, May 7, 1968; Amdt. 21--51, 45 FR 60170, Sept. 11, 1980; 
Amdt. 21-54, 46 FR 37878, July 23, 1981; Amdt. 21-79, 66 FR 21066, Apr. 
27, 2001]



Sec. 21.199  Issue of special flight permits.

    (a) Except as provided in Sec. 21.197(c), an applicant for a special 
flight permit must submit a statement in a form and manner prescribed by 
the Administrator, indicating--
    (1) The purpose of the flight.
    (2) The proposed itinerary.
    (3) The crew required to operate the aircraft and its equipment, 
e.g., pilot, co-pilot, navigator, etc.
    (4) The ways, if any, in which the aircraft does not comply with the 
applicable airworthiness requirements.
    (5) Any restriction the applicant considers necessary for safe 
operation of the aircraft.
    (6) Any other information considered necessary by the Administrator 
for the purpose of prescribing operating limitations.
    (b) The Administrator may make, or require the applicant to make 
appropriate inspections or tests necessary for safety.

[Doc. No. 5085, 29 FR 14570, Oct. 24, 1964, as amended by Amdt. 21-21, 
33 FR 6859, May 7, 1968; Amdt. 21-22, 33 FR 11901, Aug. 22, 1968]



            Subpart I--Provisional Airworthiness Certificates

    Source: Docket No. 5085, 29 FR 14571, Oct. 24, 1964, unless 
otherwise noted.



Sec. 21.211  Applicability.

    This subpart prescribes procedural requirements for the issue of 
provisional airworthiness certificates.



Sec. 21.213  Eligibility.

    (a) A manufacturer who is a United States citizen may apply for a 
Class I or Class II provisional airworthiness certificate for aircraft 
manufactured by him within the U.S.
    (b) Any holder of an air carrier operating certificate under Part 
121 of this chapter who is a United States citizen may apply for a Class 
II provisional airworthiness certificate for transport category aircraft 
that meet either of the following:
    (1) The aircraft has a current Class II provisional type certificate 
or an amendment thereto.
    (2) The aircraft has a current provisional amendment to a type 
certificate that was preceded by a corresponding Class II provisional 
type certificate.
    (c) An aircraft engine manufacturer who is a United States citizen 
and who has altered a type certificated aircraft by installing different 
type certificated engines, manufactured by him within the United States, 
may apply for a Class I provisional airworthiness certificate for that 
aircraft, if the basic aircraft, before alteration, was type 
certificated in the normal, utility, acrobatic, commuter, or transport 
category.

[Doc. No. 5085, 29 FR 14571, Oct. 24, 1964, as amended by Amdt. 21-59, 
52 FR 1836, Jan. 15, 1987; Amdt. 21-79, 66 FR 21066, Apr. 27, 2001]

[[Page 146]]



Sec. 21.215  Application.

    Applications for provisional airworthiness certificates must be 
submitted to the Manufacturing Inspection District Office in the 
geographic area in which the manufacturer or air carrier is located. The 
application must be accompanied by the pertinent information specified 
in this subpart.

[Amdt. 21-67, 54 FR 39291, Sept. 25, 1989; 54 FR 52872, Dec. 22, 1989]



Sec. 21.217  Duration.

    Unless sooner surrendered, superseded, revoked, or otherwise 
terminated, provisional airworthiness certificates are effective for the 
duration of the corresponding provisional type certificate, amendment to 
a provisional type certificate, or provisional amendment to the type 
certificate.



Sec. 21.219  Transferability.

    Class I provisional airworthiness certificates are not transferable. 
Class II provisional airworthiness certificates may be transferred to an 
air carrier eligible to apply for a certificate under Sec. 21.213(b).



Sec. 21.221  Class I provisional airworthiness certificates.

    (a) Except as provided in Sec. 21.225, an applicant is entitled to a 
Class I provisional airworthiness certificate for an aircraft for which 
a Class I provisional type certificate has been issued if--
    (1) He meets the eligibility requirements of Sec. 21.213 and he 
complies with this section; and
    (2) The Administrator finds that there is no feature, characteristic 
or condition of the aircraft that would make the aircraft unsafe when 
operated in accordance with the limitations established in 
Secs. 21.81(e) and 91.317 of this subchapter.
    (b) The manufacturer must hold a provisional type certificate for 
the aircraft.
    (c) The manufacturer must submit a statement that the aircraft 
conforms to the type design corresponding to the provisional type 
certificate and has been found by him to be in safe operating condition 
under all applicable limitations.
    (d) The aircraft must be flown at least five hours by the 
manufacturer.
    (e) The aircraft must be supplied with a provisional aircraft flight 
manual or other document and appropriate placards containing the 
limitations established by Secs. 21.81(e) and 91.317.

[Doc. No. 5085, 29 FR 14571, Oct. 24, 1964, as amended by Amdt. 21-66, 
54 FR 34329, Aug. 18, 1989]s



Sec. 21.223  Class II provisional airworthiness certificates.

    (a) Except as provided in Sec. 21.225, an applicant is entitled to a 
Class II provisional airworthiness certificate for an aircraft for which 
a Class II provisional type certificate has been issued if--
    (1) He meets the eligibility requirements of Sec. 21.213 and he 
complies with this section; and
    (2) The Administrator finds that there is no feature, 
characteristic, or condition of the aircraft that would make the 
aircraft unsafe when operated in accordance with the limitations 
established in Secs. 21.83(h), 91.317, and 121.207 of this chapter.
    (b) The applicant must show that a Class II provisional type 
certificate for the aircraft has been issued to the manufacturer.
    (c) The applicant must submit a statement by the manufacturer that 
the aircraft has been manufactured under a quality control system 
adequate to ensure that the aircraft conforms to the type design 
corresponding with the provisional type certificate.
    (d) The applicant must submit a statement that the aircraft has been 
found by him to be in a safe operating condition under the applicable 
limitations.
    (e) The aircraft must be flown at least five hours by the 
manufacturer.
    (f) The aircraft must be supplied with a provisional aircraft flight 
manual containing the limitations established by Secs. 21.83(h), 91.317, 
and 121.207 of this chapter.

[Doc. No. 5085, 29 FR 14571, Oct. 24, 1964, as amended by Amdt. 21-12, 
31 FR 13389, Oct. 15, 1966; Amdt. 21-66, 54 FR 34329, Aug. 18, 1989]

[[Page 147]]



Sec. 21.225  Provisional airworthiness certificates corresponding with provisional amendments to type certificates.

    (a) An applicant is entitled to a Class I or a Class II provisional 
airworthiness certificate, for an aircraft, for which a provisional 
amendment to the type certificate has been issued, if--
    (1) He meets the eligibility requirements of Sec. 21.213 and he 
complies with this section; and
    (2) The Administrator finds that there is no feature, 
characteristic, or condition of the aircraft, as modified in accordance 
with the provisionally amended type certificate, that would make the 
aircraft unsafe when operated in accordance with the applicable 
limitations established in Secs. 21.85(g), 91.317, and 121.207 of this 
chapter.
    (b) The applicant must show that the modification was made under a 
quality control system adequate to ensure that the modification conforms 
to the provisionally amended type certificate.
    (c) The applicant must submit a statement that the aircraft has been 
found by him to be in a safe operating condition under the applicable 
limitations.
    (d) The aircraft must be flown at least five hours by the 
manufacturer.
    (e) The aircraft must be supplied with a provisional aircraft flight 
manual or other document and appropriate placards containing the 
limitations required by Secs. 21.85(g), 91.317, and 121.207 of this 
chapter.

[Doc. No. 5085, 29 FR 14571, Oct. 24, 1964, as amended by Amdt. 21-12, 
31 FR 13389, Oct. 15, 1966; Amdt. 21-66, 54 FR 34329, Aug. 18, 1989]



          Subpart J--Delegation Option Authorization Procedures

    Source: Amdt. 21-5, 30 FR 11375, Sept. 8, 1965, unless otherwise 
noted.



Sec. 21.231  Applicability.

    This subpart prescribes procedures for--
    (a) Obtaining and using a delegation option authorization for type, 
production, and airworthiness certification (as applicable) of--
    (1) Small airplanes and small gliders;
    (2) Commuter category airplanes;
    (3) Normal category rotorcraft;
    (4) Turbojet engines of not more than 1,000 pounds thrust;
    (5) Turbopropeller and reciprocating engines of not more than 500 
brake horsepower; and
    (6) Propellers manufactured for use on engines covered by paragraph 
(a)(4) of this section; and
    (b) Issuing airworthiness approval tags for engines, propellers, and 
parts of products covered by paragraph (a) of this section.

[Amdt. 21-5, 30 FR 11375, Sept. 8, 1965, as amended by Amdt. 21-59, 52 
FR 1836, Jan. 15, 1987]



Sec. 21.235  Application.

    (a) An application for a delegation option authorization must be 
submitted, in a form and manner prescribed by the Administrator, to the 
Aircraft Certification Office for the area in which the manufacturer is 
located.
    (b) The application must include the names, signatures, and titles 
of the persons for whom authorization to sign airworthiness 
certificates, repair and alteration forms, and inspection forms is 
requested.

[Doc. No. 5085, 29 FR 14574, Oct. 24, 1964, as amended by Amdt. 21-67, 
54 FR 39291, Sept. 25, 1989]



Sec. 21.239  Eligibility.

    To be eligible for a delegation option authorization, the applicant 
must--
    (a) Hold a current type certificate, issued to him under the 
standard procedures, for a product type certificated under the same part 
as the products for which the delegation option authorization is sought;
    (b) Hold a current production certificate issued under the standard 
procedures;
    (c) Employ a staff of engineering, flight test, production and 
inspection personnel who can determine compliance with the applicable 
airworthiness requirements of this chapter; and
    (d) Meet the requirements of this subpart.



Sec. 21.243  Duration.

    A delegation option authorization is effective until it is 
surrendered or the

[[Page 148]]

Administrator suspends, revokes, or otherwise terminates it.



Sec. 21.245  Maintenance of eligibility.

    The holder of a delegation option authorization shall continue to 
meet the requirements for issue of the authorization or shall notify the 
Administrator within 48 hours of any change (including a change of 
personnel) that could affect the ability of the holder to meet those 
requirements.



Sec. 21.247  Transferability.

    A delegation option authorization is not transferable.



Sec. 21.249  Inspections.

    Upon request, each holder of a delegation option authorization and 
each applicant shall let the Administrator inspect his organization, 
facilities, product, and records.



Sec. 21.251  Limits of applicability.

    (a) Delegation option authorizations apply only to products that are 
manufactured by the holder of the authorization.
    (b) Delegation option authorizations may be used for--
    (1) Type certification;
    (2) Changes in the type design of products for which the 
manufacturer holds, or obtains, a type certificate;
    (3) The amendment of a production certificate held by the 
manufacturer to include additional models or additional types for which 
he holds or obtains a type certificate; and
    (4) The issue of--
    (i) Experimental certificates for aircraft for which the 
manufacturer has applied for a type certificate or amended type 
certificate under Sec. 21.253, to permit the operation of those aircraft 
for the purpose of research and development, crew training, market 
surveys, or the showing of compliance with the applicable airworthiness 
requirements;
    (ii) Airworthiness certificates (other than experimental 
certificates) for aircraft for which the manufacturer holds a type 
certificate and holds or is in the process of obtaining a production 
certificate;
    (iii) Airworthiness approval tags (FAA Form 8130-3) for engines and 
propellers for which the manufacturer holds a type certificate and holds 
or is in the process of obtaining a production certificate; and
    (iv) Airworthiness approval tags (FAA Form 8130-3) for parts of 
products covered by this section.
    (c) Delegation option procedures may be applied to one or more types 
selected by the manufacturer, who must notify the FAA of each model, and 
of the first serial number of each model manufactured by him under the 
delegation option procedures. Other types or models may remain under the 
standard procedures.
    (d) Delegation option authorizations are subject to any additional 
limitations prescribed by the Administrator after inspection of the 
applicant's facilities or review of the staff qualifications.

[Amdt. 21-5, 30 FR 11375, Sept. 8, 1965, as amended by Amdt. 21-31, 35 
FR 7292, May 9, 1970; Amdt. 21-43, 40 FR 2576, Jan. 14, 1975]



Sec. 21.253  Type certificates: application.

    (a) To obtain, under the delegation option authorization, a type 
certificate for a new product or an amended type certificate, the 
manufacturer must submit to the Administrator--
    (1) An application for a type certificate (FAA Form 312);
    (2) A statement listing the airworthiness requirements of this 
chapter (by part number and effective date) that the manufacturer 
considers applicable;
    (3) After determining that the type design meets the applicable 
requirements, a statement certifying that this determination has been 
made;
    (4) After placing the required technical data and type inspection 
report in the technical data file required by Sec. 21.293(a)(1)(i), a 
statement certifying that this has been done;
    (5) A proposed type certificate data sheet; and
    (6) An Aircraft Flight Manual (if required) or a summary of required 
operating limitations and other information necessary for safe operation 
of the product.



Sec. 21.257  Type certificates: issue.

    An applicant is entitled to a type certificate for a product 
manufactured

[[Page 149]]

under a delegation option authorization if the Administrator finds that 
the product meets the applicable airworthiness, noise, fuel venting, and 
exhaust emission requirements (including applicable acoustical change or 
emissions change requirements in the case of changes in type design).

[Amdt. 21-68, 55 FR 32860, Aug. 10, 1990]



Sec. 21.261  Equivalent safety provisions.

    The manufacturer shall obtain the Administrator's concurrence on the 
application of all equivalent safety provisions applied under 
Sec. 21.21.



Sec. 21.267  Production certificates.

    To have a new model or new type certificate listed on his production 
certificate (issued under Subpart G of this part), the manufacturer must 
submit to the Administrator--
    (a) An application for an amendment to the production certificate;
    (b) After determining that the production certification requirements 
of Subpart G, with respect to the new model or type, are met, a 
statement certifying that this determination has been made;
    (c) A statement identifying the type certificate number under which 
the product is being manufactured; and
    (d) After placing the manufacturing and quality control data 
required by Sec. 21.143 with the data required by Sec. 21.293(a)(1)(ii), 
a statement certifying that this has been done.



Sec. 21.269  Export airworthiness approvals.

    The manufacturer may issue export airworthiness approvals.



Sec. 21.271  Airworthiness approval tags.

    (a) A manufacturer may issue an airworthiness approval tag (FAA Form 
8130-3) for each engine and propeller covered by Sec. 21.251(b)(4), and 
may issue an airworthiness approval tag for parts of each product 
covered by that section, if he finds, on the basis of inspection and 
operation tests, that those products conform to a type design for which 
he holds a type certificate and are in condition for safe operation.
    (b) When a new model has been included on the Production Limitation 
Record, the production certification number shall be stamped on the 
engine or propeller identification data place instead of issuing an 
airworthiness approval tag.

[Amdt. 21-5, 30 FR 11375, Sept. 8, 1965, as amended by Amdt. 21-43, 40 
FR 2577, Jan. 14, 1975]



Sec. 21.273  Airworthiness certificates other than experimental.

    (a) The manufacturer may issue an airworthiness certificate for 
aircraft manufactured under a delegation option authorization if he 
finds, on the basis of the inspection and production flight check, that 
each aircraft conforms to a type design for which he holds a type 
certificate and is in a condition for safe operation.
    (b) The manufacturer may authorize any employee to sign 
airworthiness certificates if that employee--
    (1) Performs, or is in direct charge of, the inspection specified in 
paragraph (a) of this section; and
    (2) Is listed on the manufacturer's application for the delegation 
option authorization, or on amendments thereof.

[Amdt. 21-5, 30 FR 11375, Sept. 8, 1965, as amended by Amdt. 21-18, 32 
FR 15472, Nov. 7, 1967]



Sec. 21.275  Experimental certificates.

    (a) The manufacturer shall, before issuing an experimental 
certificate, obtain from the Administration any limitations and 
conditions that the Administrator considers necessary for safety.
    (b) For experimental certificates issued by the manufacturer, under 
this subpart, for aircraft for which the manufacturer holds the type 
certificate and which have undergone changes to the type design 
requiring flight test, the manufacturer may prescribe any operating 
limitations that he considers necessary.



Sec. 21.277  Data review and service experience.

    (a) If the Administrator finds that a product for which a type 
certificate was issued under this subpart does not meet the applicable 
airworthiness requirements, or that an unsafe feature or characteristic 
caused by a defect in

[[Page 150]]

design or manufacture exists, the manufacturer, upon notification by the 
Administrator, shall investigate the matter and report to the 
Administrator the results of the investigation and the action, if any, 
taken or proposed.
    (b) If corrective action by the user of the product is necessary for 
safety because of any noncompliance or defect specified in paragraph (a) 
of this section, the manufacturer shall submit the information necessary 
for the issue of an Airworthiness Directive under Part 39.



Sec. 21.289  Major repairs, rebuilding and alteration.

    For types covered by a delegation option authorization, a 
manufacturer may--
    (a) After finding that a major repair or major alteration meets the 
applicable airworthiness requirements of this chapter, approve that 
repair or alteration; and
    (b) Authorize any employee to execute and sign FAA Form 337 and make 
required log book entries if that employee--
    (1) Inspects, or is in direct charge of inspecting, the repair, 
rebuilding, or alteration; and
    (2) Is listed on the application for the delegation option 
authorization, or on amendments thereof.



Sec. 21.293  Current records.

    (a) The manufacturer shall maintain at his factory, for each product 
type certificated under a delegation option authorization, current 
records containing the following:
    (1) For the duration of the manufacturing operating under the 
delegation option authorization--
    (i) A technical data file that includes the type design drawings, 
specifications, reports on tests prescribed by this part, and the 
original type inspection report and amendments to that report;
    (ii) The data (including amendments) required to be submitted with 
the original application for each production certificate; and
    (iii) A record of any rebuilding and alteration performed by the 
manufacturer on products manufactured under the delegation option 
authorization.
    (2) For 2 years--
    (i) A complete inspection record for each product manufactured, by 
serial number, and data covering the processes and tests to which 
materials and parts are subjected; and
    (ii) A record of reported service difficulties.
    (b) The records and data specified in paragraph (a) of this section 
shall be--
    (1) Made available, upon the Administrator's request, for 
examination by the Administrator at any time; and
    (2) Identified and sent to the Administrator as soon as the 
manufacturer no longer operates under the delegation option procedures.



   Subpart K--Approval of Materials, Parts, Processes, and Appliances

    Source: Docket No. 5085, 29 FR 14574, Oct. 24, 1964, unless 
otherwise noted.



Sec. 21.301  Applicability.

    This subpart prescribes procedural requirements for the approval of 
certain materials, parts, processes, and appliances.



Sec. 21.303  Replacement and modification parts.

    (a) Except as provided in paragraph (b) of this section, no person 
may produce a modification or replacement part for sale for installation 
on a type certificated product unless it is produced pursuant to a Parts 
Manufacturer Approval issued under this subpart.
    (b) This section does not apply to the following:
    (1) Parts produced under a type or production certificate.
    (2) Parts produced by an owner or operator for maintaining or 
altering his own product.
    (3) Parts produced under an FAA Technical Standard Order.
    (4) Standard parts (such as bolts and nuts) conforming to 
established industry or U.S. specifications.
    (c) An application for a Parts Manufacturer Approval is made to the 
Manager of the Aircraft Certification Office for the geographic area in 
which the manufacturing facility is located and must include the 
following:

[[Page 151]]

    (1) The identity of the product on which the part is to be 
installed.
    (2) The name and address of the manufacturing facilities at which 
these parts are to be manufactured.
    (3) The design of the part, which consists of--
    (i) Drawings and specifications necessary to show the configuration 
of the part; and
    (ii) Information on dimensions, materials, and processes necessary 
to define the structural strength of the part.
    (4) Test reports and computations necessary to show that the design 
of the part meets the airworthiness requirements of the Federal Aviation 
Regulations applicable to the product on which the part is to be 
installed, unless the applicant shows that the design of the part is 
identical to the design of a part that is covered under a type 
certificate. If the design of the part was obtained by a licensing 
agreement, evidence of that agreement must be furnished.
    (d) An applicant is entitled to a Parts Manufacturer Approval for a 
replacement or modification part if--
    (1) The Administrator finds, upon examination of the design and 
after completing all tests and inspections, that the design meets the 
airworthiness requirements of the Federal Aviation Regulations 
applicable to the product on which the part is to be installed; and
    (2) He submits a statement certifying that he has established the 
fabrication inspection system required by paragraph (h) of this section.
    (e) Each applicant for a Parts Manufacturer Approval must allow the 
Administrator to make any inspection or test necessary to determine 
compliance with the applicable Federal Aviation Regulations. However, 
unless otherwise authorized by the Administrator--
    (1) No part may be presented to the Administrator for an inspection 
or test unless compliance with paragraphs (f)(2) through (4) of this 
section has been shown for that part; and
    (2) No change may be made to a part between the time that compliance 
with paragraphs (f)(2) through (4) of this section is shown for that 
part and the time that the part is presented to the Administrator for 
the inspection or test.
    (f) Each applicant for a Parts Manufacturer Approval must make all 
inspections and tests necessary to determine--
    (1) Compliance with the applicable airworthiness requirements;
    (2) That materials conform to the specifications in the design;
    (3) That the part conforms to the drawings in the design; and
    (4) That the fabrication processes, construction, and assembly 
conform to those specified in the design.
    (g) The Administrator does not issue a Parts Manufacturer Approval 
if the manufacturing facilities for the part are located outside of the 
United States, unless the Administrator finds that the location of the 
manufacturing facilities places no burden on the FAA in administering 
applicable airworthiness requirements.
    (h) Each holder of a Parts Manufacturer Approval shall establish and 
maintain a fabrication inspection system that ensures that each 
completed part conforms to its design data and is safe for installation 
on applicable type certificated products. The system shall include the 
following:
    (1) Incoming materials used in the finished part must be as 
specified in the design data.
    (2) Incoming materials must be properly identified if their physical 
and chemical properties cannot otherwise be readily and accurately 
determined.
    (3) Materials subject to damage and deterioration must be suitably 
stored and adequately protected.
    (4) Processes affecting the quality and safety of the finished 
product must be accomplished in accordance with acceptable 
specifications.
    (5) Parts in process must be inspected for conformity with the 
design data at points in production where accurate determination can be 
made. Statistical quality control procedures may be employed where it is 
shown that a satisfactory level of quality will be maintained for the 
particular part involved.
    (6) Current design drawings must be readily available to 
manufacturing and inspection personnel, and used when necessary.

[[Page 152]]

    (7) Major changes to the basic design must be adequately controlled 
and approved before being incorporated in the finished part.
    (8) Rejected materials and components must be segregated and 
identified in such a manner as to preclude their use in the finished 
part.
    (9) Inspection records must be maintained, identified with the 
completed part, where practicable, and retained in the manufacturer's 
file for a period of at least 2 years after the part has been completed.
    (i) A Parts Manufacturer Approval issued under this section is not 
transferable and is effective until surrendered or withdrawn or 
otherwise terminated by the Administrator.
    (j) The holder of a Parts Manufacturer Approval shall notify the FAA 
in writing within 10 days from the date the manufacturing facility at 
which the parts are manufactured is relocated or expanded to include 
additional facilities at other locations.
    (k) Each holder of a Parts Manufacturer Approval shall determine 
that each completed part conforms to the design data and is safe for 
installation on type certificated products.

[Amdt. 21-38, 37 FR 10659, May 26, 1972, as amended by Amdt. 21-41, 39 
FR 41965, Dec. 4, 1974; Amdt. 21-67, 54 FR 39291, Sept. 25, 1989]



Sec. 21.305  Approval of materials, parts, processes, and appliances.

    Whenever a material, part, process, or appliance is required to be 
approved under this chapter, it may be approved--
    (a) Under a Parts Manufacturer Approval issued under Sec. 21.303;
    (b) Under a Technical Standard Order issued by the Administrator. 
Advisory Circular 20-110 contains a list of Technical Standard Orders 
that may be used to obtain approval. Copies of the Advisory Circular may 
be obtained from the U.S. Department of Transportation, Publication 
Section (M-443.1), Washington, D.C. 20590;
    (c) In conjunction with type certification procedures for a product; 
or
    (d) In any other manner approved by the Administrator.

[Amdt. 21-38, 37 FR 10659, May 26, 1972, as amended by Amdt. 21-50, 45 
FR 38346, June 9, 1980]



                Subpart L--Export Airworthiness Approvals

    Source: Amdt. 21-2, 30 FR 8465, July 2, 1965, unless otherwise 
noted.



Sec. 21.321  Applicability.

    (a) This subpart prescribes--
    (1) Procedural requirements for the issue of export airworthiness 
approvals; and
    (2) Rules governing the holders of those approvals.
    (b) For the purposes of this subpart--
    (1) A Class I product is a complete aircraft, aircraft engine, or 
propeller, which--
    (i) Has been type certificated in accordance with the applicable 
Federal Aviation Regulations and for which Federal Aviation 
Specifications or type certificate data sheets have been issued; or
    (ii) Is identical to a type certificated product specified in 
paragraph (b)(1)(i) of this section in all respects except as is 
otherwise acceptable to the civil aviation authority of the importing 
state.
    (2) A Class II product is a major component of a Class I product 
(e.g., wings, fuselages, empennage assemblies, landing gears, power 
transmissions, control surfaces, etc), the failure of which would 
jeopardize the safety of a Class I product; or any part, material, or 
appliance, approved and manufactured under the Technical Standard Order 
(TSO) system in the ``C'' series.
    (3) A Class III product is any part or component which is not a 
Class I or Class II product and includes standard parts, i.e., those 
designated as AN, NAS, SAE, etc.
    (4) The words ``newly overhauled'' when used to describe a product 
means that the product has not been operated or placed in service, 
except for functional testing, since having been overhauled, inspected 
and approved for return to service in accordance with the applicable 
Federal Aviation Regulations.

[Amdt. 21-2, 30 FR 11375, July 2, 1965, as amended by Amdt. 21-48, 44 FR 
15649, Mar. 15, 1979]

[[Page 153]]



Sec. 21.323  Eligibility.

    (a) Any exporter or his authorized representative may obtain an 
export airworthiness approval for a Class I or Class II product.
    (b) Any manufacturer may obtain an export airworthiness approval for 
a Class III product if the manufacturer--
    (1) Has in his employ a designated representative of the 
Administrator who has been authorized to issue that approval; and
    (2) Holds for that product--
    (i) A production certificate;
    (ii) An approved production inspection system;
    (iii) An FAA Parts Manufacturer Approval (PMA); or
    (iv) A Technical Standard Order authorization.



Sec. 21.325  Export airworthiness approvals.

    (a) Kinds of approvals. (1) Export airworthiness approval of Class I 
products is issued in the form of Export Certificates of Airworthiness, 
FAA Form 8130-4. Such a certificate does not authorize the operation of 
aircraft.
    (2) Export airworthiness approval of Class II and III products is 
issued in the form of Airworthiness Approval Tags, FAA Form 8130-3.
    (b) Products which may be approved. Export airworthiness approvals 
are issued for--
    (1) New aircraft that are assembled and that have been flight-
tested, and other Class I products located in the United States, except 
that export airworthiness approval may be issued for any of the 
following without assembly or flight-test:
    (i) A small airplane type certificated under Part 3 or 4a of the 
Civil Air Regulations, or Part 23 of the Federal Aviation Regulations, 
and manufactured under a production certificate;
    (ii) A glider type certificated under Sec. 21.23 of this part and 
manufactured under a production certificate; or
    (iii) A normal category rotorcraft type certificated under Part 6 of 
the Civil Air Regulations or Part 27 of the Federal Aviation Regulations 
and manufactured under a production certificate.
    (2) Used aircraft possessing a valid U.S. airworthiness certificate, 
or other used Class I products that have been maintained in accordance 
with the applicable CAR's or FAR's and are located in a foreign country, 
if the Administrator finds that the location places no undue burden upon 
the FAA in administering the provisions of this regulation.
    (3) Class II and III products that are manufactured and located in 
the United States.
    (c) Export airworthiness approval exceptions. If the export 
airworthiness approval is issued on the basis of a written statement by 
the importing state as provided for in Sec. 21.327(e)(4), the 
requirements that are not met and the differences in configuration, if 
any, between the product to be exported and the related type 
certificated product, are listed on the export airworthiness approval as 
exceptions.

[Amdt. 21-2, 30 FR 8465, July 2, 1965, as amended by Amdt. 21-14, 32 FR 
2999, Feb. 17, 1967; Amdt. 21-43, 40 FR 2577, Jan. 14, 1975; Amdt. 21-
48, 44 FR 15649, Mar. 15, 1979]



Sec. 21.327  Application.

    (a) Except as provided in paragraph (b) of this section, an 
application for export airworthiness approval for a Class I or Class II 
product is made on a form and in a manner prescribed by the 
Administrator and is submitted to the appropriate Flight Standards 
District Office or to the nearest international field office.
    (b) A manufacturer holding a production certificate may apply orally 
to the appropriate Flight Standards District Office or the nearest 
international field office for export airworthiness approval of a Class 
II product approved under his production certificate.
    (c) Application for export airworthiness approval of Class III 
products is made to the designated representative of the Administrator 
authorized to issue those approvals.
    (d) A separate application must be made for--
    (1) Each aircraft;
    (2) Each engine and propeller, except that one application may be 
made for more than one engine or propeller, if all are of the same type 
and model and are exported to the same purchaser and country; and

[[Page 154]]

    (3) Each type of Class II product, except that one application may 
be used for more than one type of Class II product when--
    (i) They are separated and identified in the application as to the 
type and model of the related Class I product; and
    (ii) They are to be exported to the same purchaser and country.
    (e) Each application must be accompanied by a written statement from 
the importing country that will validate the export airworthiness 
approval if the product being exported is--
    (1) An aircraft manufactured outside the United States and being 
exported to a country with which the United States has a reciprocal 
agreement concerning the validation of export certificates;
    (2) An unassembled aircraft which has not been flight-tested;
    (3) A product that does not meet the special requirement of the 
importing country; or
    (4) A product that does not meet a requirement specified in 
Secs. 21.329, 21.331, or 21.333, as applicable, for the issuance of an 
export airworthiness approval. The written statement must list the 
requirements not met.
    (f) Each application for export airworthiness approval of a Class I 
product must include, as applicable:
    (1) A Statement of Conformity, FAA Form 8130-9, for each new product 
that has not been manufactured under a production certificate.
    (2) A weight and balance report, with a loading schedule when 
applicable, for each aircraft in accordance with Part 43 of this 
chapter. For transport aircraft and commuter category airplanes this 
report must be based on an actual weighing of the aircraft within the 
preceding twelve months, but after any major repairs or alterations to 
the aircraft. Changes in equipment not classed as major changes that are 
made after the actual weighing may be accounted for on a ``computed'' 
basis and the report revised accordingly. Manufacturers of new 
nontransport category airplanes, normal category rotorcraft, and gliders 
may submit reports having computed weight and balance data, in place of 
an actual weighing of the aircraft, if fleet weight control procedures 
approved by the FAA have been established for such aircraft. In such a 
case, the following statement must be entered in each report: ``The 
weight and balance data shown in this report are computed on the basis 
of Federal Aviation Administration approved procedures for establishing 
fleet weight averages.'' The weight and balance report must include an 
equipment list showing weights and moment arms of all required and 
optional items of equipment that are included in the certificated empty 
weight.
    (3) A maintenance manual for each new product when such a manual is 
required by the applicable airworthiness rules.
    (4) Evidence of compliance with the applicable airworthiness 
directives. A suitable notation must be made when such directives are 
not complied with.
    (5) When temporary installations are incorporated in an aircraft for 
the purpose of export delivery, the application form must include a 
general description of the installations together with a statement that 
the installation will be removed and the aircraft restored to the 
approved configuration upon completion of the delivery flight.
    (6) Historical records such as aircraft and engine log books, repair 
and alteration forms, etc., for used aircraft and newly overhauled 
products.
    (7) For products intended for overseas shipment, the application 
form must describe the methods used, if any, for the preservation and 
packaging of such products to protect them against corrosion and damage 
while in transit or storage. The description must also indicate the 
duration of the effectiveness of such methods.
    (8) The Airplane or Rotorcraft Flight Manual when such material is 
required by the applicable airworthiness regulations for the particular 
aircraft.
    (9) A statement as to the date when title passed or is expected to 
pass to a foreign purchaser.
    (10) The data required by the special requirements of the importing 
country.

[Amdt. 21-2, 30 FR 8465, July 2, 1965, as amended by Doc. No. 8084, 32 
FR 5769, Apr. 11, 1967; Amdt. 21-48, 44 FR 15650, Mar. 15, 1979; Amdt. 
21-59, 52 FR 1836, Jan. 15, 1987]

[[Page 155]]



Sec. 21.329  Issue of export certificates of airworthiness for Class I products.

    An applicant is entitled to an export certificate of airworthiness 
for a Class I product if that applicant shows at the time the product is 
submitted to the Administrator for export airworthiness approval that it 
meets the requirements of paragraphs (a) through (f) of this section, as 
applicable, except as provided in paragraph (g) of this section:
    (a) New or used aircraft manufactured in the United States must meet 
the airworthiness requirement for a standard U.S. airworthiness 
certificate under Sec. 21.183, or meet the airworthiness certification 
requirements for a ``restricted'' airworthiness certificate under 
Sec. 21.185.
    (b) New or used aircraft manufactured outside the United States must 
have a valid U.S. standard airworthiness certificate.
    (c) Used aircraft must have undergone an annual type inspection and 
be approved for return to service in accordance with Part 43 of this 
chapter. The inspection must have been performed and properly documented 
within 30 days before the date the application is made for an export 
certificate of airworthiness. In complying with this paragraph, 
consideration may be given to the inspections performed on an aircraft 
maintained in accordance with a continuous airworthiness maintenance 
program under Part 121 of this chapter or a progressive inspection 
program under Part 91 of this chapter, within the 30 days prior to the 
date the application is made for an export certificate of airworthiness.
    (d) New engines and propellers must conform to the type design and 
must be in a condition for safe operation.
    (e) Used engines and propellers which are not being exported as part 
of a certificated aircraft must have been newly overhauled.
    (f) The special requirements of the importing country must have been 
met.
    (g) A product need not meet a requirement specified in paragraphs 
(a) through (f) of this section, as applicable, if acceptable to the 
importing country and the importing country indicates that acceptability 
in accordance with Sec. 21.327(e)(4) of this part.

[Amdt. 21-2, 30 FR 8465, July 2, 1965, as amended by Amdt. 21-8, 31 FR 
2421, Feb. 5, 1966; Amdt. 21-9, 31 FR 3336, Mar. 3, 1966; Amdt. 21-48, 
44 FR 15650, Mar. 15, 1979; Amdt. 21-79, 66 FR 21066, Apr. 27, 2001]



Sec. 21.331  Issue of airworthiness approval tags for Class II products.

    (a) An applicant is entitled to an export airworthiness approval tag 
for Class II products if that applicant shows, except as provided in 
paragraph (b) of this section, that--
    (1) The products are new or have been newly overhauled and conform 
to the approved design data;
    (2) The products are in a condition for safe operation;
    (3) The products are identified with at least the manufacturer's 
name, part number, model designation (when applicable), and serial 
number or equivalent; and
    (4) The products meet the special requirements of the importing 
country.
    (b) A product need not meet a requirement specified in paragraph (a) 
of this section if acceptable to the importing country and the importing 
country indicates that acceptability in accordance with 
Sec. 21.327(e)(4) of this part.

[Amdt. 21-2, 30 FR 8465, July 2, l965, as amended by Amdt. 21-48, 44 FR 
15650, Mar. 15, 1979]



Sec. 21.333  Issue of export airworthiness approval tags for Class III products.

    (a) An applicant is entitled to an export airworthiness approval tag 
for Class III products if that applicant shows, except as provided in 
paragraph (b) of this section, that--
    (1) The products conform to the approved design data applicable to 
the Class I or Class II product of which they are a part;
    (2) The products are in a condition for safe operation; and
    (3) The products comply with the special requirements of the 
importing country.
    (b) A product need not meet a requirement specified in paragraph (a) 
of this section if acceptable to the importing country and the importing 
country indicates that acceptability in

[[Page 156]]

accordance with Sec. 21.327(e)(4) of this part.

[Amdt. 21-2, 30 FR 8465, July 2, l965, as amended by Amdt. 21-48, 44 FR 
15650, Mar. 15, 1979]



Sec. 21.335  Responsibilities of exporters.

    Each exporter receiving an export airworthiness approval for a 
product shall--
    (a) Forward to the air authority of the importing country all 
documents and information necessary for the proper operation of the 
products being exported, e.g., Flight Manuals, Maintenance Manuals, 
Service Bulletins, and assembly instructions, and such other material as 
is stipulated in the special requirements of the importing country. The 
documents, information, and material may be forwarded by any means 
consistent with the special requirements of the importing country;
    (b) Forward the manufacturer's assembly instructions and an FAA-
approved flight test checkoff form to the air authority of the importing 
country when unassembled aircraft are being exported. These instructions 
must be in sufficient detail to permit whatever rigging, alignment, and 
ground testing is necessary to ensure that the aircraft will conform to 
the approved configuration when assembled;
    (c) Remove or cause to be removed any temporary installation 
incorporated on an aircraft for the purpose of export delivery and 
restore the aircraft to the approved configuration upon completion of 
the delivery flight;
    (d) Secure all proper foreign entry clearances from all the 
countries involved when conducting sales demonstrations or delivery 
flights; and
    (e) When title to an aircraft passes or has passed to a foreign 
purchaser--
    (1) Request cancellation of the U.S. registration and airworthiness 
certificates, giving the date of transfer of title, and the name and 
address of the foreign owner;
    (2) Return the Registration and Airworthiness Certificates, AC Form 
8050.3 and FAA Form 8100-2, to the FAA; and
    (3) Submit a statement certifying that the United States' 
identification and registration numbers have been removed from the 
aircraft in compliance with Sec. 45.33.

[Amdt. 21-2, 30 FR 8465, July 2, 1965, as amended by Amdt. 21-48, 44 FR 
15650, Mar. 15, 1979]



Sec. 21.337  Performance of inspections and overhauls.

    Unless otherwise provided for in this subpart, each inspection and 
overhaul required for export airworthiness approval of Class I and Class 
II products must be performed and approved by one of the following:
    (a) The manufacturer of the product.
    (b) An appropriately certificated domestic repair station.
    (c) An appropriately certificated foreign repair station having 
adequate overhaul facilities, and maintenance organization appropriate 
to the product involved, when the product is a Class I product located 
in a foreign country and an international office of Flight Standards 
Service has approved the use of such foreign repair station.
    (d) The holder of an inspection authorization as provided in Part 65 
of this chapter.
    (e) An air carrier, when the product is one that the carrier has 
maintained under its own or another air carrier's continuous 
airworthiness maintenance program and maintenance manuals as provided in 
Part 121 of this chapter.
    (f) A commercial operator, when the product is one that the operator 
has maintained under its continuous airworthiness maintenance program 
and maintenance manual as provided in Part 121 of this chapter.

[Amdt. 21-2, 30 FR 8465, July 2, 1965, as amended by Amdt. 21-8, 31 FR 
2421, Feb. 5, 1966; Amdt. 21-79, 66 FR 21066, Apr. 27, 2001]



Sec. 21.339  Special export airworthiness approval for aircraft.

    A special export certificate of airworthiness may be issued for an 
aircraft located in the United States that is to be flown to several 
foreign countries for the purpose of sale, without returning the 
aircraft to the United States for the certificate if--
    (a) The aircraft possesses either--
    (1) A standard U.S. certificate of airworthiness; or

[[Page 157]]

    (2) A special U.S. certificate of airworthiness in the restricted 
category issued under Sec. 21.185;
    (b) The owner files an application as required by Sec. 21.327 except 
that items 3 and 4 of the application (FAA Form 8130-1) need not be 
completed;
    (c) The aircraft is inspected by the Administrator before leaving 
the United States and is found to comply with all the applicable 
requirements;
    (d) A list of foreign countries in which it is intended to conduct 
sales demonstrations, together with the expected dates and duration of 
such demonstration, is included in the application;
    (e) For each prospective importing country, the applicant shows 
that--
    (1) He has met that country's special requirements, other than those 
requiring that documents, information, and materials be furnished; and
    (2) He has the documents, information, and materials necessary to 
meet the special requirements of that country; and
    (f) All other requirements for the issuance of a Class I export 
certificate of airworthiness are met.

[Amdt. 21-12, 31 FR 12565, Sept. 23, 1966, as amended by Amdt. 21-43, 40 
FR 2577, Jan. 14, 1975; Amdt. 21-55, 46 FR 44737, Sept. 8, 1981]



    Subpart M--Designated Alteration Station Authorization Procedures

    Source: Amdt. 21-6, 30 FR 11379, Sept. 8, 1965; 30 FR 11849, Sept. 
16, 1965, unless otherwise noted.



Sec. 21.431  Applicability.

    (a) This subpart prescribes Designated Alteration Station (DAS) 
authorization procedures for--
    (1) Issuing supplemental type certificates;
    (2) Issuing experimental certificates; and
    (3) Amending standard airworthiness certificates.
    (b) This subpart applies to domestic repair stations, air carriers, 
commercial operators of large aircraft, and manufacturers of products.

[Amdt. 21-6, 30 FR 11379, Sept. 8, 1965; 30 FR 11849, Sept. 16, 1965, as 
amended by Amdt. 21-74, 62 FR 13253, Mar. 19, 1997]



Sec. 21.435  Application.

    The applicant for a DAS authorization must submit an application, in 
writing and signed by an official of the applicant, to the Aircraft 
Certification Office responsible for the geographic area in which the 
applicant is located. The application must contain--
    (a) The repair station certificate number held by the repair station 
applicant, and the current ratings covered by the certificate;
    (b) The air carrier or commercial operator operating certificate 
number held by the air carrier or commercial operator applicant, and the 
products that it may operate and maintain under the certificate;
    (c) A statement by the manufacturer applicant of the products for 
which he holds the type certificate;
    (d) The names, signatures, and titles of the persons for whom 
authorization to issue supplemental type certificates or experimental 
certificates, or amend airworthiness certificates, is requested; and
    (e) A description of the applicant's facilities, and of the staff 
with which compliance with Sec. 21.439(a)(4) is to be shown.

[Amdt. 21-6, 30 FR 11379, Sept. 8, 1965; 30 FR 11849, Sept. 16, 1965, as 
amended by Amdt. 21-67, 54 FR 39291, Sept. 25, 1989]



Sec. 21.439  Eligibility.

    (a) To be eligible for a DAS authorization, the applicant must--
    (1) Hold a current domestic repair station certificate under Part 
145, or air carrier or commercial operator operating certificate under 
Part 121;
    (2) Be a manufacturer of a product for which it has alteration 
authority under Sec. 43.3(i) of this subchapter;
    (3) Have adequate maintenance facilities and personnel, in the 
United States, appropriate to the products that it may operate and 
maintain under its certificate; and
    (4) Employ, or have available, a staff of engineering, flight test, 
and inspection personnel who can determine compliance with the 
applicable airworthiness requirements of this chapter.
    (b) At least one member of the staff required by paragraph (a)(4) of 
this section must have all of the following qualifications:

[[Page 158]]

    (1) A thorough working knowledge of the applicable requirements of 
this chapter.
    (2) A position, on the applicant's staff, with authority to 
establish alteration programs that ensure that altered products meet the 
applicable requirements of this chapter.
    (3) At least one year of satisfactory experience in direct contact 
with the FAA (or its predecessor agency (CAA)) while processing 
engineering work for type certification or alteration projects.
    (4) At least eight years of aeronautical engineering experience 
(which may include the one year required by paragraph (b)(3) of this 
section).
    (5) The general technical knowledge and experience necessary to 
determine that altered products, of the types for which a DAS 
authorization is requested, are in condition for safe operation.



Sec. 21.441  Procedure manual.

    (a) No DAS may exercise any authority under this subpart unless it 
submits, and obtains approval of, a procedure manual containing--
    (1) The procedures for issuing STCs; and
    (2) The names, signatures, and responsibilities of officials and of 
each staff member required by Sec. 21.439(a)(4), identifying those 
persons who--
    (i) Have authority to make changes in procedures that require a 
revision to the procedure manual; and
    (ii) Are to conduct inspections (including conformity and compliance 
inspections) or approve inspection reports, prepare or approve data, 
plan or conduct tests, approve the results of tests, amend airworthiness 
certificates, issue experimental certificates, approve changes to 
operating limitations or Aircraft Flight Manuals, and sign supplemental 
type certificates.
    (b) No DAS may continue to perform any DAS function affected by any 
change in facilities or staff necessary to continue to meet the 
requirements of Sec. 21.439, or affected by any change in procedures 
from those approved under paragraph (a) of this section, unless that 
change is approved and entered in the manual. For this purpose, the 
manual shall contain a log-of-revisions page with space for the 
identification of each revised item, page, or date, and the signature of 
the person approving the change for the Administrator.



Sec. 21.443  Duration.

    (a) A DAS authorization is effective until it is surrendered or the 
Administrator suspends, revokes, or otherwise terminates it.
    (b) The DAS shall return the authorization certificate to the 
Administrator when it is no longer effective.



Sec. 21.445  Maintenance of eligibility.

    The DAS shall continue to meet the requirements for issue of the 
authorization or shall notify the Administrator within 48 hours of any 
change (including a change of personnel) that could affect the ability 
of the DAS to meet those requirements.



Sec. 21.447  Transferability.

    A DAS authorization is not transferable.



Sec. 21.449  Inspections.

    Upon request, each DAS and each applicant shall let the 
Administrator inspect his facilities, products, and records.



Sec. 21.451  Limits of applicability.

    (a) DAS authorizations apply only to products--
    (1) Covered by the ratings of the repair station applicant;
    (2) Covered by the operating certificate and maintenance manual of 
the air carrier or commercial operator applicant; and
    (3) For which the manufacturer applicant has alteration authority 
under Sec. 43.3(i) of this subchapter.
    (b) DAS authorizations may be used for--
    (1) The issue of supplemental type certificates;
    (2) The issue of experimental certificates for aircraft that--
    (i) Are altered by the DAS under a supplemental type certificate 
issued by the DAS; and
    (ii) Require flight tests in order to show compliance with the 
applicable airworthiness requirements of this chapter; and

[[Page 159]]

    (3) The amendment of standard airworthiness certificates for 
aircraft altered under this subpart.
    (c) DAS authorizations are subject to any additional limitations 
prescribed by the Administrator after inspection of the applicant's 
facilities or review of the staff qualifications.
    (d) Notwithstanding any other provision of this subpart, a DAS may 
not issue a supplemental type certificate involving the exhaust 
emissions change requirements of part 34 or the acoustical change 
requirements of part 36 of this chapter until the Administrator finds 
that those requirements are met.

[Amdt. 21-6, 30 FR 11379, Sept. 8, 1965; 30 FR 11849, Sept. 16, 1965, as 
amended by Amdt. 21-42, 40 FR 1034, Jan. 6, 1975; Amdt. 21-68, 55 FR 
32860, Aug. 10, 1990]



Sec. 21.461  Equivalent safety provisions.

    The DAS shall obtain the Administrator's concurrence on the 
application of all equivalent safety provisions applied under 
Sec. 21.21.



Sec. 21.463  Supplemental type certificates.

    (a) For each supplemental type certificate issued under this 
subpart, the DAS shall follow the procedure manual prescribed in 
Sec. 21.441 and shall, before issuing the certificate--
    (1) Submit to the Administrator a statement describing--
    (i) The type design change;
    (ii) The airworthiness requirements of this chapter (by part and 
effective date) that the DAS considers applicable; and
    (iii) The proposed program for meeting the applicable airworthiness 
requirements;
    (2) Find that each applicable airworthiness requirement is met; and
    (3) Find that the type of product for which the STC is to be issued, 
as modified by the supplemental type design data upon which the STC is 
based, is of proper design for safe operation.
    (b) Within 30 days after the date of issue of the STC, the DAS shall 
submit to the Administrator--
    (1) Two copies of the STC;
    (2) One copy of the design data approved by the DAS and referred to 
in the STC;
    (3) One copy of each inspection and test report; and
    (4) Two copies of each revision to the Aircraft Flight Manual or to 
the operating limitations, and any other information necessary for safe 
operation of the product.



Sec. 21.473  Airworthiness certificates other than experimental.

    For each amendment made to a standard airworthiness certificate 
under this subpart, the DAS shall follow the procedure manual prescribed 
in Sec. 21.441 and shall, before making that amendment--
    (a) Complete each flight test necessary to meet the applicable 
airworthiness requirements of this chapter;
    (b) Find that each applicable airworthiness requirement of this 
chapter is met; and
    (c) Find that the aircraft is in condition for safe operation.



Sec. 21.475  Experimental certificates.

    The DAS shall, before issuing an experimental certificate, obtain 
from the Administrator any limitations and conditions that the 
Administrator considers necessary for safety.



Sec. 21.477  Data review and service experience.

    (a) If the Administrator finds that a product for which an STC was 
issued under this subpart does not meet the applicable airworthiness 
requirements, or that an unsafe feature or characteristic caused by a 
defect in design or manufacture exists, the DAS, upon notification by 
the Administrator, shall investigate the matter and report to the 
Administrator the results of the investigation and the action, if any, 
taken or proposed.
    (b) If corrective action by the user of the product is necessary for 
safety because of any noncompliance or defect specified in paragraph (a) 
of this section, the DAS shall submit the information necessary for the 
issue of an Airworthiness Directive under Part 39.



Sec. 21.493  Current records.

    (a) The DAS shall maintain, at its facility, current records 
containing--

[[Page 160]]

    (1) For each product for which it has issued an STC under this 
subpart, a technical data file that includes any data and amendments 
thereto (including drawings, photographs, specifications, instructions, 
and reports) necessary for the STC;
    (2) A list of products by make, model, manufacturer's serial number 
and, if applicable, any FAA identification, that have been altered under 
the DAS authorization; and
    (3) A file of information from all available sources on alteration 
difficulties of products altered under the DAS authorization.
    (b) The records prescribed in paragraph (a) of this section shall 
be--
    (1) Made available by the DAS, upon the Administrator's request, for 
examination by the Administrator at any time; and
    (2) In the case of the data file prescribed in paragraph (a)(1) of 
this section, identified by the DAS and sent to the Administrator as 
soon as the DAS no longer operates under this subpart.



   Subpart N--Approval of Engines, Propellers, Materials, Parts, and 
                           Appliances: Import



Sec. 21.500  Approval of engines and propellers.

    Each holder or licensee of a U.S. type certificate for an aircraft 
engine or propeller manufactured in a foreign country with which the 
United States has an agreement for the acceptance of those products for 
export and import, shall furnish with each such aircraft engine or 
propeller imported into this country, a certificate of airworthiness for 
export issued by the country of manufacture certifying that the 
individual aircraft engine or propeller--
    (a) Conforms to its U.S. type certificate and is in condition for 
safe operation; and
    (b) Has been subjected by the manufacturer to a final operational 
check.

[Amdt. 21-25, 34 FR 14068, Sept. 5, 1969]



Sec. 21.502  Approval of materials, parts, and appliances.

    (a) A material, part, or appliance, manufactured in a foreign 
country with which the United States has an agreement for the acceptance 
of those materials, parts, or appliances for export and import, is 
considered to meet the requirements for approval in the Federal Aviation 
Regulations when the country of manufacture issues a certificate of 
airworthiness for export certifying that the individual material, part, 
or appliance meets those requirements, unless the Administrator finds, 
based on the technical data submitted under paragraph (b) of this 
section, that the material, part, or appliance is otherwise not 
consistent with the intent of the Federal Aviation Regulations.
    (b) An applicant for approval of a material, part, or appliance 
must, upon request, submit to the Administrator any technical data 
respecting that material, part, or appliance.

[Amdt. 21-25, 34 FR 14068, Sept. 5, 1969]



           Subpart O--Technical Standard Order Authorizations

    Source: Docket No. 19589, 45 FR 38346, June 9, 1980, unless 
otherwise noted.



Sec. 21.601  Applicability.

    (a) This subpart prescribes--
    (1) Procedural requirements for the issue of Technical Standard 
Order authorizations;
    (2) Rules governing the holders of Technical Standard Order 
authorizations; and
    (3) Procedural requirements for the issuance of a letter of 
Technical Standard Order design approval.
    (b) For the purpose of this subpart--
    (1) A Technical Standard Order (referred to in this subpart as 
``TSO'') is issued by the Administrator and is a minimum performance 
standard for specified articles (for the purpose of this subpart, 
articles means materials, parts, processes, or appliances) used on civil 
aircraft.
    (2) A TSO authorization is an FAA design and production approval 
issued to the manufacturer of an article which has been found to meet a 
specific TSO.
    (3) A letter of TSO design approval is an FAA design approval for a 
foreign-manufactured article which has been

[[Page 161]]

found to meet a specific TSO in accordance with the procedures of 
Sec. 21.617.
    (4) An article manufactured under a TSO authorization, an FAA letter 
of acceptance as described in Sec. 21.603(b), or an appliance 
manufactured under a letter of TSO design approval described in 
Sec. 21.617 is an approved article or appliance for the purpose of 
meeting the regulations of this chapter that require the article to be 
approved.
    (5) An article manufacturer is the person who controls the design 
and quality of the article produced (or to be produced, in the case of 
an application), including the parts of them and any processes or 
services related to them that are procured from an outside source.
    (c) The Administrator does not issue a TSO authorization if the 
manufacturing facilities for the product are located outside of the 
United States, unless the Administrator finds that the location of the 
manufacturer's facilities places no undue burden on the FAA in 
administering applicable airworthiness requirements.



Sec. 21.603  TSO marking and privileges.

    (a) Except as provided in paragraph (b) of this section and 
Sec. 21.617(c), no person may identify an article with a TSO marking 
unless that person holds a TSO authorization and the article meets 
applicable TSO performance standards.
    (b) The holder of an FAA letter of acceptance of a statement of 
conformance issued for an article before July 1, 1962, or any TSO 
authorization issued after July 1, 1962, may continue to manufacture 
that article without obtaining a new TSO authorization but shall comply 
with the requirements of Secs. 21.3, 21.607 through 21.615, 21.619, and 
21.621.
    (c) Notwithstanding paragraphs (a) and (b) of this section, after 
August 6, 1976, no person may identify or mark an article with any of 
the following TSO numbers:
    (1) TSO-C18, -C18a, -C18b, -C18c.
    (2) TSO-C24.
    (3) TSO-C33.
    (4) TSO-C61 or C61a.



Sec. 21.605  Application and issue.

    (a) The manufacturer (or an authorized agent) shall submit an 
application for a TSO authorization, together with the following 
documents, to the Manager of the Aircraft Certification Office for the 
geographic area in which the applicant is located:
    (1) A statement of conformance certifying that the applicant has met 
the requirements of this subpart and that the article concerned meets 
the applicable TSO that is effective on the date of application for that 
article.
    (2) One copy of the technical data required in the applicable TSO.
    (3) A description of its quality control system in the detail 
specified in Sec. 21.143. In complying with this section, the applicant 
may refer to current quality control data filed with the FAA as part of 
a previous TSO authorization application.
    (b) When a series of minor changes in accordance with Sec. 21.611 is 
anticipated, the applicant may set forth in its application the basic 
model number of the article and the part number of the components with 
open brackets after it to denote that suffix change letters or numbers 
(or combinations of them) will be added from time to time.
    (c) After receiving the application and other documents required by 
paragraph (a) of this section to substantiate compliance with this part, 
and after a determination has been made of its ability to produce 
duplicate articles under this part, the Administrator issues a TSO 
authorization (including all TSO deviations granted to the applicant) to 
the applicant to identify the article with the applicable TSO marking.
    (d) If the application is deficient, the applicant must, when 
requested by the Administrator, submit any additional information 
necessary to show compliance with this part. If the applicant fails to 
submit the additional information within 30 days after the 
Administrator's request, the application is denied and the applicant is 
so notified.
    (e) The Administrator issues or denies the application within 30 
days

[[Page 162]]

after its receipt or, if additional information has been requested, 
within 30 days after receiving that information.

[Doc. No. 19589, 45 FR 38346, June 9, 1980, as amended by Amdt. 21-67, 
54 FR 39291, Sept. 25, 1989]



Sec. 21.607  General rules governing holders of TSO authorizations.

    Each manufacturer of an article for which a TSO authorization has 
been issued under this part shall--
    (a) Manufacture the article in accordance with this part and the 
applicable TSO;
    (b) Conduct all required tests and inspections and establish and 
maintain a quality control system adequate to ensure that the article 
meets the requirements of paragraph (a) of this section and is in 
condition for safe operation;
    (c) Prepare and maintain, for each model of each article for which a 
TSO authorization has been issued, a current file of complete technical 
data and records in accordance with Sec. 21.613; and
    (d) Permanently and legibly mark each article to which this section 
applies with the following information:
    (1) The name and address of the manufacturer.
    (2) The name, type, part number, or model designation of the 
article.
    (3) The serial number or the date of manufacture of the article or 
both.
    (4) The applicable TSO number.



Sec. 21.609  Approval for deviation.

    (a) Each manufacturer who requests approval to deviate from any 
performance standard of a TSO shall show that the standards from which a 
deviation is requested are compensated for by factors or design features 
providing an equivalent level of safety.
    (b) The request for approval to deviate, together with all pertinent 
data, must be submitted to the Manager of the Aircraft Certification 
Office for the geographic area in which the manufacturer is located. If 
the article is manufactured in another country, the request for approval 
to deviate, together with all pertinent data, must be submitted through 
the civil aviation authority in that country to the FAA.

[Doc. No. 19589, 45 FR 38346, June 9, 1980, as amended by Amdt. 21-67, 
54 FR 39291, Sept. 25, 1989]



Sec. 21.611  Design changes.

    (a) Minor changes by the manufacturer holding a TSO authorization. 
The manufacturer of an article under an authorization issued under this 
part may make minor design changes (any change other than a major 
change) without further approval by the Administrator. In this case, the 
changed article keeps the original model number (part numbers may be 
used to identify minor changes) and the manufacturer shall forward to 
the appropriate Aircraft Certification Office for the geographic area, 
any revised data that are necessary for compliance with Sec. 21.605(b).
    (b) Major changes by manufacturer holding a TSO authorization. Any 
design change by the manufacturer that is extensive enough to require a 
substantially complete investigation to determine compliance with a TSO 
is a major change. Before making such a change, the manufacturer shall 
assign a new type or model designation to the article and apply for an 
authorization under Sec. 21.605.
    (c) Changes by person other than manufacturer. No design change by 
any person (other than the manufacturer who submitted the statement of 
conformance for the article) is eligible for approval under this part 
unless the person seeking the approval is a manufacturer and applies 
under Sec. 21.605(a) for a separate TSO authorization. Persons other 
than a manufacturer may obtain approval for design changes under Part 43 
or under the applicable airworthiness regulations.

[Doc. No. 19589, 45 FR 38346, June 9, 1980, as amended by Amdt. 21-67, 
54 FR 39291, Sept. 25, 1989]



Sec. 21.613  Recordkeeping requirements.

    (a) Keeping the records. Each manufacturer holding a TSO 
authorization under this part shall, for each article manufactured under 
that authorization, keep the following records at its factory:
    (1) A complete and current technical data file for each type or 
model article, including design drawings and specifications.
    (2) Complete and current inspection records showing that all 
inspections

[[Page 163]]

and tests required to ensure compliance with this part have been 
properly completed and documented.
    (b) Retention of records. The manufacturer shall retain the records 
described in paragraph (a)(1) of this section until it no longer 
manufactures the article. At that time, copies of these records shall be 
sent to the Administrator. The manufacturer shall retain the records 
described in paragraph (a)(2) of this section for a period of at least 2 
years.



Sec. 21.615  FAA inspection.

    Upon the request of the Administrator, each manufacturer of an 
article under a TSO authorization shall allow the Administrator to--
    (a) Inspect any article manufactured under that authorization;
    (b) Inspect the manufacturer's quality control system;
    (c) Witness any tests;
    (d) Inspect the manufacturing facilities; and
    (e) Inspect the technical data files on that article.



Sec. 21.617  Issue of letters of TSO design approval: import appliances.

    (a) A letter of TSO design approval may be issued for an appliance 
that is manufactured in a foreign country with which the United States 
has an agreement for the acceptance of these appliances for export and 
import and that is to be imported into the United States if--
    (1) The country in which the appliance was manufactured certifies 
that the appliance has been examined, tested, and found to meet the 
applicable TSO designated in Sec. 21.305(b) or the applicable 
performance standards of the country in which the appliance was 
manufactured and any other performance standards the Administrator may 
prescribe to provide a level of safety equivalent to that provided by 
the TSO designated in Sec. 21.305(b); and
    (2) The manufacturer has submitted one copy of the technical data 
required in the applicable performance standard through its civil 
aviation authority.
    (b) The letter of TSO design approval will be issued by the 
Administrator and must list any deviation granted to the manufacturer 
under Sec. 21.609.
    (c) After the Administrator has issued a letter of TSO design 
approval and the country of manufacture issues a Certificate of 
Airworthiness for Export as specified in Sec. 21.502(a), the 
manufacturer shall be authorized to identify the appliance with the TSO 
marking requirements described in Sec. 21.607(d) and in the applicable 
TSO. Each appliance must be accompanied by a Certificate of 
Airworthiness for Export as specified in Sec. 21.502(a) issued by the 
country of manufacture.



Sec. 21.619  Noncompliance.

    The Administrator may, upon notice, withdraw the TSO authorization 
or letter of TSO design approval of any manufacturer who identifies with 
a TSO marking an article not meeting the performance standards of the 
applicable TSO.



Sec. 21.621  Transferability and duration.

    A TSO authorization or letter of TSO design approval issued under 
this part is not transferable and is effective until surrendered, 
withdrawn, or otherwise terminated by the Administrator.



PART 23--AIRWORTHINESS STANDARDS: NORMAL, UTILITY, ACROBATIC, AND COMMUTER CATEGORY AIRPLANES--Table of Contents




Special Federal Aviation Regulation No. 23
Special Federal Aviation Regulation No. 41 [Note]

                           Subpart A--General

Sec.
23.1  Applicability.
23.2  Special retroactive requirements.
23.3  Airplane categories.

                            Subpart B--Flight

                                 General

23.21  Proof of compliance.
23.23  Load distribution limits.
23.25  Weight limits.
23.29  Empty weight and corresponding center of gravity.
23.31  Removable ballast.
23.33  Propeller speed and pitch limits.

                               Performance

23.45  General.
23.49  Stalling period.

[[Page 164]]

23.51  Takeoff speeds.
23.53  Takeoff performance.
23.55  Accelerate-stop distance.
23.57  Takeoff path.
23.59  Takeoff distance and takeoff run.
23.61  Takeoff flight path.
23.63  Climb: General.
23.65  Climb: All engines operating.
23.66  Takeoff climb: One-engine inoperative.
23.67  Climb: One engine inoperative.
23.69  Enroute climb/descent.
23.71  Glide: Single-engine airplanes.
23.73  Reference landing approach speed.
23.75  Landing distance.
23.77  Balked landing.

                         Flight Characteristics

23.141  General.

                   Controllability and Maneuverability

23.143  General.
23.145  Longitudinal control.
23.147  Directional and lateral control.
23.149  Minimum control speed.
23.151  Acrobatic maneuvers.
23.153  Control during landings.
23.155  Elevator control force in maneuvers.
23.157  Rate of roll.

                                  Trim

23.161  Trim.

                                Stability

23.171  General.
23.173  Static longitudinal stability.
23.175  Demonstration of static longitudinal stability.
23.177  Static directional and lateral stability.
23.181  Dynamic stability.

                                 Stalls

23.201  Wings level stall.
23.203  Turning flight and accelerated turning stalls.
23.207  Stall warning.

                                Spinning

23.221  Spinning.

                Ground and Water Handling Characteristics

23.231  Longitudinal stability and control.
23.233  Directional stability and control.
23.235  Operation on unpaved surfaces.
23.237  Operation on water.
23.239  Spray characteristics.

                    Miscellaneous Flight Requirements

23.251  Vibration and buffeting.
23.253  High speed characteristics.

                          Subpart C--Structure

                                 General

23.301  Loads.
23.302  Canard or tandem wing configurations.
23.303  Factor of safety.
23.305  Strength and deformation.
23.307  Proof of structure.

                              Flight Loads

23.321  General.
23.331  Symmetrical flight conditions.
23.333  Flight envelope.
23.335  Design airspeeds.
23.337  Limit maneuvering load factors.
23.341  Gust loads factors.
23.343  Design fuel loads.
23.345  High lift devices.
23.347  Unsymmetrical flight conditions.
23.349  Rolling conditions.
23.351  Yawing conditions.
23.361  Engine torque.
23.363  Side load on engine mount.
23.365  Pressurized cabin loads.
23.367  Unsymmetrical loads due to engine failure.
23.369  Rear lift truss.
23.371  Gyroscopic and aerodynamic loads.
23.373  Speed control devices.

                    Control Surface and System Loads

23.391  Control surface loads.
23.393  Loads parallel to hinge line.
23.395  Control system loads.
23.397  Limit control forces and torques.
23.399  Dual control system.
23.405  Secondary control system.
23.407  Trim tab effects.
23.409  Tabs.
23.415  Ground gust conditions.

              Horizontal Stabilizing and Balancing Surfaces

23.421  Balancing loads.
23.423  Maneuvering loads.
23.425  Gust loads.
23.427  Unsymmetrical loads.

                            Vertical Surfaces

23.441  Maneuvering loads.
23.443  Gust loads.
23.445  Outboard fins or winglets.

                      Ailerons and Special Devices

23.455  Ailerons.
23.459  Special devices.

                              Ground Loads

23.471  General.
23.473  Ground load conditions and assumptions.
23.477  Landing gear arrangement.
23.479  Level landing conditions.
23.481  Tail down landing conditions.

[[Page 165]]

23.483  One-wheel landing conditions.
23.485  Side load conditions.
23.493  Braked roll conditions.
23.497  Supplementary conditions for tail wheels.
23.499  Supplementary conditions for nose wheels.
23.505  Supplementary conditions for ski-planes.
23.507  Jacking loads.
23.509  Towing loads.
23.511  Ground load; unsymmetrical loads on multiple-wheel units.

                               Water Loads

23.521  Water load conditions.
23.523  Design weights and center of gravity positions.
23.525  Application of loads.
23.527  Hull and main float load factors.
23.529  Hull and main float landing conditions.
23.531  Hull and main float takeoff condition.
23.533  Hull and main float bottom pressures.
23.535  Auxiliary float loads.
23.537  Seawing loads.

                      Emergency Landing Conditions

23.561  General.
23.562  Emergency landing dynamic conditions.

                           Fatigue Evaluation

23.571  Metallic pressurized cabin structures.
23.572  Metallic wing, empennage, and associated structures.
23.573  Damage tolerance and fatigue evaluation of structure.
23.574  Metallic damage tolerance and fatigue evaluation of commuter 
          category airplanes.
23.575  Inspections and other procedures.

                   Subpart D--Design and Construction

23.601  General.
23.603  Materials and workmanship.
23.605  Fabrication methods.
23.607  Fasteners.
23.609  Protection of structure.
23.611  Accessibility provisions.
23.613  Material strength properties and design values.
23.619  Special factors.
23.621  Casting factors.
23.623  Bearing factors.
23.625  Fitting factors.
23.627  Fatigue strength.
23.629  Flutter.

                                  Wings

23.641  Proof of strength.

                            Control Surfaces

23.651  Proof of strength.
23.655  Installation.
23.657  Hinges.
23.659  Mass balance.

                             Control Systems

23.671  General.
23.672  Stability augmentation and automatic and power-operated systems.
23.673  Primary flight controls.
23.675  Stops.
23.677  Trim systems.
23.679  Control system locks.
23.681  Limit load static tests.
23.683  Operation tests.
23.685  Control system details.
23.687  Spring devices.
23.689  Cable systems.
23.691  Artificial stall barrier system.
23.693  Joints.
23.697  Wing flap controls.
23.699  Wing flap position indicator.
23.701  Flap interconnection.
23.703  Takeoff warning system.

                              Landing Gear

23.721  General.
23.723  Shock absorption tests.
23.725  Limit drop tests.
23.726  Ground load dynamic tests.
23.727  Reserve energy absorption drop test.
23.729  Landing gear extension and retraction system.
23.731  Wheels.
23.733  Tires.
23.735  Brakes.
23.737  Skis.
23.745  Nose/tail wheel steering.

                            Floats and Hulls

23.751  Main float buoyancy.
23.753  Main float design.
23.755  Hulls.
23.757  Auxiliary floats.

                   Personnel and Cargo Accommodations

23.771  Pilot compartment.
23.773  Pilot compartment view.
23.775  Windshields and windows.
23.777  Cockpit controls.
23.779  Motion and effect of cockpit controls.
23.781  Cockpit control knob shape.
23.783  Doors.
23.785  Seats, berths, litters, safety belts, and shoulder harnesses.
23.787  Baggage and cargo compartments.
23.791  Passenger information signs.
23.803  Emergency evacuation.
23.805  Flightcrew emergency exits.
23.807  Emergency exits.
23.811  Emergency exit marking.
23.812  Emergency lighting.
23.813  Emergency exit access.
23.815  Width of aisle.
23.831  Ventilation.

[[Page 166]]

                             Pressurization

23.841  Pressurized cabins.
23.843  Pressurization tests.

                             Fire Protection

23.851  Fire extinguishers.
23.853  Passenger and crew compartment interiors.
23.855  Cargo and baggage compartment fire protection.
23.859  Combustion heater fire protection.
23.863  Flammable fluid fire protection.
23.865  Fire protection of flight controls, engine mounts, and other 
          flight structure.

               Electrical Bonding and Lightning Protection

23.867  Electrical bonding and protection against lightning and static 
          electricity.

                              Miscellaneous

23.871  Leveling means.

                          Subpart E--Powerplant

                                 General

23.901  Installation.
23.903  Engines.
23.904  Automatic power reserve system.
23.905  Propellers.
23.907  Propeller vibration.
23.909  Turbocharger systems.
23.925  Propeller clearance.
23.929  Engine installation ice protection.
23.933  Reversing systems.
23.934  Turbojet and turbofan engine thrust reverser systems tests.
23.937  Turbopropeller-drag limiting systems.
23.939  Powerplant operating characteristics.
23.943  Negative acceleration.

                               Fuel System

23.951  General.
23.953  Fuel system independence.
23.954  Fuel system lightning protection.
23.955  Fuel flow.
23.957  Flow between interconnected tanks.
23.959  Unusable fuel supply.
23.961  Fuel system hot weather operation.
23.963  Fuel tanks: General.
23.965  Fuel tank tests.
23.967  Fuel tank installation.
23.969  Fuel tank expansion space.
23.971  Fuel tank sump.
23.973  Fuel tank filler connection.
23.975  Fuel tank vents and carburetor vapor vents.
23.977  Fuel tank outlet.
23.979  Pressure fueling systems.

                         Fuel System Components

23.991  Fuel pumps.
23.993  Fuel system lines and fittings.
23.994  Fuel system components.
23.995  Fuel valves and controls.
23.997  Fuel strainer or filter.
23.999  Fuel system drains.
23.1001  Fuel jettisoning system.

                               Oil System

23.1011  General.
23.1013  Oil tanks.
23.1015  Oil tank tests.
23.1017  Oil lines and fittings.
23.1019  Oil strainer or filter.
23.1021  Oil system drains.
23.1023  Oil radiators.
23.1027  Propeller feathering system.

                                 Cooling

23.1041  General.
23.1043  Cooling tests.
23.1045  Cooling test procedures for turbine engine powered airplanes.
23.1047  Cooling test procedures for reciprocating engine powered 
          airplanes.

                             Liquid Cooling

23.1061  Installation.
23.1063  Coolant tank tests.

                            Induction System

23.1091  Air induction system.
23.1093  Induction system icing protection.
23.1095  Carburetor deicing fluid flow rate.
23.1097  Carburetor deicing fluid system capacity.
23.1099  Carburetor deicing fluid system detail design.
23.1101  Induction air preheater design.
23.1103  Induction system ducts.
23.1105  Induction system screens.
23.1107  Induction system filters.
23.1109  Turbocharger bleed air system.
23.1111  Turbine engine bleed air system.

                             Exhaust System

23.1121  General.
23.1123  Exhaust system.
23.1125  Exhaust heat exchangers.

                   Powerplant Controls and Accessories

23.1141  Powerplant controls: General.
23.1142  Auxiliary power unit controls.
23.1143  Engine controls.
23.1145  Ignition switches.
23.1147  Mixture controls.
23.1149  Propeller speed and pitch controls.
23.1153  Propeller feathering controls.
23.1155  Turbine engine reverse thrust and propeller pitch settings 
          below the flight regime.
23.1157  Carburetor air temperature controls.
23.1163  Powerplant accessories.
23.1165  Engine ignition systems.

                       Powerplant Fire Protection

23.1181  Designated fire zones; regions included.

[[Page 167]]

23.1182  Nacelle areas behind firewalls.
23.1183  Lines, fittings, and components.
23.1189  Shutoff means.
23.1191  Firewalls.
23.1192  Engine accessory compartment diaphragm.
23.1193  Cowling and nacelle.
23.1195  Fire extinguishing systems.
23.1197  Fire extinguishing agents.
23.1199  Extinguishing agent containers.
23.1201  Fire extinguishing systems materials.
23.1203  Fire detector system.

                          Subpart F--Equipment

                                 General

23.1301  Function and installation.
23.1303  Flight and navigation instruments.
23.1305  Powerplant instruments.
23.1307  Miscellaneous equipment.
23.1309  Equipment, systems, and installations.

                        Instruments: Installation

23.1311  Electronic display instrument systems.
23.1321  Arrangement and visibility.
23.1322  Warning, caution, and advisory lights.
23.1323  Airspeed indicating system.
23.1325  Static pressure system.
23.1326  Pitot heat indication systems.
23.1327  Magnetic direction indicator.
23.1329  Automatic pilot system.
23.1331  Instruments using a power source.
23.1335  Flight director systems.
23.1337  Powerplant instruments installation.

                    Electrical Systems and Equipment

23.1351  General.
23.1353  Storage battery design and installation.
23.1357  Circuit protective devices.
23.1359  Electrical system fire protection.
23.1361  Master switch arrangement.
23.1365  Electric cables and equipment.
23.1367  Switches.

                                 Lights

23.1381  Instrument lights.
23.1383  Taxi and landing lights.
23.1385  Position light system installation.
23.1387  Position light system dihedral angles.
23.1389  Position light distribution and intensities.
23.1391  Minimum intensities in the horizontal plane of position lights.
23.1393  Minimum intensities in any vertical plane of position lights.
23.1395  Maximum intensities in overlapping beams of position lights.
23.1397  Color specifications.
23.1399  Riding light.
23.1401  Anticollision light system.

                            Safety Equipment

23.1411  General.
23.1415  Ditching equipment.
23.1416  Pneumatic de-icer boot system.
23.1419  Ice protection.

                         Miscellaneous Equipment

23.1431  Electronic equipment.
23.1435  Hydraulic systems.
23.1437  Accessories for multiengine airplanes.
23.1438  Pressurization and pneumatic systems.
23.1441  Oxygen equipment and supply.
23.1443  Minimum mass flow of supplemental oxygen.
23.1445  Oxygen distribution system.
23.1447  Equipment standards for oxygen dispensing units.
23.1449  Means for determining use of oxygen.
23.1450  Chemical oxygen generators.
23.1451  Fire protection for oxygen equipment.
23.1453  Protection of oxygen equipment from rupture.
23.1457  Cockpit voice recorders.
23.1459  Flight recorders.
23.1461  Equipment containing high energy rotors.

            Subpart G--Operating Limitations and Information

23.1501  General.
23.1505  Airspeed limitations.
23.1507  Operating maneuvering speed.
23.1511  Flap extended speed.
23.1513  Minimum control speed.
23.1519  Weight and center of gravity.
23.1521  Powerplant limitations.
23.1522  Auxiliary power unit limitations.
23.1523  Minimum flight crew.
23.1524  Maximum passenger seating configuration.
23.1525  Kinds of operation.
23.1527  Maximum operating altitude.
23.1529  Instructions for Continued Airworthiness.

                          Markings and Placards

23.1541  General.
23.1543  Instrument markings: General.
23.1545  Airspeed indicator.
23.1547  Magnetic direction indicator.
23.1549  Powerplant and auxiliary power unit instruments.
23.1551  Oil quantity indicator.
23.1553  Fuel quantity indicator.
23.1555  Control markings.
23.1557  Miscellaneous markings and placards.
23.1559  Operating limitations placard.
23.1561  Safety equipment.

[[Page 168]]

23.1563  Airspeed placards.
23.1567  Flight maneuver placard.

           Airplane Flight Manual and Approved Manual Material

23.1581  General.
23.1583  Operating limitations.
23.1585  Operating procedures.
23.1587  Performance information.
23.1589  Loading information.

Appendix A to Part 23--Simplified Design Load Criteria
Appendix B to Part 23 [Reserved]
Appendix C to Part 23--Basic Landing Conditions
Appendix D to Part 23--Wheel Spin-Up and Spring-Back Loads
Appendix E to Part 23 [Reserved]
Appendix F to Part 23--Test Procedure
Appendix G to Part 23--Instructions for Continued Airworthiness
Appendix H to Part 23--Installation of An Automatic Power Reserve (APR) 
          System
Appendix I to Part 23--Seaplane Loads

    Authority: 49 U.S.C. 106(g), 40113, 44701-44702, 44704.

    Source: Docket No. 4080, 29 FR 17955, Dec. 18. 1964; 30 FR 258, Jan. 
9, 1965, unless otherwise noted.

               Special Federal Aviation Regulation No. 23

    1. Applicability. An applicant is entitled to a type certificate in 
the normal category for a reciprocating or turbopropeller multiengine 
powered small airplane that is to be certificated to carry more than 10 
occupants and that is intended for use in operations under Part 135 of 
the Federal Aviation Regulations if he shows compliance with the 
applicable requirements of Part 23 of the Federal Aviation Regulations, 
as supplemented or modified by the additional airworthiness requirements 
of this regulation.
    2. References. Unless otherwise provided, all references in this 
regulation to specific sections of Part 23 of the Federal Aviation 
Regulations are those sections of Part 23 in effect on March 30, 1967.

                           Flight Requirements

    3. General. Compliance must be shown with the applicable 
requirements of Subpart B of Part 23 of the Federal Aviation Regulations 
in effect on March 30, 1967, as supplemented or modified in sections 4 
through 10 of this regulation.

                               Performance

    4. General. (a) Unless otherwise prescribed in this regulation, 
compliance with each applicable performance requirement in sections 4 
through 7 of this regulation must be shown for ambient atmospheric 
conditions and still air.
    (b) The performance must correspond to the propulsive thrust 
available under the particular ambient atmospheric conditions and the 
particular flight condition. The available propulsive thrust must 
correspond to engine power or thrust, not exceeding the approved power 
or thrust less--
    (1) Installation losses; and
    (2) The power or equivalent thrust absorbed by the accessories and 
services appropriate to the particular ambient atmospheric conditions 
and the particular flight condition.
    (c) Unless otherwise prescribed in this regulation, the applicant 
must select the take-off, en route, and landing configurations for the 
airplane.
    (d) The airplane configuration may vary with weight, altitude, and 
temperature, to the extent they are compatible with the operating 
procedures required by paragraph (e) of this section.
    (e) Unless otherwise prescribed in this regulation, in determining 
the critical engine inoperative takeoff performance, the accelerate-stop 
distance, takeoff distance, changes in the airplane's configuration, 
speed, power, and thrust, must be made in accordance with procedures 
established by the applicant for operation in service.
    (f) Procedures for the execution of balked landings must be 
established by the applicant and included in the Airplane Flight Manual.
    (g) The procedures established under paragraphs (e) and (f) of this 
section must--
    (1) Be able to be consistently executed in service by a crew of 
average skill;
    (2) Use methods or devices that are safe and reliable; and
    (3) Include allowance for any time delays, in the execution of the 
procedures, that may reasonably be expected in service.
    5. Takeoff--(a) General. The takeoff speeds described in paragraph 
(b), the accelerate-stop distance described in paragraph (c), and the 
takeoff distance described in paragraph (d), must be determined for--
    (1) Each weight, altitude, and ambient temperature within the 
operational limits selected by the applicant;
    (2) The selected configuration for takeoff;
    (3) The center of gravity in the most unfavorable position;
    (4) The operating engine within approved operating limitation; and
    (5) Takeoff data based on smooth, dry, hard-surface runway.
    (b) Takeoff speeds. (1) The decision speed V1 is the 
calibrated airspeed on the ground at which, as a result of engine 
failure or other reasons, the pilot is assumed to have made a decision 
to continue or discontinue the takeoff. The speed V1 must be 
selected by the applicant but may not be less than--

[[Page 169]]

    (i) 1.10 Vs1;
    (ii) 1.10 VMC;
    (iii) A speed that permits acceleration to V1 and stop in 
accordance with paragraph (c) allowing credit for an overrun distance 
equal to that required to stop the airplane from a ground speed of 35 
knots utilizing maximum braking; or
    (iv) A speed at which the airplane can be rotated for takeoff and 
shown to be adequate to safely continue the takeoff, using normal 
piloting skill, when the critical engine is suddenly made inoperative.
    (2) Other essential takeoff speeds necessary for safe operation of 
the airplane must be determined and shown in the Airplane Flight Manual.
    (c) Accelerate-stop distance. (1) The accelerate-stop distance is 
the sum of the distances necessary to--
    (i) Accelerate the airplane from a standing start to V1; 
and
    (ii) Decelerate the airplane from V1 to a speed not 
greater than 35 knots, assuming that in the case of engine failure, 
failure of the critical engine is recognized by the pilot at the speed 
V1. The landing gear must remain in the extended position and 
maximum braking may be utilized during deceleration.
    (2) Means other than wheel brakes may be used to determine the 
accelerate-stop distance if that means is available with the critical 
engine inoperative and--
    (i) Is safe and reliable;
    (ii) Is used so that consistent results can be expected under normal 
operating conditions; and
    (iii) Is such that exceptional skill is not required to control the 
airplane.
    (d) All engines operating takeoff distance. The all engine operating 
takeoff distance is the horizontal distance required to takeoff and 
climb to a height of 50 feet above the takeoff surface according to 
procedures in FAR 23.51(a).
    (e) One-engine-inoperative takeoff. The maximum weight must be 
determined for each altitude and temperature within the operational 
limits established for the airplane, at which the airplane has takeoff 
capability after failure of the critical engine at or above V1 
determined in accordance with paragraph (b) of this section. This 
capability may be established--
    (1) By demonstrating a measurably positive rate of climb with the 
airplane in the takeoff configuration, landing gear extended; or
    (2) By demonstrating the capability of maintaining flight after 
engine failure utilizing procedures prescribed by the applicant.
    6. Climb--(a) Landing climb: All-engines-operating. The maximum 
weight must be determined with the airplane in the landing 
configuration, for each altitude, and ambient temperature within the 
operational limits established for the airplane and with the most 
unfavorable center of gravity and out-of-ground effect in free air, at 
which the steady gradient of climb will not be less than 3.3 percent, 
with:
    (1) The engines at the power that is available 8 seconds after 
initiation of movement of the power or thrust controls from the mimimum 
flight idle to the takeoff position.
    (2) A climb speed not greater than the approach speed established 
under section 7 of this regulation and not less than the greater of 
1.05MC or 1.10VS1.
    (b) En route climb, one-engine-inoperative. (1) the maximum weight 
must be determined with the airplane in the en route configuration, the 
critical engine inoperative, the remaining engine at not more than 
maximum continuous power or thrust, and the most unfavorable center of 
gravity, at which the gradient at climb will be not less than--
    (i) 1.2 percent (or a gradient equivalent to 0.20 Vso 2, 
if greater) at 5,000 feet and an ambient temperature of 41 deg. F. or
    (ii) 0.6 percent (or a gradient equivalent to 0.01 Vso 2, 
if greater) at 5,000 feet and ambient temperature of 81 deg. F.
    (2) The minimum climb gradient specified in subdivisions (i) and 
(ii) of subparagraph (1) of this paragraph must vary linearly between 
41 deg. F. and 81 deg. F. and must change at the same rate up to the 
maximum operational temperature approved for the airplane.
    7. Landing. The landing distance must be determined for standard 
atmosphere at each weight and altitude in accordance with FAR 23.75(a), 
except that instead of the gliding approach specified in FAR 
23.75(a)(1), the landing may be preceded by a steady approach down to 
the 50-foot height at a gradient of descent not greater than 5.2 percent 
(3 deg.) at a calibrated airspeed not less than 1.3s1.

                                  Trim

    8. Trim--(a) Lateral and directional trim. The airplane must 
maintain lateral and directional trim in level flight at a speed of 
Vh or VMO/MMO, whichever is lower, with 
landing gear and wing flaps retracted.
    (b) Longitudinal trim. The airplane must maintain longitudinal trim 
during the following conditions, except that it need not maintain trim 
at a speed greater than VMO/MMO:
    (1) In the approach conditions specified in FAR 23.161(c)(3) 
through (5), except that instead of the speeds specified therein, trim 
must be maintained with a stick force of not more than 10 pounds down to 
a speed used in showing compliance with section 7 of this regulation or 
1.4 Vs1 whichever is lower.
    (2) In level flight at any speed from VH or 
VMO/MMO, whichever is lower, to either Vx or 1.4 
Vs1, with the landing gear and wing flaps retracted.

[[Page 170]]

                                Stability

    9. Static longitudinal stability. (a) In showing compliance with the 
provisions of FAR 23.175(b) and with paragraph (b) of this section, the 
airspeed must return to within plus-minus7\1/2\ percent of 
the trim speed.
    (b) Cruise stability. The stick force curve must have a stable slope 
for a speed range of plus-minus50 knots from the trim speed 
except that the speeds need not exceed VFC/MFC or 
be less than 1.4 Vs1. This speed range will be considered to 
begin at the outer extremes of the friction band and the stick force may 
not exceed 50 pounds with--
    (i) Landing gear retracted;
    (ii) Wing flaps retracted;
    (iii) The maximum cruising power as selected by the applicant as an 
operating limitation for turbine engines or 75 percent of maximum 
continuous power for reciprocating engines except that the power need 
not exceed that required at VMO/MMO:
    (iv) Maximum takeoff weight; and
    (v) The airplane trimmed for level flight with the power specified 
in subparagraph (iii) of this paragraph.
    VFC/MFC may not be less than a speed midway 
between VMO/MMO and VDF/MDF, 
except that, for altitudes where Mach number is the limiting factor, 
MFC need not exceed the Mach number at which effective speed 
warning occurs.
    (c) Climb stability. For turbopropeller powered airplanes only. In 
showing compliance with FAR 23.175(a), an applicant must in lieu of the 
power specified in FAR 23.175(a)(4), use the maximum power or thrust 
selected by the applicant as an operating limitation for use during 
climb at the best rate of climb speed except that the speed need not be 
less than 1.4 Vs1.

                                 Stalls

    10. Stall warning. If artificial stall warning is required to comply 
with the requirements of FAR 23.207, the warning device must give 
clearly distinguishable indications under expected conditions of flight. 
The use of a visual warning device that requires the attention of the 
crew within the cockpit is not acceptable by itself.

                             Control Systems

    11. Electric trim tabs. The airplane must meet the requirements of 
FAR 23.677 and in addition it must be shown that the airplane is safely 
controllable and that a pilot can perform all the maneuvers and 
operations necessary to effect a safe landing following any probable 
electric trim tab runaway which might be reasonably expected in service 
allowing for appropriate time delay after pilot recognition of the 
runaway. This demonstration must be conducted at the critical airplane 
weights and center of gravity positions.

                        Instruments: Installation

    12. Arrangement and visibility. Each instrument must meet the 
requirements of FAR 23.1321 and in addition--
    (a) Each flight, navigation, and powerplant instrument for use by 
any pilot must be plainly visible to him from his station with the 
minimum practicable deviation from his normal position and line of 
vision when he is looking forward along the flight path.
    (b) The flight instruments required by FAR 23.1303 and by the 
applicable operating rules must be grouped on the instrument panel and 
centered as nearly as practicable about the vertical plane of each 
pilot's forward vision. In addition--
    (1) The instrument that most effectively indicates the attitude must 
be on the panel in the top center position;
    (2) The instrument that most effectively indicates airspeed must be 
adjacent to and directly to the left of the instrument in the top center 
position;
    (3) The instrument that most effectively indicates altitude must be 
adjacent to and directly to the right of the instrument in the top 
center position; and
    (4) The instrument that most effectively indicates direction of 
flight must be adjacent to and directly below the instrument in the top 
center position.
    13. Airspeed indicating system. Each airspeed indicating system must 
meet the requirements of FAR 23.1323 and in addition--
    (a) Airspeed indicating instruments must be of an approved type and 
must be calibrated to indicate true airspeed at sea level in the 
standard atmosphere with a mimimum practicable instrument calibration 
error when the corresponding pilot and static pressures are supplied to 
the instruments.
    (b) The airspeed indicating system must be calibrated to determine 
the system error, i.e., the relation between IAS and CAS, in flight and 
during the accelerate takeoff ground run. The ground run calibration 
must be obtained between 0.8 of the mimimum value of V1 and 
1.2 times the maximum value of V1, considering the approved 
ranges of altitude and weight. The ground run calibration will be 
determined assuming an engine failure at the mimimum value of 
V1.
    (c) The airspeed error of the installation excluding the instrument 
calibration error, must not exceed 3 percent or 5 knots whichever is 
greater, throughout the speed range from VMO to 1.3S1 
with flaps retracted and from 1.3 VSO to VFE with 
flaps in the landing position.
    (d) Information showing the relationship between IAS and CAS must be 
shown in the Airplane Flight Manual.
    14. Static air vent system. The static air vent system must meet the 
requirements of FAR 23.1325. The altimeter system calibration

[[Page 171]]

must be determined and shown in the Airplane Flight Manual.

                  Operating Limitations and Information

    15. Maximum operating limit speed VMO/MMO. 
Instead of establishing operating limitations based on VME 
and VNO, the applicant must establish a maximum operating 
limit speed VMO/MMO in accordance with the 
following:
    (a) The maximum operating limit speed must not exceed the design 
cruising speed Vc and must be sufficiently below VD/MD 
or VDF/MDF to make it highly improbable that the 
latter speeds will be inadvertently exceeded in flight.
    (b) The speed Vmo must not exceed 0.8 VD/MD or 
0.8 VDF/MDF unless flight demonstrations involving 
upsets as specified by the Administrator indicates a lower speed margin 
will not result in speeds exceeding VD/MD or 
VDF. Atmospheric variations, horizontal gusts, and equipment 
errors, and airframe production variations will be taken into account.
    16. Minimum flight crew. In addition to meeting the requirements of 
FAR 23.1523, the applicant must establish the minimum number and type of 
qualified flight crew personnel sufficient for safe operation of the 
airplane considering--
    (a) Each kind of operation for which the applicant desires approval;
    (b) The workload on each crewmember considering the following:
    (1) Flight path control.
    (2) Collision avoidance.
    (3) Navigation.
    (4) Communications.
    (5) Operation and monitoring of all essential aircraft systems.
    (6) Command decisions; and
    (c) The accessibility and ease of operation of necessary controls by 
the appropriate crewmember during all normal and emergency operations 
when at his flight station.
    17. Airspeed indicator. The airspeed indicator must meet the 
requirements of FAR 23.1545 except that, the airspeed notations and 
markings in terms of VNO and VNE must be replaced 
by the VMO/MMO notations. The airspeed indicator 
markings must be easily read and understood by the pilot. A placard 
adjacent to the airspeed indicator is an acceptable means of showing 
compliance with the requirements of FAR 23.1545(c).

                         Airplane Flight Manual

    18. General. The Airplane Flight Manual must be prepared in 
accordance with the requirements of FARs 23.1583 and 23.1587, and in 
addition the operating limitations and performance information set forth 
in sections 19 and 20 must be included.
    19. Operating limitations. The Airplane Flight Manual must include 
the following limitations--
    (a) Airspeed limitations. (1) The maximum operating limit speed 
VMO/MMO and a statement that this speed limit may 
not be deliberately exceeded in any regime of flight (climb, cruise, or 
descent) unless a higher speed is authorized for flight test or pilot 
training;
    (2) If an airspeed limitation is based upon compressibility effects, 
a statement to this effect and information as to any symptoms, the 
probable behavior of the airplane, and the recommended recovery 
procedures; and
    (3) The airspeed limits, shown in terms of VMO/MMO 
instead of VNO and VNE.
    (b) Takeoff weight limitations. The maximum takeoff weight for each 
airport elevation, ambient temperature, and available takeoff runway 
length within the range selected by the applicant. This weight may not 
exceed the weight at which:
    (1) The all-engine operating takeoff distance determined in 
accordance with section 5(d) or the accelerate-stop distance determined 
in accordance with section 5(c), which ever is greater, is equal to the 
available runway length;
    (2) The airplane complies with the one-engine-inoperative takeoff 
requirements specified in section 5(e); and
    (3) The airplane complies with the one-engine-inoperative en route 
climb requirements specified in section 6(b), assuming that a standard 
temperature lapse rate exists from the airport elevation to the altitude 
of 5,000 feet, except that the weight may not exceed that corresponding 
to a temperature of 41 deg. F at 5,000 feet.
    20. Performance information. The Airplane Flight Manual must contain 
the performance information determined in accordance with the provisions 
of the performance requirements of this regulation. The information must 
include the following:
    (a) Sufficient information so that the take-off weight limits 
specified in section 19(b) can be determined for all temperatures and 
altitudes within the operation limitations selected by the applicant.
    (b) The conditions under which the performance information was 
obtained, including the airspeed at the 50-foot height used to determine 
landing distances.
    (c) The performance information (determined by extrapolation and 
computed for the range of weights between the maximum landing and 
takeoff weights) for--
    (1) Climb in the landing configuration; and
    (2) Landing distance.
    (d) Procedure established under section 4 of this regulation related 
to the limitations and information required by this section in the form 
of guidance material including any relevant limitations or information.
    (e) An explanation of significant or unusual flight or ground 
handling characteristics of the airplane.

[[Page 172]]

    (f) Airspeeds, as indicated airspeeds, corresponding to those 
determined for takeoff in accordance with section 5(b).
    21. Maximum operating altitudes. The maximum operating altitude to 
which operation is permitted, as limited by flight, structural, 
powerplant, functional, or equipment characteristics, must be specified 
in the Airplane Flight Manual.
    22. Stowage provision for Airplane Flight Manual. Provision must be 
made for stowing the Airplane Flight Manual in a suitable fixed 
container which is readily accessible to the pilot.
    23. Operating procedures. Procedures for restarting turbine engines 
in flight (including the effects of altitude) must be set forth in the 
Airplane Flight Manual.

                          Airframe Requirements

                              flight loads

    24. Engine torque. (a) Each turbopropeller engine mount and its 
supporting structure must be designed for the torque effects of--
    (1) The conditions set forth in FAR 23.361(a).
    (2) The limit engine torque corresponding to takeoff power and 
propeller speed, multiplied by a factor accounting for propeller control 
system malfunction, including quick feathering action, simultaneously 
with 1 g level flight loads. In the absence of a rational analysis, a 
factor of 1.6 must be used.
    (b) The limit torque is obtained by multiplying the mean torque by a 
factor of 1.25.
    25. Turbine engine gyroscopic loads. Each turbopropeller engine 
mount and its supporting structure must be designed for the gyroscopic 
loads that result, with the engines at maximum continuous r.p.m., under 
either--
    (a) The conditions prescribed in FARs 23.351 and 23.423; or
    (b) All possible combinations of the following:
    (1) A yaw velocity of 2.5 radius per second.
    (2) A pitch velocity of 1.0 radians per second.
    (3) A normal load factor of 2.5.
    (4) Maximum continuous thrust.
    26. Unsymmetrical loads due to engine failure. (a) Turbopropeller 
powered airplanes must be designed for the unsymmetrical loads resulting 
from the failure of the critical engine including the following 
conditions in combination with a single malfunction of the propeller 
drag limiting system, considering the probable pilot corrective action 
on the flight controls.
    (1) At speeds between VMC and VD, the loads 
resulting from power failure because of fuel flow interruption are 
considered to be limit loads.
    (2) At speeds between VMC and VC, the loads 
resulting from the disconnection of the engine compressor from the 
turbine or from loss of the turbine blades are considered to be ultimate 
loads.
    (3) The time history of the thrust decay and drag buildup occurring 
as a result of the prescribed engine failures must be substantiated by 
test or other data applicable to the particular engine-propeller 
combination.
    (4) The timing and magnitude of the probable pilot corrective action 
must be conservatively estimated, considering the characteristics of the 
particular engine-propeller-airplane combination.
    (b) Pilot corrective action may be assumed to be initiated at the 
time maximum yawing velocity is reached, but not earlier than two 
seconds after the engine failure. The magnitude of the corrective action 
may be based on the control forces specified in FAR 23.397 except that 
lower forces may be assumed where it is shown by analysis or test that 
these forces can control the yaw and roll resulting from the prescribed 
engine failure conditions.

                              Ground Loads

    27. Dual wheel landing gear units. Each dual wheel landing gear unit 
and its supporting structure must be shown to comply with the following:
    (a) Pivoting. The airplane must be assumed to pivot about one side 
of the main gear with the brakes on that side locked. The limit vertical 
load factor must be 1.0 and the coefficient of friction 0.8. This 
condition need apply only to the main gear and its supporting structure.
    (b) Unequal tire inflation. A 60-40 percent distribution of the 
loads established in accordance with FAR 23.471 through FAR 23.483 must 
be applied to the dual wheels.
    (c) Flat tire. (1) Sixty percent of the loads specified in FAR 
23.471 through FAR 23.483 must be applied to either wheel in a unit.
    (2) Sixty percent of the limit drag and side loads and 100 percent 
of the limit vertical load established in accordance with FARs 23.493 
and 23.485 must be applied to either wheel in a unit except that the 
vertical load need not exceed the maximum vertical load in paragraph 
(c)(1) of this section.

                           Fatigue Evaluation

    28. Fatigue evaluation of wing and associated structure. Unless it 
is shown that the structure, operating stress levels, materials, and 
expected use are comparable from a fatigue standpoint to a similar 
design which has had substantial satisfactory service experience, the 
strength, detail design, and the fabrication of those parts of the wing, 
wing carrythrough, and attaching structure whose failure would be 
catastrophic must be evaluated under either--
    (a) A fatigue strength investigation in which the structure is shown 
by analysis,

[[Page 173]]

tests, or both to be able to withstand the repeated loads of variable 
magnitude expected in service; or
    (b) A fail-safe strength investigation in which it is shown by 
analysis, tests, or both that catastrophic failure of the structure is 
not probable after fatigue, or obvious partial failure, of a principal 
structural element, and that the remaining structure is able to 
withstand a static ultimate load factor of 75 percent of the critical 
limit load factor at Vc. These loads must be multiplied by a 
factor of 1.15 unless the dynamic effects of failure under static load 
are otherwise considered.

                         Design and Construction

    29. Flutter. For Multiengine turbopropeller powered airplanes, a 
dynamic evaluation must be made and must include--
    (a) The significant elastic, inertia, and aerodynamic forces 
associated with the rotations and displacements of the plane of the 
propeller; and
    (b) Engine-propeller-nacelle stiffness and damping variations 
appropriate to the particular configuration.

                              Landing Gear

    30. Flap operated landing gear warning device. Airplanes having 
retractable landing gear and wing flaps must be equipped with a warning 
device that functions continuously when the wing flaps are extended to a 
flap position that activates the warning device to give adequate warning 
before landing, using normal landing procedures, if the landing gear is 
not fully extended and locked. There may not be a manual shut off for 
this warning device. The flap position sensing unit may be installed at 
any suitable location. The system for this device may use any part of 
the system (including the aural warning device) provided for other 
landing gear warning devices.

                   Personnel and Cargo Accommodations

    31. Cargo and baggage compartments. Cargo and baggage compartments 
must be designed to meet the requirements of FAR 23.787 (a) and (b), and 
in addition means must be provided to protect passengers from injury by 
the contents of any cargo or baggage compartment when the ultimate 
forward inertia force is 9g.
    32. Doors and exits. The airplane must meet the requirements of FAR 
23.783 and FAR 23.807 (a)(3), (b), and (c), and in addition:
    (a) There must be a means to lock and safeguard each external door 
and exit against opening in flight either inadvertently by persons, or 
as a result of mechanical failure. Each external door must be operable 
from both the inside and the outside.
    (b) There must be means for direct visual inspection of the locking 
mechanism by crewmembers to determine whether external doors and exits, 
for which the initial opening movement is outward, are fully locked. In 
addition, there must be a visual means to signal to crewmembers when 
normally used external doors are closed and fully locked.
    (c) The passenger entrance door must qualify as a floor level 
emergency exit. Each additional required emergency exit except floor 
level exits must be located over the wing or must be provided with 
acceptable means to assist the occupants in descending to the ground. In 
addition to the passenger entrance door:
    (1) For a total seating capacity of 15 or less, an emergency exit as 
defined in FAR 23.807(b) is required on each side of the cabin.
    (2) For a total seating capacity of 16 through 23, three emergency 
exits as defined in 23.807(b) are required with one on the same side as 
the door and two on the side opposite the door.
    (d) An evacuation demonstration must be conducted utilizing the 
maximum number of occupants for which certification is desired. It must 
be conducted under simulated night conditions utilizing only the 
emergency exits on the most critical side of the aircraft. The 
participants must be representative of average airline passengers with 
no prior practice or rehearsal for the demonstration. Evacuation must be 
completed within 90 seconds.
    (e) Each emergency exit must be marked with the word ``Exit'' by a 
sign which has white letters 1 inch high on a red background 2 inches 
high, be self-illuminated or independently internally electrically 
illuminated, and have a minimum luminescence (brightness) of at least 
160 microlamberts. The colors may be reversed if the passenger 
compartment illumination is essentially the same.
    (f) Access to window type emergency exits must not be obstructed by 
seats or seat backs.
    (g) The width of the main passenger aisle at any point between seats 
must equal or exceed the values in the following table.

------------------------------------------------------------------------
                                    Minimum main passenger aisle width
                                 ---------------------------------------
     Total seating capacity          Less than 25     25 inches and more
                                   inches from floor      from floor
------------------------------------------------------------------------
10 through 23...................  9 inches..........  15 inches.
------------------------------------------------------------------------

                              Miscellaneous

    33. Lightning strike protection. Parts that are electrically 
insulated from the basic airframe must be connected to it through 
lightning arrestors unless a lightning strike on the insulated part--
    (a) Is improbable because of shielding by other parts; or
    (b) Is not hazardous.

[[Page 174]]

    34. Ice protection. If certification with ice protection provisions 
is desired, compliance with the following requirements must be shown:
    (a) The recommended procedures for the use of the ice protection 
equipment must be set forth in the Airplane Flight Manual.
    (b) An analysis must be performed to establish, on the basis of the 
airplane's operational needs, the adequacy of the ice protection system 
for the various components of the airplane. In addition, tests of the 
ice protection system must be conducted to demonstrate that the airplane 
is capable of operating safely in continuous maximum and intermittent 
maximum icing conditions as described in FAR 25, appendix C.
    (c) Compliance with all or portions of this section may be 
accomplished by reference, where applicable because of similarity of the 
designs, to analysis and tests performed by the applicant for a type 
certificated model.
    35. Maintenance information. The applicant must make available to 
the owner at the time of delivery of the airplane the information he 
considers essential for the proper maintenance of the airplane. That 
information must include the following:
    (a) Description of systems, including electrical, hydraulic, and 
fuel controls.
    (b) Lubrication instructions setting forth the frequency and the 
lubricants and fluids which are to be used in the various systems.
    (c) Pressures and electrical loads applicable to the various 
systems.
    (d) Tolerances and adjustments necessary for proper functioning.
    (e) Methods of leveling, raising, and towing.
    (f) Methods of balancing control surfaces.
    (g) Identification of primary and secondary structures.
    (h) Frequency and extent of inspections necessary to the proper 
operation of the airplane.
    (i) Special repair methods applicable to the airplane.
    (j) Special inspection techniques, including those that require X-
ray, ultrasonic, and magnetic particle inspection.
    (k) List of special tools.

                               Propulsion

                                 general

    36. Vibration characteristics. For turbopropeller powered airplanes, 
the engine installation must not result in vibration characteristics of 
the engine exceeding those established during the type certification of 
the engine.
    37. In-flight restarting of engine. If the engine on turbopropeller 
powered airplanes cannot be restarted at the maximum cruise altitude, a 
determination must be made of the altitude below which restarts can be 
consistently accomplished. Restart information must be provided in the 
Airplane Flight Manual.
    38. Engines--(a) For turbopropeller powered airplanes. The engine 
installation must comply with the following requirements:
    (1) Engine isolation. The powerplants must be arranged and isolated 
from each other to allow operation, in at least one configuration, so 
that the failure or malfunction of any engine, or of any system that can 
affect the engine, will not--
    (i) Prevent the continued safe operation of the remaining engines; 
or
    (ii) Require immediate action by any crewmember for continued safe 
operation.
    (2) Control of engine rotation. There must be a means to 
individually stop and restart the rotation of any engine in flight 
except that engine rotation need not be stopped if continued rotation 
could not jeopardize the safety of the airplane. Each component of the 
stopping and restarting system on the engine side of the firewall, and 
that might be exposed to fire, must be at least fire resistant. If 
hydraulic propeller feathering systems are used for this purpose, the 
feathering lines must be at least fire resistant under the operating 
conditions that may be expected to exist during feathering.
    (3) Engine speed and gas temperature control devices. The powerplant 
systems associated with engine control devices, systems, and 
instrumentation must provide reasonable assurance that those engine 
operating limitations that adversely affect turbine rotor structural 
integrity will not be exceeded in service.
    (b) For reciprocating-engine powered airplanes. To provide engine 
isolation, the powerplants must be arranged and isolated from each other 
to allow operation, in at least one configuration, so that the failure 
or malfunction of any engine, or of any system that can affect that 
engine, will not--
    (1) Prevent the continued safe operation of the remaining engines; 
or
    (2) Require immediate action by any crewmember for continued safe 
operation.
    39. Turbopropeller reversing systems. (a) Turbopropeller reversing 
systems intended for ground operation must be designed so that no single 
failure or malfunction of the system will result in unwanted reverse 
thrust under any expected operating condition. Failure of structural 
elements need not be considered if the probability of this kind of 
failure is extremely remote.
    (b) Turbopropeller reversing systems intended for in-flight use must 
be designed so that no unsafe condition will result during normal 
operation of the system, or from any failure (or reasonably likely 
combination of failures) of the reversing system, under any anticipated 
condition of operation of the airplane. Failure of structural elements 
need not be considered if the probability of this kind of failure is 
extremely remote.

[[Page 175]]

    (c) Compliance with this section may be shown by failure analysis, 
testing, or both for propeller systems that allow propeller blades to 
move from the flight low-pitch position to a position that is 
substantially less than that at the normal flight low-pitch stop 
position. The analysis may include or be supported by the analysis made 
to show compliance with the type certification of the propeller and 
associated installation components. Credit will be given for pertinent 
analysis and testing completed by the engine and propeller 
manufacturers.
    40. Turbopropeller drag-limiting systems. Turbopropeller drag-
limiting systems must be designed so that no single failure or 
malfunction of any of the systems during normal or emergency operation 
results in propeller drag in excess of that for which the airplane was 
designed. Failure of structural elements of the drag-limiting systems 
need not be considered if the probability of this kind of failure is 
extremely remote.
    41. Turbine engine powerplant operating characteristics. For 
turbopropeller powered airplanes, the turbine engine powerplant 
operating characteristics must be investigated in flight to determine 
that no adverse characteristics (such as stall, surge, or flameout) are 
present to a hazardous degree, during normal and emergency operation 
within the range of operating limitations of the airplane and of the 
engine.
    42. Fuel flow. (a) For turbopropeller powered airplanes--
    (1) The fuel system must provide for continuous supply of fuel to 
the engines for normal operation without interruption due to depletion 
of fuel in any tank other than the main tank; and
    (2) The fuel flow rate for turbopropeller engine fuel pump systems 
must not be less than 125 percent of the fuel flow required to develop 
the standard sea level atmospheric conditions takeoff power selected and 
included as an operating limitation in the Airplane Flight Manual.
    (b) For reciprocating engine powered airplanes, it is acceptable for 
the fuel flow rate for each pump system (main and reserve supply) to be 
125 percent of the takeoff fuel consumption of the engine.

                         Fuel System Components

    43. Fuel pumps. For turbopropeller powered airplanes, a reliable and 
independent power source must be provided for each pump used with 
turbine engines which do not have provisions for mechanically driving 
the main pumps. It must be demonstrated that the pump installations 
provide a reliability and durability equivalent to that provided by FAR 
23.991(a).
    44. Fuel strainer or filter. For turbopropeller powered airplanes, 
the following apply:
    (a) There must be a fuel strainer or filter between the tank outlet 
and the fuel metering device of the engine. In addition, the fuel 
strainer or filter must be--
    (1) Between the tank outlet and the engine-driven positive 
displacement pump inlet, if there is an engine-driven positive 
displacement pump;
    (2) Accessible for drainage and cleaning and, for the strainer 
screen, easily removable; and
    (3) Mounted so that its weight is not supported by the connecting 
lines or by the inlet or outlet connections of the strainer or filter 
itself.
    (b) Unless there are means in the fuel system to prevent the 
accumulation of ice on the filter, there must be means to automatically 
maintain the fuel flow if ice-clogging of the filter occurs; and
    (c) The fuel strainer or filter must be of adequate capacity (with 
respect to operating limitations established to insure proper service) 
and of appropriate mesh to insure proper engine operation, with the fuel 
contaminated to a degree (with respect to particle size and density) 
that can be reasonably expected in service. The degree of fuel filtering 
may not be less than that established for the engine type certification.
    45. Lightning strike protection. Protection must be provided against 
the ignition of flammable vapors in the fuel vent system due to 
lightning strikes.

                                 Cooling

    46. Cooling test procedures for turbopropeller powered airplanes. 
(a) Turbopropeller powered airplanes must be shown to comply with the 
requirements of FAR 23.1041 during takeoff, climb en route, and landing 
stages of flight that correspond to the applicable performance 
requirements. The cooling test must be conducted with the airplane in 
the configuration and operating under the conditions that are critical 
relative to cooling during each stage of flight. For the cooling tests a 
temperature is ``stabilized'' when its rate of change is less than 
2 deg. F. per minute.
    (b) Temperatures must be stabilized under the conditions from which 
entry is made into each stage of flight being investigated unless the 
entry condition is not one during which component and engine fluid 
temperatures would stabilize, in which case, operation through the full 
entry condition must be conducted before entry into the stage of flight 
being investigated in order to allow temperatures to reach their natural 
levels at the time of entry. The takeoff cooling test must be preceded 
by a period during which the powerplant component and engine fluid 
temperatures are stabilized with the engines at ground idle.
    (c) Cooling tests for each stage of flight must be continued until--
    (1) The component and engine fluid temperatures stabilize;
    (2) The stage of flight is completed; or

[[Page 176]]

    (3) An operating limitation is reached.

                            Induction System

    47. Air induction. For turbopropeller powered airplanes--
    (a) There must be means to prevent hazardous quantities of fuel 
leakage or overflow from drains, vents, or other components of flammable 
fluid systems from entering the engine intake system; and
    (b) The air inlet ducts must be located or protected so as to 
minimize the ingestion of foreign matter during takeoff, landing, and 
taxiing.
    48. Induction system icing protection. For turbopropeller powered 
airplanes, each turbine engine must be able to operate throughout its 
flight power range without adverse effect on engine operation or serious 
loss of power or thrust, under the icing conditions specified in 
appendix C of FAR 25. In addition, there must be means to indicate to 
appropriate flight crewmembers the functioning of the powerplant ice 
protection system.
    49. Turbine engine bleed air systems. Turbine engine bleed air 
systems of turbopropeller powered airplanes must be investigated to 
determine--
    (a) That no hazard to the airplane will result if a duct rupture 
occurs. This condition must consider that a failure of the duct can 
occur anywhere between the engine port and the airplane bleed service; 
and
    (b) That if the bleed air system is used for direct cabin 
pressurization, it is not possible for hazardous contamination of the 
cabin air system to occur in event of lubrication system failure.

                             Exhaust System

    50. Exhaust system drains. Turbopropeller engine exhaust systems 
having low spots or pockets must incorporate drains at such locations. 
These drains must discharge clear of the airplane in normal and ground 
attitudes to prevent the accumulation of fuel after the failure of an 
attempted engine start.

                   Powerplant Controls and Accessories

    51. Engine controls. If throttles or power levers for turbopropeller 
powered airplanes are such that any position of these controls will 
reduce the fuel flow to the engine(s) below that necessary for 
satisfactory and safe idle operation of the engine while the airplane is 
in flight, a means must be provided to prevent inadvertent movement of 
the control into this position. The means provided must incorporate a 
positive lock or stop at this idle position and must require a separate 
and distinct operation by the crew to displace the control from the 
normal engine operating range.
    52. Reverse thrust controls. For turbopropeller powered airplanes, 
the propeller reverse thrust controls must have a means to prevent their 
inadvertent operation. The means must have a positive lock or stop at 
the idle position and must require a separate and distinct operation by 
the crew to displace the control from the flight regime.
    53. Engine ignition systems. Each turbopropeller airplane ignition 
system must be considered an essential electrical load.
    54. Powerplant accessories. The powerplant accessories must meet the 
requirements of FAR 23.1163, and if the continued rotation of any 
accessory remotely driven by the engine is hazardous when malfunctioning 
occurs, there must be means to prevent rotation without interfering with 
the continued operation of the engine.

                       Powerplant Fire Protection

    55. Fire detector system. For turbopropeller powered airplanes, the 
following apply:
    (a) There must be a means that ensures prompt detection of fire in 
the engine compartment. An overtemperature switch in each engine cooling 
air exit is an acceptable method of meeting this requirement.
    (b) Each fire detector must be constructed and installed to 
withstand the vibration, inertia, and other loads to which it may be 
subjected in operation.
    (c) No fire detector may be affected by any oil, water, other 
fluids, or fumes that might be present.
    (d) There must be means to allow the flight crew to check, in 
flight, the functioning of each fire detector electric circuit.
    (e) Wiring and other components of each fire detector system in a 
fire zone must be at least fire resistant.
    56. Fire protection, cowling and nacelle skin. For reciprocating 
engine powered airplanes, the engine cowling must be designed and 
constructed so that no fire originating in the engine compartment can 
enter, either through openings or by burn through, any other region 
where it would create additional hazards.
    57. Flammable fluid fire protection. If flammable fluids or vapors 
might be liberated by the leakage of fluid systems in areas other than 
engine compartments, there must be means to--
    (a) Prevent the ignition of those fluids or vapors by any other 
equipment; or
    (b) Control any fire resulting from that ignition.

                                Equipment

    58. Powerplant instruments. (a) The following are required for 
turbopropeller airplanes:
    (1) The instruments required by FAR 23.1305 (a)(1) through (4), 
(b)(2) and (4).
    (2) A gas temperature indicator for each engine.
    (3) Free air temperature indicator.

[[Page 177]]

    (4) A fuel flowmeter indicator for each engine.
    (5) Oil pressure warning means for each engine.
    (6) A torque indicator or adequate means for indicating power output 
for each engine.
    (7) Fire warning indicator for each engine.
    (8) A means to indicate when the propeller blade angle is below the 
low-pitch position corresponding to idle operation in flight.
    (9) A means to indicate the functioning of the ice protection system 
for each engine.
    (b) For turbopropeller powered airplanes, the turbopropeller blade 
position indicator must begin indicating when the blade has moved below 
the flight low-pitch position.
    (c) The following instruments are required for reciprocating-engine 
powered airplanes:
    (1) The instruments required by FAR 23.1305.
    (2) A cylinder head temperature indicator for each engine.
    (3) A manifold pressure indicator for each engine.

                         Systems and Equipments

                                 general

    59. Function and installation. The systems and equipment of the 
airplane must meet the requirements of FAR 23.1301, and the following:
    (a) Each item of additional installed equipment must--
    (1) Be of a kind and design appropriate to its intended function;
    (2) Be labeled as to its identification, function, or operating 
limitations, or any applicable combination of these factors, unless 
misuse or inadvertent actuation cannot create a hazard;
    (3) Be installed according to limitations specified for that 
equipment; and
    (4) Function properly when installed.
    (b) Systems and installations must be designed to safeguard against 
hazards to the aircraft in the event of their malfunction or failure.
    (c) Where an installation, the functioning of which is necessary in 
showing compliance with the applicable requirements, requires a power 
supply, such installation must be considered an essential load on the 
power supply, and the power sources and the distribution system must be 
capable of supplying the following power loads in probable operation 
combinations and for probable durations:
    (1) All essential loads after failure of any prime mover, power 
converter, or energy storage device.
    (2) All essential loads after failure of any one engine on two-
engine airplanes.
    (3) In determining the probable operating combinations and durations 
of essential loads for the power failure conditions described in 
subparagraphs (1) and (2) of this paragraph, it is permissible to assume 
that the power loads are reduced in accordance with a monitoring 
procedure which is consistent with safety in the types of operations 
authorized.
    60. Ventilation. The ventilation system of the airplane must meet 
the requirements of FAR 23.831, and in addition, for pressurized 
aircraft the ventilating air in flight crew and passenger compartments 
must be free of harmful or hazardous concentrations of gases and vapors 
in normal operation and in the event of reasonably probable failures or 
malfunctioning of the ventilating, heating, pressurization, or other 
systems, and equipment. If accumulation of hazardous quantities of smoke 
in the cockpit area is reasonably probable, smoke evacuation must be 
readily accomplished.

                    Electrical Systems and Equipment

    61. General. The electrical systems and equipment of the airplane 
must meet the requirements of FAR 23.1351, and the following:
    (a) Electrical system capacity. The required generating capacity, 
and number and kinds of power sources must--
    (1) Be determined by an electrical load analysis, and
    (2) Meet the requirements of FAR 23.1301.
    (b) Generating system. The generating system includes electrical 
power sources, main power busses, transmission cables, and associated 
control, regulation, and protective devices. It must be designed so 
that--
    (1) The system voltage and frequency (as applicable) at the 
terminals of all essential load equipment can be maintained within the 
limits for which the equipment is designed, during any probable 
operating conditions;
    (2) System transients due to switching, fault clearing, or other 
causes do not make essential loads inoperative, and do not cause a smoke 
or fire hazard;
    (3) There are means, accessible in flight to appropriate 
crewmembers, for the individual and collective disconnection of the 
electrical power sources from the system; and
    (4) There are means to indicate to appropriate crewmembers the 
generating system quantities essential for the safe operation of the 
system, including the voltage and current supplied by each generator.
    62. Electrical equipment and installation. Electrical equipment 
controls, and wiring must be installed so that operation of any one unit 
or system of units will not adversely affect the simultaneous operation 
of to the safe operation.
    63. Distribution system. (a) For the purpose of complying with this 
section, the distribution system includes the distribution busses, their 
associated feeders and each control and protective device.
    (b) Each system must be designed so that essential load circuits can 
be supplied in the event of reasonably probable faults or open

[[Page 178]]

circuits, including faults in heavy current carrying cables.
    (c) If two independent sources of electrical power for particular 
equipment or systems are required by this regulation, their electrical 
energy supply must be insured by means such as duplicate electrical 
equipment, throwover switching, or multichannel or loop circuits 
separately routed.
    64. Circuit protective devices. The circuit protective devices for 
the electrical circuits of the airplane must meet the requirements of 
FAR 23.1357, and in addition circuits for loads which are essential to 
safe operation must have individual and exclusive circuit protection.

[Doc. No. 8070, 34 FR 189, Jan. 7, 1969, as amended by SFAR 23-1, 34 FR 
20176, Dec. 24, 1969; 35 FR 1102, Jan. 28, 1970]

               Special Federal Aviation Regulation No. 41

    Editorial Note: For the text of SFAR No. 41, see part 21 of this 
chapter.



                           Subpart A--General



Sec. 23.1  Applicability.

    (a) This part prescribes airworthiness standards for the issue of 
type certificates, and changes to those certificates, for airplanes in 
the normal, utility, acrobatic, and commuter categories.
    (b) Each person who applies under Part 21 for such a certificate or 
change must show compliance with the applicable requirements of this 
part.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-34, 
52 FR 1825, Jan. 15, 1987]



Sec. 23.2  Special retroactive requirements.

    (a) Notwithstanding Secs. 21.17 and 21.101 of this chapter and 
irrespective of the type certification basis, each normal, utility, and 
acrobatic category airplane having a passenger seating configuration, 
excluding pilot seats, of nine or less, manufactured after December 12, 
1986, or any such foreign airplane for entry into the United States must 
provide a safety belt and shoulder harness for each forward- or aft-
facing seat which will protect the occupant from serious head injury 
when subjected to the inertia loads resulting from the ultimate static 
load factors prescribed in Sec. 23.561(b)(2) of this part, or which will 
provide the occupant protection specified in Sec. 23.562 of this part 
when that section is applicable to the airplane. For other seat 
orientations, the seat/restraint system must be designed to provide a 
level of occupant protection equivalent to that provided for forward- or 
aft-facing seats with a safety belt and shoulder harness installed.
    (b) Each shoulder harness installed at a flight crewmember station, 
as required by this section, must allow the crewmember, when seated with 
the safety belt and shoulder harness fastened, to perform all functions 
necessary for flight operations.
    (c) For the purpose of this section, the date of manufacture is:
    (1) The date the inspection acceptance records, or equivalent, 
reflect that the airplane is complete and meets the FAA approved type 
design data; or
    (2) In the case of a foreign manufactured airplane, the date the 
foreign civil airworthiness authority certifies the airplane is complete 
and issues an original standard airworthiness certificate, or the 
equivalent in that country.

[Amdt. 23-36, 53 FR 30812, Aug. 15, 1988]



Sec. 23.3  Airplane categories.

    (a) The normal category is limited to airplanes that have a seating 
configuration, excluding pilot seats, of nine or less, a maximum 
certificated takeoff weight of 12,500 pounds or less, and intended for 
nonacrobatic operation. Nonacrobatic operation includes:
    (1) Any maneuver incident to normal flying;
    (2) Stalls (except whip stalls); and
    (3) Lazy eights, chandelles, and steep turns, in which the angle of 
bank is not more than 60 degrees.
    (b) The utility category is limited to airplanes that have a seating 
configuration, excluding pilot seats, of nine or less, a maximum 
certificated takeoff weight of 12,500 pounds or less, and intended for 
limited acrobatic operation. Airplanes certificated in the utility 
category may be used in any of the operations covered under paragraph 
(a) of this section and in limited acrobatic operations. Limited 
acrobatic operation includes:

[[Page 179]]

    (1) Spins (if approved for the particular type of airplane); and
    (2) Lazy eights, chandelles, and steep turns, or similar maneuvers, 
in which the angle of bank is more than 60 degrees but not more than 90 
degrees.
    (c) The acrobatic category is limited to airplanes that have a 
seating configuration, excluding pilot seats, of nine or less, a maximum 
certificated takeoff weight of 12,500 pounds or less, and intended for 
use without restrictions, other than those shown to be necessary as a 
result of required flight tests.
    (d) The commuter category is limited to propeller-driven, 
multiengine airplanes that have a seating configuration, excluding pilot 
seats, of 19 or less, and a maximum certificated takeoff weight of 
19,000 pounds or less. The commuter category operation is limited to any 
maneuver incident to normal flying, stalls (except whip stalls), and 
steep turns, in which the angle of bank is not more than 60 degrees.
    (e) Except for commuter category, airplanes may be type certificated 
in more than one category if the requirements of each requested category 
are met.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-4, 32 
FR 5934, Apr. 14, 1967; Amdt. 23-34, 52 FR 1825, Jan. 15, 1987; 52 FR 
34745, Sept. 14, 1987; Amdt. 23-50, 61 FR 5183, Feb. 9, 1996]



                            Subpart B--Flight

                                 General



Sec. 23.21  Proof of compliance.

    (a) Each requirement of this subpart must be met at each appropriate 
combination of weight and center of gravity within the range of loading 
conditions for which certification is requested. This must be shown--
    (1) By tests upon an airplane of the type for which certification is 
requested, or by calculations based on, and equal in accuracy to, the 
results of testing; and
    (2) By systematic investigation of each probable combination of 
weight and center of gravity, if compliance cannot be reasonably 
inferred from combinations investigated.
    (b) The following general tolerances are allowed during flight 
testing. However, greater tolerances may be allowed in particular tests:

------------------------------------------------------------------------
                   Item                               Tolerance
------------------------------------------------------------------------
Weight....................................  +5%, -10%.
Critical items affected by weight.........  +5%, -1%.
C.G.......................................  plus-minus7% total travel.
------------------------------------------------------------------------



Sec. 23.23  Load distribution limits.

    (a) Ranges of weights and centers of gravity within which the 
airplane may be safely operated must be established. If a weight and 
center of gravity combination is allowable only within certain lateral 
load distribution limits that could be inadvertently exceeded, these 
limits must be established for the corresponding weight and center of 
gravity combinations.
    (b) The load distribution limits may not exceed any of the 
following:
    (1) The selected limits;
    (2) The limits at which the structure is proven; or
    (3) The limits at which compliance with each applicable flight 
requirement of this subpart is shown.

[Doc. No. 26269, 58 FR 42156, Aug. 6, 1993]



Sec. 23.25  Weight limits.

    (a) Maximum weight. The maximum weight is the highest weight at 
which compliance with each applicable requirement of this part (other 
than those complied with at the design landing weight) is shown. The 
maximum weight must be established so that it is--
    (1) Not more than the least of--
    (i) The highest weight selected by the applicant; or
    (ii) The design maximum weight, which is the highest weight at which 
compliance with each applicable structural loading condition of this 
part (other than those complied with at the design landing weight) is 
shown; or
    (iii) The highest weight at which compliance with each applicable 
flight requirement is shown, and
    (2) Not less than the weight with--
    (i) Each seat occupied, assuming a weight of 170 pounds for each 
occupant for normal and commuter category airplanes, and 190 pounds for 
utility and acrobatic category airplanes, except

[[Page 180]]

that seats other than pilot seats may be placarded for a lesser weight; 
and
    (A) Oil at full capacity, and
    (B) At least enough fuel for maximum continuous power operation of 
at least 30 minutes for day-VFR approved airplanes and at least 45 
minutes for night-VFR and IFR approved airplanes; or
    (ii) The required minimum crew, and fuel and oil to full tank 
capacity.
    (b) Minimum weight. The minimum weight (the lowest weight at which 
compliance with each applicable requirement of this part is shown) must 
be established so that it is not more than the sum of--
    (1) The empty weight determined under Sec. 23.29;
    (2) The weight of the required minimum crew (assuming a weight of 
170 pounds for each crewmember); and
    (3) The weight of--
    (i) For turbojet powered airplanes, 5 percent of the total fuel 
capacity of that particular fuel tank arrangement under investigation, 
and
    (ii) For other airplanes, the fuel necessary for one-half hour of 
operation at maximum continuous power.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13086, Aug. 13, 1969; Amdt. 23-21, 43 FR 2317, Jan. 16, 1978; Amdt. 
23-34, 52 FR 1825, Jan. 15, 1987; Amdt. 23-45, 58 FR 42156, Aug. 6, 
1993; Amdt. 23-50, 61 FR 5183, Feb. 9, 1996]



Sec. 23.29  Empty weight and corresponding center of gravity.

    (a) The empty weight and corresponding center of gravity must be 
determined by weighing the airplane with--
    (1) Fixed ballast;
    (2) Unusable fuel determined under Sec. 23.959; and
    (3) Full operating fluids, including--
    (i) Oil;
    (ii) Hydraulic fluid; and
    (iii) Other fluids required for normal operation of airplane 
systems, except potable water, lavatory precharge water, and water 
intended for injection in the engines.
    (b) The condition of the airplane at the time of determining empty 
weight must be one that is well defined and can be easily repeated.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-21, 43 FR 2317, Jan. 16, 1978]



Sec. 23.31  Removable ballast.

    Removable ballast may be used in showing compliance with the flight 
requirements of this subpart, if--
    (a) The place for carrying ballast is properly designed and 
installed, and is marked under Sec. 23.1557; and
    (b) Instructions are included in the airplane flight manual, 
approved manual material, or markings and placards, for the proper 
placement of the removable ballast under each loading condition for 
which removable ballast is necessary.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-13, 37 FR 20023, Sept. 23, 1972]



Sec. 23.33  Propeller speed and pitch limits.

    (a) General. The propeller speed and pitch must be limited to values 
that will assure safe operation under normal operating conditions.
    (b) Propellers not controllable in flight. For each propeller whose 
pitch cannot be controlled in flight--
    (1) During takeoff and initial climb at the all engine(s) operating 
climb speed specified in Sec. 23.65, the propeller must limit the engine 
r.p.m., at full throttle or at maximum allowable takeoff manifold 
pressure, to a speed not greater than the maximum allowable takeoff 
r.p.m.; and
    (2) During a closed throttle glide, at VNE, the propeller 
may not cause an engine speed above 110 percent of maximum continuous 
speed.
    (c) Controllable pitch propellers without constant speed controls. 
Each propeller that can be controlled in flight, but that does not have 
constant speed controls, must have a means to limit the pitch range so 
that--
    (1) The lowest possible pitch allows compliance with paragraph 
(b)(1) of this section; and
    (2) The highest possible pitch allows compliance with paragraph 
(b)(2) of this section.

[[Page 181]]

    (d) Controllable pitch propellers with constant speed controls. Each 
controllable pitch propeller with constant speed controls must have--
    (1) With the governor in operation, a means at the governor to limit 
the maximum engine speed to the maximum allowable takeoff r.p.m.; and
    (2) With the governor inoperative, the propeller blades at the 
lowest possible pitch, with takeoff power, the airplane stationary, and 
no wind, either--
    (i) A means to limit the maximum engine speed to 103 percent of the 
maximum allowable takeoff r.p.m., or
    (ii) For an engine with an approved overspeed, a means to limit the 
maximum engine and propeller speed to not more than the maximum approved 
overspeed.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42156, Aug. 6, 1993; Amdt. 23-50, 61 FR 5183, Feb. 9, 1996]

                               Performance



Sec. 23.45  General.

    (a) Unless otherwise prescribed, the performance requirements of 
this part must be met for--
    (1) Still air and standard atmosphere; and
    (2) Ambient atmospheric conditions, for commuter category airplanes, 
for reciprocating engine-powered airplanes of more than 6,000 pounds 
maximum weight, and for turbine engine-powered airplanes.
    (b) Performance data must be determined over not less than the 
following ranges of conditions--
    (1) Airport altitudes from sea level to 10,000 feet; and
    (2) For reciprocating engine-powered airplanes of 6,000 pounds, or 
less, maximum weight, temperature from standard to 30  deg.C above 
standard; or
    (3) For reciprocating engine-powered airplanes of more than 6,000 
pounds maximum weight and turbine engine-powered airplanes, temperature 
from standard to 30  deg.C above standard, or the maximum ambient 
atmospheric temperature at which compliance with the cooling provisions 
of Sec. 23.1041 to Sec. 23.1047 is shown, if lower.
    (c) Performance data must be determined with the cowl flaps or other 
means for controlling the engine cooling air supply in the position used 
in the cooling tests required by Sec. 23.1041 to Sec. 23.1047.
    (d) The available propulsive thrust must correspond to engine power, 
not exceeding the approved power, less--
    (1) Installation losses; and
    (2) The power absorbed by the accessories and services appropriate 
to the particular ambient atmospheric conditions and the particular 
flight condition.
    (e) The performance, as affected by engine power or thrust, must be 
based on a relative humidity:
    (1) Of 80 percent at and below standard temperature; and
    (2) From 80 percent, at the standard temperature, varying linearly 
down to 34 percent at the standard temperature plus 50  deg.F.
    (f) Unless otherwise prescribed, in determining the takeoff and 
landing distances, changes in the airplane's configuration, speed, and 
power must be made in accordance with procedures established by the 
applicant for operation in service. These procedures must be able to be 
executed consistently by pilots of average skill in atmospheric 
conditions reasonably expected to be encountered in service.
    (g) The following, as applicable, must be determined on a smooth, 
dry, hard-surfaced runway--
    (1) Takeoff distance of Sec. 23.53(b);
    (2) Accelerate-stop distance of Sec. 23.55;
    (3) Takeoff distance and takeoff run of Sec. 23.59; and
    (4) Landing distance of Sec. 23.75.
    Note: The effect on these distances of operation on other types of 
surfaces (for example, grass, gravel) when dry, may be determined or 
derived and these surfaces listed in the Airplane Flight Manual in 
accordance with Sec. 23.1583(p).
    (h) For commuter category airplanes, the following also apply:
    (1) Unless otherwise prescribed, the applicant must select the 
takeoff, enroute, approach, and landing configurations for the airplane.
    (2) The airplane configuration may vary with weight, altitude, and 
temperature, to the extent that they are compatible with the operating 
procedures required by paragraph (h)(3) of this section.

[[Page 182]]

    (3) Unless otherwise prescribed, in determining the critical-engine-
inoperative takeoff performance, takeoff flight path, and accelerate-
stop distance, changes in the airplane's configuration, speed, and power 
must be made in accordance with procedures established by the applicant 
for operation in service.
    (4) Procedures for the execution of discontinued approaches and 
balked landings associated with the conditions prescribed in 
Sec. 23.67(c)(4) and Sec. 23.77(c) must be established.
    (5) The procedures established under paragraphs (h)(3) and (h)(4) of 
this section must--
    (i) Be able to be consistently executed by a crew of average skill 
in atmospheric conditions reasonably expected to be encountered in 
service;
    (ii) Use methods or devices that are safe and reliable; and
    (iii) Include allowance for any reasonably expected time delays in 
the execution of the procedures.

[Doc. No. 27807, 61 FR 5184, Feb. 9, 1996]



Sec. 23.49  Stalling period.

    (a) VSO and VS1 are the stalling speeds or the 
minimum steady flight speeds, in knots (CAS), at which the airplane is 
controllable with--
    (1) For reciprocating engine-powered airplanes, the engine(s) 
idling, the throttle(s) closed or at not more than the power necessary 
for zero thrust at a speed not more than 110 percent of the stalling 
speed;
    (2) For turbine engine-powered airplanes, the propulsive thrust not 
greater than zero at the stalling speed, or, if the resultant thrust has 
no appreciable effect on the stalling speed, with engine(s) idling and 
throttle(s) closed;
    (3) The propeller(s) in the takeoff position;
    (4) The airplane in the condition existing in the test, in which 
VSO and VS1 are being used;
    (5) The center of gravity in the position that results in the 
highest value of VSO and VS1; and
    (6) The weight used when VSO and VS1 are being 
used as a factor to determine compliance with a required performance 
standard.
    (b) VSO and VS1 must be determined by flight 
tests, using the procedure and meeting the flight characteristics 
specified in Sec. 23.201.
    (c) Except as provided in paragraph (d) of this section, 
VSO and VS1 at maximum weight must not exceed 61 
knots for--
    (1) Single-engine airplanes; and
    (2) Multiengine airplanes of 6,000 pounds or less maximum weight 
that cannot meet the minimum rate of climb specified in Sec. 23.67(a) 
(1) with the critical engine inoperative.
    (d) All single-engine airplanes, and those multiengine airplanes of 
6,000 pounds or less maximum weight with a VSO of more than 
61 knots that do not meet the requirements of Sec. 23.67(a)(1), must 
comply with Sec. 23.562(d).

[Doc. No. 27807, 61 FR 5184, Feb. 9, 1996]



Sec. 23.51  Takeoff speeds.

    (a) For normal, utility, and acrobatic category airplanes, rotation 
speed, VR, is the speed at which the pilot makes a control 
input, with the intention of lifting the airplane out of contact with 
the runway or water surface.
    (1) For multiengine landplanes, VR, must not be less than 
the greater of 1.05 VMC; or 1.10 VS1;
    (2) For single-engine landplanes, VR, must not be less 
than VS1; and
    (3) For seaplanes and amphibians taking off from water, 
VR, may be any speed that is shown to be safe under all 
reasonably expected conditions, including turbulence and complete 
failure of the critical engine.
    (b) For normal, utility, and acrobatic category airplanes, the speed 
at 50 feet above the takeoff surface level must not be less than:
    (1) or multiengine airplanes, the highest of--
    (i) A speed that is shown to be safe for continued flight (or 
emergency landing, if applicable) under all reasonably expected 
conditions, including turbulence and complete failure of the critical 
engine;
    (ii) 1.10 VMC; or
    (iii) 1.20 VS1.
    (2) For single-engine airplanes, the higher of--
    (i) A speed that is shown to be safe under all reasonably expected 
conditions, including turbulence and complete engine failure; or
    (ii) 1.20 VS1.

[[Page 183]]

    (c) For commuter category airplanes, the following apply:
    (l) V1 must be established in relation to VEF 
as follows:
    (i) VEF is the calibrated airspeed at which the critical 
engine is assumed to fail. VEF must be selected by the 
applicant but must not be less than 1.05 VMC determined under 
Sec. 23.149(b) or, at the option of the applicant, not less than 
VMCG determined under Sec. 23.149(f).
    (ii) The takeoff decision speed, V1, is the calibrated 
airspeed on the ground at which, as a result of engine failure or other 
reasons, the pilot is assumed to have made a decision to continue or 
discontinue the takeoff. The takeoff decision speed, V1, must 
be selected by the applicant but must not be less than VEF 
plus the speed gained with the critical engine inoperative during the 
time interval between the instant at which the critical engine is failed 
and the instant at which the pilot recognizes and reacts to the engine 
failure, as indicated by the pilot's application of the first retarding 
means during the accelerate-stop determination of Sec. 23.55.
    (2) The rotation speed, VR, in terms of calibrated 
airspeed, must be selected by the applicant and must not be less than 
the greatest of the following:
    (i) V1;
    (ii) 1.05 VMC determined under Sec. 23.149(b);
    (iii) 1.10 VS1; or
    (iv) The speed that allows attaining the initial climb-out speed, 
V2, before reaching a height of 35 feet above the takeoff 
surface in accordance with Sec. 23.57(c)(2).
    (3) For any given set of conditions, such as weight, altitude, 
temperature, and configuration, a single value of VR must be 
used to show compliance with both the one-engine-inoperative takeoff and 
all-engines-operating takeoff requirements.
    (4) The takeoff safety speed, V2, in terms of calibrated 
airspeed, must be selected by the applicant so as to allow the gradient 
of climb required in Sec. 23.67 (c)(1) and (c)(2) but mut not be less 
than 1.10 VMC or less than 1.20 VS1.
    (5) The one-engine-inoperative takeoff distance, using a normal 
rotation rate at a speed 5 knots less than VR, established in 
accordance with paragraph (c)(2) of this section, must be shown not to 
exceed the corresponding one-engine-inoperative takeoff distance, 
determined in accordance with Sec. 23.57 and Sec. 23.59(a)(1), using the 
established VR. The takeoff, otherwise performed in 
accordance with Sec. 23.57, must be continued safely from the point at 
which the airplane is 35 feet above the takeoff surface and at a speed 
not less than the established V2 minus 5 knots.
    (6) The applicant must show, with all engines operating, that marked 
increases in the scheduled takeoff distances, determined in accordance 
with Sec. 23.59(a)(2), do not result from over-rotation of the airplane 
or out-of-trim conditions.

[Doc. No. 27807, 61 FR 5184, Feb. 9, 1996]



Sec. 23.53  Takeoff performance.

    (a) For normal, utility, and acrobatic category airplanes, the 
takeoff distance must be determined in accordance with paragraph (b) of 
this section, using speeds determined in accordance with Sec. 23.51 (a) 
and (b).
    (b) For normal, utility, and acrobatic category airplanes, the 
distance required to takeoff and climb to a height of 50 feet above the 
takeoff surface must be determined for each weight, altitude, and 
temperature within the operational limits established for takeoff with--
    (1) Takeoff power on each engine;
    (2) Wing flaps in the takeoff position(s); and
    (3) Landing gear extended.
    (c) For commuter category airplanes, takeoff performance, as 
required by Secs. 23.55 through 23.59, must be determined with the 
operating engine(s) within approved operating limitations.

[Doc. No. 27807, 61 FR 5185, Feb. 9, 1996]



Sec. 23.55  Accelerate-stop distance.

    For each commuter category airplane, the accelerate-stop distance 
must be determined as follows:
    (a) The accelerate-stop distance is the sum of the distances 
necessary to--
    (1) Accelerate the airplane from a standing start to VEF 
with all engines operating;
    (2) Accelerate the airplane from VEF to V1, 
assuming the critical engine fails at VEF; and

[[Page 184]]

    (3) Come to a full stop from the point at which V1 is 
reached.
    (b) Means other than wheel brakes may be used to determine the 
accelerate-stop distances if that means--
    (1) Is safe and reliable;
    (2) Is used so that consistent results can be expected under normal 
operating conditions; and
    (3) Is such that exceptional skill is not required to control the 
airplane.

[Amdt. 23-34, 52 FR 1826, Jan. 15, 1987, as amended by Amdt. 23-50, 61 
FR 5185, Feb. 9, 1996]



Sec. 23.57  Takeoff path.

    For each commuter category airplane, the takeoff path is as follows:
    (a) The takeoff path extends from a standing start to a point in the 
takeoff at which the airplane is 1500 feet above the takeoff surface at 
or below which height the transition from the takeoff to the enroute 
configuration must be completed; and
    (1) The takeoff path must be based on the procedures prescribed in 
Sec. 23.45;
    (2) The airplane must be accelerated on the ground to VEF 
at which point the critical engine must be made inoperative and remain 
inoperative for the rest of the takeoff; and
    (3) After reaching VEF, the airplane must be accelerated 
to V2.
    (b) During the acceleration to speed V2, the nose gear 
may be raised off the ground at a speed not less than VR. 
However, landing gear retraction must not be initiated until the 
airplane is airborne.
    (c) During the takeoff path determination, in accordance with 
paragraphs (a) and (b) of this section--
    (1) The slope of the airborne part of the takeoff path must not be 
negative at any point;
    (2) The airplane must reach V2 before it is 35 feet above 
the takeoff surface, and must continue at a speed as close as practical 
to, but not less than V2, until it is 400 feet above the 
takeoff surface;
    (3) At each point along the takeoff path, starting at the point at 
which the airplane reaches 400 feet above the takeoff surface, the 
available gradient of climb must not be less than--
    (i) 1.2 percent for two-engine airplanes;
    (ii) 1.5 percent for three-engine airplanes;
    (iii) 1.7 percent for four-engine airplanes; and
    (4) Except for gear retraction and automatic propeller feathering, 
the airplane configuration must not be changed, and no change in power 
that requires action by the pilot may be made, until the airplane is 400 
feet above the takeoff surface.
    (d) The takeoff path to 35 feet above the takeoff surface must be 
determined by a continuous demonstrated takeoff.
    (e) The takeoff path to 35 feet above the takeoff surface must be 
determined by synthesis from segments; and
    (1) The segments must be clearly defined and must be related to 
distinct changes in configuration, power, and speed;
    (2) The weight of the airplane, the configuration, and the power 
must be assumed constant throughout each segment and must correspond to 
the most critical condition prevailing in the segment; and
    (3) The takeoff flight path must be based on the airplane's 
performance without utilizing ground effect.

[Amdt. 23-34, 52 FR 1827, Jan. 15, 1987, as amended by Amdt. 23-50, 61 
FR 5185, Feb. 9, 1996]



Sec. 23.59  Takeoff distance and takeoff run.

    For each commuter category airplane, the takeoff distance and, at 
the option of the applicant, the takeoff run, must be determined.
    (a) Takeoff distance is the greater of--
    (1) The horizontal distance along the takeoff path from the start of 
the takeoff to the point at which the airplane is 35 feet above the 
takeoff surface as determined under Sec. 23.57; or
    (2) With all engines operating, 115 percent of the horizontal 
distance from the start of the takeoff to the point at which the 
airplane is 35 feet above the takeoff surface, determined by a procedure 
consistent with Sec. 23.57.
    (b) If the takeoff distance includes a clearway, the takeoff run is 
the greater of--
    (1) The horizontal distance along the takeoff path from the start of 
the takeoff to a point equidistant between the

[[Page 185]]

liftoff point and the point at which the airplane is 35 feet above the 
takeoff surface as determined under Sec. 23.57; or
    (2) With all engines operating, 115 percent of the horizontal 
distance from the start of the takeoff to a point equidistant between 
the liftoff point and the point at which the airplane is 35 feet above 
the takeoff surface, determined by a procedure consistent with 
Sec. 23.57.

[Amdt. 23-34, 52 FR 1827, Jan. 15, 1987, as amended by Amdt. 23-50, 61 
FR 5185, Feb. 9, 1996]



Sec. 23.61  Takeoff flight path.

    For each commuter category airplane, the takeoff flight path must be 
determined as follows:
    (a) The takeoff flight path begins 35 feet above the takeoff surface 
at the end of the takeoff distance determined in accordance with 
Sec. 23.59.
    (b) The net takeoff flight path data must be determined so that they 
represent the actual takeoff flight paths, as determined in accordance 
with Sec. 23.57 and with paragraph (a) of this section, reduced at each 
point by a gradient of climb equal to--
    (1) 0.8 percent for two-engine airplanes;
    (2) 0.9 percent for three-engine airplanes; and
    (3) 1.0 percent for four-engine airplanes.
    (c) The prescribed reduction in climb gradient may be applied as an 
equivalent reduction in acceleration along that part of the takeoff 
flight path at which the airplane is accelerated in level flight.

[Amdt. 23-34, 52 FR 1827, Jan. 15, 1987]



Sec. 23.63  Climb: General.

    (a) Compliance with the requirements of Secs. 23.65, 23.66, 23.67, 
23.69, and 23.77 must be shown--
    (1) Out of ground effect; and
    (2) At speeds that are not less than those at which compliance with 
the powerplant cooling requirements of Secs. 23.1041 to 23.1047 has been 
demonstrated; and
    (3) Unless otherwise specified, with one engine inoperative, at a 
bank angle not exceeding 5 degrees.
    (b) For normal, utility, and acrobatic category reciprocating 
engine-powered airplanes of 6,000 pounds or less maximum weight, 
compliance must be shown with Sec. 23.65(a), Sec. 23.67(a), where 
appropriate, and Sec. 23.77(a) at maximum takeoff or landing weight, as 
appropriate, in a standard atmosphere.
    (c) For normal, utility, and acrobatic category reciprocating 
engine-powered airplanes of more than 6,000 pounds maximum weight, and 
turbine engine-powered airplanes in the normal, utility, and acrobatic 
category, compliance must be shown at weights as a function of airport 
altitude and ambient temperature, within the operational limits 
established for takeoff and landing, respectively, with--
    (1) Sections 23.65(b) and 23.67(b) (1) and (2), where appropriate, 
for takeoff, and
    (2) Section 23.67(b)(2), where appropriate, and Sec. 23.77(b), for 
landing.
    (d) For commuter category airplanes, compliance must be shown at 
weights as a function of airport altitude and ambient temperature within 
the operational limits established for takeoff and landing, 
respectively, with--
    (1) Sections 23.67(c)(1), 23.67(c)(2), and 23.67(c)(3) for takeoff; 
and
    (2) Sections 23.67(c)(3), 23.67(c)(4), and 23.77(c) for landing.

[Doc. No. 27807, 61 FR 5186, Feb. 9, 1996]



Sec. 23.65  Climb: All engines operating.

    (a) Each normal, utility, and acrobatic category reciprocating 
engine-powered airplane of 6,000 pounds or less maximum weight must have 
a steady climb gradient at sea level of at least 8.3 percent for 
landplanes or 6.7 percet for seaplanes and amphibians with--
    (1) Not more than maximum continuous power on each engine;
    (2) The landing gear retracted;
    (3) The wing flaps in the takeoff position(s); and
    (4) A climb speed not less than the greater of 1.1 VMC 
and 1.2 VS1 for multiengine airplanes and not less than 1.2 
VS1 for single--engine airplanes.
    (b) Each normal, utility, and acrobatic category reciprocating 
engine-powered airplane of more than 6,000 pounds maximum weight and 
turbine engine-powered airplanes in the normal, utility, and acrobatic 
category

[[Page 186]]

must have a steady gradient of climb after takeoff of at least 4 percent 
with
    (1) Take off power on each engine;
    (2) The landing gear extended, except that if the landing gear can 
be retracted in not more than sven seconds, the test may be conducted 
with the gear retracted;
    (3) The wing flaps in the takeoff position(s); and
    (4) A climb speed as specified in Sec. 23.65(a)(4).

[Doc. No. 27807, 61 FR 5186, Feb. 9, 1996]



Sec. 23.66  Takeoff climb: One-engine inoperative.

    For normal, utility, and acrobatic category reciprocating engine-
powered airplanes of more than 6,000 pounds maximum weight, and turbine 
engine-powered airplanes in the normal, utility, and acrobatic category, 
the steady gradient of climb or descent must be determined at each 
weight, altitude, and ambient temperature within the operational limits 
established by the applicant with--
    (a) The critical engine inoperative and its propeller in the 
position it rapidly and automatically assumes;
    (b) The remaining engine(s) at takeoff power;
    (c) The landing gear extended, except that if the landing gear can 
be retracted in not more than seven seconds, the test may be conducted 
with the gear retracted;
    (d) The wing flaps in the takeoff position(s):
    (e) The wings level; and
    (f) A climb speed equal to that achieved at 50 feet in the 
demonstration of Sec. 23.53.

[Doc. No. 27807, 61 FR 5186, Feb. 9, 1996]



Sec. 23.67  Climb: One engine inoperative.

    (a) For normal, utility, and acrobatic category reciprocating 
engine-powered airplanes of 6,000 pounds or less maximum weight, the 
following apply:
    (1) Except for those airplanes that meet the requirements prescribed 
in Sec. 23.562(d), each airplane with a VSO of more than 61 
knots must be able to maintain a steady climb gradient of at least 1.5 
percent at a pressure altitude of 5,000 feet with the--
    (i) Critical engine inoperative and its propeller in the minimum 
drag position;
    (ii) Remaining engine(s) at not more than maximum continuous power;
    (iii) Landing gear retracted;
    (iv) Wing flaps retracted; and
    (v) Climb speed not less than 1.2 VS1.
    (2) For each airplane that meets the requirements prescribed in 
Sec. 23.562(d), or that has a VSO of 61 knots or less, the 
steady gradient of climb or descent at a pressure altitude of 5,000 feet 
must be determined with the--
    (i) Critical engine inoperative and its propeller in the minimum 
drag position;
    (ii) Remaining engine(s) at not more than maximum continuous power;
    (iii) Landing gear retracted;
    (iv) Wing flaps retracted; and
    (v) Climb speed not less than 1.2VS1.
    (b) For normal, utility, and acrobatic category reciprocating 
engine-powered airplanes of more than 6,000 pounds maximum weight, and 
turbine engine-powered airplanes in the normal, utility, and acrobatic 
category--
    (1) The steady gradient of climb at an altitude of 400 feet above 
the takeoff must be measurably positive with the--
    (i) Critical engine inoperative and its propeller in the minimum 
drag position;
    (ii) Remaining engine(s) at takeoff power;
    (iii) Landing gear retracted;
    (iv) Wing flaps in the takeoff position(s); and
    (v) Climb speed equal to that achieved at 50 feet in the 
demonstration of Sec. 23.53.
    (2) The steady gradient of climb must not be less than 0.75 percent 
at an altitude of 1,500 feet above the takeoff surface, or landing 
surface, as appropriate, with the--
    (i) Critical engine inoperative and its propeller in the minimum 
drag position;
    (ii) Remaining engine(s) at not more than maximum continuous power;
    (iii) Landing gear retracted;
    (iv) Wing flaps retracted; and
    (v) Climb speed not less than 1.2 VS1.
    (c) For commuter category airplanes, the following apply:
    (1) Takeoff; landing gear extended. The steady gradient of climb at 
the altitude

[[Page 187]]

of the takeoff surface must be measurably positive for two-engine 
airplanes, not less than 0.3 percent for three-engine airplanes, or 0.5 
percent for four-engine airplanes with--
    (i) The critical engine inoperative and its propeller in the 
position it rapidly and automatically assumes;
    (ii) The remaining engine(s) at takeoff power;
    (iii) The landing gear extended, and all landing gear doors open;
    (iv) The wing flaps in the takeoff position(s);
    (v) The wings level; and
    (vi) A climb speed equal to V2.
    (2) Takeoff; landing gear retracted. The steady gradient of climb at 
an altitude of 400 feet above the takeoff surface must be not less than 
2.0 percent of two-engine airplanes, 2.3 percent for three-engine 
airplanes, and 2.6 percent for four-engine airplanes with--
    (i) The critical engine inoperative and its propeller in the 
position it rapidly and automatically assumes;
    (ii) The remaining engine(s) at takeoff power;
    (iii) The landing gear retracted;
    (iv) The wing flaps in the takeoff position(s);
    (v) A climb speed equal to V2.
    (3) Enroute. The steady gradient of climb at an altitude of 1,500 
feet above the takeoff or landing surface, as appropriate, must be not 
less than 1.2 percent for two-engine airplanes, 1.5 percent for three-
engine airplanes, and 1.7 percent for four-engine airplanes with--
    (i) The critical engine inoperative and its propeller in the minimum 
drag position;
    (ii) The remaining engine(s) at not more than maximum continuous 
power;
    (iii) The landing gear retracted;
    (iv) The wing flaps retracted; and
    (v) A climb speed not less than 1.2 VS1.
    (4) Discontinued approach. The steady gradient of climb at an 
altitude of 400 feet above the landing surface must be not less than 2.1 
percent for two-engine airplanes, 2.4 percent for three-engine 
airplanes, and 2.7 percent for four-engine airplanes, with--
    (i) The critical engine inoperative and its propeller in the minimum 
drag position;
    (ii) The remaining engine(s) at takeoff power;
    (iii) Landing gear retracted;
    (iv) Wing flaps in the approach position(s) in which VS1 
for these position(s) does not exceed 110 percent of the VS1 
for the related all-engines-operated landing position(s); and
    (v) A climb speed established in connection with normal landing 
procedures but not exceeding 1.5 VS1.

[Doc. No. 27807, 61 FR 5186, Feb. 9, 1996]



Sec. 23.69  Enroute climb/descent.

    (a) All engines operating. The steady gradient and rate of climb 
must be determined at each weight, altitude, and ambient temperature 
within the operational limits established by the applicant with--
    (1) Not more than maximum continuous power on each engine;
    (2) The landing gear retracted;
    (3) The wing flaps retracted; and
    (4) A climb speed not less than 1.3 VS1.
    (b) One engine inoperative. The steady gradient and rate of climb/
descent must be determined at each weight, altitude, and ambient 
temperature within the operational limits established by the applicant 
with--
    (1) The critical engine inoperative and its propeller in the minimum 
drag position;
    (2) The remaining engine(s) at not more than maximum continuous 
power;
    (3) The landing gear retracted;
    (4) The wing flaps retracted; and
    (5) A climb speed not less than 1.2 VS1.

[Doc. No. 27807, 61 FR 5187, Feb. 9, 1996]



Sec. 23.71  Glide: Single-engine airplanes.

    The maximum horizontal distance traveled in still air, in nautical 
miles, per 1,000 feet of altitude lost in a glide, and the speed 
necessary to achieve this must be determined with the engine 
inoperative, its propeller in the minimum drag position, and landing 
gear and wing flaps in the most favorable available position.

[Doc. No. 27807, 61 FR 5187, Feb. 9, 1996]

[[Page 188]]



Sec. 23.73  Reference landing approach speed.

    (a) For normal, utility, and acrobatic category reciprocating 
engine-powered airplanes of 6,000 pounds or less maximum weight, the 
reference landing approach speed, VREF, must not be less than 
the greater of VMC, determined in Sec. 23.149(b) with the 
wing flaps in the most extended takeoff position, and 1.3 
VSO.
    (b) For normal, utility, and acrobatic category reciprocating 
engine-powered airplanes of more than 6,000 pounds maximum weight, and 
turbine engine-powered airplanes in the normal, utility, and acrobatic 
category, the reference landing approach speed, VREF, must 
not be less than the greater of VMC, determined in 
Sec. 23.149(c), and 1.3 VSO.
    (c) For commuter category airplanes, the reference landing approach 
speed, VREF, must not be less than the greater of 1.05 
VMC, determined in Sec. 23.149(c), and 1.3 VSO.

[Doc. No. 27807, 61 FR 5187, Feb. 9, 1996]



Sec. 23.75  Landing distance.

    The horizontal distance necessary to land and come to a complete 
stop from a point 50 feet above the landing surface must be determined, 
for standard temperatures at each weight and altitude within the 
operational limits established for landing, as follows:
    (a) A steady approach at not less than VREF, determined 
in accordance with Sec. 23.73 (a), (b), or (c), as appropriate, must be 
maintained down to the 50 foot height and--
    (1) The steady approach must be at a gradient of descent not greater 
than 5.2 percent (3 degrees) down to the 50-foot height.
    (2) In addition, an applicant may demonstrate by tests that a 
maximum steady approach gradient steeper than 5.2 percent, down to the 
50-foot height, is safe. The gradient must be established as an 
operating limitation and the information necessary to display the 
gradient must be available to the pilot by an appropriate instrument.
    (b) A constant configuration must be maintained throughout the 
maneuver.
    (c) The landing must be made without excessive vertical acceleration 
or tendency to bounce, nose over, ground loop, porpoise, or water loop.
    (d) It must be shown that a safe transition to the balked landing 
conditions of Sec. 23.77 can be made from the conditions that exist at 
the 50 foot height, at maximum landing weight, or at the maximum landing 
weight for altitude and temperature of Sec. 23.63 (c)(2) or (d)(2), as 
appropriate.
    (e) The brakes must be used so as to not cause excessive wear of 
brakes or tires.
    (f) Retardation means other than wheel brakes may be used if that 
means--
    (1) Is safe and reliable; and
    (2) Is used so that consistent results can be expected in service.
    (g) If any device is used that depends on the operation of any 
engine, and the landing distance would be increased when a landing is 
made with that engine inoperative, the landing distance must be 
determined with that engine inoperative unless the use of other 
compensating means will result in a landing distance not more than that 
with each engine operating.

[Amdt. 23-21, 43 FR 2318, Jan. 16, 1978, as amended by Amdt. 23-34, 52 
FR 1828, Jan. 15, 1987; Amdt. 23-42, 56 FR 351, Jan. 3, 1991; Amdt. 23-
50, 61 FR 5187, Feb. 9, 1996]



Sec. 23.77  Balked landing.

    (a) Each normal, utility, and acrobatic category reciprocating 
engine-powered airplane at 6,000 pounds or less maximum weight must be 
able to maintain a steady gradient of climb at sea level of at least 3.3 
percent with--
    (1) Takeoff power on each engine;
    (2) The landing gear extended;
    (3) The wing flaps in the landing position, except that if the flaps 
may safely be retracted in two seconds or less without loss of altitude 
and without sudden changes of angle of attack, they may be retracted; 
and
    (4) A climb speed equal to VREF, as defined in 
Sec. 23.73(a).
    (b) Each normal, utility, and acrobatic category reciprocating 
engine-powered airplane of more than 6,000 pounds maximum weight and 
each normal, utility, and acrobatic category turbine engine-powered 
airplane must be able to maintain a steady gradient of climb of at least 
2.5 percent with--

[[Page 189]]

    (1) Not more than the power that is available on each engine eight 
seconds after initiation of movement of the power controls from minimum 
flight-idle position;
    (2) The landing gear extended;
    (3) The wing flaps in the landing position; and
    (4) A climb speed equal to VREF, as defined in 
Sec. 23.73(b).
    (c) Each commuter category airplane must be able to maintain a 
steady gradient of climb of at least 3.2 percent with--
    (1) Not more than the power that is available on each engine eight 
seconds after initiation of movement of the power controls from the 
minimum flight idle position;
    (2) Landing gear extended;
    (3) Wing flaps in the landing position; and
    (4) A climb speed equal to VREF, as defined in 
Sec. 23.73(c).

[Doc. No. 27807, 61 FR 5187, Feb. 9, 1996]

                         Flight Characteristics



Sec. 23.141  General.

    The airplane must meet the requirements of Secs. 23.143 through 
23.253 at all practical loading conditions and operating altitudes for 
which certification has been requested, not exceeding the maximum 
operating altitude established under Sec. 23.1527, and without requiring 
exceptional piloting skill, alertness, or strength.

[Doc. No. 26269, 58 FR 42156, Aug. 6, 1993]

                   Controllability and Maneuverability



Sec. 23.143  General.

    (a) The airplane must be safely controllable and maneuverable during 
all flight phases including--
    (1) Takeoff;
    (2) Climb;
    (3) Level flight;
    (4) Descent;
    (5) Go-around; and
    (6) Landing (power on and power off) with the wing flaps extended 
and retracted.
    (b) It must be possible to make a smooth transition from one flight 
condition to another (including turns and slips) without danger of 
exceeding the limit load factor, under any probable operating condition 
(including, for multiengine airplanes, those conditions normally 
encountered in the sudden failure of any engine).
    (c) If marginal conditions exist with regard to required pilot 
strength, the control forces necessary must be determined by 
quantitative tests. In no case may the control forces under the 
conditions specified in paragraphs (a) and (b) of this section exceed 
those prescribed in the following table:

------------------------------------------------------------------------
    Values in pounds force applied to the
               relevant control                 Pitch     Roll     Yaw
------------------------------------------------------------------------
(a) For temporary application:
  Stick......................................       60       30  .......
  Wheel (Two hands on rim)...................       75       50  .......
  Wheel (One hand on rim)....................       50       25  .......
  Rudder Pedal...............................  .......  .......      150
(b) For prolonged application................       10        5       20
------------------------------------------------------------------------


[Doc. No, 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31819, Nov. 19, 1973; Amdt. 23-17, 41 FR 55464, Dec. 20, 1976; 
Amdt. 23-45, 58 FR 42156, Aug. 6, 1993; Amdt. 23-50, 61 FR 5188, Feb. 9, 
1996]



Sec. 23.145  Longitudinal control.

    (a) With the airplane as nearly as possible in trim at 1.3 
VS1, it must be possible, at speeds below the trim speed, to 
pitch the nose downward so that the rate of increase in airspeed allows 
prompt acceleration to the trim speed with--
    (1) Maximum continuous power on each engine;
    (2) Power off; and
    (3) Wing flap and landing gear--
    (i) retracted, and
    (ii) extended.
    (b) Unless otherwise required, it must be possible to carry out the 
following maneuvers without requiring the application of single-handed 
control forces exceeding those specified in Sec. 23.143(c). The trimming 
controls must not be adjusted during the maneuvers:
    (1) With the landing gear extended, the flaps retracted, and the 
airplanes as nearly as possible in trim at 1.4 VS1, extend 
the flaps as rapidly as possible and allow the airspeed to transition 
from 1.4VS1 to 1.4 VSO:
    (i) With power off; and
    (ii) With the power necessary to maintain level flight in the 
initial condition.

[[Page 190]]

    (2) With landing gear and flaps extended, power off, and the 
airplane as nearly as possible in trim at 1.3 VSO, quickly 
apply takeoff power and retract the flaps as rapidly as possible to the 
recommended go around setting and allow the airspeed to transition from 
1.3 VSO to 1.3 VS1. Retract the gear when a 
positive rate of climb is established.
    (3) With landing gear and flaps extended, in level flight, power 
necessary to attain level flight at 1.1 VSO, and the airplane 
as nearly as possible in trim, it must be possible to maintain 
approximately level flight while retracting the flaps as rapidly as 
possible with simultaneous application of not more than maximum 
continuous power. If gated flat positions are provided, the flap 
retraction may be demonstrated in stages with power and trim reset for 
level flight at 1.1 VS1, in the initial configuration for 
each stage--
    (i) From the fully extended position to the most extended gated 
position;
    (ii) Between intermediate gated positions, if applicable; and
    (iii) From the least extended gated position to the fully retracted 
position.
    (4) With power off, flaps and landing gear retracted and the 
airplane as nearly as possible in trim at 1.4 VS1, apply 
takeoff power rapidly while maintaining the same airspeed.
    (5) With power off, landing gear and flaps extended, and the 
airplane as nearly as possible in trim at VREF, obtain and 
maintain airspeeds between 1.1 VSO, and either 1.7 
VSO or VFE, whichever is lower without requiring 
the application of two-handed control forces exceeding those specified 
in Sec. 23.143(c).
    (6) With maximum takeoff power, landing gear retracted, flaps in the 
takeoff position, and the airplane as nearly as possible in trim at 
VFE appropriate to the takeoff flap position, retract the 
flaps as rapidly as possible while maintaining constant speed.
    (c) At speeds above VMO/MMO, and up to the 
maximum speed shown under Sec. 23.251, a maneuvering capability of 1.5 g 
must be demonstrated to provide a margin to recover from upset or 
inadvertent speed increase.
    (d) It must be possible, with a pilot control force of not more than 
10 pounds, to maintain a speed of not more than VREF during a 
power-off glide with landing gear and wing flaps extended, for any 
weight of the airplane, up to and including the maximum weight.
    (e) By using normal flight and power controls, except as otherwise 
noted in paragraphs (e)(1) and (e)(2) of this section, it must be 
possible to establish a zero rate of descent at an attitude suitable for 
a controlled landing without exceeding the operational and structural 
limitations of the airplane, as follows:
    (1) For single-engine and multiengine airplanes, without the use of 
the primary longitudinal control system.
    (2) For multiengine airplanes--
    (i) Without the use of the primary directional control; and
    (ii) If a single failure of any one connecting or transmitting link 
would affect both the longitudinal and directional primary control 
system, without the primary longitudinal and directional control system.

[Doc. No. 26269, 58 FR 42157, Aug. 6, 1993; Amdt. 23-45, 58 FR 51970, 
Oct. 5, 1993, as amended by Amdt. 23-50, 61 FR 5188, Feb. 9, 1996]



Sec. 23.147  Directional and lateral control.

    (a) For each multiengine airplane, it must be possible, while 
holding the wings level within five degrees, to make sudden changes in 
heading safely in both directions. This ability must be shown at 1.4 
VS1 with heading changes up to 15 degrees, except that the 
heading change at which the rudder force corresponds to the limits 
specified in Sec. 23.143 need not be exceeded, with the--
    (1) Critical engine inoperative and its propeller in the minimum 
drag position;
    (2) Remaining engines at maximum continuous power;
    (3) Landing gear--
    (i) Retracted; and
    (ii) Extended; and
    (4) Flaps retracted.
    (b) For each multiengine airplane, it must be possible to regain 
full control of the airplane without exceeding a bank angle of 45 
degrees, reaching a dangerous attitude or encountering dangerous 
characteristics, in the event

[[Page 191]]

of a sudden and complete failure of the critical engine, making 
allowance for a delay of two seconds in the initiation of recovery 
action appropriate to the situation, with the airplane initially in 
trim, in the following condition:
    (1) Maximum continuous power on each engine;
    (2) The wing flaps retracted;
    (3) The landing gear retracted;
    (4) A speed equal to that at which compliance with Sec. 23.69(a) has 
been shown; and
    (5) All propeller controls in the position at which compliance with 
Sec. 23.69(a) has been shown.
    (c) For all airplanes, it must be shown that the airplane is safely 
controllable without the use of the primary lateral control system in 
any all-engine configuration(s) and at any speed or altitude within the 
approved operating envelope. It must also be shown that the airplane's 
flight characteristics are not impaired below a level needed to permit 
continued safe flight and the ability to maintain attitudes suitable for 
a controlled landing without exceeding the operational and structural 
limitations of the airplane. If a single failure of any one connecting 
or transmitting link in the lateral control system would also cause the 
loss of additional control system(s), compliance with the above 
requirement must be shown with those additional systems also assumed to 
be inoperative.

[Doc. No. 27807, 61 FR 5188, Feb. 9, 1996]



Sec. 23.149  Minimum control speed.

    (a) VMC is the calibrated airspeed at which, when the 
critical engine is suddenly made inoperative, it is possible to maintain 
control of the airplane with that engine still inoperative, and 
thereafter maintain straight flight at the same speed with an angle of 
bank of not more than 5 degrees. The method used to simulate critical 
engine failure must represent the most critical mode of powerplant 
failure expected in service with respect to controllability.
    (b) VMC for takeoff must not exceed 1.2 VS1, 
where VS1 is determined at the maximum takeoff weight. 
VMC must be determined with the most unfavorable weight and 
center of gravity position and with the airplane airborne and the ground 
effect negligible, for the takeoff configuration(s) with--
    (1) Maximum available takeoff power initially on each engine;
    (2) The airplane trimmed for takeoff;
    (3) Flaps in the takeoff position(s);
    (4) Landing gear retracted; and
    (5) All propeller controls in the recommended takeoff position 
throughout.
    (c) For all airplanes except reciprocating engine-powered airplanes 
of 6,000 pounds or less maximum weight, the conditions of paragraph (a) 
of this section must also be met for the landing configuration with--
    (1) Maximum available takeoff power initially on each engine;
    (2) The airplane trimmed for an approach, with all engines 
operating, at VREF, at an approach gradient equal to the 
steepest used in the landing distance demonstration of Sec. 23.75;
    (3) Flaps in the landing position;
    (4) Landing gear extended; and
    (5) All propeller controls in the position recommended for approach 
with all engines operating.
    (d) A minimum speed to intentionally render the critical engine 
inoperative must be established and designated as the safe, intentional, 
one-engine-inoperative speed, VSSE.
    (e) At VMC, the rudder pedal force required to maintain 
control must not exceed 150 pounds and it must not be necessary to 
reduce power of the operative engine(s). During the maneuver, the 
airplane must not assume any dangerous attitude and it must be possible 
to prevent a heading change of more than 20 degrees.
    (f) At the option of the applicant, to comply with the requirements 
of Sec. 23.51(c)(1), VMCG may be determined. VMCG 
is the minimum control speed on the ground, and is the calibrated 
airspeed during the takeoff run at which, when the critical engine is 
suddenly made inoperative, it is possible to maintain control of the 
airplane using the rudder control alone (without the use of nosewheel 
steering), as limited by 150 pounds of force, and using the lateral 
control to the extent of keeping the wings level to enable the takeoff 
to be safely continued. In the determination of VMCG, 
assuming that the path of

[[Page 192]]

the airplane accelerating with all engines operating is along the 
centerline of the runway, its path from the point at which the critical 
engine is made inoperative to the point at which recovery to a direction 
parallel to the centerline is completed may not deviate more than 30 
feet laterally from the centerline at any point. VMCG must be 
established with--
    (1) The airplane in each takeoff configuration or, at the option of 
the applicant, in the most critical takeoff configuration;
    (2) Maximum available takeoff power on the operating engines;
    (3) The most unfavorable center of gravity;
    (4) The airplane trimmed for takeoff; and
    (5) The most unfavorable weight in the range of takeoff weights.

[Doc. No. 27807, 61 FR 5189, Feb. 9, 1996]



Sec. 23.151  Acrobatic maneuvers.

    Each acrobatic and utility category airplane must be able to perform 
safely the acrobatic maneuvers for which certification is requested. 
Safe entry speeds for these maneuvers must be determined.



Sec. 23.153  Control during landings.

    It must be possible, while in the landing configuration, to safely 
complete a landing without exceeding the one-hand control force limits 
specified in Sec. 23.143(c) following an approach to land--
    (a) At a speed of VREF minus 5 knots;
    (b) With the airplane in trim, or as nearly as possible in trim and 
without the trimming control being moved throughout the maneuver;
    (c) At an approach gradient equal to the steepest used in the 
landing distance demonstration of Sec. 23.75; and
    (d) With only those power changes, if any, that would be made when 
landing normally from an approach at VREF.

[Doc. No. 27807, 61 FR 5189, Feb. 9, 1996]



Sec. 23.155  Elevator control force in maneuvers.

    (a) The elevator control force needed to achieve the positive limit 
maneuvering load factor may not be less than:
    (1) For wheel controls, W/100 (where W is the maximum weight) or 20 
pounds, whichever is greater, except that it need not be greater than 50 
pounds; or
    (2) For stick controls, W/140 (where W is the maximum weight) or 15 
pounds, whichever is greater, except that it need not be greater than 35 
pounds.
    (b) The requirement of paragraph (a) of this section must be met at 
75 percent of maximum continuous power for reciprocating engines, or the 
maximum continuous power for turbine engines, and with the wing flaps 
and landing gear retracted--
    (1) In a turn, with the trim setting used for wings level flight at 
VO; and
    (2) In a turn with the trim setting used for the maximum wings level 
flight speed, except that the speed may not exceed VNE or 
VMO/MMO, whichever is appropriate.
    (c) There must be no excessive decrease in the gradient of the curve 
of stick force versus maneuvering load factor with increasing load 
factor.

[Amdt. 23-14, 38 FR 31819, Nov. 19, 1973; 38 FR 32784, Nov. 28, 1973, as 
amended by Amdt. 23-45, 58 FR 42158, Aug. 6, 1993; Amdt. 23-50, 61 FR 
5189 Feb. 9, 1996]



Sec. 23.157  Rate of roll.

    (a) Takeoff. It must be possible, using a favorable combination of 
controls, to roll the airplane from a steady 30-degree banked turn 
through an angle of 60 degrees, so as to reverse the direction of the 
turn within:
    (1) For an airplane of 6,000 pounds or less maximum weight, 5 
seconds from initiation of roll; and
    (2) For an airplane of over 6,000 pounds maximum weight,

                              (W+500)/1,300

seconds, but not more than 10 seconds, where W is the weight in pounds.
    (b) The requirement of paragraph (a) of this section must be met 
when rolling the airplane in each direction with--
    (1) Flaps in the takeoff position;
    (2) Landing gear retracted;
    (3) For a single-engine airplane, at maximum takeoff power; and for 
a multiengine airplane with the critical engine inoperative and the 
propeller in the minimum drag position, and the

[[Page 193]]

other engines at maximum takeoff power; and
    (4) The airplane trimmed at a speed equal to the greater of 1.2 
VS1 or 1.1 VMC, or as nearly as possible in trim 
for straight flight.
    (c) Approach. It must be possible, using a favorable combination of 
controls, to roll the airplane from a steady 30-degree banked turn 
through an angle of 60 degrees, so as to reverse the direction of the 
turn within:
    (1) For an airplane of 6,000 pounds or less maximum weight, 4 
seconds from initiation of roll; and
    (2) For an airplane of over 6,000 pounds maximum weight,

(W+2,800)/2,200


seconds, but not more than 7 seconds, where W is the weight in pounds.
    (d) The requirement of paragraph (c) of this section must be met 
when rolling the airplane in each direction in the following 
conditions--
    (1) Flaps in the landing position(s);
    (2) Landing gear extended;
    (3) All engines operating at the power for a 3 degree approach; and
    (4) The airplane trimmed at VREF.

[Amdt. 23-14, 38 FR 31819, Nov. 19, 1973, as amended by Amdt. 23-45, 58 
FR 42158, Aug. 6, 1993; Amdt. 23-50, 61 FR 5189, Feb. 9, 1996]

                                  Trim



Sec. 23.161  Trim.

    (a) General. Each airplane must meet the trim requirements of this 
section after being trimmed and without further pressure upon, or 
movement of, the primary controls or their corresponding trim controls 
by the pilot or the automatic pilot. In addition, it must be possible, 
in other conditions of loading, configuration, speed and power to ensure 
that the pilot will not be unduly fatigued or distracted by the need to 
apply residual control forces exceeding those for prolonged application 
of Sec. 23.143(c). This applies in normal operation of the airplane and, 
if applicable, to those conditions associated with the failure of one 
engine for which performance characteristics are established.
    (b) Lateral and directional trim. The airplane must maintain lateral 
and directional trim in level flight with the landing gear and wing 
flaps retracted as follows:
    (1) For normal, utility, and acrobatic category airplanes, at a 
speed of 0.9 VH, VC, or VMO/
MO, whichever is lowest; and
    (2) For commuter category airplanes, at all speeds from 1.4 
VS1 to the lesser of VH or VMO/
MMO.
    (c) Longitudinal trim. The airplane must maintain longitudinal trim 
under each of the following conditions:
    (1) A climb with--
    (i) Takeoff power, landing gear retracted, wing flaps in the takeoff 
position(s), at the speeds used in determining the climb performance 
required by Sec. 23.65; and
    (ii) Maximum continuous power at the speeds and in the configuration 
used in determining the climb performance required by Sec. 23.69(a).
    (2) Level flight at all speeds from the lesser of VH and 
either VNO or VMO/MMO (as appropriate), 
to 1.4 VS1, with the landing gear and flaps retracted.
    (3) A descent at VNO or VMO/MMO, 
whichever is applicable, with power off and with the landing gear and 
flaps retracted.
    (4) Approach with landing gear extended and with--
    (i) A 3 degree angle of descent, with flaps retracted and at a speed 
of 1.4 VS1;
    (ii) A 3 degree angle of descent, flaps in the landing position(s) 
at VREF; and
    (iii) An approach gradient equal to the steepest used in the landing 
distance demonstrations of Sec. 23.75, flaps in the landing position(s) 
at VREF.
    (d) In addition, each multiple airplane must maintain longitudinal 
and directional trim, and the lateral control force must not exceed 5 
pounds at the speed used in complying with Sec. 23.67(a), (b)(2), or 
(c)(3), as appropriate, with--
    (1) The critical engine inoperative, and if applicable, its 
propeller in the minimum drag position;
    (2) The remaining engines at maximum continuous power;
    (3) The landing gear retracted;
    (4) Wing flaps retracted; and
    (5) An angle of bank of not more than five degrees.

[[Page 194]]

    (e) In addition, each commuter category airplane for which, in the 
determination of the takeoff path in accordance with Sec. 23.57, the 
climb in the takeoff configuration at V2 extends beyond 400 
feet above the takeoff surface, it must be possible to reduce the 
longitudinal and lateral control forces to 10 pounds and 5 pounds, 
respectively, and the directional control force must not exceed 50 
pounds at V2 with--
    (1) The critical engine inoperative and its propeller in the minimum 
drag position;
    (2) The remaining engine(s) at takeoff power;
    (3) Landing gear retracted;
    (4) Wing flaps in the takeoff position(s); and
    (5) An angle of bank not exceeding 5 degrees.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-21, 
43 FR 2318, Jan. 16, 1978; Amdt. 23-34, 52 FR 1828, Jan. 15, 1987; Amdt. 
23-42, 56 FR 351, Jan. 3, 1991; 56 FR 5455, Feb. 11, 1991; Amdt. 23-50, 
61 FR 5189, Feb. 9, 1996]

                                Stability



Sec. 23.171  General.

    The airplane must be longitudinally, directionally, and laterally 
stable under Secs. 23.173 through 23.181. In addition, the airplane must 
show suitable stability and control ``feel'' (static stability) in any 
condition normally encountered in service, if flight tests show it is 
necessary for safe operation.



Sec. 23.173  Static longitudinal stability.

    Under the conditions specified in Sec. 23.175 and with the airplane 
trimmed as indicated, the characteristics of the elevator control forces 
and the friction within the control system must be as follows:
    (a) A pull must be required to obtain and maintain speeds below the 
specified trim speed and a push required to obtain and maintain speeds 
above the specified trim speed. This must be shown at any speed that can 
be obtained, except that speeds requiring a control force in excess of 
40 pounds or speeds above the maximum allowable speed or below the 
minimum speed for steady unstalled flight, need not be considered.
    (b) The airspeed must return to within the tolerances specified for 
applicable categories of airplanes when the control force is slowly 
released at any speed within the speed range specified in paragraph (a) 
of this section. The applicable tolerances are--
    (1) The airspeed must return to within plus or minus 10 percent of 
the original trim airspeed; and
    (2) For commuter category airplanes, the airspeed must return to 
within plus or minus 7.5 percent of the original trim airspeed for the 
cruising condition specified in Sec. 23.175(b).
    (c) The stick force must vary with speed so that any substantial 
speed change results in a stick force clearly perceptible to the pilot.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31820 Nov. 19, 1973; Amdt. 23-34, 52 FR 1828, Jan. 15, 1987]



Sec. 23.175  Demonstration of static longitudinal stability.

    Static longitudinal stability must be shown as follows:
    (a) Climb. The stick force curve must have a stable slope at speeds 
between 85 and 115 percent of the trim speed, with--
    (1) Flaps retracted;
    (2) Landing gear retracted;
    (3) Maximum continuous power; and
    (4) The airplane trimmed at the speed used in determining the climb 
performance required by Sec. 23.69(a).
    (b) Cruise. With flaps and landing gear retracted and the airplane 
in trim with power for level flight at representative cruising speeds at 
high and low altitudes, including speeds up to VNO or 
VMO/MMO, as appropriate, except that the speed 
need not exceed VH--
    (1) For normal, utility, and acrobatic category airplanes, the stick 
force curve must have a stable slope at all speeds within a range that 
is the greater of 15 percent of the trim speed plus the resulting free 
return speed range, or 40 knots plus the resulting free return speed 
range, above and below the trim speed, except that the slope need not be 
stable--
    (i) At speeds less than 1.3 VS1; or
    (ii) For airplanes with VNE established under 
Sec. 23.1505(a), at speeds greater than VNE; or

[[Page 195]]

    (iii) For airplanes with VMO/MMO established 
under Sec. 23.1505(c), at speeds greater than VFC/
MFC.
    (2) For commuter category airplanes, the stick force curve must have 
a stable slope at all speeds within a range of 50 knots plus the 
resulting free return speed range, above and below the trim speed, 
except that the slope need not be stable--
    (i) At speeds less than 1.4 VS1; or
    (ii) At speeds greater than VFC/MFC; or
    (iii) At speeds that require a stick force greater than 50 pounds.
    (c) Landing. The stick force curve must have a stable slope at 
speeds between 1.1 VS1 and 1.8 VS1 with--
    (1) Flaps in the landing position;
    (2) Landing gear extended; and
    (3) The airplane trimmed at--
    (i) VREF, or the minimum trim speed if higher, with power 
off; and
    (ii) VREF with enough power to maintain a 3 degree angle 
of descent.

[Doc. No. 27807, 61 FR 5190, Feb. 9, 1996]



Sec. 23.177  Static directional and lateral stability.

    (a) The static directional stability, as shown by the tendency to 
recover from a wings level sideslip with the rudder free, must be 
positive for any landing gear and flap position appropriate to the 
takeoff, climb, cruise, approach, and landing configurations. This must 
be shown with symmetrical power up to maximum continuous power, and at 
speeds from 1.2 VS1 up to the maximum allowable speed for the 
condition being investigated. The angel of sideslip for these tests must 
be appropriate to the type of airplane. At larger angles of sideslip, up 
to that at which full rudder is used or a control force limit in 
Sec. 23.143 is reached, whichever occurs first, and at speeds from 1.2 
VS1 to VO, the rudder pedal force must not 
reverse.
    (b) The static lateral stability, as shown by the tendency to raise 
the low wing in a sideslip, must be positive for all landing gear and 
flap positions. This must be shown with symmetrical power up to 75 
percent of maximum continuous power at speeds above 1.2 VS1 
in the take off configuration(s) and at speeds above 1.3 VS1 
in other configurations, up to the maximum allowable speed for the 
configuration being investigated, in the takeoff, climb, cruise, and 
approach configurations. For the landing configuration, the power must 
be that necessary to maintain a 3 degree angle of descent in coordinated 
flight. The static lateral stability must not be negative at 1.2 
VS1 in the takeoff configuration, or at 1.3 VS1 in 
other configurations. The angle of sideslip for these tests must be 
appropriate to the type of airplane, but in no case may the constant 
heading sideslip angle be less than that obtainable with a 10 degree 
bank, or if less, the maximum bank angle obtainable with full rudder 
deflection or 150 pound rudder force.
    (c) Paragraph (b) of this section does not apply to acrobatic 
category airplanes certificated for inverted flight.
    (d) In straight, steady slips at 1.2 VS1 for any landing 
gear and flap positions, and for any symmetrical power conditions up to 
50 percent of maximum continuous power, the aileron and rudder control 
movements and forces must increase steadily, but not necessarily in 
constant proportion, as the angle of sideslip is increased up to the 
maximum appropriate to the type of airplane. At larger slip angles, up 
to the angle at which full rudder or aileron control is used or a 
control force limit contained in Sec. 23.143 is reached, the aileron and 
rudder control movements and forces must not reverse as the angle of 
sideslip is increased. Rapid entry into, and recovery from, a maximum 
sideslip considered appropriate for the airplane must not result in 
uncontrollable flight characteristics.

[Doc. No. 27807, 61 FR 5190, Feb. 9, 1996]



Sec. 23.181  Dynamic stability.

    (a) Any short period oscillation not including combined lateral-
directional oscillations occurring between the stalling speed and the 
maximum allowable speed appropriate to the configuration of the airplane 
must be heavily damped with the primary controls--
    (1) Free; and
    (2) In a fixed position.
    (b) Any combined lateral-directional oscillations (``Dutch roll'') 
occurring between the stalling speed and the maximum allowable speed 
appropriate to the configuration of the airplane

[[Page 196]]

must be damped to 1/10 amplitude in 7 cycles with the primary controls--
    (1) Free; and
    (2) In a fixed position.
    (c) If it is determined that the function of a stability 
augmentation system, reference Sec. 23.672, is needed to meet the flight 
characteristic requirements of this part, the primary control 
requirements of paragraphs (a)(2) and (b)(2) of this section are not 
applicable to the tests needed to verify the acceptability of that 
system.
    (d) During the conditions as specified in Sec. 23.175, when the 
longitudinal control force required to maintain speeds differing from 
the trim speed by at least plus and minus 15 percent is suddenly 
released, the response of the airplane must not exhibit any dangerous 
characteristics nor be excessive in relation to the magnitude of the 
control force released. Any long-period oscillation of flight path, 
phugoid oscillation, that results must not be so unstable as to increase 
the pilot's workload or otherwise endanger the airplane.

[Amdt. 23-21, 43 FR 2318, Jan. 16, 1978, as amended by Amdt. 23-45, 58 
FR 42158, Aug. 6, 1993]

                                 Stalls



Sec. 23.201  Wings level stall.

    (a) It must be possible to produce and to correct roll by unreversed 
use of the rolling control and to produce and to correct yaw by 
unreversed use of the directional control, up to the time the airplane 
stalls.
    (b) The wings level stall characteristics must be demonstrated in 
flight as follows. Starting from a speed at least 10 knots above the 
stall speed, the elevator control must be pulled back so that the rate 
of speed reduction will not exceed one knot per second until a stall is 
produced, as shown by either:
    (1) An uncontrollable downward pitching motion of the airplane;
    (2) A downward pitching motion of the airplane that results from the 
activation of a stall avoidance device (for example, stick pusher); or
    (3) The control reaching the stop.
    (c) Normal use of elevator control for recovery is allowed after the 
downward pitching motion of paragraphs (b)(1) or (b)(2) of this section 
has unmistakably been produced, or after the control has been held 
against the stop for not less than the longer of two seconds or the time 
employed in the minimum steady slight speed determination of Sec. 23.49.
    (d) During the entry into and the recovery from the maneuver, it 
must be possible to prevent more than 15 degrees of roll or yaw by the 
normal use of controls.
    (e) Compliance with the requirements of this section must be shown 
under the following conditions:
    (1) Wing flaps. Retracted, fully extended, and each intermediate 
normal operating position.
    (2) Landing gear. Retracted and extended.
    (3) Cowl flaps. Appropriate to configuration.
    (4) Power:
    (i) Power off; and
    (ii) 75 percent of maximum continuous power. However, if the power-
to-weight ratio at 75 percent of maximum continuous power result in 
extreme nose-up attitudes, the test may be carried out with the power 
required for level flight in the landing configuration at maximum 
landing weight and a speed of 1.4 VSO, except that the power 
may not be less than 50 percent of maximum continuous power.
    (5) Trim. The airplane trimmed at a speed as near 1.5 VS1 
as practicable.
    (6) Propeller. Full increase r.p.m. position for the power off 
condition.

[Doc. No. 27807, 61 FR 5191, Feb. 9, 1996]



Sec. 23.203  Turning flight and accelerated turning stalls.

    Turning flight and accelerated turning stalls must be demonstrated 
in tests as follows:
    (a) Establish and maintain a coordinated turn in a 30 degree bank. 
Reduce speed by steadily and progressively tightening the turn with the 
elevator until the airplane is stalled, as defined in Sec. 23.201(b). 
The rate of speed reduction must be constant, and--
    (1) For a turning flight stall, may not exceed one knot per second; 
and
    (2) For an accelerated turning stall, be 3 to 5 knots per second 
with steadily increasing normal acceleration.
    (b) After the airplane has stalled, as defined in Sec. 23.201(b), it 
must be possible to regain wings level flight by normal

[[Page 197]]

use of the flight controls, but without increasing power and without--
    (1) Excessive loss of altitude;
    (2) Undue pitchup;
    (3) Uncontrollable tendency to spin;
    (4) Exceeding a bank angle of 60 degrees in the original direction 
of the turn or 30 degrees in the opposite direction in the case of 
turning flight stalls;
    (5) Exceeding a bank angle of 90 degrees in the original direction 
of the turn or 60 degrees in the opposite direction in the case of 
accelerated turning stalls; and
    (6) Exceeding the maximum permissible speed or allowable limit load 
factor.
    (c) Compliance with the requirements of this section must be shown 
under the following conditions:
    (1) Wing flaps: Retracted, fully extended, and each intermediate 
normal operating position;
    (2) Landing gear: Retracted and extended;
    (3) Cowl flaps: Appropriate to configuration;
    (4) Power:
    (i) Power off; and
    (ii) 75 percent of maximum continuous power. However, if the power-
to-weight ratio at 75 percent of maximum continuous power results in 
extreme nose-up attitudes, the test may be carried out with the power 
required for level flight in the landing configuration at maximum 
landing weight and a speed of 1.4 VSO, except that the power 
may not be less than 50 percent of maximum continuous power.
    (5) Trim: The airplane trimmed at a speed as near 1.5 VS1 
as practicable.
    (6) Propeller. Full increase rpm position for the power off 
condition.

[Amdt. 23-14, 38 FR 31820, Nov. 19, 1973, as amended by Amdt. 23-45, 58 
FR 42159, Aug. 6, 1993; Amdt. 23-50, 61 FR 5191, Feb. 9, 1996]



Sec. 23.207  Stall warning.

    (a) There must be a clear and distinctive stall warning, with the 
flaps and landing gear in any normal position, in straight and turning 
flight.
    (b) The stall warning may be furnished either through the inherent 
aerodynamic qualities of the airplane or by a device that will give 
clearly distinguishable indications under expected conditions of flight. 
However, a visual stall warning device that requires the attention of 
the crew within the cockpit is not acceptable by itself.
    (c) During the stall tests required by Sec. 23.201(b) and 
Sec. 23.203(a)(1), the stall warning must begin at a speed exceeding the 
stalling speed by a margin of not less than 5 knots and must continue 
until the stall occurs.
    (d) When following procedures furnished in accordance with 
Sec. 23.1585, the stall warning must not occur during a takeoff with all 
engines operating, a takeoff continued with one engine inoperative, or 
during an approach to landing.
    (e) During the stall tests required by Sec. 23.203(a)(2), the stall 
warning must begin sufficiently in advance of the stall for the stall to 
be averted by pilot action taken after the stall warning first occurs.
    (f) For acrobatic category airplanes, an artificial stall warning 
may be mutable, provided that it is armed automatically during takeoff 
and rearmed automatically in the approach configuration.

[Amdt. 23-7, 34 FR 13087, Aug. 13, 1969, as amended by Amdt. 23-45, 58 
FR 42159, Aug. 6, 1993; Amdt. 23-50, 61 FR 5191, Feb. 9, 1996]

                                Spinning



Sec. 23.221  Spinning.

    (a) Normal category airplanes. A single-engine, normal category 
airplane must be able to recover from a one-turn spin or a three-second 
spin, whichever takes longer, in not more than one additional turn after 
initiation of the first control action for recovery, or demonstrate 
compliance with the optional spin resistant requirements of this 
section.
    (1) The following apply to one turn or three second spins:
    (i) For both the flaps-retracted and flaps-extended conditions, the 
applicable airspeed limit and positive limit maneuvering load factor 
must not be exceeded;
    (ii) No control forces or characteristic encountered during the spin 
or recovery may adversely affect prompt recovery;
    (iii) It must be impossible to obtain unrecoverable spins with any 
use of the flight or engine power controls either

[[Page 198]]

at the entry into or during the spin; and
    (iv) For the flaps-extended condition, the flaps may be retracted 
during the recovery but not before rotation has ceased.
    (2) At the applicant's option, the airplane may be demonstrated to 
be spin resistant by the following:
    (i) During the stall maneuver contained in Sec. 23.201, the pitch 
control must be pulled back and held against the stop. Then, using 
ailerons and rudders in the proper direction, it must be possible to 
maintain wings-level flight within 15 degrees of bank and to roll the 
airplane from a 30 degree bank in one direction to a 30 degree bank in 
the other direction;
    (ii) Reduce the airplane speed using pitch control at a rate of 
approximately one knot per second until the pitch control reaches the 
stop; then, with the pitch control pulled back and held against the 
stop, apply full rudder control in a manner to promote spin entry for a 
period of seven seconds or through a 360 degree heading change, 
whichever occurs first. If the 360 degree heading change is reached 
first, it must have taken no fewer than four seconds. This maneuver must 
be performed first with the ailerons in the neutral position, and then 
with the ailerons deflected opposite the direction of turn in the most 
adverse manner. Power and airplane configuration must be set in 
accordance with Sec. 23.201(e) without change during the maneuver. At 
the end of seven seconds or a 360 degree heading change, the airplane 
must respond immediately and normally to primary flight controls applied 
to regain coordinated, unstalled flight without reversal of control 
effect and without exceeding the temporary control forces specified by 
Sec. 23.143(c); and
    (iii) Compliance with Secs. 23.201 and 23.203 must be demonstrated 
with the airplane in uncoordinated flight, corresponding to one ball 
width displacement on a slip-skid indicator, unless one ball width 
displacement cannot be obtained with full rudder, in which case the 
demonstration must be with full rudder applied.
    (b) Utility category airplanes. A utility category airplane must 
meet the requirements of paragraph (a) of this section. In addition, the 
requirements of paragraph (c) of this section and Sec. 23.807(b)(7) must 
be met if approval for spinning is requested.
    (c) Acrobatic category airplanes. An acrobatic category airplane 
must meet the spin requirements of paragraph (a) of this section and 
Sec. 23.807(b)(6). In addition, the following requirements must be met 
in each configuration for which approval for spinning is requested:
    (1) The airplane must recover from any point in a spin up to and 
including six turns, or any greater number of turns for which 
certification is requested, in not more than one and one-half additional 
turns after initiation of the first control action for recovery. 
However, beyond three turns, the spin may be discontinued if spiral 
characteristics appear.
    (2) The applicable airspeed limits and limit maneuvering load 
factors must not be exceeded. For flaps-extended configurations for 
which approval is requested, the flaps must not be retracted during the 
recovery.
    (3) It must be impossible to obtain unrecoverable spins with any use 
of the flight or engine power controls either at the entry into or 
during the spin.
    (4) There must be no characteristics during the spin (such as 
excessive rates of rotation or extreme oscillatory motion) that might 
prevent a successful recovery due to disorientation or incapacitation of 
the pilot.

[Doc. No. 27807, 61 FR 5191, Feb. 9, 1996]

                Ground and Water Handling Characteristics



Sec. 23.231  Longitudinal stability and control.

    (a) A landplane may have no uncontrollable tendency to nose over in 
any reasonably expected operating condition, including rebound during 
landing or takeoff. Wheel brakes must operate smoothly and may not 
induce any undue tendency to nose over.
    (b) A seaplane or amphibian may not have dangerous or uncontrollable 
porpoising characteristics at any normal operating speed on the water.

[[Page 199]]



Sec. 23.233  Directional stability and control.

    (a) A 90 degree cross-component of wind velocity, demonstrated to be 
safe for taxiing, takeoff, and landing must be established and must be 
not less than 0.2 VSO.
    (b) The airplane must be satisfactorily controllable in power-off 
landings at normal landing speed, without using brakes or engine power 
to maintain a straight path until the speed has decreased to at least 50 
percent of the speed at touchdown.
    (c) The airplane must have adequate directional control during 
taxiing.
    (d) Seaplanes must demonstrate satisfactory directional stability 
and control for water operations up to the maximum wind velocity 
specified in paragraph (a) of this section.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42159, Aug. 6, 1993; Amdt. 23-50, 61 FR 5192, Feb. 9, 1996]



Sec. 23.235  Operation on unpaved surfaces.

    The airplane must be demonstrated to have satisfactory 
characteristics and the shock-absorbing mechanism must not damage the 
structure of the airplane when the airplane is taxied on the roughest 
ground that may reasonably be expected in normal operation and when 
takeoffs and landings are performed on unpaved runways having the 
roughest surface that may reasonably be expected in normal operation.

[Doc. No. 27807, 61 FR 5192, Feb. 9, 1996]



Sec. 23.237  Operation on water.

    A wave height, demonstrated to be safe for operation, and any 
necessary water handling procedures for seaplanes and amphibians must be 
established.

[Doc. No. 27807, 61 FR 5192, Feb. 9, 1996]



Sec. 23.239  Spray characteristics.

    Spray may not dangerously obscure the vision of the pilots or damage 
the propellers or other parts of a seaplane or amphibian at any time 
during taxiing, takeoff, and landing.

                    Miscellaneous Flight Requirements



Sec. 23.251  Vibration and buffeting.

    There must be no vibration or buffeting severe enough to result in 
structural damage, and each part of the airplane must be free from 
excessive vibration, under any appropriate speed and power conditions up 
to VD/MD. In addition, there must be no buffeting 
in any normal flight condition severe enough to interfere with the 
satisfactory control of the airplane or cause excessive fatigue to the 
flight crew. Stall warning buffeting within these limits is allowable.

[Doc. No. 26269, 58 FR 42159, Aug. 6, 1993]



Sec. 23.253  High speed characteristics.

    If a maximum operating speed VMO/MMO is 
established under Sec. 23.1505(c), the following speed increase and 
recovery characteristics must be met:
    (a) Operating conditions and characteristics likely to cause 
inadvertent speed increases (including upsets in pitch and roll) must be 
simulated with the airplane trimmed at any likely speed up to 
VMO/MMO. These conditions and characteristics 
include gust upsets, inadvertent control movements, low stick force 
gradients in relation to control friction, passenger movement, leveling 
off from climb, and descent from Mach to airspeed limit altitude.
    (b) Allowing for pilot reaction time after occurrence of the 
effective inherent or artificial speed warning specified in 
Sec. 23.1303, it must be shown that the airplane can be recovered to a 
normal attitude and its speed reduced to VMO/MMO, 
without--
    (1) Exceeding VD/MD, the maximum speed shown 
under Sec. 23.251, or the structural limitations; or
    (2) Buffeting that would impair the pilot's ability to read the 
instruments or to control the airplane for recovery.
    (c) There may be no control reversal about any axis at any speed up 
to the maximum speed shown under Sec. 23.251. Any reversal of elevator 
control force or tendency of the airplane to pitch, roll, or yaw must be 
mild and readily

[[Page 200]]

controllable, using normal piloting techniques.

[Amdt. 23-7, 34 FR 13087, Aug. 13, 1969; as amended by Amdt. 23-26, 45 
FR 60170, Sept. 11, 1980; Amdt. 23-45, 58 FR 42160, Aug. 6, 1993; Amdt. 
23-50, 61 FR 5192, Feb. 9, 1996]



                          Subpart C--Structure

                                 General



Sec. 23.301  Loads.

    (a) Strength requirements are specified in terms of limit loads (the 
maximum loads to be expected in service) and ultimate loads (limit loads 
multiplied by prescribed factors of safety). Unless otherwise provided, 
prescribed loads are limit loads.
    (b) Unless otherwise provided, the air, ground, and water loads must 
be placed in equilibrium with inertia forces, considering each item of 
mass in the airplane. These loads must be distributed to conservatively 
approximate or closely represent actual conditions. Methods used to 
determine load intensities and distribution on canard and tandem wing 
configurations must be validated by flight test measurement unless the 
methods used for determining those loading conditions are shown to be 
reliable or conservative on the configuration under consideration.
    (c) If deflections under load would significantly change the 
distribution of external or internal loads, this redistribution must be 
taken into account.
    (d) Simplified structural design criteria may be used if they result 
in design loads not less than those prescribed in Secs. 23.331 through 
23.521. For airplane configurations described in appendix A, Sec. 23.1, 
the design criteria of appendix A of this part are an approved 
equivalent of Secs. 23.321 through 23.459. If appendix A of this part is 
used, the entire appendix must be substituted for the corresponding 
sections of this part.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-28, 47 FR 13315, Mar. 29, 1982; Amdt. 23-42, 56 FR 
352, Jan. 3, 1991; Amdt. 23-48, 61 FR 5143, Feb. 9, 1996]



Sec. 23.302  Canard or tandem wing configurations.

    The forward structure of a canard or tandem wing configuration must:
    (a) Meet all requirements of subpart C and subpart D of this part 
applicable to a wing; and
    (b) Meet all requirements applicable to the function performed by 
these surfaces.

[Amdt. 23-42, 56 FR 352, Jan. 3, 1991]



Sec. 23.303  Factor of safety.

    Unless otherwise provided, a factor of safety of 1.5 must be used.



Sec. 23.305  Strength and deformation.

    (a) The structure must be able to support limit loads without 
detrimental, permanent deformation. At any load up to limit loads, the 
deformation may not interfere with safe operation.
    (b) The structure must be able to support ultimate loads without 
failure for at least three seconds, except local failures or structural 
instabilities between limit and ultimate load are acceptable only if the 
structure can sustain the required ultimate load for at least three 
seconds. However when proof of strength is shown by dynamic tests 
simulating actual load conditions, the three second limit does not 
apply.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42160, Aug. 6, 1993]



Sec. 23.307  Proof of structure.

    (a) Compliance with the strength and deformation requirements of 
Sec. 23.305 must be shown for each critical load condition. Structural 
analysis may be used only if the structure conforms to those for which 
experience has shown this method to be reliable. In other cases, 
substantiating load tests must be made. Dynamic tests, including 
structural flight tests, are acceptable if the design load conditions 
have been simulated.
    (b) Certain parts of the structure must be tested as specified in 
Subpart D of this part.

                              Flight Loads



Sec. 23.321  General.

    (a) Flight load factors represent the ratio of the aerodynamic force 
component (acting normal to the assumed

[[Page 201]]

longitudinal axis of the airplane) to the weight of the airplane. A 
positive flight load factor is one in which the aerodynamic force acts 
upward, with respect to the airplane.
    (b) Compliance with the flight load requirements of this subpart 
must be shown--
    (1) At each critical altitude within the range in which the airplane 
may be expected to operate;
    (2) At each weight from the design minimum weight to the design 
maximum weight; and
    (3) For each required altitude and weight, for any practicable 
distribution of disposable load within the operating limitations 
specified in Secs. 23.1583 through 23.1589.
    (c) When significant, the effects of compressibility must be taken 
into account.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42160, Aug. 6, 1993]



Sec. 23.331  Symmetrical flight conditions.

    (a) The appropriate balancing horizontal tail load must be accounted 
for in a rational or conservative manner when determining the wing loads 
and linear inertia loads corresponding to any of the symmetrical flight 
conditions specified in Secs. 23.333 through 23.341.
    (b) The incremental horizontal tail loads due to maneuvering and 
gusts must be reacted by the angular inertia of the airplane in a 
rational or conservative manner.
    (c) Mutual influence of the aerodynamic surfaces must be taken into 
account when determining flight loads.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-42, 56 FR 352, Jan. 3, 1991]



Sec. 23.333  Flight envelope.

    (a) General. Compliance with the strength requirements of this 
subpart must be shown at any combination of airspeed and load factor on 
and within the boundaries of a flight envelope (similar to the one in 
paragraph (d) of this section) that represents the envelope of the 
flight loading conditions specified by the maneuvering and gust criteria 
of paragraphs (b) and (c) of this section respectively.
    (b) Maneuvering envelope. Except where limited by maximum (static) 
lift coefficients, the airplane is assumed to be subjected to 
symmetrical maneuvers resulting in the following limit load factors:
    (1) The positive maneuvering load factor specified in Sec. 23.337 at 
speeds up to VD;
    (2) The negative maneuvering load factor specified in Sec. 23.337 at 
VC; and
    (3) Factors varying linearly with speed from the specified value at 
VC to 0.0 at VD for the normal and commuter 
category, and --1.0 at VD for the acrobatic and utility 
categories.
    (c) Gust envelope. (1) The airplane is assumed to be subjected to 
symmetrical vertical gusts in level flight. The resulting limit load 
factors must correspond to the conditions determined as follows:
    (i) Positive (up) and negative (down) gusts of 50 f.p.s. at VC 
must be considered at altitudes between sea level and 20,000 feet. The 
gust velocity may be reduced linearly from 50 f.p.s. at 20,000 feet to 
25 f.p.s. at 50,000 feet.
    (ii) Positive and negative gusts of 25 f.p.s. at VD must 
be considered at altitudes between sea level and 20,000 feet. The gust 
velocity may be reduced linearly from 25 f.p.s. at 20,000 feet to 12.5 
f.p.s. at 50,000 feet.
    (iii) In addition, for commuter category airplanes, positive (up) 
and negative (down) rough air gusts of 66 f.p.s. at V must be 
considered at altitudes between sea level and 20,000 feet. The gust 
velocity may be reduced linearly from 66 f.p.s. at 20,000 feet to 38 
f.p.s. at 50,000 feet.
    (2) The following assumptions must be made:
    (i) The shape of the gust is--
    [GRAPHIC] [TIFF OMITTED] TC28SE91.000
    
Where--

s =Distance penetrated into gust (ft.);
C =Mean geometric chord of wing (ft.); and
Ude =Derived gust velocity referred to in subparagraph (1) of this 
section.

    (ii) Gust load factors vary linearly with speed between VC 
and VD .
    (d) Flight envelope.

[[Page 202]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.001

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13087, Aug. 13, 1969; Amdt. 23-34, 52 FR 1829, Jan. 15, 1987]



Sec. 23.335  Design airspeeds.

    Except as provided in paragraph (a)(4) of this section, the selected 
design airspeeds are equivalent airspeeds (EAS).
    (a) Design cruising speed, VC. For VC the 
following apply:
    (1) Where W/S'=wing loading at the design maximum takeoff weight, 
Vc (in knots) may not be less than--
    (i) 33 (W/S) (for normal, utility, and commuter category 
airplanes);
    (ii) 36 (W/S) (for acrobatic category airplanes).
    (2) For values of W/S more than 20, the multiplying factors may be 
decreased linearly with W/S to a value of 28.6 where W/S =100.
    (3) VC need not be more than 0.9 VH at sea 
level.
    (4) At altitudes where an MD is established, a cruising 
speed MC limited by compressibility may be selected.
    (b) Design dive speed VD. For VD, the 
following apply:
    (1) VD/MD may not be less than 1.25 
VC/MC; and
    (2) With VC!min, the required minimum design cruising 
speed, VD (in knots) may not be less than--
    (i) 1.40 Vc min (for normal and commuter category 
airplanes);
    (ii) 1.50 VC!min (for utility category airplanes); and
    (iii) 1.55 VC!min (for acrobatic category airplanes).
    (3) For values of W/S more than 20, the multiplying factors in 
paragraph (b)(2) of this section may be decreased linearly with W/S to a 
value of 1.35 where W/S=100.
    (4) Compliance with paragraphs (b)(1) and (2) of this section need 
not be shown if VD/MD is selected so that the 
minimum speed margin between VC/MC and 
VD/MD is the greater of the following:
    (i) The speed increase resulting when, from the initial condition of 
stabilized flight at VC/MC, the airplane is 
assumed to be upset, flown for 20 seconds along a flight path 7.5 deg. 
below the initial path, and then pulled up with a load factor of 1.5 
(0.5 g. acceleration increment). At least 75 percent maximum continuous 
power for reciprocating engines, and maximum cruising power for 
turbines, or, if less, the power required for VC/MC 
for both kinds of engines, must be assumed until the pullup is 
initiated, at which point power reduction and pilot-controlled drag 
devices may be used; and either--

[[Page 203]]

    (ii) Mach 0.05 for normal, utility, and acrobatic category airplanes 
(at altitudes where MD is established); or
    (iii) Mach 0.07 for commuter category airplanes (at altitudes where 
MD is established) unless a rational analysis, including the 
effects of automatic systems, is used to determine a lower margin. If a 
rational analysis is used, the minimum speed margin must be enough to 
provide for atmospheric variations (such as horizontal gusts), and the 
penetration of jet streams or cold fronts), instrument errors, airframe 
production variations, and must not be less than Mach 0.05.
    (c) Design maneuvering speed VA. For VA, the 
following applies:
    (1) VA may not be less than VSn 
where--
    (i) VS is a computed stalling speed with flaps retracted 
at the design weight, normally based on the maximum airplane normal 
force coefficients, CNA; and
    (ii) n is the limit maneuvering load factor used in design
    (2) The value of VA need not exceed the value of VC 
used in design.
    (d) Design speed for maximum gust intensity, VB. For 
VB, the following apply:
    (1) VB may not be less than the speed determined by the 
intersection of the line representing the maximum positive lift, 
CNMAX, and the line representing the rough air gust velocity 
on the gust V-n diagram, or VS1ng, 
whichever is less, where:
    (i) ng the positive airplane gust load factor due to 
gust, at speed VC (in accordance with Sec. 23.341), and at 
the particular weight under consideration; and
    (ii) VS1 is the stalling speed with the flaps retracted 
at the particular weight under consideration.
    (2) VB need not be greater than VC.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13088, Aug. 13, 1969; Amdt. 23-16, 40 FR 2577, Jan. 14, 1975; Amdt. 
23-34, 52 FR 1829, Jan. 15, 1987; Amdt. 23-24, 52 FR 34745, Sept. 14, 
1987; Amdt. 23-48, 61 FR 5143, Feb. 9, 1996]



Sec. 23.337  Limit maneuvering load factors.

    (a) The positive limit maneuvering load factor n may not be less 
than--
    (1) 2.1+(24,000(W+10,000)) for normal and commuter category 
airplanes, where W=design maximum takeoff weight, except that n need not 
be more than 3.8;
    (2) 4.4 for utility category airplanes; or
    (3) 6.0 for acrobatic category airplanes.
    (b) The negative limit maneuvering load factor may not be less 
than--
    (1) 0.4 times the positive load factor for the normal utility and 
commuter categories; or
    (2) 0.5 times the positive load factor for the acrobatic category.
    (c) Maneuvering load factors lower than those specified in this 
section may be used if the airplane has design features that make it 
impossible to exceed these values in flight.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13088, Aug. 13, 1969; Amdt. 23-34, 52 FR 1829, Jan. 15, 1987; Amdt. 
23-48, 61 FR 5144, Feb. 9, 1996]



Sec. 23.341  Gust loads factors.

    (a) Each airplane must be designed to withstand loads on each 
lifting surface resulting from gusts specified in Sec. 23.333(c).
    (b) The gust load for a canard or tandem wing configuration must be 
computed using a rational analysis, or may be computed in accordance 
with paragraph (c) of this section, provided that the resulting net 
loads are shown to be conservative with respect to the gust criteria of 
Sec. 23.333(c).
    (c) In the absence of a more rational analysis, the gust load 
factors must be computed as follows--
[GRAPHIC] [TIFF OMITTED] TR09FE96.010

Where--

Kg = 0.88g/5.3+g = 
gust alleviation factor;
g = 2(W/S)/ Cag=airplane mass ratio;
Ude = Derived gust velocities referred to in Sec. 23.333(c) 
(f.p.s.);
 = Density of air (slugs/cu.ft.);
W/S = Wing loading (p.s.f.) due to the applicable weight of the airplane 
in the particular load case.
W/S = Wing loading (p.s.f.);
C = Mean geometric chord (ft.);
g = Acceleration due to gravity (ft./sec. 2)
V = Airplane equivalent speed (knots); and
a = Slope of the airplane normal force coefficient curve CNA 
per radian if the gust loads are applied to the wings and horizontal 
tail

[[Page 204]]

surfaces simultaneously by a rational method. The wing lift curve slope 
CL per radian may be used when the gust load is applied to 
the wings only and the horizontal tail gust loads are treated as a 
separate condition.

[Amdt. 23-7, 34 FR 13088, Aug. 13, 1969, as amended by Amdt. 23-42, 56 
FR 352, Jan. 3, 1991; Amdt. 23-48, 61 FR 5144, Feb. 9, 1996]



Sec. 23.343  Design fuel loads.

    (a) The disposable load combinations must include each fuel load in 
the range from zero fuel to the selected maximum fuel load.
    (b) If fuel is carried in the wings, the maximum allowable weight of 
the airplane without any fuel in the wing tank(s) must be established as 
``maximum zero wing fuel weight,'' if it is less than the maximum 
weight.
    (c) For commuter category airplanes, a structural reserve fuel 
condition, not exceeding fuel necessary for 45 minutes of operation at 
maximum continuous power, may be selected. If a structural reserve fuel 
condition is selected, it must be used as the minimum fuel weight 
condition for showing compliance with the flight load requirements 
prescribed in this part and--
    (1) The structure must be designed to withstand a condition of zero 
fuel in the wing at limit loads corresponding to:
    (i) Ninety percent of the maneuvering load factors defined in 
Sec. 23.337, and
    (ii) Gust velocities equal to 85 percent of the values prescribed in 
Sec. 23.333(c).
    (2) The fatigue evaluation of the structure must account for any 
increase in operating stresses resulting from the design condition of 
paragraph (c)(1) of this section.
    (3) The flutter, deformation, and vibration requirements must also 
be met with zero fuel in the wings.

[Doc. No. 27805, 61 FR 5144, Feb. 9, 1996]



Sec. 23.345  High lift devices.

    (a) If flaps or similar high lift devices are to be used for 
takeoff, approach or landing, the airplane, with the flaps fully 
extended at VF, is assumed to be subjected to symmetrical 
maneuvers and gusts within the range determined by--
    (1) Maneuvering, to a positive limit load factor of 2.0; and
    (2) Positive and negative gust of 25 feet per second acting normal 
to the flight path in level flight.
    (b) VF must be assumed to be not less than 1.4 
VS or 1.8 VSF, whichever is greater, where--
    (1) VS is the computed stalling speed with flaps 
retracted at the design weight; and
    (2) VSF is the computed stalling speed with flaps fully 
extended at the design weight.
    (3) If an automatic flap load limiting device is used, the airplane 
may be designed for the critical combinations of airspeed and flap 
position allowed by that device.
    (c) In determining external loads on the airplane as a whole, 
thrust, slipstream, and pitching acceleration may be assumed to be zero.
    (d) The flaps, their operating mechanism, and their supporting 
structures, must be designed to withstand the conditions prescribed in 
paragraph (a) of this section. In addition, with the flaps fully 
extended at VF, the following conditions, taken separately, 
must be accounted for:
    (1) A head-on gust having a velocity of 25 feet per second (EAS), 
combined with propeller slipstream corresponding to 75 percent of 
maximum continuous power; and
    (2) The effects of propeller slipstream corresponding to maximum 
takeoff power.

[Doc. No. 27805, 61 FR 5144, Feb. 9, 1996]



Sec. 23.347  Unsymmetrical flight conditions.

    (a) The airplane is assumed to be subjected to the unsymmetrical 
flight conditions of Secs. 23.349 and 23.351. Unbalanced aerodynamic 
moments about the center of gravity must be reacted in a rational or 
conservative manner, considering the principal masses furnishing the 
reacting inertia forces.
    (b) Acrobatic category airplanes certified for flick maneuvers (snap 
roll) must be designed for additional asymmetric loads acting on the 
wing and the horizontal tail.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-48, 
61 FR 5144, Feb. 9, 1996]

[[Page 205]]



Sec. 23.349  Rolling conditions.

    The wing and wing bracing must be designed for the following loading 
conditions:
    (a) Unsymmetrical wing loads appropriate to the category. Unless the 
following values result in unrealistic loads, the rolling accelerations 
may be obtained by modifying the symmetrical flight conditions in 
Sec. 23.333(d) as follows:
    (1) For the acrobatic category, in conditions A and F, assume that 
100 percent of the semispan wing airload acts on one side of the plane 
of symmetry and 60 percent of this load acts on the other side.
    (2) For normal, utility, and commuter categories, in Condition A, 
assume that 100 percent of the semispan wing airload acts on one side of 
the airplane and 75 percent of this load acts on the other side.
    (b) The loads resulting from the aileron deflections and speeds 
specified in Sec. 23.455, in combination with an airplane load factor of 
at least two thirds of the positive maneuvering load factor used for 
design. Unless the following values result in unrealistic loads, the 
effect of aileron displacement on wing torsion may be accounted for by 
adding the following increment to the basic airfoil moment coefficient 
over the aileron portion of the span in the critical condition 
determined in Sec. 23.333(d):

cm=--0.01

where--

cm is the moment coefficient increment; and
 is the down aileron deflection in degrees in the critical 
condition.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13088, Aug. 13, 1969; Amdt. 23-34, 52 FR 1829, Jan. 15, 1987; Amdt. 
23-48, 61 FR 5144, Feb. 9, 1996]



Sec. 23.351  Yawing conditions.

    The airplane must be designed for yawing loads on the vertical 
surfaces resulting from the loads specified in Secs. 23.441 through 
23.445.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-42, 56 FR 352, Jan. 3, 1991]



Sec. 23.361  Engine torque.

    (a) Each engine mount and its supporting structure must be designed 
for the effects of--
    (1) A limit engine torque corresponding to takeoff power and 
propeller speed acting simultaneously with 75 percent of the limit loads 
from flight condition A of Sec. 23.333(d);
    (2) A limit engine torque corresponding to maximum continuous power 
and propeller speed acting simultaneously with the limit loads from 
flight condition A of Sec. 23.333(d); and
    (3) For turbopropeller installations, in addition to the conditions 
specified in paragraphs (a)(1) and (a)(2) of this section, a limit 
engine torque corresponding to takeoff power and propeller speed, 
multiplied by a factor accounting for propeller control system 
malfunction, including quick feathering, acting simultaneously with lg 
level flight loads. In the absence of a rational analysis, a factor of 
1.6 must be used.
    (b) For turbine engine installations, the engine mounts and 
supporting structure must be designed to withstand each of the 
following:
    (1) A limit engine torque load imposed by sudden engine stoppage due 
to malfunction or structural failure (such as compressor jamming).
    (2) A limit engine torque load imposed by the maximum acceleration 
of the engine.
    (c) The limit engine torque to be considered under paragraph (a) of 
this section must be obtained by multiplying the mean torque by a factor 
of--
    (1) 1.25 for turbopropeller installations;
    (2) 1.33 for engines with five or more cylinders; and
    (3) Two, three, or four, for engines with four, three, or two 
cylinders, respectively.

[Amdt. 23-26, 45 FR 60171, Sept. 11, 1980, as amended by Amdt. 23-45, 58 
FR 42160, Aug. 6, 1993]



Sec. 23.363  Side load on engine mount.

    (a) Each engine mount and its supporting structure must be designed 
for a limit load factor in a lateral direction, for the side load on the 
engine mount, of not less than--
    (1) 1.33, or

[[Page 206]]

    (2) One-third of the limit load factor for flight condition A.
    (b) The side load prescribed in paragraph (a) of this section may be 
assumed to be independent of other flight conditions.



Sec. 23.365  Pressurized cabin loads.

    For each pressurized compartment, the following apply:
    (a) The airplane structure must be strong enough to withstand the 
flight loads combined with pressure differential loads from zero up to 
the maximum relief valve setting.
    (b) The external pressure distribution in flight, and any stress 
concentrations, must be accounted for.
    (c) If landings may be made with the cabin pressurized, landing 
loads must be combined with pressure differential loads from zero up to 
the maximum allowed during landing.
    (d) The airplane structure must be strong enough to withstand the 
pressure differential loads corresponding to the maximum relief valve 
setting multiplied by a factor of 1.33, omitting other loads.
    (e) If a pressurized cabin has two or more compartments separated by 
bulkheads or a floor, the primary structure must be designed for the 
effects of sudden release of pressure in any compartment with external 
doors or windows. This condition must be investigated for the effects of 
failure of the largest opening in the compartment. The effects of 
intercompartmental venting may be considered.



Sec. 23.367  Unsymmetrical loads due to engine failure.

    (a) Turbopropeller airplanes must be designed for the unsymmetrical 
loads resulting from the failure of the critical engine including the 
following conditions in combination with a single malfunction of the 
propeller drag limiting system, considering the probable pilot 
corrective action on the flight controls:
    (1) At speeds between VMC and VD, the loads 
resulting from power failure because of fuel flow interruption are 
considered to be limit loads.
    (2) At speeds between VMC and VC, the loads 
resulting from the disconnection of the engine compressor from the 
turbine or from loss of the turbine blades are considered to be ultimate 
loads.
    (3) The time history of the thrust decay and drag buildup occurring 
as a result of the prescribed engine failures must be substantiated by 
test or other data applicable to the particular engine-propeller 
combination.
    (4) The timing and magnitude of the probable pilot corrective action 
must be conservatively estimated, considering the characteristics of the 
particular engine-propeller-airplane combination.
    (b) Pilot corrective action may be assumed to be initiated at the 
time maximum yawing velocity is reached, but not earlier than 2 seconds 
after the engine failure. The magnitude of the corrective action may be 
based on the limit pilot forces specified in Sec. 23.397 except that 
lower forces may be assumed where it is shown by analysis or test that 
these forces can control the yaw and roll resulting from the prescribed 
engine failure conditions.

[Amdt. 23-7, 34 FR 13089, Aug. 13, 1969]



Sec. 23.369  Rear lift truss.

    (a) If a rear lift truss is used, it must be designed to withstand 
conditions of reversed airflow at a design speed of--
    V = 8.7 (W/S) + 8.7 (knots), where W/S = wing loading at 
design maximum takeoff weight.
    (b) Either aerodynamic data for the particular wing section used, or 
a value of CL equalling -0.8 with a chordwise distribution 
that is triangular between a peak at the trailing edge and zero at the 
leading edge, must be used.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13089, Aug. 13, 1969; 34 FR 17509, Oct. 30, 1969; Amdt. 23-45, 58 FR 
42160, Aug. 6, 1993; Amdt. 23-48, 61 FR 5145, Feb. 9, 1996]



Sec. 23.371  Gyroscopic and aerodynamic loads.

    (a) Each engine mount and its supporting structure must be designed 
for the gyroscopic, inertial, and aerodynamic loads that result, with 
the engine(s) and propeller(s), if applicable, at maximum continuous 
r.p.m., under either:
    (1) The conditions prescribed in Sec. 23.351 and Sec. 23.423; or

[[Page 207]]

    (2) All possible combinations of the following--
    (i) A yaw velocity of 2.5 radians per second;
    (ii) A pitch velocity of 1.0 radian per second;
    (iii) A normal load factor of 2.5; and
    (iv) Maximum continuous thrust.
    (b) For airplanes approved for aerobatic maneuvers, each engine 
mount and its supporting structure must meet the requirements of 
paragraph (a) of this section and be designed to withstand the load 
factors expected during combined maximum yaw and pitch velocities.
    (c) For airplanes certificated in the commuter category, each engine 
mount and its supporting structure must meet the requirements of 
paragraph (a) of this section and the gust conditions specified in 
Sec. 23.341 of this part.

[Doc. No. 27805, 61 FR 5145, Feb. 9, 1996]



Sec. 23.373  Speed control devices.

    If speed control devices (such as spoilers and drag flaps) are 
incorporated for use in enroute conditions--
    (a) The airplane must be designed for the symmetrical maneuvers and 
gusts prescribed in Secs. 23.333, 23.337, and 23.341, and the yawing 
maneuvers and lateral gusts in Secs. 23.441 and 23.443, with the device 
extended at speeds up to the placard device extended speed; and
    (b) If the device has automatic operating or load limiting features, 
the airplane must be designed for the maneuver and gust conditions 
prescribed in paragraph (a) of this section at the speeds and 
corresponding device positions that the mechanism allows.

[Amdt. 23-7, 34 FR 13089, Aug. 13, 1969]

                    Control Surface and System Loads



Sec. 23.391  Control surface loads.

    The control surface loads specified in Secs. 23.397 through 23.459 
are assumed to occur in the conditions described in Secs. 23.331 through 
23.351.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-48, 
61 FR 5145, Feb. 9, 1996]



Sec. 23.393  Loads parallel to hinge line.

    (a) Control surfaces and supporting hinge brackets must be designed 
to withstand inertial loads acting parallel to the hinge line.
    (b) In the absence of more rational data, the inertial loads may be 
assumed to be equal to KW, where--
    (1) K = 24 for vertical surfaces;
    (2) K = 12 for horizontal surfaces; and
    (3) W = weight of the movable surfaces.

[Doc. No. 27805, 61 FR 5145, Feb. 9, 1996]



Sec. 23.395  Control system loads.

    (a) Each flight control system and its supporting structure must be 
designed for loads corresponding to at least 125 percent of the computed 
hinge moments of the movable control surface in the conditions 
prescribed in Secs. 23.391 through 23.459. In addition, the following 
apply:
    (1) The system limit loads need not exceed the higher of the loads 
that can be produced by the pilot and automatic devices operating the 
controls. However, autopilot forces need not be added to pilot forces. 
The system must be designed for the maximum effort of the pilot or 
autopilot, whichever is higher. In addition, if the pilot and the 
autopilot act in opposition, the part of the system between them may be 
designed for the maximum effort of the one that imposes the lesser load. 
Pilot forces used for design need not exceed the maximum forces 
prescribed in Sec. 23.397(b).
    (2) The design must, in any case, provide a rugged system for 
service use, considering jamming, ground gusts, taxiing downwind, 
control inertia, and friction. Compliance with this subparagraph may be 
shown by designing for loads resulting from application of the minimum 
forces prescribed in Sec. 23.397(b).
    (b) A 125 percent factor on computed hinge moments must be used to 
design elevator, aileron, and rudder systems. However, a factor as low 
as 1.0 may be used if hinge moments are based on accurate flight test 
data, the exact reduction depending upon the accuracy and reliability of 
the data.
    (c) Pilot forces used for design are assumed to act at the 
appropriate control

[[Page 208]]

grips or pads as they would in flight, and to react at the attachments 
of the control system to the control surface horns.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13089, Aug. 13, 1969]



Sec. 23.397  Limit control forces and torques.

    (a) In the control surface flight loading condition, the airloads on 
movable surfaces and the corresponding deflections need not exceed those 
that would result in flight from the application of any pilot force 
within the ranges specified in paragraph (b) of this section. In 
applying this criterion, the effects of control system boost and servo-
mechanisms, and the effects of tabs must be considered. The automatic 
pilot effort must be used for design if it alone can produce higher 
control surface loads than the human pilot.
    (b) The limit pilot forces and torques are as follows:

------------------------------------------------------------------------
                                   Maximum forces or
                                  torques for design
                                    weight, weight     Minimum forces or
             Control               equal to or less       torques \2\
                                   than 5,000 pounds
                                          \1\
------------------------------------------------------------------------
Aileron:
  Stick.........................  67 lbs............  40 lbs.
  Wheel \3\.....................  50 D in.-lbs \4\..  40 D in.-lbs.\4\
Elevator:
  Stick.........................  167 lbs...........  100 lbs.
  Wheel (symmetrical)...........  200 lbs...........  100 lbs.
  Wheel (unsymmetrical) \5\.....  ..................  100 lbs.
Rudder..........................  200 lbs...........  150 lbs.
------------------------------------------------------------------------
\1\ For design weight (W) more than 5,000 pounds, the specified maximum
  values must be increased linearly with weight to 1.18 times the
  specified values at a design weight of 12,500 pounds and for commuter
  category airplanes, the specified values must be increased linearly
  with weight to 1.35 times the specified values at a design weight of
  19,000 pounds.
\2\ If the design of any individual set of control systems or surfaces
  makes these specified minimum forces or torques inapplicable, values
  corresponding to the present hinge moments obtained under Sec.
  23.415, but not less than 0.6 of the specified minimum forces or
  torques, may be used.
\3\ The critical parts of the aileron control system must also be
  designed for a single tangential force with a limit value of 1.25
  times the couple force determined from the above criteria.
\4\ D=wheel diameter (inches).
\5\ The unsymmetrical force must be applied at one of the normal
  handgrip points on the control wheel.


[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13089, Aug. 13, 1969; Amdt. 23-17, 41 FR 55464, Dec. 20, 1976; Amdt. 
23-34, 52 FR 1829, Jan. 15, 1987; Amdt. 23-45, 58 FR 42160, Aug. 6, 
1993]



Sec. 23.399  Dual control system.

    (a) Each dual control system must be designed to withstand the force 
of the pilots operating in opposition, using individual pilot forces not 
less than the greater of--
    (1) 0.75 times those obtained under Sec. 23.395; or
    (2) The minimum forces specified in Sec. 23.397(b).
    (b) Each dual control system must be designed to withstand the force 
of the pilots applied together, in the same direction, using individual 
pilot forces not less than 0.75 times those obtained under Sec. 23.395.

[Doc. No. 27805, 61 FR 5145, Feb. 9, 1996]



Sec. 23.405  Secondary control system.

    Secondary controls, such as wheel brakes, spoilers, and tab 
controls, must be designed for the maximum forces that a pilot is likely 
to apply to those controls.



Sec. 23.407  Trim tab effects.

    The effects of trim tabs on the control surface design conditions 
must be accounted for only where the surface loads are limited by 
maximum pilot effort. In these cases, the tabs are considered to be 
deflected in the direction that would assist the pilot. These 
deflections must correspond to the maximum degree of ``out of trim'' 
expected at the speed for the condition under consideration.



Sec. 23.409  Tabs.

    Control surface tabs must be designed for the most severe 
combination of airspeed and tab deflection likely to be obtained within 
the flight envelope for any usable loading condition.



Sec. 23.415  Ground gust conditions.

    (a) The control system must be investigated as follows for control 
surface loads due to ground gusts and taxiing downwind:
    (1) If an investigation of the control system for ground gust loads 
is not required by paragraph (a)(2) of this section, but the applicant 
elects to design a part of the control system of these loads, these 
loads need only be carried from control surface horns through the

[[Page 209]]

nearest stops or gust locks and their supporting structures.
    (2) If pilot forces less than the minimums specified in 
Sec. 23.397(b) are used for design, the effects of surface loads due to 
ground gusts and taxiing downwind must be investigated for the entire 
control system according to the formula:

H = K c S q

where--
H = limit hinge moment (ft.-lbs.);
c = mean chord of the control surface aft of the hinge line (ft.);
S = area of control surface aft of the hinge line (sq. ft.);
q = dynamic pressure (p.s.f.) based on a design speed not less than 14.6 
(W/S) + 14.6 (f.p.s.) where W/S = wing loading at design 
maximum weight, except that the design speed need not exceed 88 
(f.p.s.);
K = limit hinge moment factor for ground gusts derived in paragraph (b) 
of this section. (For ailerons and elevators, a positive value of K 
indicates a moment tending to depress the surface and a negative value 
of K indicates a moment tending to raise the surface).
    (b) The limit hinge moment factor K for ground gusts must be derived 
as follows:

------------------------------------------------------------------------
            Surface                 K          Position of controls
------------------------------------------------------------------------
(a) Aileron....................     0.75  Control column locked lashed
                                           in mid-position.
(b) Aileron....................  plus-mi  Ailerons at full throw; +
                                   n0.50   moment on one aileron, -
                                           moment on the other.
(c) Elevator...................  plus-mi  (c) Elevator full up (-).
                                   n0.75
(d) Elevator...................  .......  (d) Elevator full down (+).
(e) Rudder.....................  plus-mi  (e) Rudder in neutral.
                                   n0.75
(f) Rudder.....................  .......  (f) Rudder at full throw.
------------------------------------------------------------------------

    (c) At all weights between the empty weight and the maximum weight 
declared for tie-down stated in the appropriate manual, any declared 
tie-down points and surrounding structure, control system, surfaces and 
associated gust locks, must be designed to withstand the limit load 
conditions that exist when the airplane is tied down and that result 
from wind speeds of up to 65 knots horizontally from any direction.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13089, Aug. 13, 1969; Amdt. 23-45, 58 FR 42160, Aug. 6, 1993; Amdt. 
23-48, 61 FR 5145, Feb. 9, 1996]

              Horizontal Stabilizing and Balancing Surfaces



Sec. 23.421  Balancing loads.

    (a) A horizontal surface balancing load is a load necessary to 
maintain equilibrium in any specified flight condition with no pitching 
acceleration.
    (b) Horizontal balancing surfaces must be designed for the balancing 
loads occurring at any point on the limit maneuvering envelope and in 
the flap conditions specified in Sec. 23.345.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13089, Aug. 13, 1969; Amdt. 23-42, 56 FR 352, Jan. 3, 1991]



Sec. 23.423  Maneuvering loads.

    Each horizontal surface and its supporting structure, and the main 
wing of a canard or tandem wing configuration, if that surface has pitch 
control, must be designed for the maneuvering loads imposed by the 
following conditions:
    (a) A sudden movement of the pitching control, at the speed 
VA, to the maximum aft movement, and the maximum forward 
movement, as limited by the control stops, or pilot effort, whichever is 
critical.
    (b) A sudden aft movement of the pitching control at speeds above 
VA, followed by a forward movement of the pitching control 
resulting in the following combinations of normal and angular 
acceleration:

------------------------------------------------------------------------
                                     Normal
           Condition              acceleration     Angular acceleration
                                       (n)            (radian/sec2)
------------------------------------------------------------------------
Nose-up pitching...............  1.0             +39nmV x (nm-1.
                                                  5)
Nose-down ptiching.............  nm              -39nmV x (nm-1.
                                                  5)
------------------------------------------------------------------------


where--
    (1) nm = positive limit maneuvering load factor used in 
the design of the airplane; and
    (2) V = initial speed in knots.
    The conditions in this paragraph involve loads corresponding to the 
loads that may occur in a ``checked maneuver'' (a maneuver in which the 
pitching control is suddenly displaced in one direction and then 
suddenly moved in the opposite direction). The deflections and timing of 
the ``checked maneuver'' must avoid exceeding the limit maneuvering load 
factor. The total horizontal

[[Page 210]]

surface load for both nose-up and nose-down pitching conditions is the 
sum of the balancing loads at V and the specified value of the normal 
load factor n, plus the maneuvering load increment due to the specified 
value of the angular acceleration.

[Amdt. 23-42, 56 FR 353, Jan. 3, 1991; 56 FR 5455, Feb. 11, 1991]



Sec. 23.425  Gust loads.

    (a) Each horizontal surface, other than a main wing, must be 
designed for loads resulting from--
    (1) Gust velocities specified in Sec. 23.333(c) with flaps 
retracted; and
    (2) Positive and negative gusts of 25 f.p.s. nominal intensity at 
VF corresponding to the flight conditions specified in 
Sec. 23.345(a)(2).
    (b) [Reserved]
    (c) When determining the total load on the horizontal surfaces for 
the conditions specified in paragraph (a) of this section, the initial 
balancing loads for steady unaccelerated flight at the pertinent design 
speeds VF, VC, and VD must first be 
determined. The incremental load resulting from the gusts must be added 
to the initial balancing load to obtain the total load.
    (d) In the absence of a more rational analysis, the incremental load 
due to the gust must be computed as follows only on airplane 
configurations with aft-mounted, horizontal surfaces, unless its use 
elsewhere is shown to be conservative:
[GRAPHIC] [TIFF OMITTED] TC28SE91.002

where--

Lht = Incremental horizontal tailload (lbs.);
Kg = Gust alleviation factor defined in Sec. 23.341;
Ude = Derived gust velocity (f.p.s.);
V = Airplane equivalent speed (knots);
aht = Slope of aft horizontal lift curve (per radian)
Sht = Area of aft horizontal lift surface (ft\2\); and
[GRAPHIC] [TIFF OMITTED] TC28SE91.003


[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13089 Aug. 13, 1969; Amdt. 23-42, 56 FR 353, Jan. 3, 1991]



Sec. 23.427  Unsymmetrical loads.

    (a) Horizontal surfaces other than main wing and their supporting 
structure must be designed for unsymmetrical loads arising from yawing 
and slipstream effects, in combination with the loads prescribed for the 
flight conditions set forth in Secs. 23.421 through 23.425.
    (b) In the absence of more rational data for airplanes that are 
conventional in regard to location of engines, wings, horizontal 
surfaces other than main wing, and fuselage shape:
    (1) 100 percent of the maximum loading from the symmetrical flight 
conditions may be assumed on the surface on one side of the plane of 
symmetry; and
    (2) The following percentage of that loading must be applied to the 
opposite side:

    Percent=100-10 (n-1), where n is the specified positive maneuvering 
load factor, but this value may not be more than 80 percent.

    (c) For airplanes that are not conventional (such as airplanes with 
horizontal surfaces other than main wing having appreciable dihedral or 
supported by the vertical tail surfaces) the surfaces and supporting 
structures must be designed for combined vertical and horizontal surface 
loads resulting from each prescribed flight condition taken separately.

[Amdt. 23-14, 38 FR 31820, Nov. 19, 1973, as amended by Amdt. 23-42, 56 
FR 353, Jan. 3, 1991]

                            Vertical Surfaces



Sec. 23.441  Maneuvering loads.

    (a) At speeds up to VA, the vertical surfaces must be 
designed to withstand the following conditions. In computing the loads, 
the yawing velocity may be assumed to be zero:
    (1) With the airplane in unaccelerated flight at zero yaw, it is 
assumed that the rudder control is suddenly displaced to the maximum 
deflection, as limited by the control stops or by limit pilot forces.
    (2) With the rudder deflected as specified in paragraph (a)(1) of 
this section, it is assumed that the airplane yaws to the overswing 
sideslip angle. In lieu of a rational analysis, an overswing angle

[[Page 211]]

equal to 1.5 times the static sideslip angle of paragraph (a)(3) of this 
section may be assumed.
    (3) A yaw angle of 15 degrees with the rudder control maintained in 
the neutral position (except as limited by pilot strength).
    (b) For commuter category airplanes, the loads imposed by the 
following additional maneuver must be substantiated at speeds from 
VA to VD/MD. When computing the tail 
loads--
    (1) The airplane must be yawed to the largest attainable steady 
state sideslip angle, with the rudder at maximum deflection caused by 
any one of the following:
    (i) Control surface stops;
    (ii) Maximum available booster effort;
    (iii) Maximum pilot rudder force as shown below:

[[Page 212]]

[GRAPHIC] [TIFF OMITTED] TR09FE96.006

    (2) The rudder must be suddenly displaced from the maximum 
deflection to the neutral position.
    (c) The yaw angles specified in paragraph (a)(3) of this section may 
be reduced if the yaw angle chosen for a particular speed cannot be 
exceeded in--

[[Page 213]]

    (1) Steady slip conditions;
    (2) Uncoordinated rolls from steep banks; or
    (3) Sudden failure of the critical engine with delayed corrective 
action.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13090, Aug. 13, 1969; Amdt. 23-14, 38 FR 31821, Nov. 19, 1973; Amdt. 
23-28, 47 FR 13315, Mar. 29, 1982; Amdt. 23-42, 56 FR 353, Jan. 3, 1991; 
Amdt. 23-48, 61 FR 5145, Feb. 9, 1996]



Sec. 23.443  Gust loads.

    (a) Vertical surfaces must be designed to withstand, in 
unaccelerated flight at speed VC, lateral gusts of the values 
prescribed for VC in Sec. 23.333(c).
    (b) In addition, for commuter category airplanes, the airplane is 
assumed to encounter derived gusts normal to the plane of symmetry while 
in unaccelerated flight at VB, VC, VD, 
and VF. The derived gusts and airplane speeds corresponding 
to these conditions, as determined by Secs. 23.341 and 23.345, must be 
investigated. The shape of the gust must be as specified in 
Sec. 23.333(c)(2)(i).
    (c) In the absence of a more rational analysis, the gust load must 
be computed as follows:
[GRAPHIC] [TIFF OMITTED] TR09FE96.000

Where--

Lvt=Vertical surface loads (lbs.);
[GRAPHIC] [TIFF OMITTED] TR09FE96.001

[GRAPHIC] [TIFF OMITTED] TR09FE96.002

Ude=Derived gust velocity (f.p.s.);
=Air density (slugs/cu.ft.);
W=the applicable weight of the airplane in the particular load case 
(lbs.);
Svt=Area of vertical surface (ft.\2\);
c8t=Mean geometric chord of vertical surface (ft.);
avt=Lift curve slope of vertical surface (per radian);
K=Radius of gyration in yaw (ft.);
lvt=Distance from airplane c.g. to lift center of vertical 
surface (ft.);
g=Acceleration due to gravity (ft./sec.\2\); and
V=Equivalent airspeed (knots).

[Amdt. 23-7, 34 FR 13090, Aug. 13, 1969, as amended by Amdt. 23-34, 52 
FR 1830, Jan. 15, 1987; 52 FR 7262, Mar. 9, 1987; Amdt. 23-24, 52 FR 
34745, Sept. 14, 1987; Amdt. 23-42, 56 FR 353, Jan. 3, 1991; Amdt. 23-
48, 61 FR 5147, Feb. 9, 1996]



Sec. 23.445  Outboard fins or winglets.

    (a) If outboard fins or winglets are included on the horizontal 
surfaces or wings, the horizontal surfaces or wings must be designed for 
their maximum load in combination with loads induced by the fins or 
winglets and moments or forces exerted on the horizontal surfaces or 
wings by the fins or winglets.
    (b) If outboard fins or winglets extend above and below the 
horizontal surface, the critical vertical surface loading (the load per 
unit area as determined under Secs. 23.441 and 23.443) must be applied 
to--
    (1) The part of the vertical surfaces above the horizontal surface 
with 80 percent of that loading applied to the part below the horizontal 
surface; and
    (2) The part of the vertical surfaces below the horizontal surface 
with 80 percent of that loading applied to the part above the horizontal 
surface.
    (c) The end plate effects of outboard fins or winglets must be taken 
into account in applying the yawing conditions of Secs. 23.441 and 
23.443 to the vertical surfaces in paragraph (b) of this section.
    (d) When rational methods are used for computing loads, the 
maneuvering loads of Sec. 23.441 on the vertical surfaces and the one-g 
horizontal surface load, including induced loads on the horizontal 
surface and moments or forces exerted on the horizontal surfaces by the 
vertical surfaces, must be applied simultaneously for the structural 
loading condition.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31821, Nov. 19, 1973; Amdt. 23-42, 56 FR 353, Jan. 3, 1991]

                      Ailerons and Special Devices



Sec. 23.455  Ailerons.

    (a) The ailerons must be designed for the loads to which they are 
subjected--

[[Page 214]]

    (1) In the neutral position during symmetrical flight conditions; 
and
    (2) By the following deflections (except as limited by pilot 
effort), during unsymmetrical flight conditions:
    (i) Sudden maximum displacement of the aileron control at 
VA. Suitable allowance may be made for control system 
deflections.
    (ii) Sufficient deflection at VC, where VC is 
more than VA, to produce a rate of roll not less than 
obtained in paragraph (a)(2)(i) of this section.
    (iii) Sufficient deflection at VD to produce a rate of 
roll not less than one-third of that obtained in paragraph (a)(2)(i) of 
this section.
    (b) [Reserved]

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13090, Aug. 13, 1969; Amdt. 23-42, 56 FR 353, Jan. 3, 1991]



Sec. 23.459  Special devices.

    The loading for special devices using aerodynamic surfaces (such as 
slots and spoilers) must be determined from test data.

                              Ground Loads



Sec. 23.471  General.

    The limit ground loads specified in this subpart are considered to 
be external loads and inertia forces that act upon an airplane 
structure. In each specified ground load condition, the external 
reactions must be placed in equilibrium with the linear and angular 
inertia forces in a rational or conservative manner.



Sec. 23.473  Ground load conditions and assumptions.

    (a) The ground load requirements of this subpart must be complied 
with at the design maximum weight except that Secs. 23.479, 23.481, and 
23.483 may be complied with at a design landing weight (the highest 
weight for landing conditions at the maximum descent velocity) allowed 
under paragraphs (b) and (c) of this section.
    (b) The design landing weight may be as low as--
    (1) 95 percent of the maximum weight if the minimum fuel capacity is 
enough for at least one-half hour of operation at maximum continuous 
power plus a capacity equal to a fuel weight which is the difference 
between the design maximum weight and the design landing weight; or
    (2) The design maximum weight less the weight of 25 percent of the 
total fuel capacity.
    (c) The design landing weight of a multiengine airplane may be less 
than that allowed under paragraph (b) of this section if--
    (1) The airplane meets the one-engine-inoperative climb requirements 
of Sec. 23.67(b)(1) or (c); and
    (2) Compliance is shown with the fuel jettisoning system 
requirements of Sec. 23.1001.
    (d) The selected limit vertical inertia load factor at the center of 
gravity of the airplane for the ground load conditions prescribed in 
this subpart may not be less than that which would be obtained when 
landing with a descent velocity (V), in feet per second, equal to 4.4 
(W/S)\1/4\, except that this velocity need not be more than 10 feet per 
second and may not be less than seven feet per second.
    (e) Wing lift not exceeding two-thirds of the weight of the airplane 
may be assumed to exist throughout the landing impact and to act through 
the center of gravity. The ground reaction load factor may be equal to 
the inertia load factor minus the ratio of the above assumed wing lift 
to the airplane weight.
    (f) If energy absorption tests are made to determine the limit load 
factor corresponding to the required limit descent velocities, these 
tests must be made under Sec. 23.723(a).
    (g) No inertia load factor used for design purposes may be less than 
2.67, nor may the limit ground reaction load factor be less than 2.0 at 
design maximum weight, unless these lower values will not be exceeded in 
taxiing at speeds up to takeoff speed over terrain as rough as that 
expected in service.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13090, Aug. 13, 1969; Amdt. 23-28, 47 FR 13315, Mar. 29, 1982; Amdt. 
23-45, 58 FR 42160, Aug. 6, 1993; Amdt. 23-48, 61 FR 5147, Feb. 9, 1996]



Sec. 23.477  Landing gear arrangement.

    Sections 23.479 through 23.483, or the conditions in appendix C, 
apply to airplanes with conventional arrangements

[[Page 215]]

of main and nose gear, or main and tail gear.



Sec. 23.479  Level landing conditions.

    (a) For a level landing, the airplane is assumed to be in the 
following attitudes:
    (1) For airplanes with tail wheels, a normal level flight attitude.
    (2) For airplanes with nose wheels, attitudes in which--
    (i) The nose and main wheels contact the ground simultaneously; and
    (ii) The main wheels contact the ground and the nose wheel is just 
clear of the ground.

The attitude used in paragraph (a)(2)(i) of this section may be used in 
the analysis required under paragraph (a)(2)(ii) of this section.
    (b) When investigating landing conditions, the drag components 
simulating the forces required to accelerate the tires and wheels up to 
the landing speed (spin-up) must be properly combined with the 
corresponding instantaneous vertical ground reactions, and the forward-
acting horizontal loads resulting from rapid reduction of the spin-up 
drag loads (spring-back) must be combined with vertical ground reactions 
at the instant of the peak forward load, assuming wing lift and a tire-
sliding coefficient of friction of 0.8. However, the drag loads may not 
be less than 25 percent of the maximum vertical ground reactions 
(neglecting wing lift).
    (c) In the absence of specific tests or a more rational analysis for 
determining the wheel spin-up and spring-back loads for landing 
conditions, the method set forth in appendix D of this part must be 
used. If appendix D of this part is used, the drag components used for 
design must not be less than those given by appendix C of this part.
    (d) For airplanes with tip tanks or large overhung masses (such as 
turbo-propeller or jet engines) supported by the wing, the tip tanks and 
the structure supporting the tanks or overhung masses must be designed 
for the effects of dynamic responses under the level landing conditions 
of either paragraph (a)(1) or (a)(2)(ii) of this section. In evaluating 
the effects of dynamic response, an airplane lift equal to the weight of 
the airplane may be assumed.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-17, 
41 FR 55464, Dec. 20, 1976; Amdt. 23-45, 58 FR 42160, Aug. 6, 1993]



Sec. 23.481  Tail down landing conditions.

    (a) For a tail down landing, the airplane is assumed to be in the 
following attitudes:
    (1) For airplanes with tail wheels, an attitude in which the main 
and tail wheels contact the ground simultaneously.
    (2) For airplanes with nose wheels, a stalling attitude, or the 
maximum angle allowing ground clearance by each part of the airplane, 
whichever is less.
    (b) For airplanes with either tail or nose wheels, ground reactions 
are assumed to be vertical, with the wheels up to speed before the 
maximum vertical load is attained.



Sec. 23.483  One-wheel landing conditions.

    For the one-wheel landing condition, the airplane is assumed to be 
in the level attitude and to contact the ground on one side of the main 
landing gear. In this attitude, the ground reactions must be the same as 
those obtained on that side under Sec. 23.479.



Sec. 23.485  Side load conditions.

    (a) For the side load condition, the airplane is assumed to be in a 
level attitude with only the main wheels contacting the ground and with 
the shock absorbers and tires in their static positions.
    (b) The limit vertical load factor must be 1.33, with the vertical 
ground reaction divided equally between the main wheels.
    (c) The limit side inertia factor must be 0.83, with the side ground 
reaction divided between the main wheels so that--
    (1) 0.5 (W) is acting inboard on one side; and
    (2) 0.33 (W) is acting outboard on the other side.
    (d) The side loads prescribed in paragraph (c) of this section are 
assumed to be applied at the ground contact point

[[Page 216]]

and the drag loads may be assumed to be zero.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42160, Aug. 6, 1993]



Sec. 23.493  Braked roll conditions.

    Under braked roll conditions, with the shock absorbers and tires in 
their static positions, the following apply:
    (a) The limit vertical load factor must be 1.33.
    (b) The attitudes and ground contacts must be those described in 
Sec. 23.479 for level landings.
    (c) A drag reaction equal to the vertical reaction at the wheel 
multiplied by a coefficient of friction of 0.8 must be applied at the 
ground contact point of each wheel with brakes, except that the drag 
reaction need not exceed the maximum value based on limiting brake 
torque.



Sec. 23.497  Supplementary conditions for tail wheels.

    In determining the ground loads on the tail wheel and affected 
supporting structures, the following apply:
    (a) For the obstruction load, the limit ground reaction obtained in 
the tail down landing condition is assumed to act up and aft through the 
axle at 45 degrees. The shock absorber and tire may be assumed to be in 
their static positions.
    (b) For the side load, a limit vertical ground reaction equal to the 
static load on the tail wheel, in combination with a side component of 
equal magnitude, is assumed. In addition--
    (1) If a swivel is used, the tail wheel is assumed to be swiveled 90 
degrees to the airplane longitudinal axis with the resultant ground load 
passing through the axle;
    (2) If a lock, steering device, or shimmy damper is used, the tail 
wheel is also assumed to be in the trailing position with the side load 
acting at the ground contact point; and
    (3) The shock absorber and tire are assumed to be in their static 
positions.
    (c) If a tail wheel, bumper, or an energy absorption device is 
provided to show compliance with Sec. 23.925(b), the following apply:
    (1) Suitable design loads must be established for the tail wheel, 
bumper, or energy absorption device; and
    (2) The supporting structure of the tail wheel, bumper, or energy 
absorption device must be designed to withstand the loads established in 
paragraph (c)(1) of this section.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-48, 
61 FR 5147, Feb. 9, 1996]



Sec. 23.499  Supplementary conditions for nose wheels.

    In determining the ground loads on nose wheels and affected 
supporting structures, and assuming that the shock absorbers and tires 
are in their static positions, the following conditions must be met:
    (a) For aft loads, the limit force components at the axle must be--
    (1) A vertical component of 2.25 times the static load on the wheel; 
and
    (2) A drag component of 0.8 times the vertical load.
    (b) For forward loads, the limit force components at the axle must 
be--
    (1) A vertical component of 2.25 times the static load on the wheel; 
and
    (2) A forward component of 0.4 times the vertical load.
    (c) For side loads, the limit force components at ground contact 
must be--
    (1) A vertical component of 2.25 times the static load on the wheel; 
and
    (2) A side component of 0.7 times the vertical load.
    (d) For airplanes with a steerable nose wheel that is controlled by 
hydraulic or other power, at design takeoff weight with the nose wheel 
in any steerable position, the application of 1.33 times the full 
steering torque combined with a vertical reaction equal to 1.33 times 
the maximum static reaction on the nose gear must be assumed. However, 
if a torque limiting device is installed, the steering torque can be 
reduced to the maximum value allowed by that device.
    (e) For airplanes with a steerable nose wheel that has a direct 
mechanical connection to the rudder pedals, the mechanism must be 
designed to withstand the steering torque for the

[[Page 217]]

maximum pilot forces specified in Sec. 23.397(b).

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-48, 
61 FR 5147, Feb. 9, 1996]



Sec. 23.505  Supplementary conditions for skiplanes.

    In determining ground loads for skiplanes, and assuming that the 
airplane is resting on the ground with one main ski frozen at rest and 
the other skis free to slide, a limit side force equal to 0.036 times 
the design maximum weight must be applied near the tail assembly, with a 
factor of safety of 1.

[Amdt. 23-7, 34 FR 13090, Aug. 13, 1969]



Sec. 23.507  Jacking loads.

    (a) The airplane must be designed for the loads developed when the 
aircraft is supported on jacks at the design maximum weight assuming the 
following load factors for landing gear jacking points at a three-point 
attitude and for primary flight structure jacking points in the level 
attitude:
    (1) Vertical-load factor of 1.35 times the static reactions.
    (2) Fore, aft, and lateral load factors of 0.4 times the vertical 
static reactions.
    (b) The horizontal loads at the jack points must be reacted by 
inertia forces so as to result in no change in the direction of the 
resultant loads at the jack points.
    (c) The horizontal loads must be considered in all combinations with 
the vertical load.

[Amdt. 23-14, 38 FR 31821, Nov. 19, 1973]



Sec. 23.509  Towing loads.

    The towing loads of this section must be applied to the design of 
tow fittings and their immediate attaching structure.
    (a) The towing loads specified in paragraph (d) of this section must 
be considered separately. These loads must be applied at the towing 
fittings and must act parallel to the ground. In addition:
    (1) A vertical load factor equal to 1.0 must be considered acting at 
the center of gravity; and
    (2) The shock struts and tires must be in there static positions.
    (b) For towing points not on the landing gear but near the plane of 
symmetry of the airplane, the drag and side tow load components 
specified for the auxiliary gear apply. For towing points located 
outboard of the main gear, the drag and side tow load components 
specified for the main gear apply. Where the specified angle of swivel 
cannot be reached, the maximum obtainable angle must be used.
    (c) The towing loads specified in paragraph (d) of this section must 
be reacted as follows:
    (1) The side component of the towing load at the main gear must be 
reacted by a side force at the static ground line of the wheel to which 
the load is applied.
    (2) The towing loads at the auxiliary gear and the drag components 
of the towing loads at the main gear must be reacted as follows:
    (i) A reaction with a maximum value equal to the vertical reaction 
must be applied at the axle of the wheel to which the load is applied. 
Enough airplane inertia to achieve equilibrium must be applied.
    (ii) The loads must be reacted by airplane inertia.
    (d) The prescribed towing loads are as follows, where W is the 
design maximum weight:

----------------------------------------------------------------------------------------------------------------
                                                                                        Load
               Tow point                         Position         ----------------------------------------------
                                                                    Magnitude    No.            Direction
----------------------------------------------------------------------------------------------------------------
Main gear.............................  .........................      0.225W        1  Forward, parallel to
                                                                                     2   drag axis.
                                                                                     3  Forward, at 30 deg. to
                                                                                     4   drag axis.
                                                                                        Aft, parallel to drag
                                                                                         axis.
                                                                                        Aft, at 30 deg. to drag
                                                                                         axis.
----------------------------------------------------------------------------------------------------------------
Auxiliary gear........................  Swiveled forward.........        0.3W        5  Forward.
                                                                                     6  Aft.
                                        Swiveled aft.............        0.3W        7  Forward.
                                                                                     8  Aft.

[[Page 218]]

 
                                        Swiveled 45 deg. from           0.15W        9  Forward, in plane of
                                         forward.                                   10   wheel.
                                                                                        Aft, in plane of wheel.
                                        Swiveled 45 deg. from aft       0.15W       11  Forward, in plane of
                                                                                    12   wheel.
                                                                                        Aft, in plane of wheel.
----------------------------------------------------------------------------------------------------------------


[Amdt. 23-14, 38 FR 31821, Nov. 19, 1973]



Sec. 23.511  Ground load; unsymmetrical loads on multiple-wheel units.

    (a) Pivoting loads. The airplane is assumed to pivot about on side 
of the main gear with--
    (1) The brakes on the pivoting unit locked; and
    (2) Loads corresponding to a limit vertical load factor of 1, and 
coefficient of friction of 0.8 applied to the main gear and its 
supporting structure.
    (b) Unequal tire loads. The loads established under Secs. 23.471 
through 23.483 must be applied in turn, in a 60/40 percent distribution, 
to the dual wheels and tires in each dual wheel landing gear unit.
    (c) Deflated tire loads. For the deflated tire condition--
    (1) 60 percent of the loads established under Secs. 23.471 through 
23.483 must be applied in turn to each wheel in a landing gear unit; and
    (2) 60 percent of the limit drag and side loads, and 100 percent of 
the limit vertical load established under Secs. 23.485 and 23.493 or 
lesser vertical load obtained under paragraph (c)(1) of this section, 
must be applied in turn to each wheel in the dual wheel landing gear 
unit.

[Amdt. 23-7, 34 FR 13090, Aug. 13, 1969]

                               Water Loads



Sec. 23.521  Water load conditions.

    (a) The structure of seaplanes and amphibians must be designed for 
water loads developed during takeoff and landing with the seaplane in 
any attitude likely to occur in normal operation at appropriate forward 
and sinking velocities under the most severe sea conditions likely to be 
encountered.
    (b) Unless the applicant makes a rational analysis of the water 
loads, Secs. 23.523 through 23.537 apply.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42160, Aug. 6, 1993; Amdt. 23-48, 61 FR 5147, Feb. 9, 1996]



Sec. 23.523  Design weights and center of gravity positions.

    (a) Design weights. The water load requirements must be met at each 
operating weight up to the design landing weight except that, for the 
takeoff condition prescribed in Sec. 23.531, the design water takeoff 
weight (the maximum weight for water taxi and takeoff run) must be used.
    (b) Center of gravity positions. The critical centers of gravity 
within the limits for which certification is requested must be 
considered to reach maximum design loads for each part of the seaplane 
structure.

[Doc. No. 26269, 58 FR 42160, Aug. 6, 1993]



Sec. 23.525  Application of loads.

    (a) Unless otherwise prescribed, the seaplane as a whole is assumed 
to be subjected to the loads corresponding to the load factors specified 
in Sec. 23.527.
    (b) In applying the loads resulting from the load factors prescribed 
in Sec. 23.527, the loads may be distributed over the hull or main float 
bottom (in order to avoid excessive local shear loads and bending 
moments at the location of water load application) using pressures not 
less than those prescribed in Sec. 23.533(c).
    (c) For twin float seaplanes, each float must be treated as an 
equivalent hull on a fictitious seaplane with a weight equal to one-half 
the weight of the twin float seaplane.
    (d) Except in the takeoff condition of Sec. 23.531, the aerodynamic 
lift on the

[[Page 219]]

seaplane during the impact is assumed to be \2/3\ of the weight of the 
seaplane.

[Doc. No. 26269, 58 FR 42161, Aug. 6, 1993; 58 FR 51970, Oct. 5, 1993]



Sec. 23.527  Hull and main float load factors.

    (a) Water reaction load factors nw must be computed in 
the following manner:
    (1) For the step landing case
    [GRAPHIC] [TIFF OMITTED] TC28SE91.004
    
    (2) For the bow and stern landing cases
    [GRAPHIC] [TIFF OMITTED] TC28SE91.005
    
    (b) The following values are used:
    (1) nw=water reaction load factor (that is, the water 
reaction divided by seaplane weight).
    (2) C1=empirical seaplane operations factor equal to 
0.012 (except that this factor may not be less than that necessary to 
obtain the minimum value of step load factor of 2.33).
    (3) VSO=seaplane stalling speed in knots with flaps 
extended in the appropriate landing position and with no slipstream 
effect.
    (4) =Angle of dead rise at the longitudinal station at 
which the load factor is being determined in accordance with figure 1 of 
appendix I of this part.
    (5) W=seaplane landing weight in pounds.
    (6) K1=empirical hull station weighing factor, in 
accordance with figure 2 of appendix I of this part.
    (7) rx=ratio of distance, measured parallel to hull 
reference axis, from the center of gravity of the seaplane to the hull 
longitudinal station at which the load factor is being computed to the 
radius of gyration in pitch of the seaplane, the hull reference axis 
being a straight line, in the plane of symmetry, tangential to the keel 
at the main step.
    (c) For a twin float seaplane, because of the effect of flexibility 
of the attachment of the floats to the seaplane, the factor K1 
may be reduced at the bow and stern to 0.8 of the value shown in figure 
2 of appendix I of this part. This reduction applies only to the design 
of the carrythrough and seaplane structure.

[Doc. No. 26269, 58 FR 42161, Aug. 6, 1993; 58 FR 51970, Oct. 5, 1993]



Sec. 23.529  Hull and main float landing conditions.

    (a) Symmetrical step, bow, and stern landing. For symmetrical step, 
bow, and stern landings, the limit water reaction load factors are those 
computed under Sec. 23.527. In addition--
    (1) For symmetrical step landings, the resultant water load must be 
applied at the keel, through the center of gravity, and must be directed 
perpendicularly to the keel line;
    (2) For symmetrical bow landings, the resultant water load must be 
applied at the keel, one-fifth of the longitudinal distance from the bow 
to the step, and must be directed perpendicularly to the keel line; and
    (3) For symmetrical stern landings, the resultant water load must be 
applied at the keel, at a point 85 percent of the longitudinal distance 
from the step to the stern post, and must be directed perpendicularly to 
the keel line.
    (b) Unsymmetrical landing for hull and single float seaplanes. 
Unsymmetrical step, bow, and stern landing conditions must be 
investigated. In addition--
    (1) The loading for each condition consists of an upward component 
and a side component equal, respectively, to 0.75 and 0.25 tan  
times the resultant load in the corresponding symmetrical landing 
condition; and
    (2) The point of application and direction of the upward component 
of the load is the same as that in the symmetrical condition, and the 
point of application of the side component is at the same longitudinal 
station as the upward component but is directed inward perpendicularly 
to the plane of symmetry at a point midway between the keel and chine 
lines.
    (c) Unsymmetrical landing; twin float seaplanes. The unsymmetrical 
loading consists of an upward load at the step of each float of 0.75 and 
a side load of 0.25 tan  at one float times the step landing 
load reached under Sec. 23.527. The

[[Page 220]]

side load is directed inboard, perpendicularly to the plane of symmetry 
midway between the keel and chine lines of the float, at the same 
longitudinal station as the upward load.

[Doc. No. 26269, 58 FR 42161, Aug. 6, 1993]



Sec. 23.531  Hull and main float takeoff condition.

    For the wing and its attachment to the hull or main float--
    (a) The aerodynamic wing lift is assumed to be zero; and
    (b) A downward inertia load, corresponding to a load factor computed 
from the following formula, must be applied:
[GRAPHIC] [TIFF OMITTED] TC28SE91.006

Where--
n=inertia load factor;
CTO=empirical seaplane operations factor equal to 0.004;
VS1=seaplane stalling speed (knots) at the design takeoff 
    weight with the flaps extended in the appropriate takeoff position;
=angle of dead rise at the main step (degrees); and
W=design water takeoff weight in pounds.

[Doc. No. 26269, 58 FR 42161, Aug. 6, 1993]



Sec. 23.533  Hull and main float bottom pressures.

    (a) General. The hull and main float structure, including frames and 
bulkheads, stringers, and bottom plating, must be designed under this 
section.
    (b) Local pressures. For the design of the bottom plating and 
stringers and their attachments to the supporting structure, the 
following pressure distributions must be applied:
    (1) For an unflared bottom, the pressure at the chine is 0.75 times 
the pressure at the keel, and the pressures between the keel and chine 
vary linearly, in accordance with figure 3 of appendix I of this part. 
The pressure at the keel (p.s.i.) is computed as follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.007

where--
Pk=pressure (p.s.i.) at the keel;
C2=0.00213;
K2=hull station weighing factor, in accordance with figure 2 
    of appendix I of this part;
VS1=seaplane stalling speed (knots) at the design water 
    takeoff weight with flaps extended in the appropriate takeoff 
    position; and
K=angle of dead rise at keel, in accordance with 
    figure 1 of appendix I of this part.

    (2) For a flared bottom, the pressure at the beginning of the flare 
is the same as that for an unflared bottom, and the pressure between the 
chine and the beginning of the flare varies linearly, in accordance with 
figure 3 of appendix I of this part. The pressure distribution is the 
same as that prescribed in paragraph (b)(1) of this section for an 
unflared bottom except that the pressure at the chine is computed as 
follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.008

where--
Pch=pressure (p.s.i.) at the chine;
C3=0.0016;
K2=hull station weighing factor, in accordance with figure 2 
    of appendix I of this part;
VS1=seaplane stalling speed (knots) at the design water 
    takeoff weight with flaps extended in the appropriate takeoff 
    position; and
=angle of dead rise at appropriate station.

    The area over which these pressures are applied must simulate 
pressures occurring during high localized impacts on the hull or float, 
but need not extend over an area that would induce critical stresses in 
the frames or in the overall structure.
    (c) Distributed pressures. For the design of the frames, keel, and 
chine structure, the following pressure distributions apply:

[[Page 221]]

    (1) Symmetrical pressures are computed as follows:
    [GRAPHIC] [TIFF OMITTED] TC28SE91.009
    
where--
P=pressure (p.s.i.);
C4=0.078 C1 (with C1 computed under 
    Sec. 23.527);
K2=hull station weighing factor, determined in accordance 
    with figure 2 of appendix I of this part;
VS0=seaplane stalling speed (knots) with landing flaps 
    extended in the appropriate position and with no slipstream effect; 
    and
=angle of dead rise at appropriate station.

    (2) The unsymmetrical pressure distribution consists of the 
pressures prescribed in paragraph (c)(1) of this section on one side of 
the hull or main float centerline and one-half of that pressure on the 
other side of the hull or main float centerline, in accordance with 
figure 3 of appendix I of this part.
    (3) These pressures are uniform and must be applied simultaneously 
over the entire hull or main float bottom. The loads obtained must be 
carried into the sidewall structure of the hull proper, but need not be 
transmitted in a fore and aft direction as shear and bending loads.

[Doc. No. 26269, 58 FR 42161, Aug. 6, 1993; 58 FR 51970, Oct. 5, 1993]



Sec. 23.535  Auxiliary float loads.

    (a) General. Auxiliary floats and their attachments and supporting 
structures must be designed for the conditions prescribed in this 
section. In the cases specified in paragraphs (b) through (e) of this 
section, the prescribed water loads may be distributed over the float 
bottom to avoid excessive local loads, using bottom pressures not less 
than those prescribed in paragraph (g) of this section.
    (b) Step loading. The resultant water load must be applied in the 
plane of symmetry of the float at a point three-fourths of the distance 
from the bow to the step and must be perpendicular to the keel. The 
resultant limit load is computed as follows, except that the value of L 
need not exceed three times the weight of the displaced water when the 
float is completely submerged:
[GRAPHIC] [TIFF OMITTED] TC28SE91.010

where--
L=limit load (lbs.);
C5=0.0053;
VS0=seaplane stalling speed (knots) with landing flaps 
    extended in the appropriate position and with no slipstream effect;
W=seaplane design landing weight in pounds;
s=angle of dead rise at a station \3/4\ of the distance from 
    the bow to the step, but need not be less than 15 degrees; and
ry=ratio of the lateral distance between the center of 
    gravity and the plane of symmetry of the float to the radius of 
    gyration in roll.

    (c) Bow loading. The resultant limit load must be applied in the 
plane of symmetry of the float at a point one-fourth of the distance 
from the bow to the step and must be perpendicular to the tangent to the 
keel line at that point. The magnitude of the resultant load is that 
specified in paragraph (b) of this section.
    (d) Unsymmetrical step loading. The resultant water load consists of 
a component equal to 0.75 times the load specified in paragraph (a) of 
this section and a side component equal to 0.025 tan  times the 
load specified in paragraph (b) of this section. The side load must be 
applied perpendicularly to the plane of symmetry of the float at a point 
midway between the keel and the chine.
    (e) Unsymmetrical bow loading. The resultant water load consists of 
a component equal to 0.75 times the load specified in paragraph (b) of 
this section and a side component equal to 0.25 tan  times the 
load specified in paragraph (c) of this section. The side load must be 
applied perpendicularly to the plane of symmetry at a point midway 
between the keel and the chine.
    (f) Immersed float condition. The resultant load must be applied at 
the centroid of the cross section of the

[[Page 222]]

float at a point one-third of the distance from the bow to the step. The 
limit load components are as follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.011

where--
P=mass density of water (slugs/ft.\3\)
V=volume of float (ft.\3\);
CX=coefficient of drag force, equal to 0.133;
Cy=coefficient of side force, equal to 0.106;
K=0.8, except that lower values may be used if it is shown that the 
    floats are incapable of submerging at a speed of 0.8 Vso 
    in normal operations;
Vso=seaplane stalling speed (knots) with landing flaps 
    extended in the appropriate position and with no slipstream effect; 
    and
g=acceleration due to gravity (ft/sec\2\).
    (g) Float bottom pressures. The float bottom pressures must be 
established under Sec. 23.533, except that the value of K2 in 
the formulae may be taken as 1.0. The angle of dead rise to be used in 
determining the float bottom pressures is set forth in paragraph (b) of 
this section.

[Doc. No. 26269, 58 FR 42162, Aug. 6, 1993; 58 FR 51970, Oct. 5, 1993]



Sec. 23.537  Seawing loads.

    Seawing design loads must be based on applicable test data.

[Doc. No. 26269, 58 FR 42163, Aug. 6, 1993]

                      Emergency Landing Conditions



Sec. 23.561  General.

    (a) The airplane, although it may be damaged in emergency landing 
conditions, must be designed as prescribed in this section to protect 
each occupant under those conditions.
    (b) The structure must be designed to give each occupant every 
reasonable chance of escaping serious injury when--
    (1) Proper use is made of the seats, safety belts, and shoulder 
harnesses provided for in the design;
    (2) The occupant experiences the static inertia loads corresponding 
to the following ultimate load factors--
    (i) Upward, 3.0g for normal, utility, and commuter category 
airplanes, or 4.5g for acrobatic category airplanes;
    (ii) Forward, 9.0g;
    (iii) Sideward, 1.5g; and
    (iv) Downward, 6.0g when certification to the emergency exit 
provisions of Sec. 23.807(d)(4) is requested; and
    (3) The items of mass within the cabin, that could injure an 
occupant, experience the static inertia loads corresponding to the 
following ultimate load factors--
    (i) Upward, 3.0g;
    (ii) Forward, 18.0g; and
    (iii) Sideward, 4.5g.
    (c) Each airplane with retractable landing gear must be designed to 
protect each occupant in a landing--
    (1) With the wheels retracted;
    (2) With moderate descent velocity; and
    (3) Assuming, in the absence of a more rational analysis--
    (i) A downward ultimate inertia force of 3 g; and
    (ii) A coefficient of friction of 0.5 at the ground.
    (d) If it is not established that a turnover is unlikely during an 
emergency landing, the structure must be designed to protect the 
occupants in a complete turnover as follows:
    (1) The likelihood of a turnover may be shown by an analysis 
assuming the following conditions--
    (i) The most adverse combination of weight and center of gravity 
position;
    (ii) Longitudinal load factor of 9.0g;
    (iii) Vertical load factor of 1.0g; and
    (iv) For airplanes with tricycle landing gear, the nose wheel strut 
failed with the nose contacting the ground.
    (i) Maximum weight;
    (ii) Most forward center of gravity position;
    (iii) Longitudinal load factor of 9.0g;
    (iv) Vertical load factor of 1.0g; and
    (v) For airplanes with tricycle landing gear, the nose wheel strut 
failed with the nose contacting the ground.
    (2) For determining the loads to be applied to the inverted airplane 
after a

[[Page 223]]

turnover, an upward ultimate inertia load factor of 3.0g and a 
coefficient of friction with the ground of 0.5 must be used.
    (e) Except as provided in Sec. 23.787(c), the supporting structure 
must be designed to restrain, under loads up to those specified in 
paragraph (b)(3) of this section, each item of mass that could injure an 
occupant if it came loose in a minor crash landing.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13090, Aug. 13, 1969; Amdt. 23-24, 52 FR 34745, Sept. 14, 1987; Amdt. 
23-36, 53 FR 30812, Aug. 15, 1988; Amdt. 23-46, 59 FR 25772, May 17, 
1994; Amdt. 23-48, 61 FR 5147, Feb. 9, 1996]



Sec. 23.562  Emergency landing dynamic conditions.

    (a) Each seat/restraint system for use in a normal, utility, or 
acrobatic category airplane must be designed to protect each occupant 
during an emergency landing when--
    (1) Proper use is made of seats, safety belts, and shoulder 
harnesses provided for in the design; and
    (2) The occupant is exposed to the loads resulting from the 
conditions prescribed in this section.
    (b) Except for those seat/restraint systems that are required to 
meet paragraph (d) of this section, each seat/restraint system for crew 
or passenger occupancy in a normal, utility, or acrobatic category 
airplane, must successfully complete dynamic tests or be demonstrated by 
rational analysis supported by dynamic tests, in accordance with each of 
the following conditions. These tests must be conducted with an occupant 
simulated by an anthropomorphic test dummy (ATD) defined by 49 CFR Part 
572, Subpart B, or an FAA-approved equivalent, with a nominal weight of 
170 pounds and seated in the normal upright position.
    (1) For the first test, the change in velocity may not be less than 
31 feet per second. The seat/restraint system must be oriented in its 
nominal position with respect to the airplane and with the horizontal 
plane of the airplane pitched up 60 degrees, with no yaw, relative to 
the impact vector. For seat/restraint systems to be installed in the 
first row of the airplane, peak deceleration must occur in not more than 
0.05 seconds after impact and must reach a minimum of 19g. For all other 
seat/restraint systems, peak deceleration must occur in not more than 
0.06 seconds after impact and must reach a minimum of 15g.
    (2) For the second test, the change in velocity may not be less than 
42 feet per second. The seat/restraint system must be oriented in its 
nominal position with respect to the airplane and with the vertical 
plane of the airplane yawed 10 degrees, with no pitch, relative to the 
impact vector in a direction that results in the greatest load on the 
shoulder harness. For seat/restraint systems to be installed in the 
first row of the airplane, peak deceleration must occur in not more than 
0.05 seconds after impact and must reach a minimum of 26g. For all other 
seat/restraint systems, peak deceleration must occur in not more than 
0.06 seconds after impact and must reach a minimum of 21g.
    (3) To account for floor warpage, the floor rails or attachment 
devices used to attach the seat/restraint system to the airframe 
structure must be preloaded to misalign with respect to each other by at 
least 10 degrees vertically (i.e., pitch out of parallel) and one of the 
rails or attachment devices must be preloaded to misalign by 10 degrees 
in roll prior to conducting the test defined by paragraph (b)(2) of this 
section.
    (c) Compliance with the following requirements must be shown during 
the dynamic tests conducted in accordance with paragraph (b) of this 
section:
    (1) The seat/restraint system must restrain the ATD although seat/
restraint system components may experience deformation, elongation, 
displacement, or crushing intended as part of the design.
    (2) The attachment between the seat/restraint system and the test 
fixture must remain intact, although the seat structure may have 
deformed.
    (3) Each shoulder harness strap must remain on the ATD's shoulder 
during the impact.
    (4) The safety belt must remain on the ATD's pelvis during the 
impact.
    (5) The results of the dynamic tests must show that the occupant is 
protected from serious head injury.

[[Page 224]]

    (i) When contact with adjacent seats, structure, or other items in 
the cabin can occur, protection must be provided so that the head impact 
does not exceed a head injury criteria (HIC) of 1,000.
    (ii) The value of HIC is defined as--
    [GRAPHIC] [TIFF OMITTED] TC28SE91.012
    
Where: t1 is the initial integration time, expressed in 
          seconds, t2 is the final integration time, 
          expressed in seconds, (t2- t1) is the 
          time duration of the major head impact, expressed in seconds, 
          and a(t) is the resultant deceleration at the center of 
          gravity of the head form expressed as a multiple of g (units 
          of gravity).

    (iii) Compliance with the HIC limit must be demonstrated by 
measuring the head impact during dynamic testing as prescribed in 
paragraphs (b)(1) and (b)(2) of this section or by a separate showing of 
compliance with the head injury criteria using test or analysis 
procedures.
    (6) Loads in individual shoulder harness straps may not exceed 1,750 
pounds. If dual straps are used for retaining the upper torso, the total 
strap loads may not exceed 2,000 pounds.
    (7) The compression load measured between the pelvis and the lumbar 
spine of the ATD may not exceed 1,500 pounds.
    (d) For all single-engine airplanes with a VSO of more 
than 61 knots at maximum weight, and those multiengine airplanes of 
6,000 pounds or less maximum weight with a VSO of more than 
61 knots at maximum weight that do not comply with Sec. 23.67(a)(1);
    (1) The ultimate load factors of Sec. 23.561(b) must be increased by 
multiplying the load factors by the square of the ratio of the increased 
stall speed to 61 knots. The increased ultimate load factors need not 
exceed the values reached at a VS0 of 79 knots. The upward 
ultimate load factor for acrobatic category airplanes need not exceed 
5.0g.
    (2) The seat/restraint system test required by paragraph (b)(1) of 
this section must be conducted in accordance with the following 
criteria:
    (i) The change in velocity may not be less than 31 feet per second.
    (ii)(A) The peak deceleration (gp) of 19g and 15g must be 
increased and multiplied by the square of the ratio of the increased 
stall speed to 61 knots:

gp=19.0 (VS0/61)\2\ or gp=15.0 
(VS0/61)\2\

    (B) The peak deceleration need not exceed the value reached at a 
VS0 of 79 knots.
    (iii) The peak deceleration must occur in not more than time 
(tr), which must be computed as follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.013

where--

gp = The peak deceleration calculated in accordance with 
paragraph (d)(2)(ii) of this section
tr = The rise time (in seconds) to the peak deceleration.

    (e) An alternate approach that achieves an equivalent, or greater, 
level of occupant protection to that required by this section may be 
used if substantiated on a rational basis.

[Amdt. 23-36, 53 FR 30812, Aug. 15, 1988, as amended by Amdt. 23-44, 58 
FR 38639, July 19, 1993; Amdt. 23-50, 61 FR 5192, Feb. 9, 1996]

                           Fatigue Evaluation



Sec. 23.571  Metallic pressurized cabin structures.

    For normal, utility, and acrobatic category airplanes, the strength, 
detail design, and fabrication of the metallic structure of the pressure 
cabin must be evaluated under one of the following:
    (a) A fatigue strength investigation in which the structure is shown 
by tests, or by analysis supported by test evidence, to be able to 
withstand the repeated loads of variable magnitude expected in service; 
or
    (b) A fail safe strength investigation, in which it is shown by 
analysis, tests, or both that catastrophic failure of the structure is 
not probable after fatigue failure, or obvious partial failure, of a 
principal structural element, and that the remaining structures are able 
to withstand a static ultimate load factor of 75 percent of the limit 
load factor at VC, considering the combined effects of normal 
operating pressures, expected

[[Page 225]]

external aerodynamic pressures, and flight loads. These loads must be 
multiplied by a factor of 1.15 unless the dynamic effects of failure 
under static load are otherwise considered.
    (c) The damage tolerance evaluation of Sec. 23.573(b).

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31821, Nov. 19, 1973; Amdt. 23-45, 58 FR 42163, Aug. 6, 1993; 
Amdt. 23-48, 61 FR 5147, Feb. 9, 1996]



Sec. 23.572  Metallic wing, empennage, and associated structures.

    (a) For normal, utility, and acrobatic category airplanes, the 
strength, detail design, and fabrication of those parts of the airframe 
structure whose failure would be catastrophic must be evaluated under 
one of the following unless it is shown that the structure, operating 
stress level, materials and expected uses are comparable, from a fatigue 
standpoint, to a similar design that has had extensive satisfactory 
service experience:
    (1) A fatigue strength investigation in which the structure is shown 
by tests, or by analysis supported by test evidence, to be able to 
withstand the repeated loads of variable magnitude expected in service; 
or
    (2) A fail-safe strength investigation in which it is shown by 
analysis, tests, or both, that catastrophic failure of the structure is 
not probable after fatigue failure, or obvious partial failure, of a 
principal structural element, and that the remaining structure is able 
to withstand a static ultimate load factor of 75 percent of the critical 
limit load factor at Vc. These loads must be multiplied by a 
factor of 1.15 unless the dynamic effects of failure under static load 
are otherwise considered.
    (3) The damage tolerance evaluation of Sec. 23.573(b).
    (b) Each evaluation required by this section must--
    (1) Include typical loading spectra (e.g. taxi, ground-air-ground 
cycles, maneuver, gust);
    (2) Account for any significant effects due to the mutual influence 
of aerodynamic surfaces; and
    (3) Consider any significant effects from propeller slipstream 
loading, and buffet from vortex impingements.

[Amdt. 23-7, 34 FR 13090, Aug. 13, 1969, as amended by Amdt. 23-14, 38 
FR 31821, Nov. 19, 1973; Amdt. 23-34, 52 FR 1830, Jan. 15, 1987; Amdt. 
23-38, 54 FR 39511, Sept. 26, 1989; Amdt. 23-45, 58 FR 42163, Aug. 6, 
1993; Amdt. 23-48, 61 FR 5147, Feb. 9, 1996]



Sec. 23.573  Damage tolerance and fatigue evaluation of structure.

    (a) Composite airframe structure. Composite airframe structure must 
be evaluated under this paragraph instead of Secs. 23.571 and 23.572. 
The applicant must evaluate the composite airframe structure, the 
failure of which would result in catastrophic loss of the airplane, in 
each wing (including canards, tandem wings, and winglets), empennage, 
their carrythrough and attaching structure, moveable control surfaces 
and their attaching structure fuselage, and pressure cabin using the 
damage-tolerance criteria prescribed in paragraphs (a)(1) through (a)(4) 
of this section unless shown to be impractical. If the applicant 
establishes that damage-tolerance criteria is impractical for a 
particular structure, the structure must be evaluated in accordance with 
paragraphs (a)(1) and (a)(6) of this section. Where bonded joints are 
used, the structure must also be evaluated in accordance with paragraph 
(a)(5) of this section. The effects of material variability and 
environmental conditions on the strength and durability properties of 
the composite materials must be accounted for in the evaluations 
required by this section.
    (1) It must be demonstrated by tests, or by analysis supported by 
tests, that the structure is capable of carrying ultimate load with 
damage up to the threshold of detectability considering the inspection 
procedures employed.
    (2) The growth rate or no-growth of damage that may occur from 
fatigue, corrosion, manufacturing flaws or impact damage, under repeated 
loads expected in service, must be established by tests or analysis 
supported by tests.
    (3) The structure must be shown by residual strength tests, or 
analysis supported by residual strength tests, to be able to withstand 
critical limit flight loads, considered as ultimate loads,

[[Page 226]]

with the extent of detectable damage consistent with the results of the 
damage tolerance evaluations. For pressurized cabins, the following 
loads must be withstood:
    (i) Critical limit flight loads with the combined effects of normal 
operating pressure and expected external aerodynamic pressures.
    (ii) The expected external aerodynamic pressures in 1g flight 
combined with a cabin differential pressure equal to 1.1 times the 
normal operating differential pressure without any other load.
    (4) The damage growth, between initial detectability and the value 
selected for residual strength demonstrations, factored to obtain 
inspection intervals, must allow development of an inspection program 
suitable for application by operation and maintenance personnel.
    (5) For any bonded joint, the failure of which would result in 
catastrophic loss of the airplane, the limit load capacity must be 
substantiated by one of the following methods--
    (i) The maximum disbonds of each bonded joint consistent with the 
capability to withstand the loads in paragraph (a)(3) of this section 
must be determined by analysis, tests, or both. Disbonds of each bonded 
joint greater than this must be prevented by design features; or
    (ii) Proof testing must be conducted on each production article that 
will apply the critical limit design load to each critical bonded joint; 
or
    (iii) Repeatable and reliable non-destructive inspection techniques 
must be established that ensure the strength of each joint.
    (6) Structural components for which the damage tolerance method is 
shown to be impractical must be shown by component fatigue tests, or 
analysis supported by tests, to be able to withstand the repeated loads 
of variable magnitude expected in service. Sufficient component, 
subcomponent, element, or coupon tests must be done to establish the 
fatigue scatter factor and the environmental effects. Damage up to the 
threshold of detectability and ultimate load residual strength 
capability must be considered in the demonstration.
    (b) Metallic airframe structure. If the applicant elects to use 
Sec. 23.571(a)(3) or Sec. 23.572(a)(3), then the damage tolerance 
evaluation must include a determination of the probable locations and 
modes of damage due to fatigue, corrosion, or accidental damage. The 
determination must be by analysis supported by test evidence and, if 
available, service experience. Damage at multiple sites due to fatigue 
must be included where the design is such that this type of damage can 
be expected to occur. The evaluation must incorporate repeated load and 
static analyses supported by test evidence. The extent of damage for 
residual strength evaluation at any time within the operational life of 
the airplane must be consistent with the initial detectability and 
subsequent growth under repeated loads. The residual strength evaluation 
must show that the remaining structure is able to withstand critical 
limit flight loads, considered as ultimate, with the extent of 
detectable damage consistent with the results of the damage tolerance 
evaluations. For pressurized cabins, the following load must be 
withstood:
    (1) The normal operating differential pressure combined with the 
expected external aerodynamic pressures applied simultaneously with the 
flight loading conditions specified in this part, and
    (2) The expected external aerodynamic pressures in 1g flight 
combined with a cabin differential pressure equal to 1.1 times the 
normal operating differential pressure without any other load.

[Doc. No. 26269, 58 FR 42163, Aug. 6, 1993; 58 FR 51970, Oct. 5, 1993, 
as amended by Amdt. 23-48, 61 FR 5147, Feb. 9, 1996]



Sec. 23.574  Metallic damage tolerance and fatigue evaluation of commuter category airplanes.

    For commuter category airplanes--
    (a) Metallic damage tolerance. An evaluation of the strength, detail 
design, and fabrication must show that catastrophic failure due to 
fatigue, corrosion, defects, or damage will be avoided throughout the 
operational life of the airplane. This evaluation must be conducted in 
accordance with the provisions of Sec. 23.573, except as specified in 
paragraph (b) of this section, for each

[[Page 227]]

part of the structure that could contribute to a catastrophic failure.
    (b) Fatigue (safe-life) evaluation. Compliance with the damage 
tolerance requirements of paragraph (a) of this section is not required 
if the applicant establishes that the application of those requirements 
is impractical for a particular structure. This structure must be shown, 
by analysis supported by test evidence, to be able to withstand the 
repeated loads of variable magnitude expected during its service life 
without detectable cracks. Appropriate safe-life scatter factors must be 
applied.

[Doc. No. 27805, 61 FR 5148, Feb. 9, 1996]



Sec. 23.575  Inspections and other procedures.

    Each inspection or other procedure, based on an evaluation required 
by Secs. 23.571, 23.572, 23.573 or 23.574, must be established to 
prevent catastrophic failure and must be included in the Limitations 
Section of the Instructions for Continued Airworthiness required by 
Sec. 23.1529.

[Doc. No. 27805, 61 FR 5148, Feb. 9, 1996]



                   Subpart D--Design and Construction



Sec. 23.601  General.

    The suitability of each questionable design detail and part having 
an important bearing on safety in operations, must be established by 
tests.



Sec. 23.603  Materials and workmanship.

    (a) The suitability and durability of materials used for parts, the 
failure of which could adversely affect safety, must--
    (1) Be established by experience or tests;
    (2) Meet approved specifications that ensure their having the 
strength and other properties assumed in the design data; and
    (3) Take into account the effects of environmental conditions, such 
as temperature and humidity, expected in service.
    (b) Workmanship must be of a high standard.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-17, 
41 FR 55464, Dec. 20, 1976; Amdt. 23-23, 43 FR 50592, Oct. 10, 1978]



Sec. 23.605  Fabrication methods.

    (a) The methods of fabrication used must produce consistently sound 
structures. If a fabrication process (such as gluing, spot welding, or 
heat-treating) requires close control to reach this objective, the 
process must be performed under an approved process specification.
    (b) Each new aircraft fabrication method must be substantiated by a 
test program.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-23, 43 FR 50592, Oct. 10, 1978]



Sec. 23.607  Fasteners.

    (a) Each removable fastener must incorporate two retaining devices 
if the loss of such fastener would preclude continued safe flight and 
landing.
    (b) Fasteners and their locking devices must not be adversely 
affected by the environmental conditions associated with the particular 
installation.
    (c) No self-locking nut may be used on any bolt subject to rotation 
in operation unless a non-friction locking device is used in addition to 
the self-locking device.

[Doc. No. 27805, 61 FR 5148, Feb. 9, 1996]



Sec. 23.609  Protection of structure.

    Each part of the structure must--
    (a) Be suitably protected against deterioration or loss of strength 
in service due to any cause, including--
    (1) Weathering;
    (2) Corrosion; and
    (3) Abrasion; and
    (b) Have adequate provisions for ventilation and drainage.



Sec. 23.611  Accessibility provisions.

    For each part that requires maintenance, inspection, or other 
servicing, appropriate means must be incorporated into the aircraft 
design to allow such servicing to be accomplished.

[Doc. No. 27805, 61 FR 5148, Feb. 9, 1996]



Sec. 23.613  Material strength properties and design values.

    (a) Material strength properties must be based on enough tests of 
material

[[Page 228]]

meeting specifications to establish design values on a statistical 
basis.
    (b) Design values must be chosen to minimize the probability of 
structural failure due to material variability. Except as provided in 
paragraph (e) of this section, compliance with this paragraph must be 
shown by selecting design values that ensure material strength with the 
following probability:
    (1) Where applied loads are eventually distributed through a single 
member within an assembly, the failure of which would result in loss of 
structural integrity of the component; 99 percent probability with 95 
percent confidence.
    (2) For redundant structure, in which the failure of individual 
elements would result in applied loads being safely distributed to other 
load carrying members; 90 percent probability with 95 percent 
confidence.
    (c) The effects of temperature on allowable stresses used for design 
in an essential component or structure must be considered where thermal 
effects are significant under normal operating conditions.
    (d) The design of the structure must minimize the probability of 
catastrophic fatigue failure, particularly at points of stress 
concentration.
    (e) Design values greater than the guaranteed minimums required by 
this section may be used where only guaranteed minimum values are 
normally allowed if a ``premium selection'' of the material is made in 
which a specimen of each individual item is tested before use to 
determine that the actual strength properties of that particular item 
will equal or exceed those used in design.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-23, 43 FR 50592, Oct. 30, 1978; Amdt. 23-45, 58 FR 
42163, Aug. 6, 1993]



Sec. 23.619  Special factors.

    The factor of safety prescribed in Sec. 23.303 must be multiplied by 
the highest pertinent special factors of safety prescribed in 
Secs. 23.621 through 23.625 for each part of the structure whose 
strength is--
    (a) Uncertain;
    (b) Likely to deteriorate in service before normal replacement; or
    (c) Subject to appreciable variability because of uncertainties in 
manufacturing processes or inspection methods.

[Amdt. 23-7, 34 FR 13091, Aug. 13, 1969]



Sec. 23.621  Casting factors.

    (a) General. The factors, tests, and inspections specified in 
paragraphs (b) through (d) of this section must be applied in addition 
to those necessary to establish foundry quality control. The inspections 
must meet approved specifications. Paragraphs (c) and (d) of this 
section apply to any structural castings except castings that are 
pressure tested as parts of hydraulic or other fluid systems and do not 
support structural loads.
    (b) Bearing stresses and surfaces. The casting factors specified in 
paragraphs (c) and (d) of this section--
    (1) Need not exceed 1.25 with respect to bearing stresses regardless 
of the method of inspection used; and
    (2) Need not be used with respect to the bearing surfaces of a part 
whose bearing factor is larger than the applicable casting factor.
    (c) Critical castings. For each casting whose failure would preclude 
continued safe flight and landing of the airplane or result in serious 
injury to occupants, the following apply:
    (1) Each critical casting must either--
    (i) Have a casting factor of not less than 1.25 and receive 100 
percent inspection by visual, radiographic, and either magnetic 
particle, penetrant or other approved equivalent non-destructive 
inspection method; or
    (ii) Have a casting factor of not less than 2.0 and receive 100 
percent visual inspection and 100 percent approved non-destructive 
inspection. When an approved quality control procedure is established 
and an acceptable statistical analysis supports reduction, non-
destructive inspection may be reduced from 100 percent, and applied on a 
sampling basis.
    (2) For each critical casting with a casting factor less than 1.50, 
three sample castings must be static tested and shown to meet--
    (i) The strength requirements of Sec. 23.305 at an ultimate load 
corresponding to a casting factor of 1.25; and

[[Page 229]]

    (ii) The deformation requirements of Sec. 23.305 at a load of 1.15 
times the limit load.
    (3) Examples of these castings are structural attachment fittings, 
parts of flight control systems, control surface hinges and balance 
weight attachments, seat, berth, safety belt, and fuel and oil tank 
supports and attachments, and cabin pressure valves.
    (d) Non-critical castings. For each casting other than those 
specified in paragraph (c) or (e) of this section, the following apply:
    (1) Except as provided in paragraphs (d)(2) and (3) of this section, 
the casting factors and corresponding inspections must meet the 
following table:

------------------------------------------------------------------------
              Casting factor                         Inspection
------------------------------------------------------------------------
2.0 or more..............................  100 percent visual.
Less than 2.0 but more than 1.5..........  100 percent visual, and
                                            magnetic particle or
                                            penetrant or equivalent
                                            nondestructive inspection
                                            methods.
1.25 through 1.50........................  100 percent visual, magnetic
                                            particle or penetrant, and
                                            radiographic, or approved
                                            equivalent nondestructive
                                            inspection methods.
------------------------------------------------------------------------

    (2) The percentage of castings inspected by nonvisual methods may be 
reduced below that specified in subparagraph (d)(1) of this section when 
an approved quality control procedure is established.
    (3) For castings procured to a specification that guarantees the 
mechanical properties of the material in the casting and provides for 
demonstration of these properties by test of coupons cut from the 
castings on a sampling basis--
    (i) A casting factor of 1.0 may be used; and
    (ii) The castings must be inspected as provided in paragraph (d)(1) 
of this section for casting factors of ``1.25 through 1.50'' and tested 
under paragraph (c)(2) of this section.
    (e) Non-structural castings. Castings used for non-structural 
purposes do not require evaluation, testing or close inspection.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42164, Aug. 6, 1993]



Sec. 23.623  Bearing factors.

    (a) Each part that has clearance (free fit), and that is subject to 
pounding or vibration, must have a bearing factor large enough to 
provide for the effects of normal relative motion.
    (b) For control surface hinges and control system joints, compliance 
with the factors prescribed in Secs. 23.657 and 23.693, respectively, 
meets paragraph (a) of this section.

[Amdt. 23-7, 34 FR 13091, Aug. 13, 1969]



Sec. 23.625  Fitting factors.

    For each fitting (a part or terminal used to join one structural 
member to another), the following apply:
    (a) For each fitting whose strength is not proven by limit and 
ultimate load tests in which actual stress conditions are simulated in 
the fitting and surrounding structures, a fitting factor of at least 
1.15 must be applied to each part of--
    (1) The fitting;
    (2) The means of attachment; and
    (3) The bearing on the joined members.
    (b) No fitting factor need be used for joint designs based on 
comprehensive test data (such as continuous joints in metal plating, 
welded joints, and scarf joints in wood).
    (c) For each integral fitting, the part must be treated as a fitting 
up to the point at which the section properties become typical of the 
member.
    (d) For each seat, berth, safety belt, and harness, its attachment 
to the structure must be shown, by analysis, tests, or both, to be able 
to withstand the inertia forces prescribed in Sec. 23.561 multiplied by 
a fitting factor of 1.33.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13091, Aug. 13, 1969]



Sec. 23.627  Fatigue strength.

    The structure must be designed, as far as practicable, to avoid 
points of stress concentration where variable stresses above the fatigue 
limit are likely to occur in normal service.



Sec. 23.629  Flutter.

    (a) It must be shown by the methods of paragraph (b) and either 
paragraph

[[Page 230]]

(c) or (d) of this section, that the airplane is free from flutter, 
control reversal, and divergence for any condition of operation within 
the limit V-n envelope and at all speeds up to the speed specified for 
the selected method. In addition--
    (1) Adequate tolerances must be established for quantities which 
affect flutter, including speed, damping, mass balance, and control 
system stiffness; and
    (2) The natural frequencies of main structural components must be 
determined by vibration tests or other approved methods.
    (b) Flight flutter tests must be made to show that the airplane is 
free from flutter, control reversal and divergence and to show that--
    (1) Proper and adequate attempts to induce flutter have been made 
within the speed range up to VD;
    (2) The vibratory response of the structure during the test 
indicates freedom from flutter;
    (3) A proper margin of damping exists at VD; and
    (4) There is no large and rapid reduction in damping as VD 
is approached.
    (c) Any rational analysis used to predict freedom from flutter, 
control reversal and divergence must cover all speeds up to 1.2 
VD.
    (d) Compliance with the rigidity and mass balance criteria (pages 4-
12), in Airframe and Equipment Engineering Report No. 45 (as corrected) 
``Simplified Flutter Prevention Criteria'' (published by the Federal 
Aviation Administration) may be accomplished to show that the airplane 
is free from flutter, control reversal, or divergence if--
    (1) VD/MD for the airplane is less than 260 
knots (EAS) and less than Mach 0.5,
    (2) The wing and aileron flutter prevention criteria, as represented 
by the wing torsional stiffness and aileron balance criteria, are 
limited in use to airplanes without large mass concentrations (such as 
engines, floats, or fuel tanks in outer wing panels) along the wing 
span, and
    (3) The airplane--
    (i) Does not have a T-tail or other unconventional tail 
configurations;
    (ii) Does not have unusual mass distributions or other 
unconventional design features that affect the applicability of the 
criteria, and
    (iii) Has fixed-fin and fixed-stabilizer surfaces.
    (e) For turbopropeller-powered airplanes, the dynamic evaluation 
must include--
    (1) Whirl mode degree of freedom which takes into account the 
stability of the plane of rotation of the propeller and significant 
elastic, inertial, and aerodynamic forces, and
    (2) Propeller, engine, engine mount, and airplane structure 
stiffness and damping variations appropriate to the particular 
configuration.
    (f) Freedom from flutter, control reversal, and divergence up to 
VD/MD must be shown as follows:
    (1) For airplanes that meet the criteria of paragraphs (d)(1) 
through (d)(3) of this section, after the failure, malfunction, or 
disconnection of any single element in any tab control system.
    (2) For airplanes other than those described in paragraph (f)(1) of 
this section, after the failure, malfunction, or disconnection of any 
single element in the primary flight control system, any tab control 
system, or any flutter damper.
    (g) For airplanes showing compliance with the fail-safe criteria of 
Secs. 23.571 and 23.572, the airplane must be shown by analysis to be 
free from flutter up to VD/MD after fatigue 
failure, or obvious partial failure, of a principal structural element.
    (h) For airplanes showing compliance with the damage tolerance 
criteria of Sec. 23.573, the airplane must be shown by analysis to be 
free from flutter up to VD/MD with the extent of 
damage for which residual strength is demonstrated.
    (i) For modifications to the type design that could affect the 
flutter characteristics, compliance with paragraph (a) of this section 
must be shown, except that analysis based on previously approved data 
may be used alone to show freedom from flutter, control reversal and 
divergence, for all speeds up

[[Page 231]]

to the speed specified for the selected method.

[Amdt. 23-23, 43 FR 50592, Oct. 30, 1978, as amended by Amdt. 23-31, 49 
FR 46867, Nov. 28, 1984; Amdt. 23-45, 58 FR 42164, Aug. 6, 1993; 58 FR 
51970, Oct. 5, 1993; Amdt. 23-48, 61 FR 5148, Feb. 9, 1996]

                                  Wings



Sec. 23.641  Proof of strength.

    The strength of stressed-skin wings must be proven by load tests or 
by combined structural analysis and load tests.

                            Control Surfaces



Sec. 23.651  Proof of strength.

    (a) Limit load tests of control surfaces are required. These tests 
must include the horn or fitting to which the control system is 
attached.
    (b) In structural analyses, rigging loads due to wire bracing must 
be accounted for in a rational or conservative manner.



Sec. 23.655  Installation.

    (a) Movable surfaces must be installed so that there is no 
interference between any surfaces, their bracing, or adjacent fixed 
structure, when one surface is held in its most critical clearance 
positions and the others are operated through their full movement.
    (b) If an adjustable stabilizer is used, it must have stops that 
will limit its range of travel to that allowing safe flight and landing.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42164, Aug. 6, 1993]



Sec. 23.657  Hinges.

    (a) Control surface hinges, except ball and roller bearing hinges, 
must have a factor of safety of not less than 6.67 with respect to the 
ultimate bearing strength of the softest material used as a bearing.
    (b) For ball or roller bearing hinges, the approved rating of the 
bearing may not be exceeded.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-48, 
61 FR 5148, Feb. 9, 1996]



Sec. 23.659  Mass balance.

    The supporting structure and the attachment of concentrated mass 
balance weights used on control surfaces must be designed for--
    (a) 24 g normal to the plane of the control surface;
    (b) 12 g fore and aft; and
    (c) 12 g parallel to the hinge line.

                             Control Systems



Sec. 23.671  General.

    (a) Each control must operate easily, smoothly, and positively 
enough to allow proper performance of its functions.
    (b) Controls must be arranged and identified to provide for 
convenience in operation and to prevent the possibility of confusion and 
subsequent inadvertent operation.



Sec. 23.672  Stability augmentation and automatic and power-operated systems.

    If the functioning of stability augmentation or other automatic or 
power-operated systems is necessary to show compliance with the flight 
characteristics requirements of this part, such systems must comply with 
Sec. 23.671 and the following:
    (a) A warning, which is clearly distinguishable to the pilot under 
expected flight conditions without requiring the pilot's attention, must 
be provided for any failure in the stability augmentation system or in 
any other automatic or power-operated system that could result in an 
unsafe condition if the pilot was not aware of the failure. Warning 
systems must not activate the control system.
    (b) The design of the stability augmentation system or of any other 
automatic or power-operated system must permit initial counteraction of 
failures without requiring exceptional pilot skill or strength, by 
either the deactivation of the system or a failed portion thereof, or by 
overriding the failure by movement of the flight controls in the normal 
sense.
    (c) It must be shown that, after any single failure of the stability 
augmentation system or any other automatic or power-operated system--

[[Page 232]]

    (1) The airplane is safely controllable when the failure or 
malfunction occurs at any speed or altitude within the approved 
operating limitations that is critical for the type of failure being 
considered;
    (2) The controllability and maneuverability requirements of this 
part are met within a practical operational flight envelope (for 
example, speed, altitude, normal acceleration, and airplane 
configuration) that is described in the Airplane Flight Manual (AFM); 
and
    (3) The trim, stability, and stall characteristics are not impaired 
below a level needed to permit continued safe flight and landing.

[Doc. No. 26269, 58 FR 42164, Aug. 6, 1993]



Sec. 23.673  Primary flight controls.

    Primary flight controls are those used by the pilot for the 
immediate control of pitch, roll, and yaw.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-48, 
61 FR 5148, Feb. 9, 1996]



Sec. 23.675  Stops.

    (a) Each control system must have stops that positively limit the 
range of motion of each movable aerodynamic surface controlled by the 
system.
    (b) Each stop must be located so that wear, slackness, or takeup 
adjustments will not adversely affect the control characteristics of the 
airplane because of a change in the range of surface travel.
    (c) Each stop must be able to withstand any loads corresponding to 
the design conditions for the control system.

[Amdt. 23-17, 41 FR 55464, Dec. 20, 1976]



Sec. 23.677  Trim systems.

    (a) Proper precautions must be taken to prevent inadvertent, 
improper, or abrupt trim tab operation. There must be means near the 
trim control to indicate to the pilot the direction of trim control 
movement relative to airplane motion. In addition, there must be means 
to indicate to the pilot the position of the trim device with respect to 
both the range of adjustment and, in the case of lateral and directional 
trim, the neutral position. This means must be visible to the pilot and 
must be located and designed to prevent confusion. The pitch trim 
indicator must be clearly marked with a position or range within which 
it has been demonstrated that take-off is safe for all center of gravity 
positions and each flap position approved for takeoff.
    (b) Trimming devices must be designed so that, when any one 
connecting or transmitting element in the primary flight control system 
fails, adequate control for safe flight and landing is available with--
    (1) For single-engine airplanes, the longitudinal trimming devices; 
or
    (2) For multiengine airplanes, the longitudinal and directional 
trimming devices.
    (c) Tab controls must be irreversible unless the tab is properly 
balanced and has no unsafe flutter characteristics. Irreversible tab 
systems must have adequate rigidity and reliability in the portion of 
the system from the tab to the attachment of the irreversible unit to 
the airplane structure.
    (d) It must be demonstrated that the airplane is safely controllable 
and that the pilot can perform all maneuvers and operations necessary to 
effect a safe landing following any probable powered trim system runaway 
that reasonably might be expected in service, allowing for appropriate 
time delay after pilot recognition of the trim system runaway. The 
demonstration must be conducted at critical airplane weights and center 
of gravity positions.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13091, Aug. 13, 1969; Amdt. 23-34, 52 FR 1830, Jan. 15, 1987; Amdt. 
23-42, 56 FR 353, Jan. 3, 1991; Amdt. 23-49, 61 FR 5165, Feb. 9, 1996]



Sec. 23.679  Control system locks.

    If there is a device to lock the control system on the ground or 
water:
    (a) There must be a means to--
    (1) Give unmistakable warning to the pilot when lock is engaged; or
    (2) Automatically disengage the device when the pilot operates the 
primary flight controls in a normal manner.
    (b) The device must be installed to limit the operation of the 
airplane so that, when the device is engaged, the

[[Page 233]]

pilot receives unmistakable warning at the start of the takeoff.
    (c) The device must have a means to preclude the possibility of it 
becoming inadvertently engaged in flight.

[Doc. No. 26269, 58 FR 42164, Aug. 6, 1993]



Sec. 23.681  Limit load static tests.

    (a) Compliance with the limit load requirements of this part must be 
shown by tests in which--
    (1) The direction of the test loads produces the most severe loading 
in the control system; and
    (2) Each fitting, pulley, and bracket used in attaching the system 
to the main structure is included.
    (b) Compliance must be shown (by analyses or individual load tests) 
with the special factor requirements for control system joints subject 
to angular motion.



Sec. 23.683  Operation tests.

    (a) It must be shown by operation tests that, when the controls are 
operated from the pilot compartment with the system loaded as prescribed 
in paragraph (b) of this section, the system is free from--
    (1) Jamming;
    (2) Excessive friction; and
    (3) Excessive deflection.
    (b) The prescribed test loads are--
    (1) For the entire system, loads corresponding to the limit airloads 
on the appropriate surface, or the limit pilot forces in Sec. 23.397(b), 
whichever are less; and
    (2) For secondary controls, loads not less than those corresponding 
to the maximum pilot effort established under Sec. 23.405.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13091, Aug. 13, 1969]



Sec. 23.685  Control system details.

    (a) Each detail of each control system must be designed and 
installed to prevent jamming, chafing, and interference from cargo, 
passengers, loose objects, or the freezing of moisture.
    (b) There must be means in the cockpit to prevent the entry of 
foreign objects into places where they would jam the system.
    (c) There must be means to prevent the slapping of cables or tubes 
against other parts.
    (d) Each element of the flight control system must have design 
features, or must be distinctively and permanently marked, to minimize 
the possibility of incorrect assembly that could result in 
malfunctioning of the control system.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-17, 
41 FR 55464, Dec. 20, 1976]



Sec. 23.687  Spring devices.

    The reliability of any spring device used in the control system must 
be established by tests simulating service conditions unless failure of 
the spring will not cause flutter or unsafe flight characteristics.



Sec. 23.689  Cable systems.

    (a) Each cable, cable fitting, turnbuckle, splice, and pulley used 
must meet approved specifications. In addition--
    (1) No cable smaller than \1/8\ inch diameter may be used in primary 
control systems;
    (2) Each cable system must be designed so that there will be no 
hazardous change in cable tension throughout the range of travel under 
operating conditions and temperature variations; and
    (3) There must be means for visual inspection at each fairlead, 
pulley, terminal, and turnbuckle.
    (b) Each kind and size of pulley must correspond to the cable with 
which it is used. Each pulley must have closely fitted guards to prevent 
the cables from being misplaced or fouled, even when slack. Each pulley 
must lie in the plane passing through the cable so that the cable does 
not rub against the pulley flange.
    (c) Fairleads must be installed so that they do not cause a change 
in cable direction of more than three degrees.
    (d) Clevis pins subject to load or motion and retained only by 
cotter pins may not be used in the control system.
    (e) Turnbuckles must be attached to parts having angular motion in a 
manner that will positively prevent binding throughout the range of 
travel.

[[Page 234]]

    (f) Tab control cables are not part of the primary control system 
and may be less than \1/8\ inch diameter in airplanes that are safely 
controllable with the tabs in the most adverse positions.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13091, Aug. 13, 1969]



Sec. 23.691  Artificial stall barrier system.

    If the function of an artificial stall barrier, for example, stick 
pusher, is used to show compliance with Sec. 23.201(c), the system must 
comply with the following:
    (a) With the system adjusted for operation, the plus and minus 
airspeeds at which downward pitching control will be provided must be 
established.
    (b) Considering the plus and minus airspeed tolerances established 
by paragraph (a) of this section, an airspeed must be selected for the 
activation of the downward pitching control that provides a safe margin 
above any airspeed at which any unsatisfactory stall characteristics 
occur.
    (c) In addition to the stall warning required Sec. 23.07, a warning 
that is clearly distinguishable to the pilot under all expected flight 
conditions without requiring the pilot's attention, must be provided for 
faults that would prevent the system from providing the required 
pitching motion.
    (d) Each system must be designed so that the artificial stall 
barrier can be quickly and positively disengaged by the pilots to 
prevent unwanted downward pitching of the airplane by a quick release 
(emergency) control that meets the requirements of Sec. 23.1329(b).
    (e) A preflight check of the complete system must be established and 
the procedure for this check made available in the Airplane Flight 
Manual (AFM). Preflight checks that are critical to the safety of the 
airplane must be included in the limitations section of the AFM.
    (f) For those airplanes whose design includes an autopilot system:
    (1) A quick release (emergency) control installed in accordance with 
Sec. 23.1329(b) may be used to meet the requirements of paragraph (d), 
of this section, and
    (2) The pitch servo for that system may be used to provide the stall 
downward pitching motion.
    (g) In showing compliance with Sec. 23.1309, the system must be 
evaluated to determine the effect that any announced or unannounced 
failure may have on the continued safe flight and landing of the 
airplane or the ability of the crew to cope with any adverse conditions 
that may result from such failures. This evaluation must consider the 
hazards that would result from the airplane's flight characteristics if 
the system was not provided, and the hazard that may result from 
unwanted downward pitching motion, which could result from a failure at 
airspeeds above the selected stall speed.

[Doc. No. 27806, 61 FR 5165, Feb. 9, 1996]



Sec. 23.693  Joints.

    Control system joints (in push-pull systems) that are subject to 
angular motion, except those in ball and roller bearing systems, must 
have a special factor of safety of not less than 3.33 with respect to 
the ultimate bearing strength of the softest material used as a bearing. 
This factor may be reduced to 2.0 for joints in cable control systems. 
For ball or roller bearings, the approved ratings may not be exceeded.



Sec. 23.697  Wing flap controls.

    (a) Each wing flap control must be designed so that, when the flap 
has been placed in any position upon which compliance with the 
performance requirements of this part is based, the flap will not move 
from that position unless the control is adjusted or is moved by the 
automatic operation of a flap load limiting device.
    (b) The rate of movement of the flaps in response to the operation 
of the pilot's control or automatic device must give satisfactory flight 
and performance characteristics under steady or changing conditions of 
airspeed, engine power, and attitude.
    (c) If compliance with Sec. 23.145(b)(3) necessitates wing flap 
retraction to positions that are not fully retracted, the wing flap 
control lever settings corresponding to those positions must be 
positively located such that a definite change of direction of movement 
of the

[[Page 235]]

lever is necessary to select settings beyond those settings.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-49, 
61 FR 5165, Feb. 9, 1996]



Sec. 23.699  Wing flap position indicator.

    There must be a wing flap position indicator for--
    (a) Flap installations with only the retracted and fully extended 
position, unless--
    (1) A direct operating mechanism provides a sense of ``feel'' and 
position (such as when a mechanical linkage is employed); or
    (2) The flap position is readily determined without seriously 
detracting from other piloting duties under any flight condition, day or 
night; and
    (b) Flap installation with intermediate flap positions if--
    (1) Any flap position other than retracted or fully extended is used 
to show compliance with the performance requirements of this part; and
    (2) The flap installation does not meet the requirements of 
paragraph (a)(1) of this section.



Sec. 23.701  Flap interconnection.

    (a) The main wing flaps and related movable surfaces as a system 
must--
    (1) Be synchronized by a mechanical interconnection between the 
movable flap surfaces that is independent of the flap drive system; or 
by an approved equivalent means; or
    (2) Be designed so that the occurrence of any failure of the flap 
system that would result in an unsafe flight characteristic of the 
airplane is extremely improbable; or
    (b) The airplane must be shown to have safe flight characteristics 
with any combination of extreme positions of individual movable surfaces 
(mechanically interconnected surfaces are to be considered as a single 
surface).
    (c) If an interconnection is used in multiengine airplanes, it must 
be designed to account for the unsummetrical loads resulting from flight 
with the engines on one side of the plane of symmetry inoperative and 
the remaining engines at takeoff power. For single-engine airplanes, and 
multiengine airplanes with no slipstream effects on the flaps, it may be 
assumed that 100 percent of the critical air load acts on one side and 
70 percent on the other.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31821, Nov. 19, 1973; Amdt. 23-42, 56 FR 353, Jan. 3, 1991; 56 FR 
5455, Feb. 11, 1991; Amdt. 23-49, 61 FR 5165, Feb. 9, 1996]



Sec. 23.703  Takeoff warning system.

    For commuter category airplanes, unless it can be shown that a lift 
or longitudinal trim device that affects the takeoff performance of the 
aircraft would not give an unsafe takeoff configuration when selection 
out of an approved takeoff position, a takeoff warning system must be 
installed and meet the following requirements:
    (a) The system must provide to the pilots an aural warning that is 
automatically activated during the initial portion of the takeoff role 
if the airplane is in a configuration that would not allow a safe 
takeoff. The warning must continue until--
    (1) The configuration is changed to allow safe takeoff, or
    (2) Action is taken by the pilot to abandon the takeoff roll.
    (b) The means used to activate the system must function properly for 
all authorized takeoff power settings and procedures and throughout the 
ranges of takeoff weights, altitudes, and temperatures for which 
certification is requested.

[Doc. No. 27806, 61 FR 5166, Feb. 9, 1996]

                              Landing Gear



Sec. 23.721  General.

    For commuter category airplanes that have a passenger seating 
configuration, excluding pilot seats, of 10 or more, the following 
general requirements for the landing gear apply:
    (a) The main landing-gear system must be designed so that if it 
fails due to overloads during takeoff and landing (assuming the 
overloads to act in the upward and aft directions), the failure mode is 
not likely to cause the spillage of enough fuel from any part of the 
fuel system to consitute a fire hazard.
    (b) Each airplane must be designed so that, with the airplane under 
control, it can be landed on a paved runway with any one or more 
landing-gear legs

[[Page 236]]

not extended without sustaining a structural component failure that is 
likely to cause the spillage of enough fuel to consitute a fire hazard.
    (c) Compliance with the provisions of this section may be shown by 
analysis or tests, or both.

[Amdt. 23-34, 52 FR 1830, Jan. 15, 1987]



Sec. 23.723  Shock absorption tests.

    (a) It must be shown that the limit load factors selected for design 
in accordance with Sec. 23.473 for takeoff and landing weights, 
respectively, will not be exceeded. This must be shown by energy 
absorption tests except that analysis based on tests conducted on a 
landing gear system with identical energy absorption characteristics may 
be used for increases in previously approved takeoff and landing 
weights.
    (b) The landing gear may not fail, but may yield, in a test showing 
its reserve energy absorption capacity, simulating a descent velocity of 
1.2 times the limit descent velocity, assuming wing lift equal to the 
weight of the airplane.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-23, 43 FR 50593, Oct. 30, 1978; Amdt. 23-49, 61 FR 
5166, Feb. 9, 1996]



Sec. 23.725  Limit drop tests.

    (a) If compliance with Sec. 23.723(a) is shown by free drop tests, 
these tests must be made on the complete airplane, or on units 
consisting of wheel, tire, and shock absorber, in their proper relation, 
from free drop heights not less than those determined by the following 
formula:

                 h (inches) = 3.6 (W/S) \1/2\

However, the free drop height may not be less than 9.2 inches and need 
not be more than 18.7 inches.
    (b) If the effect of wing lift is provided for in free drop tests, 
the landing gear must be dropped with an effective weight equal to
[GRAPHIC] [TIFF OMITTED] TC28SE91.014

where--

We =the effective weight to be used in the drop test (lbs.);
h = specified free drop height (inches);
d = deflection under impact of the tire (at the approved inflation 
          pressure) plus the vertical component of the axle travel 
          relative to the drop mass (inches);
W=WM for main gear units (lbs), equal to the static weight on 
          that unit with the airplane in the level attitude (with the 
          nose wheel clear in the case of nose wheel type airplanes);
W=WT for tail gear units (lbs.), equal to the static weight 
          on the tail unit with the airplane in the tail-down attitude;
W=WN for nose wheel units lbs.), equal to the vertical 
          component of the static reaction that would exist at the nose 
          wheel, assuming that the mass of the airplane acts at the 
          center of gravity and exerts a force of 1.0 g downward and 
          0.33 g forward; and
L= the ratio of the assumed wing lift to the airplane weight, but not 
          more than 0.667.

    (c) The limit inertia load factor must be determined in a rational 
or conservative manner, during the drop test, using a landing gear unit 
attitude, and applied drag loads, that represent the landing conditions.
    (d) The value of d used in the computation of We in 
paragraph (b) of this section may not exceed the value actually obtained 
in the drop test.
    (e) The limit inertia load factor must be determined from the drop 
test in paragraph (b) of this section according to the following 
formula:
[GRAPHIC] [TIFF OMITTED] TC28SE91.015

where--

nj=the load factor developed in the drop test (that is, the 
          acceleration (dv/dt) in g' s recorded in the drop test) plus 
          1.0; and
We, W, and L are the same as in the drop test computation.

    (f) The value of n determined in accordance with paragraph (e) may 
not be more than the limit inertia load factor used in the landing 
conditions in Sec. 23.473.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13091, Aug. 13, 1969; Amdt. 23-48, 61 FR 5148, Feb. 9, 1996]



Sec. 23.726  Ground load dynamic tests.

    (a) If compliance with the ground load requirements of Secs. 23.479 
through 23.483 is shown dynamically by drop test, one drop test must be 
conducted that meets Sec. 23.725 except that the drop height must be--

[[Page 237]]

    (1) 2.25 times the drop height prescribed in Sec. 23.725(a); or
    (2) Sufficient to develop 1.5 times the limit load factor.
    (b) The critical landing condition for each of the design conditions 
specified in Secs. 23.479 through 23.483 must be used for proof of 
strength.

[Amdt. 23-7, 34 FR 13091, Aug. 13, 1969]



Sec. 23.727  Reserve energy absorption drop test.

    (a) If compliance with the reserve energy absorption requirement in 
Sec. 23.723(b) is shown by free drop tests, the drop height may not be 
less than 1.44 times that specified in Sec. 23.725.
    (b) If the effect of wing lift is provided for, the units must be 
dropped with an effective mass equal to We=Wh/(h+d), when the 
symbols and other details are the same as in Sec. 23.725.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13091, Aug. 13, 1969]



Sec. 23.729  Landing gear extension and retraction system.

    (a) General. For airplanes with retractable landing gear, the 
following apply:
    (1) Each landing gear retracting mechanism and its supporting 
structure must be designed for maximum flight load factors with the gear 
retracted and must be designed for the combination of friction, inertia, 
brake torque, and air loads, occurring during retraction at any airspeed 
up to 1.6 VS1 with flaps retracted, and for any load factor 
up to those specified in Sec. 23.345 for the flaps-extended condition.
    (2) The landing gear and retracting mechanism, including the wheel 
well doors, must withstand flight loads, including loads resulting from 
all yawing conditions specified in Sec. 23.351, with the landing gear 
extended at any speed up to at least 1.6 VS1 with the flaps 
retracted.
    (b) Landing gear lock. There must be positive means (other than the 
use of hydraulic pressure) to keep the landing gear extended.
    (c) Emergency operation. For a landplane having retractable landing 
gear that cannot be extended manually, there must be means to extend the 
landing gear in the event of either--
    (1) Any reasonably probable failure in the normal landing gear 
operation system; or
    (2) Any reasonably probable failure in a power source that would 
prevent the operation of the normal landing gear operation system.
    (d) Operation test. The proper functioning of the retracting 
mechanism must be shown by operation tests.
    (e) Position indicator. If a retractable landing gear is used, there 
must be a landing gear position indicator (as well as necessary switches 
to actuate the indicator) or other means to inform the pilot that each 
gear is secured in the extended (or retracted) position. If switches are 
used, they must be located and coupled to the landing gear mechanical 
system in a manner that prevents an erroneous indication of either 
``down and locked'' if each gear is not in the fully extended position, 
or ``up and locked'' if each landing gear is not in the fully retracted 
position.
    (f) Landing gear warning. For landplanes, the following aural or 
equally effective landing gear warning devices must be provided:
    (1) A device that functions continuously when one or more throttles 
are closed beyond the power settings normally used for landing approach 
if the landing gear is not fully extended and locked. A throttle stop 
may not be used in place of an aural device. If there is a manual 
shutoff for the warning device prescribed in this paragraph, the warning 
system must be designed so that when the warning has been suspended 
after one or more throttles are closed, subsequent retardation of any 
throttle to, or beyond, the position for normal landing approach will 
activate the warning device.
    (2) A device that functions continuously when the wing flaps are 
extended beyond the maximum approach flap position, using a normal 
landing procedure, if the landing gear is not fully extended and locked. 
There may not be a manual shutoff for this warning device. The flap 
position sensing unit may be installed at any suitable location. The 
system for this device may use any part of the system (including the 
aural warning device) for the device required in paragraph (f)(1) of 
this section.

[[Page 238]]

    (g) Equipment located in the landing gear bay. If the landing gear 
bay is used as the location for equipment other than the landing gear, 
that equipment must be designed and installed to minimize damage from 
items such as a tire burst, or rocks, water, and slush that may enter 
the landing gear bay.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13091, Aug. 13, 1969; Amdt. 23-21, 43 FR 2318, Jan. 1978; Amdt. 23-
26, 45 FR 60171, Sept. 11, 1980; Amdt. 23-45, 58 FR 42164, Aug. 6, 1993; 
Amdt. 23-49, 61 FR 5166, Feb. 9, 1996]



Sec. 23.731  Wheels.

    (a) The maximum static load rating of each wheel may not be less 
than the corresponding static ground reaction with--
    (1) Design maximum weight; and
    (2) Critical center of gravity.
    (b) The maximum limit load rating of each wheel must equal or exceed 
the maximum radial limit load determined under the applicable ground 
load requirements of this part.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42165, Aug. 6, 1993]



Sec. 23.733  Tires.

    (a) Each landing gear wheel must have a tire whose approved tire 
ratings (static and dynamic) are not exceeded--
    (1) By a load on each main wheel tire) to be compared to the static 
rating approved for such tires) equal to the corresponding static ground 
reaction under the design maximum weight and critical center of gravity; 
and
    (2) By a load on nose wheel tires (to be compared with the dynamic 
rating approved for such tires) equal to the reaction obtained at the 
nose wheel, assuming the mass of the airplane to be concentrated at the 
most critical center of gravity and exerting a force of 1.0 W downward 
and 0.31 W forward (where W is the design maximum weight), with the 
reactions distributed to the nose and main wheels by the principles of 
statics and with the drag reaction at the ground applied only at wheels 
with brakes.
    (b) If specially constructed tires are used, the wheels must be 
plainly and conspicuously marked to that effect. The markings must 
include the make, size, number of plies, and identification marking of 
the proper tire.
    (c) Each tire installed on a retractable landing gear system must, 
at the maximum size of the tire type expected in service, have a 
clearance to surrounding structure and systems that is adequate to 
prevent contact between the tire and any part of the structure of 
systems.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13092, Aug. 13, 1969; Amdt. 23-17, 41 FR 55464, Dec. 20, 1976; Amdt. 
23-45, 58 FR 42165, Aug. 6, 1993]



Sec. 23.735  Brakes.

    (a) Brakes must be provided. The landing brake kinetic energy 
capacity rating of each main wheel brake assembly must not be less than 
the kinetic energy absorption requirements determined under either of 
the following methods:
    (1) The brake kinetic energy absorption requirements must be based 
on a conservative rational analysis of the sequence of events expected 
during landing at the design landing weight.
    (2) Instead of a rational analysis, the kinetic energy absorption 
requirements for each main wheel brake assembly may be derived from the 
following formula:

    KE=0.0443 WV2/N

where--

KE=Kinetic energy per wheel (ft.-lb.);
W=Design landing weight (lb.);
V=Airplane speed in knots. V must be not less than 
          VS, the poweroff stalling speed of the 
          airplane at sea level, at the design landing weight, and in 
          the landing configuration; and
N=Number of main wheels with brakes.

    (b) Brakes must be able to prevent the wheels from rolling on a 
paved runway with takeoff power on the critical engine, but need not 
prevent movement of the airplane with wheels locked.
    (c) During the landing distance determination required by 
Sec. 23.75, the pressure on the wheel braking system must not exceed the 
pressure specified by the brake manufacturer.
    (d) If antiskid devices are installed, the devices and associated 
systems must be designed so that no single

[[Page 239]]

probable malfunction or failure will result in a hazardous loss of 
braking ability or directional control of the airplane.
    (e) In addition, for commuter category airplanes, the rejected 
takeoff brake kinetic energy capacity rating of each main wheel brake 
assembly must not be less than the kinetic energy absorption 
requirements determined under either of the following methods--
    (1) The brake kinetic energy absorption requirements must be based 
on a conservative rational analysis of the sequence of events expected 
during a rejected takeoff at the design takeoff weight.
    (2) Instead of a rational analysis, the kinetic energy absorption 
requirements for each main wheel brake assembly may be derived from the 
following formula--

KE=0.0443 WV\2\N

where,
KE=Kinetic energy per wheel (ft.-lbs.);
W=Design takeoff weight (lbs.);
V=Ground speed, in knots, associated with the maximum value of 
V1 selected in accordance with Sec. 23.51(c)(1);
N=Number of main wheels with brakes.

[Amdt. 23-7, 34 FR 13092, Aug. 13, 1969, as amended by Amdt. 23-24, 44 
FR 68742, Nov. 29, 1979; Amdt. 23-42, 56 FR 354, Jan. 3, 1991; Amdt. 23-
49, 61 FR 5166, Feb. 9, 1996]



Sec. 23.737  Skis.

    The maximum limit load rating for each ski must equal or exceed the 
maximum limit load determined under the applicable ground load 
requirements of this part.

[Doc. No. 26269, 58 FR 42165, Aug. 6, 1993]



Sec. 23.745  Nose/tail wheel steering.

    (a) If nose/tail wheel steering is installed, it must be 
demonstrated that its use does not require exceptional pilot skill 
during takeoff and landing, in crosswinds, or in the event of an engine 
failure; or its use must be limited to low speed maneuvering.
    (b) Movement of the pilot's steering control must not interfere with 
the retraction or extension of the landing gear.

[Doc. No. 27806, 61 FR 5166, Feb. 9, 1996]

                            Floats and Hulls



Sec. 23.751  Main float buoyancy.

    (a) Each main float must have--
    (1) A buoyancy of 80 percent in excess of the buoyancy required by 
that float to support its portion of the maximum weight of the seaplane 
or amphibian in fresh water; and
    (2) Enough watertight compartments to provide reasonable assurance 
that the seaplane or amphibian will stay afloat without capsizing if any 
two compartments of any main float are flooded.
    (b) Each main float must contain at least four watertight 
compartments approximately equal in volume.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42165, Aug. 6, 1993]



Sec. 23.753  Main float design.

    Each seaplane main float must meet the requirements of Sec. 23.521.

[Doc. No. 26269, 58 FR 42165, Aug. 6, 1993]



Sec. 23.755  Hulls.

    (a) The hull of a hull seaplane or amphibian of 1,500 pounds or more 
maximum weight must have watertight compartments designed and arranged 
so that the hull auxiliary floats, and tires (if used), will keep the 
airplane afloat without capsizing in fresh water when--
    (1) For airplanes of 5,000 pounds or more maximum weight, any two 
adjacent compartments are flooded; and
    (2) For airplanes of 1,500 pounds up to, but not including, 5,000 
pounds maximum weight, any single compartment is flooded.
    (b) Watertight doors in bulkheads may be used for communication 
between compartments.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42165, Aug. 6, 1993; Amdt. 23-48, 61 FR 5148, Feb. 9, 1996]



Sec. 23.757  Auxiliary floats.

    Auxiliary floats must be arranged so that, when completely submerged 
in fresh water, they provide a righting moment of at least 1.5 times the 
upsetting moment caused by the seaplane or amphibian being tilted.

[[Page 240]]

                   Personnel and Cargo Accommodations



Sec. 23.771  Pilot compartment.

    For each pilot compartment--
    (a) The compartment and its equipment must allow each pilot to 
perform his duties without unreasonable concentration or fatigue;
    (b) Where the flight crew are separated from the passengers by a 
partition, an opening or openable window or door must be provided to 
facilitate communication between flight crew and the passengers; and
    (c) The aerodynamic controls listed in Sec. 23.779, excluding cables 
and control rods, must be located with respect to the propellers so that 
no part of the pilot or the controls lies in the region between the 
plane of rotation of any inboard propeller and the surface generated by 
a line passing through the center of the propeller hub making an angle 
of 5 degrees forward or aft of the plane of rotation of the propeller.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31821, Nov. 19, 1973]



Sec. 23.773  Pilot compartment view.

    (a) Each pilot compartment must be--
    (1) Arranged with sufficiently extensive, clear and undistorted view 
to enable the pilot to safely taxi, takeoff, approach, land, and perform 
any maneuvers within the operating limitations of the airplane.
    (2) Free from glare and reflections that could interfere with the 
pilot's vision. Compliance must be shown in all operations for which 
certification is requested; and
    (3) Designed so that each pilot is protected from the elements so 
that moderate rain conditions do not unduly impair the pilot's view of 
the flight path in normal flight and while landing.
    (b) Each pilot compartment must have a means to either remove or 
prevent the formation of fog or frost on an area of the internal portion 
of the windshield and side windows sufficiently large to provide the 
view specified in paragraph (a)(1) of this section. Compliance must be 
shown under all expected external and internal ambient operating 
conditions, unless it can be shown that the windshield and side windows 
can be easily cleared by the pilot without interruption of moral pilot 
duties.

[Doc. No. 26269, 58 FR 42165, Aug. 6, 1993]



Sec. 23.775  Windshields and windows.

    (a) The internal panels of windshields and windows must be 
constructed of a nonsplintering material, such as nonsplintering safety 
glass.
    (b) The design of windshields, windows, and canopies in pressurized 
airplanes must be based on factors peculiar to high altitude operation, 
including--
    (1) The effects of continuous and cyclic pressurization loadings;
    (2) The inherent characteristics of the material used; and
    (3) The effects of temperatures and temperature gradients.
    (c) On pressurized airplanes, if certification for operation up to 
and including 25,000 feet is requested, an enclosure canopy including a 
representative part of the installation must be subjected to special 
tests to account for the combined effects of continuous and cyclic 
pressurization loadings and flight loads, or compliance with the fail-
safe requirements of paragraph (d) of this section must be shown.
    (d) If certification for operation above 25,000 feet is requested 
the windshields, window panels, and canopies must be strong enough to 
withstand the maximum cabin pressure differential loads combined with 
critical aerodynamic pressure and temperature effects, after failure of 
any load-carrying element of the windshield, window panel, or canopy.
    (e) The windshield and side windows forward of the pilot's back when 
the pilot is seated in the normal flight position must have a luminous 
transmittance value of not less than 70 percent.
    (f) Unless operation in known or forecast icing conditions is 
prohibited by operating limitations, a means must be provided to prevent 
or to clear accumulations of ice from the windshield so that the pilot 
has adequate view for taxi, takeoff, approach, landing, and to perform 
any maneuvers within the operating limitations of the airplane.

[[Page 241]]

    (g) In the event of any probable single failure, a transparency 
heating system must be incapable of raising the temperature of any 
windshield or window to a point where there would be--
    (1) Structural failure that adversely affects the integrity of the 
cabin; or
    (2) There would be a danger of fire.
    (h) In addition, for commuter category airplanes, the following 
applies:
    (1) Windshield panes directly in front of the pilots in the normal 
conduct of their duties, and the supporting structures for these panes, 
must withstand, without penetration, the impact of a two-pound bird when 
the velocity of the airplane (relative to the bird along the airplane's 
flight path) is equal to the airplane's maximum approach flap speed.
    (2) The windshield panels in front of the pilots must be arranged so 
that, assuming the loss of vision through any one panel, one or more 
panels remain available for use by a pilot seated at a pilot station to 
permit continued safe flight and landing.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13092, Aug. 13, 1969; Amdt. 23-45, 58 FR 42165, Aug. 6, 1993; 58 FR 
51970, Oct. 5, 1993; Amdt. 23-49, 61 FR 5166, Feb. 9, 1996]



Sec. 23.777  Cockpit controls.

    (a) Each cockpit control must be located and (except where its 
function is obvious) identified to provide convenient operation and to 
prevent confusion and inadvertent operation.
    (b) The controls must be located and arranged so that the pilot, 
when seated, has full and unrestricted movement of each control without 
interference from either his clothing or the cockpit structure.
    (c) Powerplant controls must be located--
    (1) For multiengine airplanes, on the pedestal or overhead at or 
near the center of the cockpit;
    (2) For single and tandem seated single-engine airplanes, on the 
left side console or instrument panel;
    (3) For other single-engine airplanes at or near the center of the 
cockpit, on the pedestal, instrument panel, or overhead; and
    (4) For airplanes, with side-by-side pilot seats and with two sets 
of powerplant controls, on left and right consoles.
    (d) The control location order from left to right must be power 
(thrust) lever, propeller (rpm control), and mixture control (condition 
lever and fuel cutoff for turbine-powered airplanes). Power (thrust) 
levers must be at least one inch higher or longer to make them more 
prominent than propeller (rpm control) or mixture controls. Carburetor 
heat or alternate air control must be to the left of the throttle or at 
least eight inches from the mixture control when located other than on a 
pedestal. Carburetor heat or alternate air control, when located on a 
pedestal must be aft or below the power (thrust) lever. Supercharger 
controls must be located below or aft of the propeller controls. 
Airplanes with tandem seating or single-place airplanes may utilize 
control locations on the left side of the cabin compartment; however, 
location order from left to right must be power (thrust) lever, 
propeller (rpm control) and mixture control.
    (e) Identical powerplant controls for each engine must be located to 
prevent confusion as to the engines they control.
    (1) Conventional multiengine powerplant controls must be located so 
that the left control(s) operates the left engines(s) and the right 
control(s) operates the right engine(s).
    (2) On twin-engine airplanes with front and rear engine locations 
(tandem), the left powerplant controls must operate the front engine and 
the right powerplant controls must operate the rear engine.
    (f) Wing flap and auxiliary lift device controls must be located--
    (1) Centrally, or to the right of the pedestal or powerplant 
throttle control centerline; and
    (2) Far enough away from the landing gear control to avoid 
confusion.
    (g) The landing gear control must be located to the left of the 
throttle centerline or pedestal centerline.
    (h) Each fuel feed selector control must comply with Sec. 23.995 and 
be located and arranged so that the pilot can see and reach it without 
moving any seat or primary flight control when his seat is at any 
position in which it can be placed.

[[Page 242]]

    (1) For a mechanical fuel selector:
    (i) The indication of the selected fuel valve position must be by 
means of a pointer and must provide positive identification and feel 
(detent, etc.) of the selected position.
    (ii) The position indicator pointer must be located at the part of 
the handle that is the maximum dimension of the handle measured from the 
center of rotation.
    (2) For electrical or electronic fuel selector:
    (i) Digital controls or electrical switches must be properly 
labelled.
    (ii) Means must be provided to indicate to the flight crew the tank 
or function selected. Selector switch position is not acceptable as a 
means of indication. The ``off'' or ``closed'' position must be 
indicated in red.
    (3) If the fuel valve selector handle or electrical or digital 
selection is also a fuel shut-off selector, the off position marking 
must be colored red. If a separate emergency shut-off means is provided, 
it also must be colored red.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13092, Aug. 13, 1969; Amdt. 23-33, 51 FR 26656, July 24, 1986; Amdt. 
23-51, 61 FR 5136, Feb. 9, 1996]



Sec. 23.779  Motion and effect of cockpit controls.

    Cockpit controls must be designed so that they operate in accordance 
with the following movement and actuation:
    (a) Aerodynamic controls:

 
                                                Motion and effect
 
(1) Primary controls:
    Aileron...........................  Right (clockwise) for right wing
                                         down.
    Elevator..........................  Rearward for nose up.
    Rudder............................  Right pedal forward for nose
                                         right.
(2) Secondary controls:
    Flaps (or auxiliary lift devices).  Forward or up for flaps up or
                                         auxiliary device stowed;
                                         rearward or down for flaps down
                                         or auxiliary device deployed.
    Trim tabs (or equivalent).........  Switch motion or mechanical
                                         rotation of control to produce
                                         similar rotation of the
                                         airplane about an axis parallel
                                         to the axis control. Axis of
                                         roll trim control may be
                                         displaced to accommodate
                                         comfortable actuation by the
                                         pilot. For single-engine
                                         airplanes, direction of pilot's
                                         hand movement must be in the
                                         same sense as airplane response
                                         for rudder trim if only a
                                         portion of a rotational element
                                         is accessible.
 

    (b) Powerplant and auxiliary controls:

 
                                                Motion and effect
 
(1) Powerplant controls:
    Power (thrust) lever..............  Forward to increase forward
                                         thrust and rearward to increase
                                         rearward thrust.
    Propellers........................  Forward to increase rpm.
    Mixture...........................  Forward or upward for rich.
    Fuel..............................  Forward for open.
    Carburetor, air heat or alternate   Forward or upward for cold.
     air.
    Supercharger......................  Forward or upward for low
                                         blower.
    Turbosuperchargers................  Forward, upward, or clockwise to
                                         increase pressure.
    Rotary controls...................  Clockwise from off to full on.
(2) Auxiliary controls:
    Fuel tank selector................  Right for right tanks, left for
                                         left tanks.
    Landing gear......................  Down to extend.
    Speed brakes......................  Aft to extend.
 


[Amdt. 23-33, 51 FR 26656, July 24, 1986, as amended by Amdt. 23-51, 61 
FR 5136, Feb. 9, 1996]



Sec. 23.781  Cockpit control knob shape.

    (a) Flap and landing gear control knobs must conform to the general 
shapes (but not necessarily the exact sizes or specific proportions) in 
the following figure:

[[Page 243]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.016


[[Page 244]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.017

    (b) Powerplant control knobs must conform to the general shapes (but 
not necessarily the exact sizes or specific proportions) in the 
following figure:

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-33, 51 FR 26657, July 24, 1986]



Sec. 23.783  Doors.

    (a) Each closed cabin with passenger accommodations must have at 
least one adequate and easily accessible external door.
    (b) Passenger doors must not be located with respect to any 
propeller disk or any other potential hazard so as to endanger persons 
using the door.
    (c) Each external passenger or crew door must comply with the 
following requirements:
    (1) There must be a means to lock and safeguard the door against 
inadvertent opening during flight by persons, by cargo, or as a result 
of mechanical failure.
    (2) The door must be openable from the inside and the outside when 
the internal locking mechanism is in the locked position.

[[Page 245]]

    (3) There must be a means of opening which is simple and obvious and 
is arranged and marked inside and outside so that the door can be 
readily located, unlocked, and opened, even in darkness.
    (4) The door must meet the marking requirements of Sec. 23.811 of 
this part.
    (5) The door must be reasonably free from jamming as a result of 
fuselage deformation in an emergency landing.
    (6) Auxiliary locking devices that are actuated externally to the 
airplane may be used but such devices must be overridden by the normal 
internal opening means.
    (d) In addition, each external passenger or crew door, for a 
commuter category airplane, must comply with the following requirements:
    (1) Each door must be openable from both the inside and outside, 
even though persons may be crowded against the door on the inside of the 
airplane.
    (2) If inward opening doors are used, there must be a means to 
prevent occupants from crowding against the door to the extent that 
would interfere with opening the door.
    (3) Auxiliary locking devices may be used.
    (e) Each external door on a commuter category airplane, each 
external door forward of any engine or propeller on a normal, utility, 
or acrobatic category airplane, and each door of the pressure vessel on 
a pressurized airplane must comply with the following requirements:
    (1) There must be a means to lock and safeguard each external door, 
including cargo and service type doors, against inadvertent opening in 
flight, by persons, by cargo, or as a result of mechanical failure or 
failure of a single structural element, either during or after closure.
    (2) There must be a provision for direct visual inspection of the 
locking mechanism to determine if the external door, for which the 
initial opening movement is not inward, is fully closed and locked. The 
provisions must be discernible, under operating lighting conditions, by 
a crewmember using a flashlight or an equivalent lighting source.
    (3) There must be a visual warning means to signal a flight 
crewmember if the external door is not fully closed and locked. The 
means must be designed so that any failure, or combination of failures, 
that would result in an erroneous closed and locked indication is 
improbable for doors for which the initial opening movement is not 
inward.
    (f) In addition, for commuter category airplanes, the following 
requirements apply:
    (1) Each passenger entry door must qualify as a floor level 
emergency exit. This exit must have a rectangular opening of not less 
than 24 inches wide by 48 inches high, with corner radii not greater 
than one-third the width of the exit.
    (2) If an integral stair is installed at a passenger entry door, the 
stair must be designed so that, when subjected to the inertia loads 
resulting from the ultimate static load factors in Sec. 23.561(b)(2) and 
following the collapse of one or more legs of the landing gear, it will 
not reduce the effectiveness of emergency egress through the passenger 
entry door.
    (g) If lavatory doors are installed, they must be designed to 
preclude an occupant from becoming trapped inside the lavatory. If a 
locking mechanism is installed, it must be capable of being unlocked 
from outside of the lavatory.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-36, 53 FR 30813, Aug. 15, 1988; Amdt. 23-46, 59 FR 
25772, May 17, 1994; Amdt. 23-49, 61 FR 5166, Feb. 9, 1996]



Sec. 23.785  Seats, berths, litters, safety belts, and shoulder harnesses.

    There must be a seat or berth for each occupant that meets the 
following:
    (a) Each seat/restraint system and the supporting structure must be 
designed to support occupants weighing at least 215 pounds when 
subjected to the maximum load factors corresponding to the specified 
flight and ground load conditions, as defined in the approved operating 
envelope of the airplane. In addition, these loads must be multiplied by 
a factor of 1.33 in determining the strength of all fittings and the 
attachment of--

[[Page 246]]

    (1) Each seat to the structure; and
    (2) Each safety belt and shoulder harness to the seat or structure.
    (b) Each forward-facing or aft-facing seat/restraint system in 
normal, utility, or acrobatic category airplanes must consist of a seat, 
a safety belt, and a shoulder harness, with a metal-to-metal latching 
device, that are designed to provide the occupant protection provisions 
required in Sec. 23.562. Other seat orientations must provide the same 
level of occupant protection as a forward-facing or aft-facing seat with 
a safety belt and a shoulder harness, and must provide the protection 
provisions of Sec. 23.562.
    (c) For commuter category airplanes, each seat and the supporting 
structure must be designed for occupants weighing at least 170 pounds 
when subjected to the inertia loads resulting from the ultimate static 
load factors prescribed in Sec. 23.561(b)(2) of this part. Each occupant 
must be protected from serious head injury when subjected to the inertia 
loads resulting from these load factors by a safety belt and shoulder 
harness, with a metal-to-metal latching device, for the front seats and 
a safety belt, or a safety belt and shoulder harness, with a metal-to-
metal latching device, for each seat other than the front seats.
    (d) Each restraint system must have a single-point release for 
occupant evacuation.
    (e) The restraint system for each crewmember must allow the 
crewmember, when seated with the safety belt and shoulder harness 
fastened, to perform all functions necessary for flight operations.
    (f) Each pilot seat must be designed for the reactions resulting 
from the application of pilot forces to the primary flight controls as 
prescribed in Sec. 23.395 of this part.
    (g) There must be a means to secure each safety belt and shoulder 
harness, when not in use, to prevent interference with the operation of 
the airplane and with rapid occupant egress in an emergency.
    (h) Unless otherwise placarded, each seat in a utility or acrobatic 
category airplane must be designed to accommodate an occupant wearing a 
parachute.
    (i) The cabin area surrounding each seat, including the structure, 
interior walls, instrument panel, control wheel, pedals, and seats 
within striking distance of the occupant's head or torso (with the 
restraint system fastened) must be free of potentially injurious 
objects, sharp edges, protuberances, and hard surfaces. If energy 
absorbing designs or devices are used to meet this requirement, they 
must protect the occupant from serious injury when the occupant is 
subjected to the inertia loads resulting from the ultimate static load 
factors prescribed in Sec. 23.561(b)(2) of this part, or they must 
comply with the occupant protection provisions of Sec. 23.562 of this 
part, as required in paragraphs (b) and (c) of this section.
    (j) Each seat track must be fitted with stops to prevent the seat 
from sliding off the track.
    (k) Each seat/restraint system may use design features, such as 
crushing or separation of certain components, to reduce occupant loads 
when showing compliance with the requirements of Sec. 23.562 of this 
part; otherwise, the system must remain intact.
    (l) For the purposes of this section, a front seat is a seat located 
at a flight crewmember station or any seat located alongside such a 
seat.
    (m) Each berth, or provisions for a litter, installed parallel to 
the longitudinal axis of the airplane, must be designed so that the 
forward part has a padded end-board, canvas diaphragm, or equivalent 
means that can withstand the load reactions from a 215-pound occupant 
when subjected to the inertia loads resulting from the ultimate static 
load factors of Sec. 23.561(b)(2) of this part. In addition--
    (1) Each berth or litter must have an occupant restraint system and 
may not have corners or other parts likely to cause serious injury to a 
person occupying it during emergency landing conditions; and
    (2) Occupant restraint system attachments for the berth or litter 
must withstand the inertia loads resulting from the ultimate static load 
factors of Sec. 23.561(b)(2) of this part.
    (n) Proof of compliance with the static strength requirements of 
this section for seats and berths approved as

[[Page 247]]

part of the type design and for seat and berth installations may be 
shown by--
    (1) Structural analysis, if the structure conforms to conventional 
airplane types for which existing methods of analysis are known to be 
reliable;
    (2) A combination of structural analysis and static load tests to 
limit load; or
    (3) Static load tests to ultimate loads.

[Amdt. 23-36, 53 FR 30813, Aug. 15, 1988; Amdt. 23-36, 54 FR 50737, Dec. 
11, 1989; Amdt. 23-49, 61 FR 5167, Feb. 9, 1996]



Sec. 23.787  Baggage and cargo compartments.

    (a) Each baggage and cargo compartment must:
    (1) Be designed for its placarded maximum weight of contents and for 
the critical load distributions at the appropriate maximum load factors 
corresponding to the flight and ground load conditions of this part.
    (2) Have means to prevent the contents of any compartment from 
becoming a hazard by shifting, and to protect any controls, wiring, 
lines, equipment or accessories whose damage or failure would affect 
safe operations.
    (3) Have a means to protect occupants from injury by the contents of 
any compartment, located aft of the occupants and separated by 
structure, when the ultimate forward inertial load factor is 9g and 
assuming the maximum allowed baggage or cargo weight for the 
compartment.
    (b) Designs that provide for baggage or cargo to be carried in the 
same compartment as passengers must have a means to protect the 
occupants from injury when the baggage or cargo is subjected to the 
inertial loads resulting from the ultimate static load factors of 
Sec. 23.561(b)(3), assuming the maximum allowed baggage or cargo weight 
for the compartment.
    (c) For airplanes that are used only for the carriage of cargo, the 
flightcrew emergency exits must meet the requirements of Sec. 23.807 
under any cargo loading conditions.

[Doc. No. 27806, 61 FR 5167, Feb. 9, 1996]



Sec. 23.791  Passenger information signs.

    For those airplanes in which the flightcrew members cannot observe 
the other occupants' seats or where the flightcrew members' compartment 
is separated from the passenger compartment, there must be at least one 
illuminated sign (using either letters or symbols) notifying all 
passengers when seat belts should be fastened. Signs that notify when 
seat belts should be fastened must:
    (a) When illuminated, be legible to each person seated in the 
passenger compartment under all probable lighting conditions; and
    (b) Be installed so that a flightcrew member can, when seated at the 
flightcrew member's station, turn the illumination on and off.

[Doc. No. 27806, 61 FR 5167, Feb. 9, 1996]



Sec. 23.803  Emergency evacuation.

    (a) For commuter category airplanes, an evacuation demonstration 
must be conducted utilizing the maximum number of occupants for which 
certification is desired. The demonstration must be conducted under 
simulated night conditions using only the emergency exits on the most 
critical side of the airplane. The participants must be representative 
of average airline passengers with no prior practice or rehearsal for 
the demonstration. Evacuation must be completed within 90 seconds.
    (b) In addition, when certification to the emergency exit provisions 
of Sec. 23.807(d)(4) is requested, only the emergency lighting system 
required by Sec. 23.812 may be used to provide cabin interior 
illumination during the evacuation demonstration required in paragraph 
(a) of this section.

[Amdt. 23-34, 52 FR 1831, Jan. 15, 1987, as amended by Amdt. 23-46, 59 
FR 25773, May 17, 1994]



Sec. 23.805  Flightcrew emergency exits.

    For airplanes where the proximity of the passenger emergency exits 
to the flightcrew area does not offer a convenient and readily 
accessible means of evacuation for the flightcrew, the following apply:
    (a) There must be either one emergency exit on each side of the 
airplane, or a top hatch emergency exit, in the flightcrew area;

[[Page 248]]

    (b) Each emergency exit must be located to allow rapid evacuation of 
the crew and have a size and shape of at least a 19- by 20-inch 
unobstructed rectangular opening; and
    (c) For each emergency exit that is not less than six feet from the 
ground, an assisting means must be provided. The assisting means may be 
a rope or any other means demonstrated to be suitable for the purpose. 
If the assisting means is a rope, or an approved device equivalent to a 
rope, it must be--
    (1) Attached to the fuselage structure at or above the top of the 
emergency exit opening or, for a device at a pilot's emergency exit 
window, at another approved location if the stowed device, or its 
attachment, would reduce the pilot's view; and
    (2) Able (with its attachment) to withstand a 400-pound static load.

[Doc. No. 26324, 59 FR 25773, May 17, 1994]



Sec. 23.807  Emergency exits.

    (a) Number and location. Emergency exits must be located to allow 
escape without crowding in any probable crash attitude. The airplane 
must have at least the following emergency exits:
    (1) For all airplanes with a seating capacity of two or more, 
excluding airplanes with canopies, at least one emergency exit on the 
opposite side of the cabin from the main door specified in Sec. 23.783 
of this part.
    (2) [Reserved]
    (3) If the pilot compartment is separated from the cabin by a door 
that is likely to block the pilot's escape in a minor crash, there must 
be an exit in the pilot's compartment. The number of exits required by 
paragraph (a)(1) of this section must then be separately determined for 
the passenger compartment, using the seating capacity of that 
compartment.
    (4) Emergency exits must not be located with respect to any 
propeller disk or any other potential hazard so as to endanger persons 
using that exit.
    (b) Type and operation. Emergency exits must be movable windows, 
panels, canopies, or external doors, openable from both inside and 
outside the airplane, that provide a clear and unobstructed opening 
large enough to admit a 19-by-26-inch ellipse. Auxiliary locking devices 
used to secure the airplane must be designed to be overridden by the 
normal internal opening means. The inside handles of emergency exits 
that open outward must be adequately protected against inadvertent 
operation. In addition, each emergency exit must--
    (1) Be readily accessible, requiring no exceptional agility to be 
used in emergencies;
    (2) Have a method of opening that is simple and obvious;
    (3) Be arranged and marked for easy location and operation, even in 
darkness;
    (4) Have reasonable provisions against jamming by fuselage 
deformation; and
    (5) In the case of acrobatic category airplanes, allow each occupant 
to abandon the airplane at any speed between VSO and 
VD; and
    (6) In the case of utility category airplanes certificated for 
spinning, allow each occupant to abandon the airplane at the highest 
speed likely to be achieved in the maneuver for which the airplane is 
certificated.
    (c) Tests. The proper functioning of each emergency exit must be 
shown by tests.
    (d) Doors and exits. In addition, for commuter category airplanes, 
the following requirements apply:
    (1) In addition to the passenger entry door--
    (i) For an airplane with a total passenger seating capacity of 15 or 
fewer, an emergency exit, as defined in paragraph (b) of this section, 
is required on each side of the cabin; and
    (ii) For an airplane with a total passenger seating capacity of 16 
through 19, three emergency exits, as defined in paragraph (b) of this 
section, are required with one on the same side as the passenger entry 
door and two on the side opposite the door.
    (2) A means must be provided to lock each emergency exit and to 
safeguard against its opening in flight, either inadvertently by persons 
or as a result of mechanical failure. In addition, a means for direct 
visual inspection of the locking mechanism must be provided to determine 
that each emergency exit for which the initial opening movement is 
outward is fully locked.

[[Page 249]]

    (3) Each required emergency exit, except floor level exits, must be 
located over the wing or, if not less than six feet from the ground, 
must be provided with an acceptable means to assist the occupants to 
descend to the ground. Emergency exits must be distributed as uniformly 
as practical, taking into account passenger seating configuration.
    (4) Unless the applicant has complied with paragraph (d)(1) of this 
section, there must be an emergency exit on the side of the cabin 
opposite the passenger entry door, provided that--
    (i) For an airplane having a passenger seating configuration of nine 
or fewer, the emergency exit has a rectangular opening measuring not 
less than 19 inches by 26 inches high with corner radii not greater than 
one-third the width of the exit, located over the wing, with a step up 
inside the airplane of not more than 29 inches and a step down outside 
the airplane of not more than 36 inches;
    (ii) For an airplane having a passenger seating configuration of 10 
to 19 passengers, the emergency exit has a rectangular opening measuring 
not less than 20 inches wide by 36 inches high, with corner radii not 
greater than one-third the width of the exit, and with a step up inside 
the airplane of not more than 20 inches. If the exit is located over the 
wing, the step down outside the airplane may not exceed 27 inches; and
    (iii) The airplane complies with the additional requirements of 
Secs. 23.561(b)(2)(iv), 23.803(b), 23.811(c), 23.812, 23.813(b), and 
23.815.
    (e) For multiengine airplanes, ditching emergency exits must be 
provided in accordance with the following requirements, unless the 
emergency exits required by paragraph (a) or (d) of this section already 
comply with them:
    (1) One exit above the waterline on each side of the airplane having 
the dimensions specified in paragraph (b) or (d) of this section, as 
applicable; and
    (2) If side exits cannot be above the waterline, there must be a 
readily accessible overhead hatch emergency exit that has a rectangular 
opening measuring not less than 20 inches wide by 36 inches long, with 
corner radii not greater than one-third the width of the exit.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13092, Aug. 13, 1969; Amdt. 23-10, 36 FR 2864, Feb. 11, 1971; Amdt. 
23-34, 52 FR 1831, Jan. 15, 1987; Amdt. 23-36, 53 FR 30814, Aug. 15, 
1988; 53 FR 34194, Sept. 2, 1988; Amdt. 23-46, 59 FR 25773, May 17, 
1994; Amdt. 23-49, 61 FR 5167, Feb. 9, 1996]



Sec. 23.811  Emergency exit marking.

    (a) Each emergency exit and external door in the passenger 
compartment must be externally marked and readily identifiable from 
outside the airplane by--
    (1) A conspicuous visual identification scheme; and
    (2) A permanent decal or placard on or adjacent to the emergency 
exit which shows the means of opening the emergency exit, including any 
special instructions, if applicable.
    (b) In addition, for commuter category airplanes, these exits and 
doors must be internally marked with the word ``exit'' by a sign which 
has white letters 1 inch high on a red background 2 inches high, be 
self-illuminated or independently, internally electrically illuminated, 
and have a minimum brightness of at least 160 microlamberts. The color 
may be reversed if the passenger compartment illumination is essentially 
the same.
    (c) In addition, when certification to the emergency exit provisions 
of Sec. 23.807(d)(4) is requested, the following apply:
    (1) Each emergency exit, its means of access, and its means of 
opening, must be conspicuously marked;
    (2) The identity and location of each emergency exit must be 
recognizable from a distance equal to the width of the cabin;
    (3) Means must be provided to assist occupants in locating the 
emergency exits in conditions of dense smoke;
    (4) The location of the operating handle and instructions for 
opening each emergency exit from inside the airplane must be shown by 
marking that is readable from a distance of 30 inches;
    (5) Each passenger entry door operating handle must--
    (i) Be self-illuminated with an initial brightness of at least 160 
microlamberts; or

[[Page 250]]

    (ii) Be conspicuously located and well illuminated by the emergency 
lighting even in conditions of occupant crowding at the door;
    (6) Each passenger entry door with a locking mechanism that is 
released by rotary motion of the handle must be marked--
    (i) With a red arrow, with a shaft of at least three-fourths of an 
inch wide and a head twice the width of the shaft, extending along at 
least 70 degrees of arc at a radius approximately equal to three-fourths 
of the handle length;
    (ii) So that the center line of the exit handle is within 
 one inch of the projected point of the arrow when the 
handle has reached full travel and has released the locking mechanism;
    (iii) With the word ``open'' in red letters, one inch high, placed 
horizontally near the head of the arrow; and
    (7) In addition to the requirements of paragraph (a) of this 
section, the external marking of each emergency exit must--
    (i) Include a 2-inch colorband outlining the exit; and
    (ii) Have a color contrast that is readily distinguishable from the 
surrounding fuselage surface. The contrast must be such that if the 
reflectance of the darker color is 15 percent or less, the reflectance 
of the lighter color must be at least 45 percent. ``Reflectance'' is the 
ratio of the luminous flux reflected by a body to the luminous flux it 
receives. When the reflectance of the darker color is greater than 15 
percent, at least a 30 percent difference between its reflectance and 
the reflectance of the lighter color must be provided.

[Amdt. 23-36, 53 FR 30814, Aug. 15, 1988; 53 FR 34194, Sept. 2, 1988, as 
amended by Amdt. 23-46, 59 FR 25773, May 17, 1994]



Sec. 23.812  Emergency lighting.

    When certification to the emergency exit provisions of 
Sec. 23.807(d)(4) is requested, the following apply:
    (a) An emergency lighting system, independent of the main cabin 
lighting system, must be installed. However, the source of general cabin 
illumination may be common to both the emergency and main lighting 
systems if the power supply to the emergency lighting system is 
independent of the power supply to the main lighting system.
    (b) There must be a crew warning light that illuminates in the 
cockpit when power is on in the airplane and the emergency lighting 
control device is not armed.
    (c) The emergency lights must be operable manually from the 
flightcrew station and be provided with automatic activation. The 
cockpit control device must have ``on,'' ``off,'' and ``armed'' 
positions so that, when armed in the cockpit, the lights will operate by 
automatic activation.
    (d) There must be a means to safeguard against inadvertent operation 
of the cockpit control device from the ``armed'' or ``on'' positions.
    (e) The cockpit control device must have provisions to allow the 
emergency lighting system to be armed or activated at any time that it 
may be needed.
    (f) When armed, the emergency lighting system must activate and 
remain lighted when--
    (1) The normal electrical power of the airplane is lost; or
    (2) The airplane is subjected to an impact that results in a 
deceleration in excess of 2g and a velocity change in excess of 3.5 
feet-per-second, acting along the longitudinal axis of the airplane; or
    (3) Any other emergency condition exists where automatic activation 
of the emergency lighting is necessary to aid with occupant evacuation.
    (g) The emergency lighting system must be capable of being turned 
off and reset by the flightcrew after automatic activation.
    (h) The emergency lighting system must provide internal lighting, 
including--
    (1) Illuminated emergency exit marking and locating signs, including 
those required in Sec. 23.811(b);
    (2) Sources of general illumination in the cabin that provide an 
average illumination of not less than 0.05 foot-candle and an 
illumination at any point of not less than 0.01 foot-candle when 
measured along the center line of the main passenger aisle(s) and at the 
seat armrest height; and
    (3) Floor proximity emergency escape path marking that provides 
emergency

[[Page 251]]

evacuation guidance for the airplane occupants when all sources of 
illumination more than 4 feet above the cabin aisle floor are totally 
obscured.
    (i) The energy supply to each emergency lighting unit must provide 
the required level of illumination for at least 10 minutes at the 
critical ambient conditions after activation of the emergency lighting 
system.
    (j) If rechargeable batteries are used as the energy supply for the 
emergency lighting system, they may be recharged from the main 
electrical power system of the airplane provided the charging circuit is 
designed to preclude inadvertent battery discharge into the charging 
circuit faults. If the emergency lighting system does not include a 
charging circuit, battery condition monitors are required.
    (k) Components of the emergency lighting system, including 
batteries, wiring, relays, lamps, and switches, must be capable of 
normal operation after being subjected to the inertia forces resulting 
from the ultimate load factors prescribed in Sec. 23.561(b)(2).
    (l) The emergency lighting system must be designed so that after any 
single transverse vertical separation of the fuselage during a crash 
landing:
    (1) At least 75 percent of all electrically illuminated emergency 
lights required by this section remain operative; and
    (2) Each electrically illuminated exit sign required by Sec. 23.811 
(b) and (c) remains operative, except those that are directly damaged by 
the fuselage separation.

[Doc. No. 26324, 59 FR 25774, May 17, 1994]



Sec. 23.813  Emergency exit access.

    (a) For commuter category airplanes, access to window-type emergency 
exits may not be obstructed by seats or seat backs.
    (b) In addition, when certification to the emergency exit provisions 
of Sec. 23.807(d)(4) is requested, the following emergency exit access 
must be provided:
    (1) The passageway leading from the aisle to the passenger entry 
door must be unobstructed and at least 20 inches wide.
    (2) There must be enough space next to the passenger entry door to 
allow assistance in evacuation of passengers without reducing the 
unobstructed width of the passageway below 20 inches.
    (3) If it is necessary to pass through a passageway between 
passenger compartments to reach a required emergency exit from any seat 
in the passenger cabin, the passageway must be unobstructed; however, 
curtains may be used if they allow free entry through the passageway.
    (4) No door may be installed in any partition between passenger 
compartments unless that door has a means to latch it in the open 
position. The latching means must be able to withstand the loads imposed 
upon it by the door when the door is subjected to the inertia loads 
resulting from the ultimate static load factors prescribed in 
Sec. 23.561(b)(2).
    (5) If it is necessary to pass through a doorway separating the 
passenger cabin from other areas to reach a required emergency exit from 
any passenger seat, the door must have a means to latch it in the open 
position. The latching means must be able to withstand the loads imposed 
upon it by the door when the door is subjected to the inertia loads 
resulting from the ultimate static load factors prescribed in 
Sec. 23.561(b)(2).

[Amdt. 23-36, 53 FR 30815, Aug. 15, 1988, as amended by Amdt. 23-46, 59 
FR 25774, May 17, 1994]



Sec. 23.815  Width of aisle.

    (a) Except as provided in paragraph (b) of this section, for 
commuter category airplanes, the width of the main passenger aisle at 
any point between seats must equal or exceed the values in the following 
table:

------------------------------------------------------------------------
                                    Minimum main passenger aisle width
                                 ---------------------------------------
    Number of passenger seats        Less than 25     25 inches and more
                                   inches from floor      from floor
------------------------------------------------------------------------
10 through 19...................  9 inches..........  15 inches.
------------------------------------------------------------------------

    (b) When certification to the emergency exist provisions of 
Sec. 23.807(d)(4) is requested, the main passenger aisle width at any 
point between the seats must equal or exceed the following values:

[[Page 252]]



------------------------------------------------------------------------
                                                 Minimum main passenger
                                                  aisle width (inches)
                                               -------------------------
           Number of passenger seats             Less than    25 inches
                                                 25 inches     and more
                                                 from floor   from floor
------------------------------------------------------------------------
10 or fewer...................................       \1\ 12           15
11 through 19.................................           12           20
------------------------------------------------------------------------
\1\ A narrower width not less than 9 inches may be approved when
  substantiated by tests found necessary by the Administrator.


[Amdt. 23-34, 52 FR 1831, Jan. 15, 1987, as amended by Amdt. 23-46, 59 
FR 25774, May 17, 1994]



Sec. 23.831  Ventilation.

    (a) Each passenger and crew compartment must be suitably ventilated. 
Carbon monoxide concentration may not exceed one part in 20,000 parts of 
air.
    (b) For pressurized airplanes, the ventilating air in the flightcrew 
and passenger compartments must be free of harmful or hazardous 
concentrations of gases and vapors in normal operations and in the event 
of reasonably probable failures or malfunctioning of the ventilating, 
heating, pressurization, or other systems and equipment. If accumulation 
of hazardous quantities of smoke in the cockpit area is reasonably 
probable, smoke evacuation must be readily accomplished starting with 
full pressurization and without depressurizing beyond safe limits.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-34, 52 FR 1831, Jan. 15, 1987; Amdt. 23-42, 56 FR 
354, Jan. 3, 1991]

                             Pressurization



Sec. 23.841  Pressurized cabins.

    (a) If certification for operation over 25,000 feet is requested, 
the airplane must be able to maintain a cabin pressure altitude of not 
more than 15,000 feet in event of any probable failure or malfunction in 
the pressurization system.
    (b) Pressurized cabins must have at least the following valves, 
controls, and indicators, for controlling cabin pressure:
    (1) Two pressure relief valves to automatically limit the positive 
pressure differential to a predetermined value at the maximum rate of 
flow delivered by the pressure source. The combined capacity of the 
relief valves must be large enough so that the failure of any one valve 
would not cause an appreciable rise in the pressure differential. The 
pressure differential is positive when the internal pressure is greater 
than the external.
    (2) Two reverse pressure differential relief valves (or their 
equivalent) to automatically prevent a negative pressure differential 
that would damage the structure. However, one valve is enough if it is 
of a design that reasonably precludes its malfunctioning.
    (3) A means by which the pressure differential can be rapidly 
equalized.
    (4) An automatic or manual regulator for controlling the intake or 
exhaust airflow, or both, for maintaining the required internal 
pressures and airflow rates.
    (5) Instruments to indicate to the pilot the pressure differential, 
the cabin pressure altitude, and the rate of change of cabin pressure 
altitude.
    (6) Warning indication at the pilot station to indicate when the 
safe or preset pressure differential is exceeded and when a cabin 
pressure altitude of 10,000 feet is exceeded.
    (7) A warning placard for the pilot if the structure is not designed 
for pressure differentials up to the maximum relief valve setting in 
combination with landing loads.
    (8) A means to stop rotation of the compressor or to divert airflow 
from the cabin if continued rotation of an engine-driven cabin 
compressor or continued flow of any compressor bleed air will create a 
hazard if a malfunction occurs.

[Amdt. 23-14, 38 FR 31822, Nov. 19, 1973, as amended by Amdt. 23-17, 41 
FR 55464, Dec. 20, 1976; Amdt. 23-49, 61 FR 5167, Feb. 9, 1996]



Sec. 23.843  Pressurization tests.

    (a) Strength test. The complete pressurized cabin, including doors, 
windows, canopy, and valves, must be tested as a pressure vessel for the 
pressure differential specified in Sec. 23.365(d).
    (b) Functional tests. The following functional tests must be 
performed:
    (1) Tests of the functioning and capacity of the positive and 
negative pressure differential valves, and of the emergency release 
valve, to simulate the effects of closed regulator valves.

[[Page 253]]

    (2) Tests of the pressurization system to show proper functioning 
under each possible condition of pressure, temperature, and moisture, up 
to the maximum altitude for which certification is requested.
    (3) Flight tests, to show the performance of the pressure supply, 
pressure and flow regulators, indicators, and warning signals, in steady 
and stepped climbs and descents at rates corresponding to the maximum 
attainable within the operating limitations of the airplane, up to the 
maximum altitude for which certification is requested.
    (4) Tests of each door and emergency exit, to show that they operate 
properly after being subjected to the flight tests prescribed in 
paragraph (b)(3) of this section.

                             Fire Protection



Sec. 23.851  Fire extinguishers.

    (a) There must be at least one hand fire extinguisher for use in the 
pilot compartment that is located within easy access of the pilot while 
seated.
    (b) There must be at least one hand fire extinguisher located 
conveniently in the passenger compartment--
    (1) Of each airplane accommodating more than 6 passengers; and
    (2) Of each commuter category airplane.
    (c) For hand fire extinguishers, the following apply:
    (1) The type and quantity of each extinguishing agent used must be 
appropriate to the kinds of fire likely to occur where that agent is to 
be used.
    (2) Each extinguisher for use in a personnel compartment must be 
designed to minimize the hazard of toxic gas concentrations.

[Doc. No. 26269, 58 FR 42165, Aug. 6, 1993]



Sec. 23.853  Passenger and crew compartment interiors.

    For each compartment to be used by the crew or passengers:
    (a) The materials must be at least flame-resistant;
    (b) [Reserved]
    (c) If smoking is to be prohibited, there must be a placard so 
stating, and if smoking is to be allowed--
    (1) There must be an adequate number of self-contained, removable 
ashtrays; and
    (2) Where the crew compartment is separated from the passenger 
compartment, there must be at least one illuminated sign (using either 
letters or symbols) notifying all passengers when smoking is prohibited. 
Signs which notify when smoking is prohibited must--
    (i) When illuminated, be legible to each passenger seated in the 
passenger cabin under all probable lighting conditions; and
    (ii) Be so constructed that the crew can turn the illumination on 
and off; and
    (d) In addition, for commuter category airplanes the following 
requirements apply:
    (1) Each disposal receptacle for towels, paper, or waste must be 
fully enclosed and constructed of at least fire resistant materials and 
must contain fires likely to occur in it under normal use. The ability 
of the disposal receptacle to contain those fires under all probable 
conditions of wear, misalignment, and ventilation expected in service 
must be demonstrated by test. A placard containing the legible words 
``No Cigarette Disposal'' must be located on or near each disposal 
receptacle door.
    (2) Lavatories must have ``No Smoking'' or ``No Smoking in 
Lavatory'' placards located conspicuously on each side of the entry door 
and self-contained, removable ashtrays located conspicuously on or near 
the entry side of each lavatory door, except that one ashtray may serve 
more than one lavatory door if it can be seen from the cabin side of 
each lavatory door served. The placards must have red letters at least 
\1/2\ inch high on a white background at least 1 inch high (a ``No 
Smoking'' symbol may be included on the placard).
    (3) Materials (including finishes or decorative surfaces applied to 
the materials) used in each compartment occupied by the crew or 
passengers must meet the following test criteria as applicable:
    (i) Interior ceiling panels, interior wall panels, partitions, 
galley structure, large cabinet walls, structural

[[Page 254]]

flooring, and materials used in the construction of stowage compartments 
(other than underseat stowage compartments and compartments for stowing 
small items such as magazines and maps) must be self-extinguishing when 
tested vertically in accordance with the applicable portions of appendix 
F of this part or by other equivalent methods. The average burn length 
may not exceed 6 inches and the average flame time after removal of the 
flame source may not exceed 15 seconds. Drippings from the test specimen 
may not continue to flame for more than an average of 3 seconds after 
falling.
    (ii) Floor covering, textiles (including draperies and upholstery), 
seat cushions, padding, decorative and nondecorative coated fabrics, 
leather, trays and galley furnishings, electrical conduit, thermal and 
acoustical insulation and insulation covering, air ducting, joint and 
edge covering, cargo compartment liners, insulation blankets, cargo 
covers and transparencies, molded and thermoformed parts, air ducting 
joints, and trim strips (decorative and chafing), that are constructed 
of materials not covered in paragraph (d)(3)(iv) of this section must be 
self extinguishing when tested vertically in accordance with the 
applicable portions of appendix F of this part or other approved 
equivalent methods. The average burn length may not exceed 8 inches and 
the average flame time after removal of the flame source may not exceed 
15 seconds. Drippings from the test specimen may not continue to flame 
for more than an average of 5 seconds after falling.
    (iii) Motion picture film must be safety film meeting the Standard 
Specifications for Safety Photographic Film PH1.25 (available from the 
American National Standards Institute, 1430 Broadway, New York, N.Y. 
10018) or an FAA approved equivalent. If the film travels through ducts, 
the ducts must meet the requirements of paragraph (d)(3)(ii) of this 
section.
    (iv) Acrylic windows and signs, parts constructed in whole or in 
part of elastomeric materials, edge-lighted instrument assemblies 
consisting of two or more instruments in a common housing, seatbelts, 
shoulder harnesses, and cargo and baggage tiedown equipment, including 
containers, bins, pallets, etc., used in passenger or crew compartments, 
may not have an average burn rate greater than 2.5 inches per minute 
when tested horizontally in accordance with the applicable portions of 
appendix F of this part or by other approved equivalent methods.
    (v) Except for electrical wire cable insulation, and for small parts 
(such as knobs, handles, rollers, fasteners, clips, grommets, rub 
strips, pulleys, and small electrical parts) that the Administrator 
finds would not contribute significantly to the propagation of a fire, 
materials in items not specified in paragraphs (d)(3)(i), (ii), (iii), 
or (iv) of this section may not have a burn rate greater than 4.0 inches 
per minute when tested horizontally in accordance with the applicable 
portions of appendix F of this part or by other approved equivalent 
methods.
    (e) Lines, tanks, or equipment containing fuel, oil, or other 
flammable fluids may not be installed in such compartments unless 
adequately shielded, isolated, or otherwise protected so that any 
breakage or failure of such an item would not create a hazard.
    (f) Airplane materials located on the cabin side of the firewall 
must be self-extinguishing or be located at such a distance from the 
firewall, or otherwise protected, so that ignition will not occur if the 
firewall is subjected to a flame temperature of not less than 2,000 
degrees F for 15 minutes. For self-extinguishing materials (except 
electrical wire and cable insulation and small parts that the 
Administrator finds would not contribute significantly to the 
propagation of a fire), a vertifical self-extinguishing test must be 
conducted in accordance with appendix F of this part or an equivalent 
method approved by the Administrator. The average burn length of the 
material may not exceed 6 inches and the average flame time after 
removal of the flame source may not exceed 15 seconds. Drippings from 
the material test specimen may not continue to

[[Page 255]]

flame for more than an average of 3 seconds after falling.

[Amdt. 23-14, 23 FR 31822, Nov. 19, 1973, as amended by Amdt. 23-23, 43 
FR 50593, Oct. 30, 1978; Amdt. 23-25, 45 FR 7755, Feb. 4, 1980; Amdt. 
23-34, 52 FR 1831, Jan. 15, 1987]



Sec. 23.855  Cargo and baggage compartment fire protection.

    (a) Sources of heat within each cargo and baggage compartment that 
are capable of igniting the compartment contents must be shielded and 
insulated to prevent such ignition.
    (b) Each cargo and baggage compartment must be constructed of 
materials that meet the appropriate provisions of Sec. 23.853(d)(3).
    (c) In addition, for commuter category airplanes, each cargo and 
baggage compartment must:
    (1) Be located where the presence of a fire would be easily 
discovered by the pilots when seated at their duty station, or it must 
be equipped with a smoke or fire detector system to give a warning at 
the pilots' station, and provide sufficient access to enable a pilot to 
effectively reach any part of the compartment with the contents of a 
hand held fire extinguisher, or
    (2) Be equipped with a smoke or fire detector system to give a 
warning at the pilots' station and have ceiling and sidewall liners and 
floor panels constructed of materials that have been subjected to and 
meet the 45 degree angle test of appendix F of this part. The flame may 
not penetrate (pass through) the material during application of the 
flame or subsequent to its removal. The average flame time after removal 
of the flame source may not exceed 15 seconds, and the average glow time 
may not exceed 10 seconds. The compartment must be constructed to 
provide fire protection that is not less than that required of its 
individual panels; or
    (3) Be constructed and sealed to contain any fire within the 
compartment.

[Doc. No. 27806, 61 FR 5167, Feb. 9, 1996]



Sec. 23.859  Combustion heater fire protection.

    (a) Combustion heater fire regions. The following combustion heater 
fire regions must be protected from fire in accordance with the 
applicable provisions of Secs. 23.1182 through 23.1191 and 23.1203:
    (1) The region surrounding the heater, if this region contains any 
flammable fluid system components (excluding the heater fuel system) 
that could--
    (i) Be damaged by heater malfunctioning; or
    (ii) Allow flammable fluids or vapors to reach the heater in case of 
leakage.
    (2) The region surrounding the heater, if the heater fuel system has 
fittings that, if they leaked, would allow fuel vapor to enter this 
region.
    (3) The part of the ventilating air passage that surrounds the 
combustion chamber.
    (b) Ventilating air ducts. Each ventilating air duct passing through 
any fire region must be fireproof. In addition--
    (1) Unless isolation is provided by fireproof valves or by equally 
effective means, the ventilating air duct downstream of each heater must 
be fireproof for a distance great enough to ensure that any fire 
originating in the heater can be contained in the duct; and
    (2) Each part of any ventilating duct passing through any region 
having a flammable fluid system must be constructed or isolated from 
that system so that the malfunctioning of any component of that system 
cannot introduce flammable fluids or vapors into the ventilating 
airstream.
    (c) Combustion air ducts. Each combustion air duct must be fireproof 
for a distance great enough to prevent damage from backfiring or reverse 
flame propagation. In addition--
    (1) No combustion air duct may have a common opening with the 
ventilating airstream unless flames from backfires or reverse burning 
cannot enter the ventilating airstream under any operating condition, 
including reverse flow or malfunctioning of the heater or its associated 
components; and
    (2) No combustion air duct may restrict the prompt relief of any 
backfire that, if so restricted, could cause heater failure.
    (d) Heater controls: general. Provision must be made to prevent the 
hazardous accumulation of water or ice on or in any heater control 
component, control system tubing, or safety control.

[[Page 256]]

    (e) Heater safety controls. (1) Each combustion heater must have the 
following safety controls:
    (i) Means independent of the components for the normal continuous 
control of air temperature, airflow, and fuel flow must be provided to 
automatically shut off the ignition and fuel supply to that heater at a 
point remote from that heater when any of the following occurs:
    (A) The heater exchanger temperature exceeds safe limits.
    (B) The ventilating air temperature exceeds safe limits.
    (C) The combustion airflow becomes inadequate for safe operation.
    (D) The ventilating airflow becomes inadequate for safe operation.
    (ii) Means to warn the crew when any heater whose heat output is 
essential for safe operation has been shut off by the automatic means 
prescribed in paragraph (e)(1)(i) of this section.
    (2) The means for complying with paragraph (e)(1)(i) of this section 
for any individual heater must--
    (i) Be independent of components serving any other heater whose heat 
output is essential for safe operations; and
    (ii) Keep the heater off until restarted by the crew.
    (f) Air intakes. Each combustion and ventilating air intake must be 
located so that no flammable fluids or vapors can enter the heater 
system under any operating condition--
    (1) During normal operation; or
    (2) As a result of the malfunctioning of any other component.
    (g) Heater exhaust. Heater exhaust systems must meet the provisions 
of Secs. 23.1121 and 23.1123. In addition, there must be provisions in 
the design of the heater exhaust system to safely expel the products of 
combustion to prevent the occurrence of--
    (1) Fuel leakage from the exhaust to surrounding compartments;
    (2) Exhaust gas impingement on surrounding equipment or structure;
    (3) Ignition of flammable fluids by the exhaust, if the exhaust is 
in a compartment containing flammable fluid lines; and
    (4) Restrictions in the exhaust system to relieve backfires that, if 
so restricted, could cause heater failure.
    (h) Heater fuel systems. Each heater fuel system must meet each 
powerplant fuel system requirement affecting safe heater operation. Each 
heater fuel system component within the ventilating airstream must be 
protected by shrouds so that no leakage from those components can enter 
the ventilating airstream.
    (i) Drains. There must be means to safely drain fuel that might 
accumulate within the combustion chamber or the heater exchanger. In 
addition--
    (1) Each part of any drain that operates at high temperatures must 
be protected in the same manner as heater exhausts; and
    (2) Each drain must be protected from hazardous ice accumulation 
under any operating condition.

[Amdt. 23-27, 45 FR 70387, Oct. 23, 1980]



Sec. 23.863  Flammable fluid fire protection.

    (a) In each area where flammable fluids or vapors might escape by 
leakage of a fluid system, there must be means to minimize the 
probability of ignition of the fluids and vapors, and the resultant 
hazard if ignition does occur.
    (b) Compliance with paragraph (a) of this section must be shown by 
analysis or tests, and the following factors must be considered:
    (1) Possible sources and paths of fluid leakage, and means of 
detecting leakage.
    (2) Flammability characteristics of fluids, including effects of any 
combustible or absorbing materials.
    (3) Possible ignition sources, including electrical faults, 
overheating of equipment, and malfunctioning of protective devices.
    (4) Means available for controlling or extinguishing a fire, such as 
stopping flow of fluids, shutting down equipment, fireproof containment, 
or use of extinguishing agents.
    (5) Ability of airplane components that are critical to safety of 
flight to withstand fire and heat.
    (c) If action by the flight crew is required to prevent or 
counteract a fluid fire (e.g. equipment shutdown or actuation of a fire 
extinguisher), quick acting means must be provided to alert the crew.

[[Page 257]]

    (d) Each area where flammable fluids or vapors might escape by 
leakage of a fluid system must be identified and defined.

[Amdt. 23-23, 43 FR 50593, Oct. 30, 1978]



Sec. 23.865  Fire protection of flight controls, engine mounts, and other flight structure.

    Flight controls, engine mounts, and other flight structure located 
in designated fire zones, or in adjacent areas that would be subjected 
to the effects of fire in the designated fire zones, must be constructed 
of fireproof material or be shielded so that they are capable of 
withstanding the effects of a fire. Engine vibration isolators must 
incorporate suitable features to ensure that the engine is retained if 
the non-fireproof portions of the isolators deteriorate from the effects 
of a fire.

[Doc. No. 27805, 61 FR 5148, Feb. 9, 1996]

               Electrical Bonding and Lightning Protection



Sec. 23.867  Electrical bonding and protection against lightning and static electricity.

    (a) The airplane must be protected against catastrophic effects from 
lightning.
    (b) For metallic components, compliance with paragraph (a) of this 
section may be shown by--
    (1) Bonding the components properly to the airframe; or
    (2) Designing the components so that a strike will not endanger the 
airplane.
    (c) For nonmetallic components, compliance with paragraph (a) of 
this section may be shown by--
    (1) Designing the components to minimize the effect of a strike; or
    (2) Incorporating acceptable means of diverting the resulting 
electrical current so as not to endanger the airplane.

[Amdt. 23-7, 34 FR 13092, Aug. 13, 1969]

                              Miscellaneous



Sec. 23.871  Leveling means.

    There must be means for determining when the airplane is in a level 
position on the ground.

[Amdt. 23-7, 34 FR 13092, Aug. 13, 1969]



                          Subpart E--Powerplant

                                 General



Sec. 23.901  Installation.

    (a) For the purpose of this part, the airplane powerplant 
installation includes each component that--
    (1) Is necessary for propulsion; and
    (2) Affects the safety of the major propulsive units.
    (b) Each powerplant installation must be constructed and arranged 
to--
    (1) Ensure safe operation to the maximum altitude for which approval 
is requested.
    (2) Be accessible for necessary inspections and maintenance.
    (c) Engine cowls and nacelles must be easily removable or openable 
by the pilot to provide adequate access to and exposure of the engine 
compartment for preflight checks.
    (d) Each turbine engine installation must be constructed and 
arranged to--
    (1) Result in carcass vibration characteristics that do not exceed 
those established during the type certification of the engine.
    (2) Ensure that the capability of the installed engine to withstand 
the ingestion of rain, hail, ice, and birds into the engine inlet is not 
less than the capability established for the engine itself under 
Sec. 23.903(a)(2).
    (e) The installation must comply with--
    (1) The instructions provided under the engine type certificate and 
the propeller type certificate.
    (2) The applicable provisions of this subpart.
    (f) Each auxiliary power unit installation must meet the applicable 
portions of this part.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13092, Aug. 13, 1969; Amdt. 23-18, 42 FR 15041, Mar. 17, 1977; Amdt. 
23-29, 49 FR 6846, Feb. 23, 1984; Amdt. 23-34, 52 FR 1832, Jan. 15, 
1987; Amdt. 23-34, 52 FR 34745, Sept. 14, 1987; Amdt. 23-43, 58 FR 
18970, Apr. 9, 1993; Amdt. 23-51, 61 FR 5136, Feb. 9, 1996; Amdt. 23-53, 
63 FR 14797, Mar. 26, 1998]



Sec. 23.903  Engines.

    (a) Engine type certificate. (1) Each engine must have a type 
certificate and must meet the applicable requirements of part 34 of this 
chapter.

[[Page 258]]

    (2) Each turbine engine and its installation must comply with one of 
the following:
    (i) Sections 33.76, 33.77 and 33.78 of this chapter in effect on 
December 13, 2000.
    (ii) Sections 33.77 and 33.78 of this chapter in effect on April 30, 
1998, or as subsequently amended before December 13, 2000; or
    (iii) Section 33.77 of this chapter in effect on October 31, 1974, 
or as subsequently amended before April 30, 1998, unless that engine's 
foreign object ingestion service history has resulted in an unsafe 
condition; or
    (iv) Be shown to have a foreign object ingestion service history in 
similar installation locations which has not resulted in any unsafe 
condition.

    Note: Sec. 33.77 of this chapter in effect on October 31, 1974, was 
published in 14 CFR parts 1 to 59, Revised as of January 1, 1975. See 39 
FR 35467, October 1, 1974.

    (b) Turbine engine installations. For turbine engine installations--
    (1) Design precautions must be taken to minimize the hazards to the 
airplane in the event of an engine rotor failure or of a fire 
originating inside the engine which burns through the engine case.
    (2) The powerplant systems associated with engine control devices, 
systems, and instrumentation must be designed to give reasonable 
assurance that those operating limitations that adversely affect turbine 
rotor structural integrity will not be exceeded in service.
    (c) Engine isolation. The powerplants must be arranged and isolated 
from each other to allow operation, in at least one configuration, so 
that the failure or malfunction of any engine, or the failure or 
malfunction (including destruction by fire in the engine compartment) of 
any system that can affect an engine (other than a fuel tank if only one 
fuel tank is installed), will not:
    (1) Prevent the continued safe operation of the remaining engines; 
or
    (2) Require immediate action by any crewmember for continued safe 
operation of the remaining engines.
    (d) Starting and stopping (piston engine). (1) The design of the 
installation must be such that risk of fire or mechanical damage to the 
engine or airplane, as a result of starting the engine in any conditions 
in which starting is to be permitted, is reduced to a minimum. Any 
techniques and associated limitations for engine starting must be 
established and included in the Airplane Flight Manual, approved manual 
material, or applicable operating placards. Means must be provided for--
    (i) Restarting any engine of a multiengine airplane in flight, and
    (ii) Stopping any engine in flight, after engine failure, if 
continued engine rotation would cause a hazard to the airplane.
    (2) In addition, for commuter category airplanes, the following 
apply:
    (i) Each component of the stopping system on the engine side of the 
firewall that might be exposed to fire must be at least fire resistant.
    (ii) If hydraulic propeller feathering systems are used for this 
purpose, the feathering lines must be at least fire resistant under the 
operating conditions that may be expected to exist during feathering.
    (e) Starting and stopping (turbine engine). Turbine engine 
installations must comply with the following:
    (1) The design of the installation must be such that risk of fire or 
mechanical damage to the engine or the airplane, as a result of starting 
the engine in any conditions in which starting is to be permitted, is 
reduced to a minimum. Any techniques and associated limitations must be 
established and included in the Airplane Flight Manual, approved manual 
material, or applicable operating placards.
    (2) There must be means for stopping combustion within any engine 
and for stopping the rotation of any engine if continued rotation would 
cause a hazard to the airplane. Each component of the engine stopping 
system located in any fire zone must be fire resistant. If hydraulic 
propeller feathering systems are used for stopping the engine, the 
hydraulic feathering lines or hoses must be fire resistant.
    (3) It must be possible to restart an engine in flight. Any 
techniques and associated limitations must be established and included 
in the Airplane Flight Manual, approved manual material, or applicable 
operating placards.

[[Page 259]]

    (4) It must be demonstrated in flight that when restarting engines 
following a false start, all fuel or vapor is discharged in such a way 
that it does not constitute a fire hazard.
    (f) Restart envelope. An altitude and airspeed envelope must be 
established for the airplane for in-flight engine restarting and each 
installed engine must have a restart capability within that envelope.
    (g) Restart capability. For turbine engine powered airplanes, if the 
minimum windmilling speed of the engines, following the in-flight 
shutdown of all engines, is insufficient to provide the necessary 
electrical power for engine ignition, a power source independent of the 
engine-driven electrical power generating system must be provided to 
permit in-flight engine ignition for restarting.

[Amdt. 23-14, 38 FR 31822, Nov. 19, 1973, as amended by Amdt. 23-17, 41 
FR 55464, Dec. 20, 1976; Amdt. 23-26, 45 FR 60171, Sept. 11, 1980; Amdt. 
23-29, 49 FR 6847, Feb. 23, 1984; Amdt. 23-34, 52 FR 1832, Jan. 15, 
1987; Amdt. 23-40, 55 FR 32861, Aug. 10, 1990; Amdt. 23-43, 58 FR 18970, 
Apr. 9, 1993; Amdt. 23-51, 61 FR 5136, Feb. 9, 1996; Amdt. 23-53, 63 FR 
14798, Mar. 26, 1998; Amdt. 23-54, 65 FR 55854, Sept. 14, 2000]



Sec. 23.904  Automatic power reserve system.

    If installed, an automatic power reserve (APR) system that 
automatically advances the power or thrust on the operating engine(s), 
when any engine fails during takeoff, must comply with appendix H of 
this part.

[Doc. No. 26344, 58 FR 18970, Apr. 9, 1993]



Sec. 23.905  Propellers.

    (a) Each propeller must have a type certificate.
    (b) Engine power and propeller shaft rotational speed may not exceed 
the limits for which the propeller is certificated.
    (c) Each featherable propeller must have a means to unfeather it in 
flight.
    (d) Each component of the propeller blade pitch control system must 
meet the requirements of Sec. 35.42 of this chapter.
    (e) All areas of the airplane forward of the pusher propeller that 
are likely to accumulate and shed ice into the propeller disc during any 
operating condition must be suitably protected to prevent ice formation, 
or it must be shown that any ice shed into the propeller disc will not 
create a hazardous condition.
    (f) Each pusher propeller must be marked so that the disc is 
conspicuous under normal daylight ground conditions.
    (g) If the engine exhaust gases are discharged into the pusher 
propeller disc, it must be shown by tests, or analysis supported by 
tests, that the propeller is capable of continuous safe operation.
    (h) All engine cowling, access doors, and other removable items must 
be designed to ensure that they will not separate from the airplane and 
contact the pusher propeller.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-26, 
45 FR 60171, Sept. 11, 1980; Amdt. 23-29, 49 FR 6847, Feb. 23, 1984; 
Amdt. 23-43, 58 FR 18970, Apr. 9, 1993]



Sec. 23.907  Propeller vibration.

    (a) Each propeller other than a conventional fixed-pitch wooden 
propeller must be shown to have vibration stresses, in normal operating 
conditions, that do not exceed values that have been shown by the 
propeller manufacturer to be safe for continuous operation. This must be 
shown by--
    (1) Measurement of stresses through direct testing of the propeller;
    (2) Comparison with similar installations for which these 
measurements have been made; or
    (3) Any other acceptable test method or service experience that 
proves the safety of the installation.
    (b) Proof of safe vibration characteristics for any type of 
propeller, except for conventional, fixed-pitch, wood propellers must be 
shown where necessary.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-51, 61 FR 5136, Feb. 9, 1996]



Sec. 23.909  Turbocharger systems.

    (a) Each turbocharger must be approved under the engine type 
certificate or it must be shown that the turbocharger system, while in 
its normal engine installation and operating in the engine environment--
    (1) Can withstand, without defect, an endurance test of 150 hours 
that meets

[[Page 260]]

the applicable requirements of Sec. 33.49 of this subchapter; and
    (2) Will have no adverse effect upon the engine.
    (b) Control system malfunctions, vibrations, and abnormal speeds and 
temperatures expected in service may not damage the turbocharger 
compressor or turbine.
    (c) Each turbocharger case must be able to contain fragments of a 
compressor or turbine that fails at the highest speed that is obtainable 
with normal speed control devices inoperative.
    (d) Each intercooler installation, where provided, must comply with 
the following--
    (1) The mounting provisions of the intercooler must be designed to 
withstand the loads imposed on the system;
    (2) It must be shown that, under the installed vibration 
environment, the intercooler will not fail in a manner allowing portions 
of the intercooler to be ingested by the engine; and
    (3) Airflow through the intercooler must not discharge directly on 
any airplane component (e.g., windshield) unless such discharge is shown 
to cause no hazard to the airplane under all operating conditions.
    (e) Engine power, cooling characteristics, operating limits, and 
procedures affected by the turbocharger system installations must be 
evaluated. Turbocharger operating procedures and limitations must be 
included in the Airplane Flight Manual in accordance with Sec. 23.1581.

[Amdt. 23-7, 34 FR 13092, Aug. 13, 1969, as amended by Amdt. 23-43, 58 
FR 18970, Apr. 9, 1993]



Sec. 23.925  Propeller clearance.

    Unless smaller clearances are substantiated, propeller clearances, 
with the airplane at the most adverse combination of weight and center 
of gravity, and with the propeller in the most adverse pitch position, 
may not be less than the following:
    (a) Ground clearance. There must be a clearance of at least seven 
inches (for each airplane with nose wheel landing gear) or nine inches 
(for each airplane with tail wheel landing gear) between each propeller 
and the ground with the landing gear statically deflected and in the 
level, normal takeoff, or taxing attitude, whichever is most critical. 
In addition, for each airplane with conventional landing gear struts 
using fluid or mechanical means for absorbing landing shocks, there must 
be positive clearance between the propeller and the ground in the level 
takeoff attitude with the critical tire completely deflated and the 
corresponding landing gear strut bottomed. Positive clearance for 
airplanes using leaf spring struts is shown with a deflection 
corresponding to 1.5g.
    (b) Aft-mounted propellers. In addition to the clearances specified 
in paragraph (a) of this section, an airplane with an aft mounted 
propeller must be designed such that the propeller will not contact the 
runway surface when the airplane is in the maximum pitch attitude 
attainable during normal takeoffs and landings.
    (c) Water clearance. There must be a clearance of at least 18 inches 
between each propeller and the water, unless compliance with Sec. 23.239 
can be shown with a lesser clearance.
    (d) Structural clearance. There must be--
    (1) At least one inch radial clearance between the blade tips and 
the airplane structure, plus any additional radial clearance necessary 
to prevent harmful vibration;
    (2) At least one-half inch longitudinal clearance between the 
propeller blades or cuffs and stationary parts of the airplane; and
    (3) Positive clearance between other rotating parts of the propeller 
or spinner and stationary parts of the airplane.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18971, Apr. 9, 1993; Amdt. 23-51, 61 FR 5136, Feb. 9, 1996; Amdt. 
23-48, 61 FR 5148, Feb. 9, 1996]



Sec. 23.929  Engine installation ice protection.

    Propellers (except wooden propellers) and other components of 
complete engine installations must be protected against the accumulation 
of ice as necessary to enable satisfactory functioning without 
appreciable loss of

[[Page 261]]

thrust when operated in the icing conditions for which certification is 
requested.

[Amdt. 23-14, 33 FR 31822, Nov. 19, 1973, as amended by Amdt. 23-51, 61 
FR 5136, Feb. 9, 1996]



Sec. 23.933  Reversing systems.

    (a) For turbojet and turbofan reversing systems. (1) Each system 
intended for ground operation only must be designed so that, during any 
reversal in flight, the engine will produce no more than flight idle 
thrust. In addition, it must be shown by analysis or test, or both, 
that--
    (i) Each operable reverser can be restored to the forward thrust 
position; or
    (ii) The airplane is capable of continued safe flight and landing 
under any possible position of the thrust reverser.
    (2) Each system intended for in-flight use must be designed so that 
no unsafe condition will result during normal operation of the system, 
or from any failure, or likely combination of failures, of the reversing 
system under any operating condition including ground operation. Failure 
of structural elements need not be considered if the probability of this 
type of failure is extremely remote.
    (3) Each system must have a means to prevent the engine from 
producing more than idle thrust when the reversing system malfunctions; 
except that it may produce any greater thrust that is shown to allow 
directional control to be maintained, with aerodynamic means alone, 
under the most critical reversing condition expected in operation.
    (b) For propeller reversing systems. (1) Each system must be 
designed so that no single failure, likely combination of failures or 
malfunction of the system will result in unwanted reverse thrust under 
any operating condition. Failure of structural elements need not be 
considered if the probability of this type of failure is extremely 
remote.
    (2) Compliance with paragraph (b)(1) of this section must be shown 
by failure analysis, or testing, or both, for propeller systems that 
allow the propeller blades to move from the flight low-pitch position to 
a position that is substantially less than the normal flight, low-pitch 
position. The analysis may include or be supported by the analysis made 
to show compliance with Sec. 35.21 for the type certification of the 
propeller and associated installation components. Credit will be given 
for pertinent analysis and testing completed by the engine and propeller 
manufacturers.

[Doc. No. 26344, 58 FR 18971, Apr. 9, 1993, as amended by Amdt. 23-51, 
61 FR 5136, Feb. 9, 1996]



Sec. 23.934  Turbojet and turbofan engine thrust reverser systems tests.

    Thrust reverser systems of turbojet or turbofan engines must meet 
the requirements of Sec. 33.97 of this chapter or it must be 
demonstrated by tests that engine operation and vibratory levels are not 
affected.

[Doc. No. 26344, 58 FR 18971, Apr. 9, 1993]



Sec. 23.937  Turbopropeller-drag limiting systems.

    (a) Turbopropeller-powered airplane propeller-drag limiting systems 
must be designed so that no single failure or malfunction of any of the 
systems during normal or emergency operation results in propeller drag 
in excess of that for which the airplane was designed under the 
structural requirements of this part. Failure of structural elements of 
the drag limiting systems need not be considered if the probability of 
this kind of failure is extremely remote.
    (b) As used in this section, drag limiting systems include manual or 
automatic devices that, when actuated after engine power loss, can move 
the propeller blades toward the feather position to reduce windmilling 
drag to a safe level.

[Amdt. 23-7, 34 FR 13093, Aug. 13, 1969, as amended by Amdt. 23-43, 58 
FR 18971, Apr. 9, 1993]



Sec. 23.939  Powerplant operating characteristics.

    (a) Turbine engine powerplant operating characteristics must be 
investigated in flight to determine that no adverse characteristics 
(such as stall, surge, or flameout) are present, to a hazardous degree, 
during normal and emergency operation within the range

[[Page 262]]

of operating limitations of the airplane and of the engine.
    (b) Turbocharged reciprocating engine operating characteristics must 
be investigated in flight to assure that no adverse characteristics, as 
a result of an inadvertent overboost, surge, flooding, or vapor lock, 
are present during normal or emergency operation of the engine(s) 
throughout the range of operating limitations of both airplane and 
engine.
    (c) For turbine engines, the air inlet system must not, as a result 
of airflow distortion during normal operation, cause vibration harmful 
to the engine.

[Amdt. 23-7, 34 FR 13093 Aug. 13, 1969, as amended by Amdt. 23-14, 38 FR 
31823, Nov. 19, 1973; Amdt. 23-18, 42 FR 15041, Mar. 17, 1977; Amdt. 23-
42, 56 FR 354, Jan. 3, 1991]



Sec. 23.943  Negative acceleration.

    No hazardous malfunction of an engine, an auxiliary power unit 
approved for use in flight, or any component or system associated with 
the powerplant or auxiliary power unit may occur when the airplane is 
operated at the negative accelerations within the flight envelopes 
prescribed in Sec. 23.333. This must be shown for the greatest value and 
duration of the acceleration expected in service.

[Amdt. 23-18, 42 FR 15041, Mar. 17, 1977, as amended by Amdt. 23-43, 58 
FR 18971, Apr. 9, 1993]

                               Fuel System



Sec. 23.951  General.

    (a) Each fuel system must be constructed and arranged to ensure fuel 
flow at a rate and pressure established for proper engine and auxiliary 
power unit functioning under each likely operating condition, including 
any maneuver for which certification is requested and during which the 
engine or auxiliary power unit is permitted to be in operation.
    (b) Each fuel system must be arranged so that--
    (1) No fuel pump can draw fuel from more than one tank at a time; or
    (2) There are means to prevent introducing air into the system.
    (c) Each fuel system for a turbine engine must be capable of 
sustained operation throughout its flow and pressure range with fuel 
initially saturated with water at 80 deg. F and having 0.75cc of free 
water per gallon added and cooled to the most critical condition for 
icing likely to be encountered in operation.
    (d) Each fuel system for a turbine engine powered airplane must meet 
the applicable fuel venting requirements of part 34 of this chapter.

[Amdt. 23-15, 39 FR 35459, Oct. 1, 1974, as amended by Amdt. 23-40, 55 
FR 32861, Aug. 10, 1990; Amdt. 23-43, 58 FR 18971, Apr. 9, 1993]



Sec. 23.953  Fuel system independence.

    (a) Each fuel system for a multiengine airplane must be arranged so 
that, in at least one system configuration, the failure of any one 
component (other than a fuel tank) will not result in the loss of power 
of more than one engine or require immediate action by the pilot to 
prevent the loss of power of more than one engine.
    (b) If a single fuel tank (or series of fuel tanks interconnected to 
function as a single fuel tank) is used on a multiengine airplane, the 
following must be provided:
    (1) Independent tank outlets for each engine, each incorporating a 
shut-off valve at the tank. This shutoff valve may also serve as the 
fire wall shutoff valve required if the line between the valve and the 
engine compartment does not contain more than one quart of fuel (or any 
greater amount shown to be safe) that can escape into the engine 
compartment.
    (2) At least two vents arranged to minimize the probability of both 
vents becoming obstructed simultaneously.
    (3) Filler caps designed to minimize the probability of incorrect 
installation or inflight loss.
    (4) A fuel system in which those parts of the system from each tank 
outlet to any engine are independent of each part of the system 
supplying fuel to any other engine.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13093 Aug. 13, 1969; Amdt. 23-43, 58 FR 18971, Apr. 9, 1993]



Sec. 23.954  Fuel system lightning protection.

    The fuel system must be designed and arranged to prevent the 
ignition of fuel vapor within the system by--

[[Page 263]]

    (a) Direct lightning strikes to areas having a high probability of 
stroke attachment;
    (b) Swept lightning strokes on areas where swept strokes are highly 
probable; and
    (c) Corona or streamering at fuel vent outlets.

[Amdt. 23-7, 34 FR 13093, Aug. 13, 1969]



Sec. 23.955  Fuel flow.

    (a) General. The ability of the fuel system to provide fuel at the 
rates specified in this section and at a pressure sufficient for proper 
engine operation must be shown in the attitude that is most critical 
with respect to fuel feed and quantity of unusable fuel. These 
conditions may be simulated in a suitable mockup. In addition--
    (1) The quantity of fuel in the tank may not exceed the amount 
established as the unusable fuel supply for that tank under 
Sec. 23.959(a) plus that quantity necessary to show compliance with this 
section.
    (2) If there is a fuel flowmeter, it must be blocked during the flow 
test and the fuel must flow through the meter or its bypass.
    (3) If there is a flowmeter without a bypass, it must not have any 
probable failure mode that would restrict fuel flow below the level 
required for this fuel demonstration.
    (4) The fuel flow must include that flow necessary for vapor return 
flow, jet pump drive flow, and for all other purposes for which fuel is 
used.
    (b) Gravity systems. The fuel flow rate for gravity systems (main 
and reserve supply) must be 150 percent of the takeoff fuel consumption 
of the engine.
    (c) Pump systems. The fuel flow rate for each pump system (main and 
reserve supply) for each reciprocating engine must be 125 percent of the 
fuel flow required by the engine at the maximum takeoff power approved 
under this part.
    (1) This flow rate is required for each main pump and each emergency 
pump, and must be available when the pump is operating as it would 
during takeoff;
    (2) For each hand-operated pump, this rate must occur at not more 
than 60 complete cycles (120 single strokes) per minute.
    (3) The fuel pressure, with main and emergency pumps operating 
simultaneously, must not exceed the fuel inlet pressure limits of the 
engine unless it can be shown that no adverse effect occurs.
    (d) Auxiliary fuel systems and fuel transfer systems. Paragraphs 
(b), (c), and (f) of this section apply to each auxiliary and transfer 
system, except that--
    (1) The required fuel flow rate must be established upon the basis 
of maximum continuous power and engine rotational speed, instead of 
takeoff power and fuel consumption; and
    (2) If there is a placard providing operating instructions, a lesser 
flow rate may be used for transferring fuel from any auxiliary tank into 
a larger main tank. This lesser flow rate must be adequate to maintain 
engine maximum continuous power but the flow rate must not overfill the 
main tank at lower engine powers.
    (e) Multiple fuel tanks. For reciprocating engines that are supplied 
with fuel from more than one tank, if engine power loss becomes apparent 
due to fuel depletion from the tank selected, it must be possible after 
switching to any full tank, in level flight, to obtain 75 percent 
maximum continuous power on that engine in not more than--
    (1) 10 seconds for naturally aspirated single-engine airplanes;
    (2) 20 seconds for turbocharged single-engine airplanes, provided 
that 75 percent maximum continuous naturally aspirated power is regained 
within 10 seconds; or
    (3) 20 seconds for multiengine airplanes.
    (f) Turbine engine fuel systems. Each turbine engine fuel system 
must provide at least 100 percent of the fuel flow required by the 
engine under each intended operation condition and maneuver. The 
conditions may be simulated in a suitable mockup. This flow must--
    (1) Be shown with the airplane in the most adverse fuel feed 
condition (with respect to altitudes, attitudes, and other conditions) 
that is expected in operation; and
    (2) For multiengine airplanes, notwithstanding the lower flow rate 
allowed by paragraph (d) of this section, be automatically uninterrupted 
with respect to any engine until all the fuel

[[Page 264]]

scheduled for use by that engine has been consumed. In addition--
    (i) For the purposes of this section, ``fuel scheduled for use by 
that engine'' means all fuel in any tank intended for use by a specific 
engine.
    (ii) The fuel system design must clearly indicate the engine for 
which fuel in any tank is scheduled.
    (iii) Compliance with this paragraph must require no pilot action 
after completion of the engine starting phase of operations.
    (3) For single-engine airplanes, require no pilot action after 
completion of the engine starting phase of operations unless means are 
provided that unmistakenly alert the pilot to take any needed action at 
least five minutes prior to the needed action; such pilot action must 
not cause any change in engine operation; and such pilot action must not 
distract pilot attention from essential flight duties during any phase 
of operations for which the airplane is approved.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13093, Aug. 13, 1969; Amdt. 23-43, 58 FR 18971, Apr. 9, 1993; Amdt. 
23-51, 61 FR 5136, Feb. 9, 1996]



Sec. 23.957  Flow between interconnected tanks.

    (a) It must be impossible, in a gravity feed system with 
interconnected tank outlets, for enough fuel to flow between the tanks 
to cause an overflow of fuel from any tank vent under the conditions in 
Sec. 23.959, except that full tanks must be used.
    (b) If fuel can be pumped from one tank to another in flight, the 
fuel tank vents and the fuel transfer system must be designed so that no 
structural damage to any airplane component can occur because of 
overfilling of any tank.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18972, Apr. 9, 1993]



Sec. 23.959  Unusable fuel supply.

    (a) The unusable fuel supply for each tank must be established as 
not less than that quantity at which the first evidence of 
malfunctioning occurs under the most adverse fuel feed condition 
occurring under each intended operation and flight maneuver involving 
that tank. Fuel system component failures need not be considered.
    (b) The effect on the usable fuel quantity as a result of a failure 
of any pump shall be determined.

[Amdt. 23-7, 34 FR 13093, Aug. 13, 1969, as amended by Amdt. 23-18, 42 
FR 15041, Mar. 17, 1977; Amdt. 23-51, 61 FR 5136, Feb. 9, 1996]



Sec. 23.961  Fuel system hot weather operation.

    Each fuel system must be free from vapor lock when using fuel at its 
critical temperature, with respect to vapor formation, when operating 
the airplane in all critical operating and environmental conditions for 
which approval is requested. For turbine fuel, the initial temperature 
must be 110  deg.F, -0  deg., +5  deg.F or the maximum outside air 
temperature for which approval is requested, whichever is more critical.

[Doc. No. 26344, 58 FR 18972, Apr. 9, 1993; 58 FR 27060, May 6, 1993]



Sec. 23.963  Fuel tanks: General.

    (a) Each fuel tank must be able to withstand, without failure, the 
vibration, inertia, fluid, and structural loads that it may be subjected 
to in operation.
    (b) Each flexible fuel tank liner must be shown to be suitable for 
the particular application.
    (c) Each integral fuel tank must have adequate facilities for 
interior inspection and repair.
    (d) The total usable capacity of the fuel tanks must be enough for 
at least one-half hour of operation at maximum continuous power.
    (e) Each fuel quantity indicator must be adjusted, as specified in 
Sec. 23.1337(b), to account for the unusable fuel supply determined 
under Sec. 23.959(a).

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt 23-34, 52 FR 1832, Jan. 15, 1987; Amdt. 23-43, 58 FR 
18972, Apr. 9, 1993; Amdt. 23-51, 61 FR 5136, Feb. 9, 1996]



Sec. 23.965  Fuel tank tests.

    (a) Each fuel tank must be able to withstand the following pressures 
without failure or leakage:
    (1) For each conventional metal tank and nonmetallic tank with walls 
not supported by the airplane structure, a pressure of 3.5 p.s.i., or 
that pressure

[[Page 265]]

developed during maximum ultimate acceleration with a full tank, 
whichever is greater.
    (2) For each integral tank, the pressure developed during the 
maximum limit acceleration of the airplane with a full tank, with 
simultaneous application of the critical limit structural loads.
    (3) For each nonmetallic tank with walls supported by the airplane 
structure and constructed in an acceptable manner using acceptable basic 
tank material, and with actual or simulated support conditions, a 
pressure of 2 p.s.i. for the first tank of a specific design. The 
supporting structure must be designed for the critical loads occurring 
in the flight or landing strength conditions combined with the fuel 
pressure loads resulting from the corresponding accelerations.
    (b) Each fuel tank with large, unsupported, or unstiffened flat 
surfaces,whose failure or deformation could cause fuel leakage, must be 
able to withstand the following test without leakage, failure, or 
excessive deformation of the tank walls:
    (1) Each complete tank assembly and its support must be vibration 
tested while mounted to simulate the actual installation.
    (2) Except as specified in paragraph (b)(4) of this section, the 
tank assembly must be vibrated for 25 hours at a total displacement of 
not less than \1/32\ of an inch (unless another displacement is 
substantiated) while \2/3\ filled with water or other suitable test 
fluid.
    (3) The test frequency of vibration must be as follows:
    (i) If no frequency of vibration resulting from any rpm within the 
normal operating range of engine or propeller speeds is critical, the 
test frequency of vibration is:
    (A) The number of cycles per minute obtained by multiplying the 
maximum continuous propeller speed in rpm by 0.9 for propeller-driven 
airplanes, and
    (B) For non-propeller driven airplanes the test frequency of 
vibration is 2,000 cycles per minute.
    (ii) If only one frequency of vibration resulting from any rpm 
within the normal operating range of engine or propeller speeds is 
critical, that frequency of vibration must be the test frequency.
    (iii) If more than one frequency of vibration resulting from any rpm 
within the normal operating range of engine or propeller speeds is 
critical, the most critical of these frequencies must be the test 
frequency.
    (4) Under paragraph (b)(3) (ii) and (iii) of this section, the time 
of test must be adjusted to accomplish the same number of vibration 
cycles that would be accomplished in 25 hours at the frequency specified 
in paragraph (b)(3)(i) of this section.
    (5) During the test, the tank assembly must be rocked at a rate of 
16 to 20 complete cycles per minute, through an angle of 15 deg. on 
either side of the horizontal (30 deg. total), about an axis parallel to 
the axis of the fuselage, for 25 hours.
    (c) Each integral tank using methods of construction and sealing not 
previously proven to be adequate by test data or service experience must 
be able to withstand the vibration test specified in paragraphs (b)(1) 
through (4) of this section.
    (d) Each tank with a nonmetallic liner must be subjected to the 
sloshing test outlined in paragraph (b)(5) of this section, with the 
fuel at room temperature. In addition, a specimen liner of the same 
basic construction as that to be used in the airplane must, when 
installed in a suitable test tank, withstand the sloshing test with fuel 
at a temperature of 110 deg. F.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18972, Apr. 9, 1993; Amdt. 23-43, 61 FR 253, Jan. 4, 1996; Amdt. 
23-51, 61 FR 5136, Feb. 9, 1996]



Sec. 23.967  Fuel tank installation.

    (a) Each fuel tank must be supported so that tank loads are not 
concentrated. In addition--
    (1) There must be pads, if necessary, to prevent chafing between 
each tank and its supports;
    (2) Padding must be nonabsorbent or treated to prevent the 
absorption of fuel;
    (3) If a flexible tank liner is used, it must be supported so that 
it is not required to withstand fluid loads;
    (4) Interior surfaces adjacent to the liner must be smooth and free 
from

[[Page 266]]

projections that could cause wear, unless--
    (i) Provisions are made for protection of the liner at those points; 
or
    (ii) The construction of the liner itself provides such protection; 
and
    (5) A positive pressure must be maintained within the vapor space of 
each bladder cell under any condition of operation, except for a 
particular condition for which it is shown that a zero or negative 
pressure will not cause the bladder cell to collapse; and
    (6) Syphoning of fuel (other than minor spillage) or collapse of 
bladder fuel cells may not result from improper securing or loss of the 
fuel filler cap.
    (b) Each tank compartment must be ventilated and drained to prevent 
the accumulation of flammable fluids or vapors. Each compartment 
adjacent to a tank that is an integral part of the airplane structure 
must also be ventilated and drained.
    (c) No fuel tank may be on the engine side of the firewall. There 
must be at least one-half inch of clearance between the fuel tank and 
the firewall. No part of the engine nacelle skin that lies immediately 
behind a major air opening from the engine compartment may act as the 
wall of an integral tank.
    (d) Each fuel tank must be isolated from personnel compartments by a 
fume-proof and fuel-proof enclosure that is vented and drained to the 
exterior of the airplane. The required enclosure must sustain any 
personnel compartment pressurization loads without permanent deformation 
or failure under the conditions of Secs. 23.365 and 23.843 of this part. 
A bladder-type fuel cell, if used, must have a retaining shell at least 
equivalent to a metal fuel tank in structural integrity.
    (e) Fuel tanks must be designed, located, and installed so as to 
retain fuel:
    (1) When subjected to the inertia loads resulting from the ultimate 
static load factors prescribed in Sec. 23.561(b)(2) of this part; and
    (2) Under conditions likely to occur when the airplane lands on a 
paved runway at a normal landing speed under each of the following 
conditions:
    (i) The airplane in a normal landing attitude and its landing gear 
retracted.
    (ii) The most critical landing gear leg collapsed and the other 
landing gear legs extended.

In showing compliance with paragraph (e)(2) of this section, the tearing 
away of an engine mount must be considered unless all the engines are 
installed above the wing or on the tail or fuselage of the airplane.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13903, Aug. 13, 1969; Amdt. 23-14, 38 FR 31823, Nov. 19, 1973; Amdt. 
23-18, 42 FR 15041, Mar. 17, 1977; Amdt. 23-26, 45 FR 60171, Sept. 11, 
1980; Amdt. 23-36, 53 FR 30815, Aug. 15, 1988; Amdt. 23-43, 58 FR 18972, 
Apr. 9, 1993]



Sec. 23.969  Fuel tank expansion space.

    Each fuel tank must have an expansion space of not less than two 
percent of the tank capacity, unless the tank vent discharges clear of 
the airplane (in which case no expansion space is required). It must be 
impossible to fill the expansion space inadvertently with the airplane 
in the normal ground attitude.



Sec. 23.971  Fuel tank sump.

    (a) Each fuel tank must have a drainable sump with an effective 
capacity, in the normal ground and flight attitudes, of 0.25 percent of 
the tank capacity, or \1/16\ gallon, whichever is greater.
    (b) Each fuel tank must allow drainage of any hazardous quantity of 
water from any part of the tank to its sump with the airplane in the 
normal ground attitude.
    (c) Each reciprocating engine fuel system must have a sediment bowl 
or chamber that is accessible for drainage; has a capacity of 1 ounce 
for every 20 gallons of fuel tank capacity; and each fuel tank outlet is 
located so that, in the normal flight attitude, water will drain from 
all parts of the tank except the sump to the sediment bowl or chamber.
    (d) Each sump, sediment bowl, and sediment chamber drain required by 
paragraphs (a), (b), and (c) of this section must comply with the drain 
provisions of Sec. 23.999(b)(1) and (b)(2).

[Doc. No. 26344, 58 FR 18972, Apr. 9, 1993; 58 FR 27060, May 6, 1993]

[[Page 267]]



Sec. 23.973  Fuel tank filler connection.

    (a) Each fuel tank filler connection must be marked as prescribed in 
Sec. 23.1557(c).
    (b) Spilled fuel must be prevented from entering the fuel tank 
compartment or any part of the airplane other than the tank itself.
    (c) Each filler cap must provide a fuel-tight seal for the main 
filler opening. However, there may be small openings in the fuel tank 
cap for venting purposes or for the purpose of allowing passage of a 
fuel gauge through the cap provided such openings comply with the 
requirements of Sec. 23.975(a).
    (d) Each fuel filling point, except pressure fueling connection 
points, must have a provision for electrically bonding the airplane to 
ground fueling equipment.
    (e) For airplanes with engines requiring gasoline as the only 
permissible fuel, the inside diameter of the fuel filler opening must be 
no larger than 2.36 inches.
    (f) For airplanes with turbine engines, the inside diameter of the 
fuel filler opening must be no smaller than 2.95 inches.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-18, 42 FR 15041, Mar. 17, 1977; Amdt. 23-43, 58 FR 
18972, Apr. 9, 1993; Amdt. 23-51, 61 FR 5136, Feb. 9, 1996]



Sec. 23.975  Fuel tank vents and carburetor vapor vents.

    (a) Each fuel tank must be vented from the top part of the expansion 
space. In addition--
    (1) Each vent outlet must be located and constructed in a manner 
that minimizes the possibility of its being obstructed by ice or other 
foreign matter;
    (2) Each vent must be constructed to prevent siphoning of fuel 
during normal operation;
    (3) The venting capacity must allow the rapid relief of excessive 
differences of pressure between the interior and exterior of the tank;
    (4) Airspaces of tanks with interconnected outlets must be 
interconnected;
    (5) There may be no point in any vent line where moisture can 
accumulate with the airplane in either the ground or level flight 
attitudes, unless drainage is provided. Any drain valve installed must 
be accessible for drainage;
    (6) No vent may terminate at a point where the discharge of fuel 
from the vent outlet will constitute a fire hazard or from which fumes 
may enter personnel compartments; and
    (7) Vents must be arranged to prevent the loss of fuel, except fuel 
discharged because of thermal expansion, when the airplane is parked in 
any direction on a ramp having a one-percent slope.
    (b) Each carburetor with vapor elimination connections and each fuel 
injection engine employing vapor return provisions must have a separate 
vent line to lead vapors back to the top of one of the fuel tanks. If 
there is more than one tank and it is necessary to use these tanks in a 
definite sequence for any reason, the vapor vent line must lead back to 
the fuel tank to be used first, unless the relative capacities of the 
tanks are such that return to another tank is preferable.
    (c) For acrobatic category airplanes, excessive loss of fuel during 
acrobatic maneuvers, including short periods of inverted flight, must be 
prevented. It must be impossible for fuel to siphon from the vent when 
normal flight has been resumed after any acrobatic maneuver for which 
certification is requested.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-18, 42 FR 15041, Mar. 17, 1977; Amdt. 23-29, 49 FR 
6847, Feb. 23, 1984; Amdt. 23-43, 58 FR 18973, Apr. 9, 1993; Amdt. 23-
51, 61 FR 5136, Feb. 9, 1996]



Sec. 23.977  Fuel tank outlet.

    (a) There must be a fuel strainer for the fuel tank outlet or for 
the booster pump. This strainer must--
    (1) For reciprocating engine powered airplanes, have 8 to 16 meshes 
per inch; and
    (2) For turbine engine powered airplanes, prevent the passage of any 
object that could restrict fuel flow or damage any fuel system 
component.
    (b) The clear area of each fuel tank outlet strainer must be at 
least five times the area of the outlet line.
    (c) The diameter of each strainer must be at least that of the fuel 
tank outlet.

[[Page 268]]

    (d) Each strainer must be accessible for inspection and cleaning.

[Amdt. 23-17, 41 FR 55465, Dec. 20, 1976, as amended by Amdt. 23-43, 58 
FR 18973, Apr. 9, 1993]



Sec. 23.979  Pressure fueling systems.

    For pressure fueling systems, the following apply:
    (a) Each pressure fueling system fuel manifold connection must have 
means to prevent the escape of hazardous quantities of fuel from the 
system if the fuel entry valve fails.
    (b) An automatic shutoff means must be provided to prevent the 
quantity of fuel in each tank from exceeding the maximum quantity 
approved for that tank. This means must--
    (1) Allow checking for proper shutoff operation before each fueling 
of the tank; and
    (2) For commuter category airplanes, indicate at each fueling 
station, a failure of the shutoff means to stop the fuel flow at the 
maximum quantity approved for that tank.
    (c) A means must be provided to prevent damage to the fuel system in 
the event of failure of the automatic shutoff means prescribed in 
paragraph (b) of this section.
    (d) All parts of the fuel system up to the tank which are subjected 
to fueling pressures must have a proof pressure of 1.33 times, and an 
ultimate pressure of at least 2.0 times, the surge pressure likely to 
occur during fueling.

[Amdt. 23-14, 38 FR 31823, Nov. 19, 1973, as amended by Amdt. 23-51, 61 
FR 5137, Feb. 9, 1996]

                         Fuel System Components



Sec. 23.991  Fuel pumps.

    (a) Main pumps. For main pumps, the following apply:
    (1) For reciprocating engine installations having fuel pumps to 
supply fuel to the engine, at least one pump for each engine must be 
directly driven by the engine and must meet Sec. 23.955. This pump is a 
main pump.
    (2) For turbine engine installations, each fuel pump required for 
proper engine operation, or required to meet the fuel system 
requirements of this subpart (other than those in paragraph (b) of this 
section), is a main pump. In addition--
    (i) There must be at least one main pump for each turbine engine;
    (ii) The power supply for the main pump for each engine must be 
independent of the power supply for each main pump for any other engine; 
and
    (iii) For each main pump, provision must be made to allow the bypass 
of each positive displacement fuel pump other than a fuel injection pump 
approved as part of the engine.
    (b) Emergency pumps. There must be an emergency pump immediately 
available to supply fuel to the engine if any main pump (other than a 
fuel injection pump approved as part of an engine) fails. The power 
supply for each emergency pump must be independent of the power supply 
for each corresponding main pump.
    (c) Warning means. If both the main pump and emergency pump operate 
continuously, there must be a means to indicate to the appropriate 
flight crewmembers a malfunction of either pump.
    (d) Operation of any fuel pump may not affect engine operation so as 
to create a hazard, regardless of the engine power or thrust setting or 
the functional status of any other fuel pump.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13093, Aug. 13, 1969; Amdt. 23-26, 45 FR 60171, Sept. 11, 1980; Amdt. 
23-43, 58 FR 18973, Apr. 9, 1993]



Sec. 23.993  Fuel system lines and fittings.

    (a) Each fuel line must be installed and supported to prevent 
excessive vibration and to withstand loads due to fuel pressure and 
accelerated flight conditions.
    (b) Each fuel line connected to components of the airplane between 
which relative motion could exist must have provisions for flexibility.
    (c) Each flexible connection in fuel lines that may be under 
pressure and subjected to axial loading must use flexible hose 
assemblies.
    (d) Each flexible hose must be shown to be suitable for the 
particular application.
    (e) No flexible hose that might be adversely affected by exposure to 
high

[[Page 269]]

temperatures may be used where excessive temperatures will exist during 
operation or after engine shutdown.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18973, Apr. 9, 1993]



Sec. 23.994  Fuel system components.

    Fuel system components in an engine nacelle or in the fuselage must 
be protected from damage which could result in spillage of enough fuel 
to constitute a fire hazard as a result of a wheels-up landing on a 
paved runway.

[Amdt. 23-29, 49 FR 6847, Feb. 23, 1984]



Sec. 23.995  Fuel valves and controls.

    (a) There must be a means to allow appropriate flight crew members 
to rapidly shut off, in flight, the fuel to each engine individually.
    (b) No shutoff valve may be on the engine side of any firewall. In 
addition, there must be means to--
    (1) Guard against inadvertent operation of each shutoff valve; and
    (2) Allow appropriate flight crew members to reopen each valve 
rapidly after it has been closed.
    (c) Each valve and fuel system control must be supported so that 
loads resulting from its operation or from accelerated flight conditions 
are not transmitted to the lines connected to the valve.
    (d) Each valve and fuel system control must be installed so that 
gravity and vibration will not affect the selected position.
    (e) Each fuel valve handle and its connections to the valve 
mechanism must have design features that minimize the possibility of 
incorrect installation.
    (f) Each check valve must be constructed, or otherwise incorporate 
provisions, to preclude incorrect assembly or connection of the valve.
    (g) Fuel tank selector valves must--
    (1) Require a separate and distinct action to place the selector in 
the ``OFF'' position; and
    (2) Have the tank selector positions located in such a manner that 
it is impossible for the selector to pass through the ``OFF'' position 
when changing from one tank to another.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31823, Nov. 19, 1973; Amdt. 23-17, 41 FR 55465, Dec. 20, 1976; 
Amdt. 23-18, 42 FR 15041, Mar. 17, 1977; Amdt. 23-29, 49 FR 6847, Feb. 
23, 1984]



Sec. 23.997  Fuel strainer or filter.

    There must be a fuel strainer or filter between the fuel tank outlet 
and the inlet of either the fuel metering device or an engine driven 
positive displacement pump, whichever is nearer the fuel tank outlet. 
This fuel strainer or filter must--
    (a) Be accessible for draining and cleaning and must incorporate a 
screen or element which is easily removable;
    (b) Have a sediment trap and drain except that it need not have a 
drain if the strainer or filter is easily removable for drain purposes;
    (c) Be mounted so that its weight is not supported by the connecting 
lines or by the inlet or outlet connections of the strainer or filter 
itself, unless adequate strength margins under all loading conditions 
are provided in the lines and connections; and
    (d) Have the capacity (with respect to operating limitations 
established for the engine) to ensure that engine fuel system 
functioning is not impaired, with the fuel contaminated to a degree 
(with respect to particle size and density) that is greater than that 
established for the engine during its type certification.
    (e) In addition, for commuter category airplanes, unless means are 
provided in the fuel system to prevent the accumulation of ice on the 
filter, a means must be provided to automatically maintain the fuel flow 
if ice clogging of the filter occurs.

[Amdt. 23-15, 39 FR 35459, Oct. 1, 1974, as amended by Amdt. 23-29, 49 
FR 6847, Feb. 23, 1984; Amdt. 23-34, 52 FR 1832, Jan. 15, 1987; Amdt. 
23-43, 58 FR 18973, Apr. 9, 1993]



Sec. 23.999  Fuel system drains.

    (a) There must be at least one drain to allow safe drainage of the 
entire fuel system with the airplane in its normal ground attitude.
    (b) Each drain required by paragraph (a) of this section and 
Sec. 23.971 must--

[[Page 270]]

    (1) Discharge clear of all parts of the airplane;
    (2) Have a drain valve--
    (i) That has manual or automatic means for positive locking in the 
closed position;
    (ii) That is readily accessible;
    (iii) That can be easily opened and closed;
    (iv) That allows the fuel to be caught for examination;
    (v) That can be observed for proper closing; and
    (vi) That is either located or protected to prevent fuel spillage in 
the event of a landing with landing gear retracted.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-17, 
41 FR 55465, Dec. 20, 1976; Amdt. 23-43, 58 FR 18973, Apr. 9, 1993]



Sec. 23.1001  Fuel jettisoning system.

    (a) If the design landing weight is less than that permitted under 
the requirements of Sec. 23.473(b), the airplane must have a fuel 
jettisoning system installed that is able to jettison enough fuel to 
bring the maximum weight down to the design landing weight. The average 
rate of fuel jettisoning must be at least 1 percent of the maximum 
weight per minute, except that the time required to jettison the fuel 
need not be less than 10 minutes.
    (b) Fuel jettisoning must be demonstrated at maximum weight with 
flaps and landing gear up and in--
    (1) A power-off glide at 1.4 VS1;
    (2) A climb, at the speed at which the one-engine-inoperative 
enroute climb data have been established in accordance with 
Sec. 23.69(b), with the critical engine inoperative and the remaining 
engines at maximum continuous power; and
    (3) Level flight at 1.4 VS1, if the results of the tests 
in the conditions specified in paragraphs (b)(1) and (2) of this section 
show that this condition could be critical.
    (c) During the flight tests prescribed in paragraph (b) of this 
section, it must be shown that--
    (1) The fuel jettisoning system and its operation are free from fire 
hazard;
    (2) The fuel discharges clear of any part of the airplane;
    (3) Fuel or fumes do not enter any parts of the airplane; and
    (4) The jettisoning operation does not adversely affect the 
controllability of the airplane.
    (d) For reciprocating engine powered airplanes, the jettisoning 
system must be designed so that it is not possible to jettison the fuel 
in the tanks used for takeoff and landing below the level allowing 45 
minutes flight at 75 percent maximum continuous power. However, if there 
is an auxiliary control independent of the main jettisoning control, the 
system may be designed to jettison all the fuel.
    (e) For turbine engine powered airplanes, the jettisoning system 
must be designed so that it is not possible to jettison fuel in the 
tanks used for takeoff and landing below the level allowing climb from 
sea level to 10,000 feet and thereafter allowing 45 minutes cruise at a 
speed for maximum range.
    (f) The fuel jettisoning valve must be designed to allow flight 
crewmembers to close the valve during any part of the jettisoning 
operation.
    (g) Unless it is shown that using any means (including flaps, slots, 
and slats) for changing the airflow across or around the wings does not 
adversely affect fuel jettisoning, there must be a placard, adjacent to 
the jettisoning control, to warn flight crewmembers against jettisoning 
fuel while the means that change the airflow are being used.
    (h) The fuel jettisoning system must be designed so that any 
reasonably probable single malfunction in the system will not result in 
a hazardous condition due to unsymmetrical jettisoning of, or inability 
to jettison, fuel.

[Amdt. 23-7, 34 FR 13094, Aug. 13, 1969, as amended by Amdt. 23-43, 58 
FR 18973, Apr. 9, 1993; Amdt. 23-51, 61 FR 5137, Feb. 9, 1996]

                               Oil System



Sec. 23.1011  General.

    (a) For oil systems and components that have been approved under the 
engine airworthiness requirements and where those requirements are equal 
to or more severe than the corresponding requirements of subpart E of 
this part, that approval need not be duplicated. Where the requirements 
of subpart E of

[[Page 271]]

this part are more severe, substantiation must be shown to the 
requirements of subpart E of this part.
    (b) Each engine must have an independent oil system that can supply 
it with an appropriate quantity of oil at a temperature not above that 
safe for continuous operation.
    (c) The usable oil tank capacity may not be less than the product of 
the endurance of the airplane under critical operating conditions and 
the maximum oil consumption of the engine under the same conditions, 
plus a suitable margin to ensure adequate circulation and cooling.
    (d) For an oil system without an oil transfer system, only the 
usable oil tank capacity may be considered. The amount of oil in the 
engine oil lines, the oil radiator, and the feathering reserve, may not 
be considered.
    (e) If an oil transfer system is used, and the transfer pump can 
pump some of the oil in the transfer lines into the main engine oil 
tanks, the amount of oil in these lines that can be pumped by the 
transfer pump may be included in the oil capacity.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18973, Apr. 9, 1993]



Sec. 23.1013  Oil tanks.

    (a) Installation. Each oil tank must be installed to--
    (1) Meet the requirements of Sec. 23.967 (a) and (b); and
    (2) Withstand any vibration, inertia, and fluid loads expected in 
operation.
    (b) Expansion space. Oil tank expansion space must be provided so 
that--
    (1) Each oil tank used with a reciprocating engine has an expansion 
space of not less than the greater of 10 percent of the tank capacity or 
0.5 gallon, and each oil tank used with a turbine engine has an 
expansion space of not less than 10 percent of the tank capacity; and
    (2) It is impossible to fill the expansion space inadvertently with 
the airplane in the normal ground attitude.
    (c) Filler connection. Each oil tank filler connection must be 
marked as specified in Sec. 23.1557(c). Each recessed oil tank filler 
connection of an oil tank used with a turbine engine, that can retain 
any appreciable quantity of oil, must have provisions for fitting a 
drain.
    (d) Vent. Oil tanks must be vented as follows:
    (1) Each oil tank must be vented to the engine from the top part of 
the expansion space so that the vent connection is not covered by oil 
under any normal flight condition.
    (2) Oil tank vents must be arranged so that condensed water vapor 
that might freeze and obstruct the line cannot accumulate at any point.
    (3) For acrobatic category airplanes, there must be means to prevent 
hazardous loss of oil during acrobatic maneuvers, including short 
periods of inverted flight.
    (e) Outlet. No oil tank outlet may be enclosed by any screen or 
guard that would reduce the flow of oil below a safe value at any 
operating temperature. No oil tank outlet diameter may be less than the 
diameter of the engine oil pump inlet. Each oil tank used with a turbine 
engine must have means to prevent entrance into the tank itself, or into 
the tank outlet, of any object that might obstruct the flow of oil 
through the system. There must be a shutoff valve at the outlet of each 
oil tank used with a turbine engine, unless the external portion of the 
oil system (including oil tank supports) is fireproof.
    (f) Flexible liners. Each flexible oil tank liner must be of an 
acceptable kind.
    (g) Each oil tank filler cap of an oil tank that is used with an 
engine must provide an oiltight seal.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-15, 
39 FR 35459 Oct. 1, 1974; Amdt. 23-43, 58 FR 18973, Apr. 9, 1993; Amdt. 
23-51, 61 FR 5137, Feb. 9, 1996]



Sec. 23.1015  Oil tank tests.

    Each oil tank must be tested under Sec. 23.965, except that--
    (a) The applied pressure must be five p.s.i. for the tank 
construction instead of the pressures specified in Sec. 23.965(a);
    (b) For a tank with a nonmetallic liner the test fluid must be oil 
rather than fuel as specified in Sec. 23.965(d), and the slosh test on a 
specimen liner must be conducted with the oil at 250 deg. F.; and

[[Page 272]]

    (c) For pressurized tanks used with a turbine engine, the test 
pressure may not be less than 5 p.s.i. plus the maximum operating 
pressure of the tank.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-15, 
39 FR 35460, Oct. 1, 1974]



Sec. 23.1017  Oil lines and fittings.

    (a) Oil lines. Oil lines must meet Sec. 23.993 and must accommodate 
a flow of oil at a rate and pressure adequate for proper engine 
functioning under any normal operating condition.
    (b) Breather lines. Breather lines must be arranged so that--
    (1) Condensed water vapor or oil that might freeze and obstruct the 
line cannot accumulate at any point;
    (2) The breather discharge will not constitute a fire hazard if 
foaming occurs, or cause emitted oil to strike the pilot's windshield;
    (3) The breather does not discharge into the engine air induction 
system; and
    (4) For acrobatic category airplanes, there is no excessive loss of 
oil from the breather during acrobatic maneuvers, including short 
periods of inverted flight.
    (5) The breather outlet is protected against blockage by ice or 
foreign matter.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13094, Aug. 13, 1969; Amdt. 23-14, 38 FR 31823, Nov. 19, 1973]



Sec. 23.1019  Oil strainer or filter.

    (a) Each turbine engine installation must incorporate an oil 
strainer or filter through which all of the engine oil flows and which 
meets the following requirements:
    (1) Each oil strainer or filter that has a bypass, must be 
constructed and installed so that oil will flow at the normal rate 
through the rest of the system with the strainer or filter completely 
blocked.
    (2) The oil strainer or filter must have the capacity (with respect 
to operating limitations established for the engine) to ensure that 
engine oil system functioning is not impaired when the oil is 
contaminated to a degree (with respect to particle size and density) 
that is greater than that established for the engine for its type 
certification.
    (3) The oil strainer or filter, unless it is installed at an oil 
tank outlet, must incorporate a means to indicate contamination before 
it reaches the capacity established in accordance with paragraph (a)(2) 
of this section.
    (4) The bypass of a strainer or filter must be constructed and 
installed so that the release of collected contaminants is minimized by 
appropriate location of the bypass to ensure that collected contaminants 
are not in the bypass flow path.
    (5) An oil strainer or filter that has no bypass, except one that is 
installed at an oil tank outlet, must have a means to connect it to the 
warning system required in Sec. 23.1305(c)(9).
    (b) Each oil strainer or filter in a powerplant installation using 
reciprocating engines must be constructed and installed so that oil will 
flow at the normal rate through the rest of the system with the strainer 
or filter element completely blocked.

[Amdt. 23-15, 39 FR 35460, Oct. 1, 1974, as amended by Amdt. 23-29, 49 
FR 6847, Feb. 23, 1984; Amdt. 23-43, 58 FR 18973, Apr. 9, 1993]



Sec. 23.1021  Oil system drains.

    A drain (or drains) must be provided to allow safe drainage of the 
oil system. Each drain must--
    (a) Be accessible;
    (b) Have drain valves, or other closures, employing manual or 
automatic shut-off means for positive locking in the closed position; 
and
    (c) Be located or protected to prevent inadvertent operation.

[Amdt. 23-29, 49 FR 6847, Feb. 23, 1984, as amended by Amdt. 23-43, 58 
FR 18973, Apr. 9, 1993]



Sec. 23.1023  Oil radiators.

    Each oil radiator and its supporting structures must be able to 
withstand the vibration, inertia, and oil pressure loads to which it 
would be subjected in operation.



Sec. 23.1027  Propeller feathering system.

    (a) If the propeller feathering system uses engine oil and that oil 
supply can become depleted due to failure of any part of the oil system, 
a means must be

[[Page 273]]

incorporated to reserve enough oil to operate the feathering system.
    (b) The amount of reserved oil must be enough to accomplish 
feathering and must be available only to the feathering pump.
    (c) The ability of the system to accomplish feathering with the 
reserved oil must be shown.
    (d) Provision must be made to prevent sludge or other foreign matter 
from affecting the safe operation of the propeller feathering system.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31823, Nov. 19, 1973; Amdt. 23-43, 58 FR 18973, Apr. 9, 1993]

                                 Cooling



Sec. 23.1041  General.

    The powerplant and auxiliary power unit cooling provisions must 
maintain the temperatures of powerplant components and engine fluids, 
and auxiliary power unit components and fluids within the limits 
established for those components and fluids under the most adverse 
ground, water, and flight operations to the maximum altitude and maximum 
ambient atmospheric temperature conditions for which approval is 
requested, and after normal engine and auxiliary power unit shutdown.

[Doc. No. 26344, 58 FR 18973, Apr. 9, 1993, as amended by Amdt. 23-51, 
61 FR 5137, Feb. 9, 1996]



Sec. 23.1043  Cooling tests.

    (a) General. Compliance with Sec. 23.1041 must be shown on the basis 
of tests, for which the following apply:
    (1) If the tests are conducted under ambient atmospheric temperature 
conditions deviating from the maximum for which approval is requested, 
the recorded powerplant temperatures must be corrected under paragraphs 
(c) and (d) of this section, unless a more rational correction method is 
applicable.
    (2) No corrected temperature determined under paragraph (a)(1) of 
this section may exceed established limits.
    (3) The fuel used during the cooling tests must be of the minimum 
grade approved for the engine.
    (4) For turbocharged engines, each turbocharger must be operated 
through that part of the climb profile for which operation with the 
turbocharger is requested.
    (5) For a reciprocating engine, the mixture settings must be the 
leanest recommended for climb.
    (b) Maximum ambient atmospheric temperature. A maximum ambient 
atmospheric temperature corresponding to sea level conditions of at 
least 100 degrees F must be established. The assumed temperature lapse 
rate is 3.6 degrees F per thousand feet of altitude above sea level 
until a temperature of -69.7 degrees F is reached, above which altitude 
the temperature is considered constant at -69.7 degrees F. However, for 
winterization installations, the applicant may select a maximum ambient 
atmospheric temperature corresponding to sea level conditions of less 
than 100 degrees F.
    (c) Correction factor (except cylinder barrels). Temperatures of 
engine fluids and powerplant components (except cylinder barrels) for 
which temperature limits are established, must be corrected by adding to 
them the difference between the maximum ambient atmospheric temperature 
for the relevant altitude for which approval has been requested and the 
temperature of the ambient air at the time of the first occurrence of 
the maximum fluid or component temperature recorded during the cooling 
test.
    (d) Correction factor for cylinder barrel temperatures. Cylinder 
barrel temperatures must be corrected by adding to them 0.7 times the 
difference between the maximum ambient atmospheric temperature for the 
relevant altitude for which approval has been requested and the 
temperature of the ambient air at the time of the first occurrence of 
the maximum cylinder barrel temperature recorded during the cooling 
test.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13094, Aug. 13, 1969; Amdt. 23-21, 43 FR 2319, Jan. 16, 1978; Amdt. 
23-51, 61 FR 5137, Feb. 9, 1996]



Sec. 23.1045  Cooling test procedures for turbine engine powered airplanes.

    (a) Compliance with Sec. 23.1041 must be shown for all phases of 
operation. The airplane must be flown in the configurations, at the 
speeds, and following the procedures recommended in the

[[Page 274]]

Airplane Flight Manual for the relevant stage of flight, that correspond 
to the applicable performance requirements that are critical to cooling.
    (b) Temperatures must be stabilized under the conditions from which 
entry is made into each stage of flight being investigated, unless the 
entry condition normally is not one during which component and engine 
fluid temperatures would stabilize (in which case, operation through the 
full entry condition must be conducted before entry into the stage of 
flight being investigated in order to allow temperatures to reach their 
natural levels at the time of entry). The takeoff cooling test must be 
preceded by a period during which the powerplant component and engine 
fluid temperatures are stabilized with the engines at ground idle.
    (c) Cooling tests for each stage of flight must be continued until--
    (1) The component and engine fluid temperatures stabilize;
    (2) The stage of flight is completed; or
    (3) An operating limitation is reached.

[Amdt. 23-7, 34 FR 13094, Aug. 13, 1969, as amended by Amdt. 23-51, 61 
FR 5137, Feb. 9, 1996]



Sec. 23.1047  Cooling test procedures for reciprocating engine powered airplanes.

    Compliance with Sec. 23.1041 must be shown for the climb (or, for 
multiengine airplanes with negative one-engine-inoperative rates of 
climb, the descent) stage of flight. The airplane must be flown in the 
configurations, at the speeds and following the procedures recommended 
in the Airplane Flight Manual, that correspond to the applicable 
performance requirements that are critical to cooling.

[Amdt. 23-51, 61 FR 5137, Feb. 9, 1996]

                             Liquid Cooling



Sec. 23.1061  Installation.

    (a) General. Each liquid-cooled engine must have an independent 
cooling system (including coolant tank) installed so that--
    (1) Each coolant tank is supported so that tank loads are 
distributed over a large part of the tank surface;
    (2) There are pads or other isolation means between the tank and its 
supports to prevent chafing.
    (3) Pads or any other isolation means that is used must be 
nonabsorbent or must be treated to prevent absorption of flammable 
fluids; and
    (4) No air or vapor can be trapped in any part of the system, except 
the coolant tank expansion space, during filling or during operation.
    (b) Coolant tank. The tank capacity must be at least one gallon, 
plus 10 percent of the cooling system capacity. In addition--
    (1) Each coolant tank must be able to withstand the vibration, 
inertia, and fluid loads to which it may be subjected in operation;
    (2) Each coolant tank must have an expansion space of at least 10 
percent of the total cooling system capacity; and
    (3) It must be impossible to fill the expansion space inadvertently 
with the airplane in the normal ground attitude.
    (c) Filler connection. Each coolant tank filler connection must be 
marked as specified in Sec. 23.1557(c). In addition--
    (1) Spilled coolant must be prevented from entering the coolant tank 
compartment or any part of the airplane other than the tank itself; and
    (2) Each recessed coolant filler connection must have a drain that 
discharges clear of the entire airplane.
    (d) Lines and fittings. Each coolant system line and fitting must 
meet the requirements of Sec. 23.993, except that the inside diameter of 
the engine coolant inlet and outlet lines may not be less than the 
diameter of the corresponding engine inlet and outlet connections.
    (e) Radiators. Each coolant radiator must be able to withstand any 
vibration, inertia, and coolant pressure load to which it may normally 
be subjected. In addition--
    (1) Each radiator must be supported to allow expansion due to 
operating temperatures and prevent the transmittal of harmful vibration 
to the radiator; and
    (2) If flammable coolant is used, the air intake duct to the coolant 
radiator must be located so that (in case of fire) flames from the 
nacelle cannot strike the radiator.

[[Page 275]]

    (f) Drains. There must be an accessible drain that--
    (1) Drains the entire cooling system (including the coolant tank, 
radiator, and the engine) when the airplane is in the normal ground 
altitude;
    (2) Discharges clear of the entire airplane; and
    (3) Has means to positively lock it closed.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18973, Apr. 9, 1993]



Sec. 23.1063  Coolant tank tests.

    Each coolant tank must be tested under Sec. 23.965, except that--
    (a) The test required by Sec. 23.965(a)(1) must be replaced with a 
similar test using the sum of the pressure developed during the maximum 
ultimate acceleration with a full tank or a pressure of 3.5 pounds per 
square inch, whichever is greater, plus the maximum working pressure of 
the system; and
    (b) For a tank with a nonmetallic liner the test fluid must be 
coolant rather than fuel as specified in Sec. 23.965(d), and the slosh 
test on a specimen liner must be conducted with the coolant at operating 
temperature.

                            Induction System



Sec. 23.1091  Air induction system.

    (a) The air induction system for each engine and auxiliary power 
unit and their accessories must supply the air required by that engine 
and auxiliary power unit and their accessories under the operating 
conditions for which certification is requested.
    (b) Each reciprocating engine installation must have at least two 
separate air intake sources and must meet the following:
    (1) Primary air intakes may open within the cowling if that part of 
the cowling is isolated from the engine accessory section by a fire-
resistant diaphragm or if there are means to prevent the emergence of 
backfire flames.
    (2) Each alternate air intake must be located in a sheltered 
position and may not open within the cowling if the emergence of 
backfire flames will result in a hazard.
    (3) The supplying of air to the engine through the alternate air 
intake system may not result in a loss of excessive power in addition to 
the power loss due to the rise in air temperature.
    (4) Each automatic alternate air door must have an override means 
accessible to the flight crew.
    (5) Each automatic alternate air door must have a means to indicate 
to the flight crew when it is not closed.
    (c) For turbine engine powered airplanes--
    (1) There must be means to prevent hazardous quantities of fuel 
leakage or overflow from drains, vents, or other components of flammable 
fluid systems from entering the engine intake system; and
    (2) The airplane must be designed to prevent water or slush on the 
runway, taxiway, or other airport operating surfaces from being directed 
into the engine or auxiliary power unit air intake ducts in hazardous 
quantities. The air intake ducts must be located or protected so as to 
minimize the hazard of ingestion of foreign matter during takeoff, 
landing, and taxiing.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13095, Aug. 13, 1969; Amdt. 23-43, 58 FR 18973, Apr. 9, 1993; 58 FR 
27060, May 6, 1993; Amdt. 23-51, 61 FR 5137, Feb. 9, 1996]



Sec. 23.1093  Induction system icing protection.

    (a) Reciprocating engines. Each reciprocating engine air induction 
system must have means to prevent and eliminate icing. Unless this is 
done by other means, it must be shown that, in air free of visible 
moisture at a temperature of 30 deg. F.--
    (1) Each airplane with sea level engines using conventional venturi 
carburetors has a preheater that can provide a heat rise of 90 deg. F. 
with the engines at 75 percent of maximum continuous power;
    (2) Each airplane with altitude engines using conventional venturi 
carburetors has a preheater that can provide a heat rise of 120 deg. F. 
with the engines at 75 percent of maximum continuous power;
    (3) Each airplane with altitude engines using fuel metering device 
tending to prevent icing has a preheater

[[Page 276]]

that, with the engines at 60 percent of maximum continuous power, can 
provide a heat rise of--
    (i) 100 deg. F.; or
    (ii) 40 deg. F., if a fluid deicing system meeting the requirements 
of Secs. 23.1095 through 23.1099 is installed;
    (4) Each airplane with sea level engine(s) using fuel metering 
device tending to prevent icing has a sheltered alternate source of air 
with a preheat of not less than 60  deg.F with the engines at 75 percent 
of maximum continuous power;
    (5) Each airplane with sea level or altitude engine(s) using fuel 
injection systems having metering components on which impact ice may 
accumulate has a preheater capable of providing a heat rise of 75  deg.F 
when the engine is operating at 75 percent of its maximum continuous 
power; and
    (6) Each airplane with sea level or altitude engine(s) using fuel 
injection systems not having fuel metering components projecting into 
the airstream on which ice may form, and introducing fuel into the air 
induction system downstream of any components or other obstruction on 
which ice produced by fuel evaporation may form, has a sheltered 
alternate source of air with a preheat of not less than 60  deg.F with 
the engines at 75 percent of its maximum continuous power.
    (b) Turbine engines. (1) Each turbine engine and its air inlet 
system must operate throughout the flight power range of the engine 
(including idling), without the accumulation of ice on engine or inlet 
system components that would adversely affect engine operation or cause 
a serious loss of power or thrust--
    (i) Under the icing conditions specified in appendix C of part 25 of 
this chapter; and
    (ii) In snow, both falling and blowing, within the limitations 
established for the airplane for such operation.
    (2) Each turbine engine must idle for 30 minutes on the ground, with 
the air bleed available for engine icing protection at its critical 
condition, without adverse effect, in an atmosphere that is at a 
temperature between 15 deg. and 30  deg.F (between -9 deg. and -1 
deg.C) and has a liquid water content not less than 0.3 grams per cubic 
meter in the form of drops having a mean effective diameter not less 
than 20 microns, followed by momentary operation at takeoff power or 
thrust. During the 30 minutes of idle operation, the engine may be run 
up periodically to a moderate power or thrust setting in a manner 
acceptable to the Administrator.
    (c) Reciprocating engines with Superchargers. For airplanes with 
reciprocating engines having superchargers to pressurize the air before 
it enters the fuel metering device, the heat rise in the air caused by 
that supercharging at any altitude may be utilized in determining 
compliance with paragraph (a) of this section if the heat rise utilized 
is that which will be available, automatically, for the applicable 
altitudes and operating condition because of supercharging.

[Amdt. 23-7, 34 FR 13095, Aug. 13, 1969, as amended by Amdt. 23-15, 39 
FR 35460, Oct. 1, 1974; Amdt. 23-17, 41 FR 55465, Dec. 20, 1976; Amdt. 
23-18, 42 FR 15041, Mar. 17, 1977; Amdt. 23-29, 49 FR 6847, Feb. 23, 
1984; Amdt. 23-43, 58 FR 18973, Apr. 9, 1993; Amdt. 23-51, 61 FR 5137, 
Feb. 9, 1996]



Sec. 23.1095  Carburetor deicing fluid flow rate.

    (a) If a carburetor deicing fluid system is used, it must be able to 
simultaneously supply each engine with a rate of fluid flow, expressed 
in pounds per hour, of not less than 2.5 times the square root of the 
maximum continuous power of the engine.
    (b) The fluid must be introduced into the air induction system--
    (1) Close to, and upstream of, the carburetor; and
    (2) So that it is equally distributed over the entire cross section 
of the induction system air passages.



Sec. 23.1097  Carburetor deicing fluid system capacity.

    (a) The capacity of each carburetor deicing fluid system--
    (1) May not be less than the greater of--
    (i) That required to provide fluid at the rate specified in 
Sec. 23.1095 for a time equal to three percent of the maximum endurance 
of the airplane; or
    (ii) 20 minutes at that flow rate; and
    (2) Need not exceed that required for two hours of operation.

[[Page 277]]

    (b) If the available preheat exceeds 50 deg. F. but is less than 
100 deg. F., the capacity of the system may be decreased in proportion 
to the heat rise available in excess of 50 deg. F.



Sec. 23.1099  Carburetor deicing fluid system detail design.

    Each carburetor deicing fluid system must meet the applicable 
requirements for the design of a fuel system, except as specified in 
Secs. 23.1095 and 23.1097.



Sec. 23.1101  Induction air preheater design.

    Each exhaust-heated, induction air preheater must be designed and 
constructed to--
    (a) Ensure ventilation of the preheater when the induction air 
preheater is not being used during engine operation;
    (b) Allow inspection of the exhaust manifold parts that it 
surrounds; and
    (c) Allow inspection of critical parts of the preheater itself.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18974, Apr. 9, 1993]



Sec. 23.1103  Induction system ducts.

    (a) Each induction system duct must have a drain to prevent the 
accumulation of fuel or moisture in the normal ground and flight 
attitudes. No drain may discharge where it will cause a fire hazard.
    (b) Each duct connected to components between which relative motion 
could exist must have means for flexibility.
    (c) Each flexible induction system duct must be capable of 
withstanding the effects of temperature extremes, fuel, oil, water, and 
solvents to which it is expected to be exposed in service and 
maintenance without hazardous deterioration or delamination.
    (d) For reciprocating engine installations, each induction system 
duct must be--
    (1) Strong enough to prevent induction system failures resulting 
from normal backfire conditions; and
    (2) Fire resistant in any compartment for which a fire extinguishing 
system is required.
    (e) Each inlet system duct for an auxiliary power unit must be--
    (1) Fireproof within the auxiliary power unit compartment;
    (2) Fireproof for a sufficient distance upstream of the auxiliary 
power unit compartment to prevent hot gas reverse flow from burning 
through the duct and entering any other compartment of the airplane in 
which a hazard would be created by the entry of the hot gases;
    (3) Constructed of materials suitable to the environmental 
conditions expected in service, except in those areas requiring 
fireproof or fire resistant materials; and
    (4) Constructed of materials that will not absorb or trap hazardous 
quantities of flammable fluids that could be ignited by a surge or 
reverse-flow condition.
    (f) Induction system ducts that supply air to a cabin pressurization 
system must be suitably constructed of material that will not produce 
hazardous quantities of toxic gases or isolated to prevent hazardous 
quantities of toxic gases from entering the cabin during a powerplant 
fire.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13095, Aug. 13, 1969; Amdt. 23-43, 58 FR 18974, Apr. 9, 1993]



Sec. 23.1105  Induction system screens.

    If induction system screens are used--
    (a) Each screen must be upstream of the carburetor or fuel injection 
system.
    (b) No screen may be in any part of the induction system that is the 
only passage through which air can reach the engine, unless--
    (1) The available preheat is at least 100 deg. F.; and
    (2) The screen can be deiced by heated air;
    (c) No screen may be deiced by alcohol alone; and
    (d) It must be impossible for fuel to strike any screen.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1996, as 
amended by Amdt. 23-51, 61 FR 5137, Feb. 9, 1996]



Sec. 23.1107  Induction system filters.

    If an air filter is used to protect the engine against foreign 
material particles in the induction air supply--

[[Page 278]]

    (a) Each air filter must be capable of withstanding the effects of 
temperature extremes, rain, fuel, oil, and solvents to which it is 
expected to be exposed in service and maintenance; and
    (b) Each air filter shall have a design feature to prevent material 
separated from the filter media from interfering with proper fuel 
metering operation.

[Doc. No. 26344, 58 FR 18974, Apr. 9, 1993, as amended by Amdt. 23-51, 
61 FR 5137, Feb. 9, 1996]



Sec. 23.1109  Turbocharger bleed air system.

    The following applies to turbocharged bleed air systems used for 
cabin pressurization:
    (a) The cabin air system may not be subject to hazardous 
contamination following any probable failure of the turbocharger or its 
lubrication system.
    (b) The turbocharger supply air must be taken from a source where it 
cannot be contaminated by harmful or hazardous gases or vapors following 
any probable failure or malfunction of the engine exhaust, hydraulic, 
fuel, or oil system.

[Amdt. 23-42, 56 FR 354, Jan. 3, 1991]



Sec. 23.1111  Turbine engine bleed air system.

    For turbine engine bleed air systems, the following apply:
    (a) No hazard may result if duct rupture or failure occurs anywhere 
between the engine port and the airplane unit served by the bleed air.
    (b) The effect on airplane and engine performance of using maximum 
bleed air must be established.
    (c) Hazardous contamination of cabin air systems may not result from 
failures of the engine lubricating system.

[Amdt. 23-7, 34 FR 13095, Aug. 13, 1969, as amended by Amdt. 23-17, 41 
FR 55465, Dec. 20, 1976]

                             Exhaust System



Sec. 23.1121  General.

    For powerplant and auxiliary power unit installations, the following 
apply--
    (a) Each exhaust system must ensure safe disposal of exhaust gases 
without fire hazard or carbon monoxide contamination in any personnel 
compartment.
    (b) Each exhaust system part with a surface hot enough to ignite 
flammable fluids or vapors must be located or shielded so that leakage 
from any system carrying flammable fluids or vapors will not result in a 
fire caused by impingement of the fluids or vapors on any part of the 
exhaust system including shields for the exhaust system.
    (c) Each exhaust system must be separated by fireproof shields from 
adjacent flammable parts of the airplane that are outside of the engine 
and auxiliary power unit compartments.
    (d) No exhaust gases may discharge dangerously near any fuel or oil 
system drain.
    (e) No exhaust gases may be discharged where they will cause a glare 
seriously affecting pilot vision at night.
    (f) Each exhaust system component must be ventilated to prevent 
points of excessively high temperature.
    (g) If significant traps exist, each turbine engine and auxiliary 
power unit exhaust system must have drains discharging clear of the 
airplane, in any normal ground and flight attitude, to prevent fuel 
accumulation after the failure of an attempted engine or auxiliary power 
unit start.
    (h) Each exhaust heat exchanger must incorporate means to prevent 
blockage of the exhaust port after any internal heat exchanger failure.
    (i) For the purpose of compliance with Sec. 23.603, the failure of 
any part of the exhaust system will be considered to adversely affect 
safety.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13095, Aug. 13, 1969; Amdt. 23-18, 42 FR 15042, Mar. 17, 1977; Amdt. 
23-43, 58 FR 18974, Apr. 9, 1993; Amdt. 23-51, 61 FR 5137, Feb. 9, 1996]



Sec. 23.1123  Exhaust system.

    (a) Each exhaust system must be fireproof and corrosion-resistant, 
and must have means to prevent failure due to expansion by operating 
temperatures.
    (b) Each exhaust system must be supported to withstand the vibration 
and inertia loads to which it may be subjected in operation.
    (c) Parts of the system connected to components between which 
relative

[[Page 279]]

motion could exist must have means for flexibility.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18974, Apr. 9, 1993]



Sec. 23.1125  Exhaust heat exchangers.

    For reciprocating engine powered airplanes the following apply:
    (a) Each exhaust heat exchanger must be constructed and installed to 
withstand the vibration, inertia, and other loads that it may be 
subjected to in normal operation. In addition--
    (1) Each exchanger must be suitable for continued operation at high 
temperatures and resistant to corrosion from exhaust gases;
    (2) There must be means for inspection of critical parts of each 
exchanger; and
    (3) Each exchanger must have cooling provisions wherever it is 
subject to contact with exhaust gases.
    (b) Each heat exchanger used for heating ventilating air must be 
constructed so that exhaust gases may not enter the ventilating air.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-17, 
41 FR 55465, Dec. 20, 1976]

                   Powerplant Controls and Accessories



Sec. 23.1141  Powerplant controls: General.

    (a) Powerplant controls must be located and arranged under 
Sec. 23.777 and marked under Sec. 23.1555(a).
    (b) Each flexible control must be shown to be suitable for the 
particular application.
    (c) Each control must be able to maintain any necessary position 
without--
    (1) Constant attention by flight crew members; or
    (2) Tendency to creep due to control loads or vibration.
    (d) Each control must be able to withstand operating loads without 
failure or excessive deflection.
    (e) For turbine engine powered airplanes, no single failure or 
malfunction, or probable combination thereof, in any powerplant control 
system may cause the failure of any powerplant function necessary for 
safety.
    (f) The portion of each powerplant control located in the engine 
compartment that is required to be operated in the event of fire must be 
at least fire resistant.
    (g) Powerplant valve controls located in the cockpit must have--
    (1) For manual valves, positive stops or in the case of fuel valves 
suitable index provisions, in the open and closed position; and
    (2) For power-assisted valves, a means to indicate to the flight 
crew when the valve--
    (i) Is in the fully open or fully closed position; or
    (ii) Is moving between the fully open and fully closed position.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13095, Aug. 13, 1969; Amdt. 23-14, 38 FR 31823, Nov. 19, 1973; Amdt. 
23-18, 42 FR 15042, Mar. 17, 1977; Amdt. 23-51, 61 FR 5137, Feb. 9, 
1996]



Sec. 23.1142  Auxiliary power unit controls.

    Means must be provided on the flight deck for the starting, 
stopping, monitoring, and emergency shutdown of each installed auxiliary 
power unit.

[Doc. No. 26344, 58 FR 18974, Apr. 9, 1993]



Sec. 23.1143  Engine controls.

    (a) There must be a separate power or thrust control for each engine 
and a separate control for each supercharger that requires a control.
    (b) Power, thrust, and supercharger controls must be arranged to 
allow--
    (1) Separate control of each engine and each supercharger; and
    (2) Simultaneous control of all engines and all superchargers.
    (c) Each power, thrust, or supercharger control must give a positive 
and immediate responsive means of controlling its engine or 
supercharger.
    (d) The power, thrust, or supercharger controls for each engine or 
supercharger must be independent of those for every other engine or 
supercharger.
    (e) For each fluid injection (other than fuel) system and its 
controls not provided and approved as part of the engine, the applicant 
must show that the flow of the injection fluid is adequately controlled.

[[Page 280]]

    (f) If a power, thrust, or a fuel control (other than a mixture 
control) incorporates a fuel shutoff feature, the control must have a 
means to prevent the inadvertent movement of the control into the off 
position. The means must--
    (1) Have a positive lock or stop at the idle position; and
    (2) Require a separate and distinct operation to place the control 
in the shutoff position.
    (g) For reciprocating single-engine airplanes, each power or thrust 
control must be designed so that if the control separates at the engine 
fuel metering device, the airplane is capable of continued safe flight 
and landing.

[Amdt. 23-7, 34 FR 13095, Aug. 13, 1969, as amended by Amdt. 23-17, 41 
FR 55465, Dec. 20, 1976; Amdt. 23-29, 49 FR 6847, Feb. 23, 1984; Amdt. 
23-43, 58 FR 18974, Apr. 9, 1993; Amdt. 23-51, 61 FR 5137, Feb. 9, 1996]



Sec. 23.1145  Ignition switches.

    (a) Ignition switches must control and shut off each ignition 
circuit on each engine.
    (b) There must be means to quickly shut off all ignition on 
multiengine airplanes by the grouping of switches or by a master 
ignition control.
    (c) Each group of ignition switches, except ignition switches for 
turbine engines for which continuous ignition is not required, and each 
master ignition control must have a means to prevent its inadvertent 
operation.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-18, 42 FR 15042, Mar. 17, 1977; Amdt. 23-43, 58 FR 
18974, Apr. 9, 1993]



Sec. 23.1147  Mixture controls.

    (a) If there are mixture controls, each engine must have a separate 
control, and each mixture control must have guards or must be shaped or 
arranged to prevent confusion by feel with other controls.
    (1) The controls must be grouped and arranged to allow--
    (i) Separate control of each engine; and
    (ii) Simultaneous control of all engines.
    (2) The controls must require a separate and distinct operation to 
move the control toward lean or shut-off position.
    (b) For reciprocating single-engine airplanes, each manual engine 
mixture control must be designed so that, if the control separates at 
the engine fuel metering device, the airplane is capable of continued 
safe flight and landing.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13096, Aug. 13, 1969; Amdt. 23-33, 51 FR 26657, July 24, 1986; Amdt. 
23-43, 58 FR 18974, Apr. 9, 1993]



Sec. 23.1149  Propeller speed and pitch controls.

    (a) If there are propeller speed or pitch controls, they must be 
grouped and arranged to allow--
    (1) Separate control of each propeller; and
    (2) Simultaneous control of all propellers.
    (b) The controls must allow ready synchronization of all propellers 
on multiengine airplanes.



Sec. 23.1153  Propeller feathering controls.

    If there are propeller feathering controls installed, it must be 
possible to feather each propeller separately. Each control must have a 
means to prevent inadvertent operation.

[Doc. No. 27804, 61 FR 5138, Feb. 9, 1996]



Sec. 23.1155  Turbine engine reverse thrust and propeller pitch settings below the flight regime.

    For turbine engine installations, each control for reverse thrust 
and for propeller pitch settings below the flight regime must have means 
to prevent its inadvertent operation. The means must have a positive 
lock or stop at the flight idle position and must require a separate and 
distinct operation by the crew to displace the control from the flight 
regime (forward thrust regime for turbojet powered airplanes).

[Amdt. 23-7, 34 FR 13096, Aug. 13, 1969]



Sec. 23.1157  Carburetor air temperature controls.

    There must be a separate carburetor air temperature control for each 
engine.

[[Page 281]]



Sec. 23.1163  Powerplant accessories.

    (a) Each engine mounted accessory must--
    (1) Be approved for mounting on the engine involved and use the 
provisions on the engines for mounting; or
    (2) Have torque limiting means on all accessory drives in order to 
prevent the torque limits established for those drives from being 
exceeded; and
    (3) In addition to paragraphs (a)(1) or (a)(2) of this section, be 
sealed to prevent contamination of the engine oil system and the 
accessory system.
    (b) Electrical equipment subject to arcing or sparking must be 
installed to minimize the probability of contact with any flammable 
fluids or vapors that might be present in a free state.
    (c) Each generator rated at or more than 6 kilowatts must be 
designed and installed to minimize the probability of a fire hazard in 
the event it malfunctions.
    (d) If the continued rotation of any accessory remotely driven by 
the engine is hazardous when malfunctioning occurs, a means to prevent 
rotation without interfering with the continued operation of the engine 
must be provided.
    (e) Each accessory driven by a gearbox that is not approved as part 
of the powerplant driving the gearbox must--
    (1) Have torque limiting means to prevent the torque limits 
established for the affected drive from being exceeded;
    (2) Use the provisions on the gearbox for mounting; and
    (3) Be sealed to prevent contamination of the gearbox oil system and 
the accessory system.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31823, Nov. 19, 1973; Amdt. 23-29, 49 FR 6847, Feb. 23, 1984; 
Amdt. 23-34, 52 FR 1832, Jan. 15, 1987; Amdt. 23-42, 56 FR 354, Jan. 3, 
1991]



Sec. 23.1165  Engine ignition systems.

    (a) Each battery ignition system must be supplemented by a generator 
that is automatically available as an alternate source of electrical 
energy to allow continued engine operation if any battery becomes 
depleted.
    (b) The capacity of batteries and generators must be large enough to 
meet the simultaneous demands of the engine ignition system and the 
greatest demands of any electrical system components that draw from the 
same source.
    (c) The design of the engine ignition system must account for--
    (1) The condition of an inoperative generator;
    (2) The condition of a completely depleted battery with the 
generator running at its normal operating speed; and
    (3) The condition of a completely depleted battery with the 
generator operating at idling speed, if there is only one battery.
    (d) There must be means to warn appropriate crewmembers if 
malfunctioning of any part of the electrical system is causing the 
continuous discharge of any battery used for engine ignition.
    (e) Each turbine engine ignition system must be independent of any 
electrical circuit that is not used for assisting, controlling, or 
analyzing the operation of that system.
    (f) In addition, for commuter category airplanes, each 
turbopropeller ignition system must be an essential electrical load.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-17, 
41 FR 55465 Dec. 20, 1976; Amdt. 23-34, 52 FR 1833, Jan. 15, 1987]

                       Powerplant Fire Protection



Sec. 23.1181  Designated fire zones; regions included.

    Designated fire zones are--
    (a) For reciprocating engines--
    (1) The power section;
    (2) The accessory section;
    (3) Any complete powerplant compartment in which there is no 
isolation between the power section and the accessory section.
    (b) For turbine engines--
    (1) The compressor and accessory sections;
    (2) The combustor, turbine and tailpipe sections that contain lines 
or components carrying flammable fluids or gases.
    (3) Any complete powerplant compartment in which there is no 
isolation between compressor, accessory, combustor, turbine, and 
tailpipe sections.
    (c) Any auxiliary power unit compartment; and

[[Page 282]]

    (d) Any fuel-burning heater, and other combustion equipment 
installation described in Sec. 23.859.

[Doc. No. 26344, 58 FR 18975, Apr. 9, 1993, as amended by Amdt. 23-51, 
61 FR 5138, Feb. 9, 1996]



Sec. 23.1182  Nacelle areas behind firewalls.

    Components, lines, and fittings, except those subject to the 
provisions of Sec. 23.1351(e), located behind the engine-compartment 
firewall must be constructed of such materials and located at such 
distances from the firewall that they will not suffer damage sufficient 
to endanger the airplane if a portion of the engine side of the firewall 
is subjected to a flame temperature of not less than 2000  deg.F for 15 
minutes.

[Amdt. 23-14, 38 FR 31816, Nov. 19, 1973]



Sec. 23.1183  Lines, fittings, and components.

    (a) Except as provided in paragraph (b) of this section, each 
component, line, and fitting carrying flammable fluids, gas, or air in 
any area subject to engine fire conditions must be at least fire 
resistant, except that flammable fluid tanks and supports which are part 
of and attached to the engine must be fireproof or be enclosed by a 
fireproof shield unless damage by fire to any non-fireproof part will 
not cause leakage or spillage of flammable fluid. Components must be 
shielded or located so as to safeguard against the ignition of leaking 
flammable fluid. Flexible hose assemblies (hose and end fittings) must 
be shown to be suitable for the particular application. An integral oil 
sump of less than 25-quart capacity on a reciprocating engine need not 
be fireproof nor be enclosed by a fireproof shield.
    (b) Paragraph (a) of this section does not apply to--
    (1) Lines, fittings, and components which are already approved as 
part of a type certificated engine; and
    (2) Vent and drain lines, and their fittings, whose failure will not 
result in, or add to, a fire hazard.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-5, 32 
FR 6912, May 5, 1967; Amdt. 23-15, 39 FR 35460, Oct. 1, 1974; Amdt. 23-
29, 49 FR 6847, Feb. 23, 1984; Amdt. 23-51, 61 FR 5138, Feb. 9, 1996]



Sec. 23.1189  Shutoff means.

    (a) For each multiengine airplane the following apply:
    (1) Each engine installation must have means to shut off or 
otherwise prevent hazardous quantities of fuel, oil, deicing fluid, and 
other flammable liquids from flowing into, within, or through any engine 
compartment, except in lines, fittings, and components forming an 
integral part of an engine.
    (2) The closing of the fuel shutoff valve for any engine may not 
make any fuel unavailable to the remaining engines that would be 
available to those engines with that valve open.
    (3) Operation of any shutoff means may not interfere with the later 
emergency operation of other equipment such as propeller feathering 
devices.
    (4) Each shutoff must be outside of the engine compartment unless an 
equal degree of safety is provided with the shutoff inside the 
compartment.
    (5) Not more than one quart of flammable fluid may escape into the 
engine compartment after engine shutoff. For those installations where 
the flammable fluid that escapes after shutdown cannot be limited to one 
quart, it must be demonstrated that this greater amount can be safely 
contained or drained overboard.
    (6) There must be means to guard against inadvertent operation of 
each shutoff means, and to make it possible for the crew to reopen the 
shutoff means in flight after it has been closed.
    (b) Turbine engine installations need not have an engine oil system 
shutoff if--
    (1) The oil tank is integral with, or mounted on, the engine; and

[[Page 283]]

    (2) All oil system components external to the engine are fireproof 
or located in areas not subject to engine fire conditions.
    (c) Power operated valves must have means to indicate to the flight 
crew when the valve has reached the selected position and must be 
designed so that the valve will not move from the selected position 
under vibration conditions likely to exist at the valve location.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13096, Aug. 13, 1969; Amdt. 23-14, 38 FR 31823, Nov. 19, 1973; Amdt. 
23-29, 49 FR 6847, Feb. 23, 1984; Amdt. 23-43, 58 FR 18975, Apr. 9, 
1993]



Sec. 23.1191  Firewalls.

    (a) Each engine, auxiliary power unit, fuel burning heater, and 
other combustion equipment, must be isolated from the rest of the 
airplane by firewalls, shrouds, or equivalent means.
    (b) Each firewall or shroud must be constructed so that no hazardous 
quantity of liquid, gas, or flame can pass from the compartment created 
by the firewall or shroud to other parts of the airplane.
    (c) Each opening in the firewall or shroud must be sealed with close 
fitting, fireproof grommets, bushings, or firewall fittings.
    (d) [Reserved]
    (e) Each firewall and shroud must be fireproof and protected against 
corrosion.
    (f) Compliance with the criteria for fireproof materials or 
components must be shown as follows:
    (1) The flame to which the materials or components are subjected 
must be 2,000 plus-minus 150 deg.F.
    (2) Sheet materials approximately 10 inches square must be subjected 
to the flame from a suitable burner.
    (3) The flame must be large enough to maintain the required test 
temperature over an area approximately five inches square.
    (g) Firewall materials and fittings must resist flame penetration 
for at least 15 minutes.
    (h) The following materials may be used in firewalls or shrouds 
without being tested as required by this section:
    (1) Stainless steel sheet, 0.015 inch thick.
    (2) Mild steel sheet (coated with aluminum or otherwise protected 
against corrosion) 0.018 inch thick.
    (3) Terne plate, 0.018 inch thick.
    (4) Monel metal, 0.018 inch thick.
    (5) Steel or copper base alloy firewall fittings.
    (6) Titanium sheet, 0.016 inch thick.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18975, Apr. 9, 1993; 58 FR 27060, May 6, 1993; Amdt. 23-51, 61 FR 
5138, Feb. 9, 1996]



Sec. 23.1192  Engine accessory compartment diaphragm.

    For aircooled radial engines, the engine power section and all 
portions of the exhaust sytem must be isolated from the engine accessory 
compartment by a diaphragm that meets the firewall requirements of 
Sec. 23.1191.

[Amdt. 23-14, 38 FR 31823, Nov. 19, 1973]



Sec. 23.1193  Cowling and nacelle.

    (a) Each cowling must be constructed and supported so that it can 
resist any vibration, inertia, and air loads to which it may be 
subjected in operation.
    (b) There must be means for rapid and complete drainage of each part 
of the cowling in the normal ground and flight attitudes. Drain 
operation may be shown by test, analysis, or both, to ensure that under 
normal aerodynamic pressure distribution expected in service each drain 
will operate as designed. No drain may discharge where it will cause a 
fire hazard.
    (c) Cowling must be at least fire resistant.
    (d) Each part behind an opening in the engine compartment cowling 
must be at least fire resistant for a distance of at least 24 inches aft 
of the opening.
    (e) Each part of the cowling subjected to high temperatures due to 
its nearness to exhaust sytem ports or exhaust gas impingement, must be 
fire proof.
    (f) Each nacelle of a multiengine airplane with supercharged engines 
must be designed and constructed so that with the landing gear 
retracted, a fire in the engine compartment will not burn through a 
cowling or nacelle and enter a nacelle area other than the engine 
compartment.

[[Page 284]]

    (g) In addition, for commuter category airplanes, the airplane must 
be designed so that no fire originating in any engine compartment can 
enter, either through openings or by burn-through, any other region 
where it would create additional hazards.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-18, 42 FR 15042, Mar. 17, 1977; Amdt. 23-34, 52 FR 
1833, Jan. 15, 1987; 58 FR 18975, Apr. 9, 1993]



Sec. 23.1195  Fire extinguishing systems.

    (a) For commuter category airplanes, fire extinguishing systems must 
be installed and compliance shown with the following:
    (1) Except for combustor, turbine, and tailpipe sections of turbine-
engine installations that contain lines or components carrying flammable 
fluids or gases for which a fire originating in these sections is shown 
to be controllable, a fire extinguisher system must serve each engine 
compartment;
    (2) The fire extinguishing system, the quantity of the extinguishing 
agent, the rate of discharge, and the discharge distribution must be 
adequate to extinguish fires. An individual ``one shot'' system may be 
used.
    (3) The fire extinguishing system for a nacelle must be able to 
simultaneously protect each compartment of the nacelle for which 
protection is provided.
    (b) If an auxiliary power unit is installed in any airplane 
certificated to this part, that auxiliary power unit compartment must be 
served by a fire extinguishing system meeting the requirements of 
paragraph (a)(2) of this section.

[Amdt. 23-34, 52 FR 1833, Jan. 15, 1987, as amended by Amdt. 23-43, 58 
FR 18975, Apr. 9, 1993]



Sec. 23.1197  Fire extinguishing agents.

    For commuter category airplanes, the following applies:
    (a) Fire extinguishing agents must--
    (1) Be capable of extinguishing flames emanating from any burning of 
fluids or other combustible materials in the area protected by the fire 
extinguishing system; and
    (2) Have thermal stability over the temperature range likely to be 
experienced in the compartment in which they are stored.
    (b) If any toxic extinguishing agent is used, provisions must be 
made to prevent harmful concentrations of fluid or fluid vapors (from 
leakage during normal operation of the airplane or as a result of 
discharging the fire extinguisher on the ground or in flight) from 
entering any personnel compartment, even though a defect may exist in 
the extinguishing system. This must be shown by test except for built-in 
carbon dioxide fuselage compartment fire extinguishing systems for 
which--
    (1) Five pounds or less of carbon dioxide will be discharged, under 
established fire control procedures, into any fuselage compartment; or
    (2) Protective breathing equipment is available for each flight 
crewmember on flight deck duty.

[Amdt. 23-34, 52 FR 1833, Jan. 15, 1987]



Sec. 23.1199  Extinguishing agent containers.

    For commuter category airplanes, the following applies:
    (a) Each extinguishing agent container must have a pressure relief 
to prevent bursting of the container by excessive internal pressures.
    (b) The discharge end of each discharge line from a pressure relief 
connection must be located so that discharge of the fire extinguishing 
agent would not damage the airplane. The line must also be located or 
protected to prevent clogging caused by ice or other foreign matter.
    (c) A means must be provided for each fire extinguishing agent 
container to indicate that the container has discharged or that the 
charging pressure is below the established minimum necessary for proper 
functioning.
    (d) The temperature of each container must be maintained, under 
intended operating conditions, to prevent the pressure in the container 
from--
    (1) Falling below that necessary to provide an adequate rate of 
discharge; or
    (2) Rising high enough to cause premature discharge.
    (e) If a pyrotechnic capsule is used to discharge the extinguishing 
agent, each container must be installed so that temperature conditions 
will not

[[Page 285]]

cause hazardous deterioration of the pyrotechnic capsule.

[Amdt. 23-34, 52 FR 1833, Jan. 15, 1987; 52 FR 34745, Sept. 14, 1987]



Sec. 23.1201  Fire extinguishing systems materials.

    For commuter category airplanes, the following apply:
    (a) No material in any fire extinguishing system may react 
chemically with any extinguishing agent so as to create a hazard.
    (b) Each system component in an engine compartment must be 
fireproof.

[Amdt. 23-34, 52 FR 1833, Jan. 15, 1987; 52 FR 7262, Mar. 9, 1987]



Sec. 23.1203  Fire detector system.

    (a) There must be means that ensure the prompt detection of a fire 
in--
    (1) An engine compartment of--
    (i) Multiengine turbine powered airplanes;
    (ii) Multiengine reciprocating engine powered airplanes 
incorporating turbochargers;
    (iii) Airplanes with engine(s) located where they are not readily 
visible from the cockpit; and
    (iv) All commuter category airplanes.
    (2) The auxiliary power unit compartment of any airplane 
incorporating an auxiliary power unit.
    (b) Each fire detector must be constructed and installed to 
withstand the vibration, inertia, and other loads to which it may be 
subjected in operation.
    (c) No fire detector may be affected by any oil, water, other 
fluids, or fumes that might be present.
    (d) There must be means to allow the crew to check, in flight, the 
functioning of each fire detector electric circuit.
    (e) Wiring and other components of each fire detector system in a 
designated fire zone must be at least fire resistant.

[Amdt. 23-18, 42 FR 15042, Mar. 17, 1977, as amended by Amdt. 23-34, 52 
FR 1833, Jan. 15, 1987; Amdt. 23-43, 58 FR 18975, Apr. 9, 1993; Amdt. 
23-51, 61 FR 5138, Feb. 9, 1996]



                          Subpart F--Equipment

                                 General



Sec. 23.1301  Function and installation.

    Each item of installed equipment must--
    (a) Be of a kind and design appropriate to its intended function.
    (b) Be labeled as to its identification, function, or operating 
limitations, or any applicable combination of these factors;
    (c) Be installed according to limitations specified for that 
equipment; and
    (d) Function properly when installed.

[Amdt. 23-20, 42 FR 36968, July 18, 1977]



Sec. 23.1303  Flight and navigation instruments.

    The following are the minimum required flight and navigation 
instruments:
    (a) An airspeed indicator.
    (b) An altimeter.
    (c) A direction indicator (nonstabilized magnetic compass).
    (d) For reciprocating engine-powered airplanes of more than 6,000 
pounds maximum weight and turbine engine powered airplanes, a free air 
temperature indicator or an air-temperature indicator which provides 
indications that are convertible to free-air.
    (e) A speed warning device for--
    (1) Turbine engine powered airplanes; and
    (2) Other airplanes for which Vmo/Mmo and Vd/Md are established 
under Secs. 23.335(b)(4) and 23.1505(c) if Vmo/Mmo is greater than 0.8 
Vd/Md.
    The speed warning device must give effective aural warning 
(differing distinctively from aural warnings used for other purposes) to 
the pilots whenever the speed exceeds Vmo plus 6 knots or Mmo+0.01. The 
upper limit of the production tolerance for the warning device may not 
exceed the prescribed warning speed. The lower limit of the warning 
device must be set to minimize nuisance warning;
    (f) When an attitude display is installed, the instrument design 
must not provide any means, accessible to the flightcrew, of adjusting 
the relative positions of the attitude reference symbol and the horizon 
line beyond that necessary for parallax correction.

[[Page 286]]

    (g) In addition, for commuter category airplanes:
    (1) If airspeed limitations vary with altitude, the airspeed 
indicator must have a maximum allowable airspeed indicator showing the 
variation of VMO with altitude.
    (2) The altimeter must be a sensitive type.
    (3) Having a passenger seating configuration of 10 or more, 
excluding the pilot's seats and that are approved for IFR operations, a 
third attitude instrument must be provided that:
    (i) Is powered from a source independent of the electrical 
generating system;
    (ii) Continues reliable operation for a minimum of 30 minutes after 
total failure of the electrical generating system;
    (iii) Operates independently of any other attitude indicating 
system;
    (iv) Is operative without selection after total failure of the 
electrical generating system;
    (v) Is located on the instrument panel in a position acceptable to 
the Administrator that will make it plainly visible to and usable by any 
pilot at the pilot's station; and
    (vi) Is appropriately lighted during all phases of operation.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-17, 
41 FR 55465, Dec. 20, 1976; Amdt. 23-43, 58 FR 18975, Apr. 9, 1993; 
Amdt. 23-49, 61 FR 5168, Feb. 9, 1996]



Sec. 23.1305  Powerplant instruments.

    The following are required powerplant instruments:
    (a) For all airplanes. (1) A fuel quantity indicator for each fuel 
tank, installed in accordance with Sec. 23.1337(b).
    (2) An oil pressure indicator for each engine.
    (3) An oil temperature indicator for each engine.
    (4) An oil quantity measuring device for each oil tank which meets 
the requirements of Sec. 23.1337(d).
    (5) A fire warning means for those airplanes required to comply with 
Sec. 23.1203.
    (b) For reciprocating engine-powered airplanes. In addition to the 
powerplant instruments required by paragraph (a) of this section, the 
following powerplant instruments are required:
    (1) An induction system air temperature indicator for each engine 
equipped with a preheater and having induction air temperature 
limitations that can be exceeded with preheat.
    (2) A tachometer indicator for each engine.
    (3) A cylinder head temperature indicator for--
    (i) Each air-cooled engine with cowl flaps;
    (ii) [Reserved]
    (iii) Each commuter category airplane.
    (4) For each pump-fed engine, a means:
    (i) That continuously indicates, to the pilot, the fuel pressure or 
fuel flow; or
    (ii) That continuously monitors the fuel system and warns the pilot 
of any fuel flow trend that could lead to engine failure.
    (5) A manifold pressure indicator for each altitude engine and for 
each engine with a controllable propeller.
    (6) For each turbocharger installation:
    (i) If limitations are established for either carburetor (or 
manifold) air inlet temperature or exhaust gas or turbocharger turbine 
inlet temperature, indicators must be furnished for each temperature for 
which the limitation is established unless it is shown that the 
limitation will not be exceeded in all intended operations.
    (ii) If its oil system is separate from the engine oil system, oil 
pressure and oil temperature indicators must be provided.
    (7) A coolant temperature indicator for each liquid-cooled engine.
    (c) For turbine engine-powered airplanes. In addition to the 
powerplant instruments required by paragraph (a) of this section, the 
following powerplant instruments are required:
    (1) A gas temperature indicator for each engine.
    (2) A fuel flowmeter indicator for each engine.
    (3) A fuel low pressure warning means for each engine.
    (4) A fuel low level warning means for any fuel tank that should not 
be depleted of fuel in normal operations.

[[Page 287]]

    (5) A tachometer indicator (to indicate the speed of the rotors with 
established limiting speeds) for each engine.
    (6) An oil low pressure warning means for each engine.
    (7) An indicating means to indicate the functioning of the 
powerplant ice protection system for each engine.
    (8) For each engine, an indicating means for the fuel strainer or 
filter required by Sec. 23.997 to indicate the occurrence of 
contamination of the strainer or filter before it reaches the capacity 
established in accordance with Sec. 23.997(d).
    (9) For each engine, a warning means for the oil strainer or filter 
required by Sec. 23.1019, if it has no bypass, to warn the pilot of the 
occurrence of contamination of the strainer or filter screen before it 
reaches the capacity established in accordance with Sec. 23.1019(a)(5).
    (10) An indicating means to indicate the functioning of any heater 
used to prevent ice clogging of fuel system components.
    (d) For turbojet/turbofan engine-powered airplanes. In addition to 
the powerplant instruments required by paragraphs (a) and (c) of this 
section, the following powerplant instruments are required:
    (1) For each engine, an indicator to indicate thrust or to indicate 
a parameter that can be related to thrust, including a free air 
temperature indicator if needed for this purpose.
    (2) For each engine, a position indicating means to indicate to the 
flight crew when the thrust reverser, if installed, is in the reverse 
thrust position.
    (e) For turbopropeller-powered airplanes. In addition to the 
powerplant instruments required by paragraphs (a) and (c) of this 
section, the following powerplant instruments are required:
    (1) A torque indicator for each engine.
    (2) A position indicating means to indicate to the flight crew when 
the propeller blade angle is below the flight low pitch position, for 
each propeller, unless it can be shown that such occurrence is highly 
improbable.

[Doc. No. 26344, 58 FR 18975, Apr. 9, 1993; 58 FR 27060, May 6, 1993; 
Amdt. 23-51, 61 FR 5138, Feb. 9, 1996; Amdt. 23-52, 61 FR 13644, Mar. 
27, 1996]



Sec. 23.1307  Miscellaneous equipment.

    The equipment necessary for an airplane to operate at the maximum 
operating altitude and in the kinds of operation and meteorological 
conditions for which certification is requested and is approved in 
accordance with Sec. 23.1559 must be included in the type design.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-23, 43 FR 50593, Oct. 30, 1978; Amdt. 23-43, 58 FR 
18976, Apr. 9, 1993; Amdt. 23-49, 61 FR 5168, Feb. 9, 1996]



Sec. 23.1309  Equipment, systems, and installations.

    (a) Each item of equipment, each system, and each installation:
    (1) When performing its intended function, may not adversely affect 
the response, operation, or accuracy of any--
    (i) Equipment essential to safe operation; or
    (ii) Other equipment unless there is a means to inform the pilot of 
the effect.
    (2) In a single-engine airplane, must be designed to minimize 
hazards to the airplane in the event of a probable malfunction or 
failure.
    (3) In a multiengine airplane, must be designed to prevent hazards 
to the airplane in the event of a probable malfunction or failure.
    (4) In a commuter category airplane, must be designed to safeguard 
against hazards to the airplane in the event of their malfunction or 
failure.
    (b) The design of each item of equipment, each system, and each 
installation must be examined separately and in relationship to other 
airplane systems and installations to determine if the airplane is 
dependent upon its function for continued safe flight and landing and, 
for airplanes not limited to VFR conditions, if failure of a system 
would significantly reduce the capability of the airplane or the ability 
of the crew to cope with adverse operating conditions. Each item of 
equipment, each system, and each installation identified by this 
examination as one upon which the airplane is dependent for proper 
functioning to ensure continued safe flight and landing, or whose 
failure would significantly reduce the capability of the airplane or

[[Page 288]]

the ability of the crew to cope with adverse operating conditions, must 
be designed to comply with the following additional requirements:
    (1) It must perform its intended function under any foreseeable 
operating condition.
    (2) When systems and associated components are considered separately 
and in relation to other systems--
    (i) The occurrence of any failure condition that would prevent the 
continued safe flight and landing of the airplane must be extremely 
improbable; and
    (ii) The occurrence of any other failure condition that would 
significantly reduce the capability of the airplane or the ability of 
the crew to cope with adverse operating conditions must be improbable.
    (3) Warning information must be provided to alert the crew to unsafe 
system operating conditions and to enable them to take appropriate 
corrective action. Systems, controls, and associated monitoring and 
warning means must be designed to minimize crew errors that could create 
additional hazards.
    (4) Compliance with the requirements of paragraph (b)(2) of this 
section may be shown by analysis and, where necessary, by appropriate 
ground, flight, or simulator tests. The analysis must consider--
    (i) Possible modes of failure, including malfunctions and damage 
from external sources;
    (ii) The probability of multiple failures, and the probability of 
undetected faults.;
    (iii) The resulting effects on the airplane and occupants, 
considering the stage of flight and operating conditions; and
    (iv) The crew warning cues, corrective action required, and the 
crew's capability of determining faults.
    (c) Each item of equipment, each system, and each installation whose 
functioning is required by this chapter and that requires a power supply 
is an ``essential load'' on the power supply. The power sources and the 
system must be able to supply the following power loads in probable 
operating combinations and for probable durations:
    (1) Loads connected to the power distribution system with the system 
functioning normally.
    (2) Essential loads after failure of--
    (i) Any one engine on two-engine airplanes; or
    (ii) Any two engines on an airplane with three or more engines; or
    (iii) Any power converter or energy storage device.
    (3) Essential loads for which an alternate source of power is 
required, as applicable, by the operating rules of this chapter, after 
any failure or malfunction in any one power supply system, distribution 
system, or other utilization system.
    (d) In determining compliance with paragraph (c)(2) of this section, 
the power loads may be assumed to be reduced under a monitoring 
procedure consistent with safety in the kinds of operations authorized. 
Loads not required in controlled flight need not be considered for the 
two-engine-inoperative condition on airplanes with three or more 
engines.
    (e) In showing compliance with this section with regard to the 
electrical power system and to equipment design and installation, 
critical environmental and atmospheric conditions, including radio 
frequency energy and the effects (both direct and indirect) of lightning 
strikes, must be considered. For electrical generation, distribution, 
and utilization equipment required by or used in complying with this 
chapter, the ability to provide continuous, safe service under 
forseeable environmental conditions may be shown by environmental tests, 
design analysis, or reference to previous comparable service experience 
on other airplanes.
    (f) As used in this section, ``system'' refers to all pneumatic 
systems, fluid systems, electrical systems, mechanical systems, and 
powerplant systems included in the airplane design, except for the 
following:
    (1) Powerplant systems provided as part of the certificated engine.
    (2) The flight structure (such a wing, empennage, control surfaces 
and their systems, the fuselage, engine mounting, and landing gear and 
their related

[[Page 289]]

primary attachments) whose requirements are specific in subparts C and D 
of this part.

[Amdt. 23-41, 55 FR 43309, Oct. 26, 1990; 55 FR 47028, Nov. 8, l990, as 
amended by Amdt. 23-49, 61 FR 5168, Feb. 9, 1996]

                        Instruments: Installation



Sec. 23.1311  Electronic display instrument systems.

    (a) Electronic display indicators, including those with features 
that make isolation and independence between powerplant instrument 
systems impractical, must:
    (1) Meet the arrangement and visibility requirements of 
Sec. 23.1321.
    (2) Be easily legible under all lighting conditions encountered in 
the cockpit, including direct sunlight, considering the expected 
electronic display brightness level at the end of an electronic display 
indictor's useful life. Specific limitations on display system useful 
life must be contained in the Instructions for Continued Airworthiness 
required by Sec. 23.1529.
    (3) Not inhibit the primary display of attitude, airspeed, altitude, 
or powerplant parameters needed by any pilot to set power within 
established limitations, in any normal mode of operation.
    (4) Not inhibit the primary display of engine parameters needed by 
any pilot to properly set or monitor powerplant limitations during the 
engine starting mode of operation.
    (5) Have an independent magnetic direction indicator and either an 
independent secondary mechanical altimeter, airspeed indicator, and 
attitude instrument or individual electronic display indicators for the 
altitude, airspeed, and attitude that are independent from the 
airplane's primary electrical power system. These secondary instruments 
may be installed in panel positions that are displaced from the primary 
positions specified by Sec. 23.1321(d), but must be located where they 
meet the pilot's visibility requirements of Sec. 23.1321(a).
    (6) Incorporate sensory cues for the pilot that are equivalent to 
those in the instrument being replaced by the electronic display 
indicators.
    (7) Incorporate visual displays of instrument markings, required by 
Secs. 23.1541 through 23.1553, or visual displays that alert the pilot 
to abnormal operational values or approaches to established limitation 
values, for each parameter required to be displayed by this part.
    (b) The electronic display indicators, including their systems and 
installations, and considering other airplane systems, must be designed 
so that one display of information essential for continued safe flight 
and landing will remain available to the crew, without need for 
immediate action by any pilot for continued safe operation, after any 
single failure or probable combination of failures.
    (c) As used in this section, ``instrument'' includes devices that 
are physically contained in one unit, and devices that are composed of 
two or more physically separate units or components connected together 
(such as a remote indicating gyroscopic direction indicator that 
includes a magnetic sensing element, a gyroscopic unit, an amplifier, 
and an indicator connected together). As used in this section, 
``primary'' display refers to the display of a parameter that is located 
in the instrument panel such that the pilot looks at it first when 
wanting to view that parameter.

[Doc. No. 27806, 61 FR 5168, Feb. 9, 1996]



Sec. 23.1321  Arrangement and visibility.

    (a) Each flight, navigation, and powerplant instrument for use by 
any required pilot during takeoff, initial climb, final approach, and 
landing must be located so that any pilot seated at the controls can 
monitor the airplane's flight path and these instruments with minimum 
head and eye movement. The powerplant instruments for these flight 
conditions are those needed to set power within powerplant limitations.
    (b) For each multiengine airplane, identical powerplant instruments 
must be located so as to prevent confusion as to which engine each 
instrument relates.
    (c) Instrument panel vibration may not damage, or impair the 
accuracy of, any instrument.

[[Page 290]]

    (d) For each airplane, the flight instruments required by 
Sec. 23.1303, and, as applicable, by the operating rules of this 
chapter, must be grouped on the instrument panel and centered as nearly 
as practicable about the vertical plane of each required pilot's forward 
vision. In addition:
    (1) The instrument that most effectively indicates the attitude must 
be on the panel in the top center position;
    (2) The instrument that most effectively indicates airspeed must be 
adjacent to and directly to the left of the instrument in the top center 
position;
    (3) The instrument that most effectively indicates altitude must be 
adjacent to and directly to the right of the instrument in the top 
center position;
    (4) The instrument that most effectively indicates direction of 
flight, other than the magnetic direction indicator required by 
Sec. 23.1303(c), must be adjacent to and directly below the instrument 
in the top center position; and
    (5) Electronic display indicators may be used for compliance with 
paragraphs (d)(1) through (d)(4) of this section when such displays 
comply with requirements in Sec. 23.1311.
    (e) If a visual indicator is provided to indicate malfunction of an 
instrument, it must be effective under all probable cockpit lighting 
conditions.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31824, Nov. 19, 1973; Amdt. 23-20, 42 FR 36968, July 18, 1977; 
Amdt. 23-41, 55 FR 43310, Oct. 26, 1990; 55 FR 46888, Nov. 7, 1990; 
Amdt. 23-49, 61 FR 5168, Feb. 9, 1996]



Sec. 23.1322  Warning, caution, and advisory lights.

    If warning, caution, or advisory lights are installed in the 
cockpit, they must, unless otherwise approved by the Administrator, be--
    (a) Red, for warning lights (lights indicating a hazard which may 
require immediate corrective action);
    (b) Amber, for caution lights (lights indicating the possible need 
for future corrective action);
    (c) Green, for safe operation lights; and
    (d) Any other color, including white, for lights not described in 
paragraphs (a) through (c) of this section, provided the color differs 
sufficiently from the colors prescribed in paragraphs (a) through (c) of 
this section to avoid possible confusion.
    (e) Effective under all probable cockpit lighting conditions.

[Amdt. 23-17, 41 FR 55465, Dec. 20, 1976, as amended by Amdt. 23-43, 58 
FR 18976, Apr. 9, 1993]



Sec. 23.1323  Airspeed indicating system.

    (a) Each airspeed indicating instrucment must be calibrated to 
indicate true airspeed (at sea level with a standard atmosphere) with a 
minimum practicable instrument calibration error when the corresponding 
pitot and static pressures are applied.
    (b) Each airspeed system must be calibrated in flight to determine 
the system error. The system error, including position error, but 
excluding the airspeed indicator instrument calibration error, may not 
exceed three percent of the calibrated airspeed or five knots, whichever 
is greater, throughout the following speed ranges:
    (1) 1.3 VS1 to VMO/MMO or 
VNE, whichever is appropriate with flaps retracted.
    (2) 1.3 VS1 to VFE with flaps extended.
    (c) The design and installation of each airspeed indicating system 
must provide positive drainage of moisture from the pitot static 
plumbing.
    (d) If certification for instrument flight rules or flight in icing 
conditions is requested, each airspeed system must have a heated pitot 
tube or an equivalent means of preventing malfunction due to icing.
    (e) In addition, for commuter category airplanes, the airspeed 
indicating system must be calibrated to determine the system error 
during the accelerate-takeoff ground run. The ground run calibration 
must be obtained between 0.8 of the minimum value of V1, and 
1.2 times the maximum value of V1 considering the approved 
ranges of altitude and weight. The ground run calibration must be 
determined assuming an engine failure at the minimum value of 
V1.
    (f) For commuter category airplanes, where duplicate airspeed 
indicators are required, their respective pitot tubes

[[Page 291]]

must be far enough apart to avoid damage to both tubes in a collision 
with a bird.

[Amdt. 23-20, 42 FR 36968, July 18, 1977, as amended by Amdt. 23-34, 52 
FR 1834, Jan. 15, 1987; 52 FR 34745, Sept. 14, 1987; Amdt. 23-42, 56 FR 
354, Jan. 3, 1991; Amdt. 23-49, 61 FR 5168, Feb. 9, 1996]



Sec. 23.1325  Static pressure system.

    (a) Each instrument provided with static pressure case connections 
must be so vented that the influence of airplane speed, the opening and 
closing of windows, airflow variations, moisture, or other foreign 
matter will least affect the accuracy of the instruments except as noted 
in paragraph (b)(3) of this section.
    (b) If a static pressure system is necessary for the functioning of 
instruments, systems, or devices, it must comply with the provisions of 
paragraphs (b) (1) through (3) of this section.
    (1) The design and installation of a static pressure system must be 
such that--
    (i) Positive drainage of moisture is provided;
    (ii) Chafing of the tubing, and excessive distortion or restriction 
at bends in the tubing, is avoided; and
    (iii) The materials used are durable, suitable for the purpose 
intended, and protected against corrosion.
    (2) A proof test must be conducted to demonstrate the integrity of 
the static pressure system in the following manner:
    (i) Unpressurized airplanes. Evacuate the static pressure system to 
a pressure differential of approximately 1 inch of mercury or to a 
reading on the altimeter, 1,000 feet above the aircraft elevation at the 
time of the test. Without additional pumping for a period of 1 minute, 
the loss of indicated altitude must not exceed 100 feet on the 
altimeter.
    (ii) Pressurized airplanes. Evacuate the static pressure system 
until a pressure differential equivalent to the maximum cabin pressure 
differential for which the airplane is type certificated is achieved. 
Without additional pumping for a period of 1 minute, the loss of 
indicated altitude must not exceed 2 percent of the equivalent altitude 
of the maximum cabin differential pressure or 100 feet, whichever is 
greater.
    (3) If a static pressure system is provided for any instrument, 
device, or system required by the operating rules of this chapter, each 
static pressure port must be designed or located in such a manner that 
the correlation between air pressure in the static pressure system and 
true ambient atmospheric static pressure is not altered when the 
airplane encounters icing conditions. An antiicing means or an alternate 
source of static pressure may be used in showing compliance with this 
requirement. If the reading of the altimeter, when on the alternate 
static pressure system differs from the reading of the altimeter when on 
the primary static system by more than 50 feet, a correction card must 
be provided for the alternate static system.
    (c) Except as provided in paragraph (d) of this section, if the 
static pressure system incorporates both a primary and an alternate 
static pressure source, the means for selecting one or the other source 
must be designed so that--
    (1) When either source is selected, the other is blocked off; and
    (2) Both sources cannot be blocked off simultaneously.
    (d) For unpressurized airplanes, paragraph (c)(1) of this section 
does not apply if it can be demonstrated that the static pressure system 
calibration, when either static pressure source is selected, is not 
changed by the other static pressure source being open or blocked.
    (e) Each static pressure system must be calibrated in flight to 
determine the system error. The system error, in indicated pressure 
altitude, at sea-level, with a standard atmosphere, excluding instrument 
calibration error, may not exceed 30 feet per 100 knot speed 
for the appropriate configuration in the speed range between 1.3 
VS0 with flaps extended, and 1.8 VS1 with flaps 
retracted. However, the error need not be less than 30 feet.
    (f) [Reserved]
    (g) For airplanes prohibited from flight in instrument 
meteorological or icing conditions, in accordance with

[[Page 292]]

Sec. 23.1559(b) of this part, paragraph (b)(3) of this section does not 
apply.

[Amdt. 23-1, 30 FR 8261, June 29, 1965, as amended by Amdt. 23-6, 32 FR 
7586, May 24, 1967; 32 FR 13505, Sept. 27, 1967; 32 FR 13714, Sept. 30, 
1967; Amdt. 23-20, 42 FR 36968, July 18, 1977; Amdt. 23-34, 52 FR 1834, 
Jan. 15, 1987; Amdt. 23-42, 56 FR 354, Jan. 3, 1991; Amdt. 23-49, 61 FR 
5169, Feb. 9, 1996; Amdt. 23-50, 61 FR 5192, Feb. 9, 1996]



Sec. 23.1326  Pitot heat indication systems.

    If a flight instrument pitot heating system is installed to meet the 
requirements specified in Sec. 23.1323(d), an indication system must be 
provided to indicate to the flight crew when that pitot heating system 
is not operating. The indication system must comply with the following 
requirements:
    (a) The indication provided must incorporate an amber light that is 
in clear view of a flightcrew member.
    (b) The indication provided must be designed to alert the flight 
crew if either of the following conditions exist:
    (1) The pitot heating system is switched ``off.''
    (2) The pitot heating system is switched ``on'' and any pitot tube 
heating element is inoperative.

[Doc. No. 27806, 61 FR 5169, Feb. 9, 1996]



Sec. 23.1327  Magnetic direction indicator.

    (a) Except as provided in paragraph (b) of this section--
    (1) Each magnetic direction indicator must be installed so that its 
accuracy is not excessively affected by the airplane's vibration or 
magnetic fields; and
    (2) The compensated installation may not have a deviation in level 
flight, greater than ten degrees on any heading.
    (b) A magnetic nonstabilized direction indicator may deviate more 
than ten degrees due to the operation of electrically powered systems 
such as electrically heated windshields if either a magnetic stabilized 
direction indicator, which does not have a deviation in level flight 
greater than ten degrees on any heading, or a gyroscopic direction 
indicator, is installed. Deviations of a magnetic nonstabilized 
direction indicator of more than 10 degrees must be placarded in 
accordance with Sec. 23.1547(e).

[Amdt. 23-20, 42 FR 36969, July 18, 1977]



Sec. 23.1329  Automatic pilot system.

    If an automatic pilot system is installed, it must meet the 
following:
    (a) Each system must be designed so that the automatic pilot can--
    (1) Be quickly and positively disengaged by the pilots to prevent it 
from interfering with their control of the airplane; or
    (2) Be sufficiently overpowered by one pilot to let him control the 
airplane.
    (b) If the provisions of paragraph (a)(1) of this section are 
applied, the quick release (emergency) control must be located on the 
control wheel (both control wheels if the airplane can be operated from 
either pilot seat) on the side opposite the throttles, or on the stick 
control, (both stick controls, if the airplane can be operated from 
either pilot seat) such that it can be operated without moving the hand 
from its normal position on the control.
    (c) Unless there is automatic synchronization, each system must have 
a means to readily indicate to the pilot the alignment of the actuating 
device in relation to the control system it operates.
    (d) Each manually operated control for the system operation must be 
readily accessible to the pilot. Each control must operate in the same 
plane and sense of motion as specified in Sec. 23.779 for cockpit 
controls. The direction of motion must be plainly indicated on or near 
each control.
    (e) Each system must be designed and adjusted so that, within the 
range of adjustment available to the pilot, it cannot produce hazardous 
loads on the airplane or create hazardous deviations in the flight path, 
under any flight condition appropriate to its use, either during normal 
operation or in the event of a malfunction, assuming that corrective 
action begins within a reasonable period of time.
    (f) Each system must be designed so that a single malfunction will 
not produce a hardover signal in more than one control axis. If the 
automatic pilot integrates signals from auxiliary controls or furnishes 
signals for operation

[[Page 293]]

of other equipment, positive interlocks and sequencing of engagement to 
prevent improper operation are required.
    (g) There must be protection against adverse interaction of 
integrated components, resulting from a malfunction.
    (h) If the automatic pilot system can be coupled to airborne 
navigation equipment, means must be provided to indicate to the flight 
crew the current mode of operation. Selector switch position is not 
acceptable as a means of indication.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-23, 43 FR 50593, Oct. 30, 1978; Amdt. 23-43, 58 FR 
18976, Apr. 9, 1993; Amdt. 23-49, 61 FR 5169, Feb. 9, 1996]



Sec. 23.1331  Instruments using a power source.

    For each instrument that uses a power source, the following apply:
    (a) Each instrument must have an integral visual power annunciator 
or separate power indicator to indicate when power is not adequate to 
sustain proper instrument performance. If a separate indicator is used, 
it must be located so that the pilot using the instruments can monitor 
the indicator with minimum head and eye movement. The power must be 
sensed at or near the point where it enters the instrument. For electric 
and vacuum/pressure instruments, the power is considered to be adequate 
when the voltage or the vacuum/pressure, respectively, is within 
approved limits.
    (b) The installation and power supply systems must be designed so 
that--
    (1) The failure of one instrument will not interfere with the proper 
supply of energy to the remaining instrument; and
    (2) The failure of the energy supply from one source will not 
interfere with the proper supply of energy from any other source.
    (c) There must be at least two independent sources of power (not 
driven by the same engine on multiengine airplanes), and a manual or an 
automatic means to select each power source.

[Doc. No. 26344, 58 FR 18976, Apr. 9, 1993]



Sec. 23.1335  Flight director systems.

    If a flight director system is installed, means must be provided to 
indicate to the flight crew its current mode of operation. Selector 
switch position is not acceptable as a means of indication.

[Amdt. 23-20, 42 FR 36969, July 18, 1977]



Sec. 23.1337  Powerplant instruments installation.

    (a) Instruments and instrument lines. (1) Each powerplant and 
auxiliary power unit instrument line must meet the requirements of 
Sec. 23.993.
    (2) Each line carrying flammable fluids under pressure must--
    (i) Have restricting orifices or other safety devices at the source 
of pressure to prevent the escape of excessive fluid if the line fails; 
and
    (ii) Be installed and located so that the escape of fluids would not 
create a hazard.
    (3) Each powerplant and auxiliary power unit instrument that 
utilizes flammable fluids must be installed and located so that the 
escape of fluid would not create a hazard.
    (b) Fuel quantity indication. There must be a means to indicate to 
the flightcrew members the quantity of usable fuel in each tank during 
flight. An indicator calibrated in appropriate units and clearly marked 
to indicate those units must be used. In addition:
    (1) Each fuel quantity indicator must be calibrated to read ``zero'' 
during level flight when the quantity of fuel remaining in the tank is 
equal to the unusable fuel supply determined under Sec. 23.959(a);
    (2) Each exposed sight gauge used as a fuel quantity indicator must 
be protected against damage;
    (3) Each sight gauge that forms a trap in which water can collect 
and freeze must have means to allow drainage on the ground;
    (4) There must be a means to indicate the amount of usable fuel in 
each tank when the airplane is on the ground (such as by a stick gauge);
    (5) Tanks with interconnected outlets and airspaces may be 
considered as one tank and need not have separate indicators; and
    (6) No fuel quantity indicator is required for an auxiliary tank 
that is used only to transfer fuel to other tanks if the relative size 
of the tank,

[[Page 294]]

the rate of fuel transfer, and operating instructions are adequate to--
    (i) Guard against overflow; and
    (ii) Give the flight crewmembers prompt warning if transfer is not 
proceeding as planned.
    (c) Fuel flowmeter system. If a fuel flowmeter system is installed, 
each metering component must have a means to by-pass the fuel supply if 
malfunctioning of that component severely restricts fuel flow.
    (d) Oil quantity indicator. There must be a means to indicate the 
quantity of oil in each tank--
    (1) On the ground (such as by a stick gauge); and
    (2) In flight, to the flight crew members, if there is an oil 
transfer system or a reserve oil supply system.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13096, Aug. 13, 1969; Amdt. 23-18, 42 FR 15042, Mar. 17, 1977; Amdt. 
23-43, 58 FR 18976, Apr. 9, 1993; Amdt. 23-51, 61 FR 5138, Feb. 9, 1996; 
Amdt. 23-49, 61 FR 5169, Feb. 9, 1996]

                    Electrical Systems and Equipment



Sec. 23.1351  General.

    (a) Electrical system capacity. Each electrical system must be 
adequate for the intended use. In addition--
    (1) Electric power sources, their transmission cables, and their 
associated control and protective devices, must be able to furnish the 
required power at the proper voltage to each load circuit essential for 
safe operation; and
    (2) Compliance with paragraph (a)(1) of this section must be shown 
as follows--
    (i) For normal, utility, and acrobatic category airplanes, by an 
electrical load analysis or by electrical measurements that account for 
the electrical loads applied to the electrical system in probable 
combinations and for probable durations; and
    (ii) For commuter category airplanes, by an electrical load analysis 
that accounts for the electrical loads applied to the electrical system 
in probable combinations and for probable durations.
    (b) Function. For each electrical system, the following apply:
    (1) Each system, when installed, must be--
    (i) Free from hazards in itself, in its method of operation, and in 
its effects on other parts of the airplane;
    (ii) Protected from fuel, oil, water, other detrimental substances, 
and mechanical damage; and
    (iii) So designed that the risk of electrical shock to crew, 
passengers, and ground personnel is reduced to a minimum.
    (2) Electric power sources must function properly when connected in 
combination or independently.
    (3) No failure or malfunction of any electric power source may 
impair the ability of any remaining source to supply load circuits 
essential for safe operation.
    (4) In addition, for commuter category airplanes, the following 
apply:
    (i) Each system must be designed so that essential load circuits can 
be supplied in the event of reasonably probable faults or open circuits 
including faults in heavy current carrying cables;
    (ii) A means must be accessible in flight to the flight crewmembers 
for the individual and collective disconnection of the electrical power 
sources from the system;
    (iii) The system must be designed so that voltage and frequency, if 
applicable, at the terminals of all essential load equipment can be 
maintained within the limits for which the equipment is designed during 
any probable operating conditions;
    (iv) If two independent sources of electrical power for particular 
equipment or systems are required, their electrical energy supply must 
be ensured by means such as duplicate electrical equipment, throwover 
switching, or multichannel or loop circuits separately routed; and
    (v) For the purpose of complying with paragraph (b)(5) of this 
section, the distribution system includes the distribution busses, their 
associated feeders, and each control and protective device.
    (c) Generating system. There must be at least one generator/
alternator if the electrical system supplies power to load circuits 
essential for safe operation. In addition--
    (1) Each generator/alternator must be able to deliver its continuous 
rated

[[Page 295]]

power, or such power as is limited by its regulation system.
    (2) Generator/alternator voltage control equipment must be able to 
dependably regulate the generator/alternator output within rated limits.
    (3) Automatic means must be provided to prevent damage to any 
generator/alternator and adverse effects on the airplane electrical 
system due to reverse current. A means must also be provided to 
disconnect each generator/alternator from the battery and other 
generators/alternators.
    (4) There must be a means to give immediate warning to the flight 
crew of a failure of any generator/alternator.
    (5) Each generator/alternator must have an overvoltage control 
designed and installed to prevent damage to the electrical system, or to 
equipment supplied by the electrical system that could result if that 
generator/alternator were to develop an overvoltage condition.
    (d) Instruments. A means must exist to indicate to appropriate 
flight crewmembers the electric power system quantities essential for 
safe operation.
    (1) For normal, utility, and acrobatic category airplanes with 
direct current systems, an ammeter that can be switched into each 
generator feeder may be used and, if only one generator exists, the 
ammeter may be in the battery feeder.
    (2) For commuter category airplanes, the essential electric power 
system quantities include the voltage and current supplied by each 
generator.
    (e) Fire resistance. Electrical equipment must be so designed and 
installed that in the event of a fire in the engine compartment, during 
which the surface of the firewall adjacent to the fire is heated to 
2,000 deg. F for 5 minutes or to a lesser temperature substantiated by 
the applicant, the equipment essential to continued safe operation and 
located behind the firewall will function satisfactorily and will not 
create an additional fire hazard.
    (f) External power. If provisions are made for connecting external 
power to the airplane, and that external power can be electrically 
connected to equipment other than that used for engine starting, means 
must be provided to ensure that no external power supply having a 
reverse polarity, or a reverse phase sequence, can supply power to the 
airplane's electrical system. The external power connection must be 
located so that its use will not result in a hazard to the airplane or 
ground personnel.
    (g) It must be shown by analysis, tests, or both, that the airplane 
can be operated safely in VFR conditions, for a period of not less than 
five minutes, with the normal electrical power (electrical power sources 
excluding the battery and any other standby electrical sources) 
inoperative, with critical type fuel (from the standpoint of flameout 
and restart capability), and with the airplane initially at the maximum 
certificated altitude. Parts of the electrical system may remain on if--
    (1) A single malfunction, including a wire bundle or junction box 
fire, cannot result in loss of the part turned off and the part turned 
on; and
    (2) The parts turned on are electrically and mechanically isolated 
from the parts turned off.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13096, Aug. 13, 1969; Amdt. 23-14, 38 FR 31824, Nov. 19, 1973; Amdt. 
23-17, 41 FR 55465, Dec. 20, 1976; Amdt. 23-20, 42 FR 36969, July 18, 
1977; Amdt. 23-34, 52 FR 1834, Jan. 15, 1987; 52 FR 34745, Sept. 14, 
1987; Amdt. 23-43, 58 FR 18976, Apr. 9, 1993; Amdt. 23-49, 61 FR 5169, 
Feb. 9, 1996]



Sec. 23.1353  Storage battery design and installation.

    (a) Each storage battery must be designed and installed as 
prescribed in this section.
    (b) Safe cell temperatures and pressures must be maintained during 
any probable charging and discharging condition. No uncontrolled 
increase in cell temperature may result when the battery is recharged 
(after previous complete discharge)--
    (1) At maximum regulated voltage or power;
    (2) During a flight of maximum duration; and
    (3) Under the most adverse cooling condition likely to occur in 
service.
    (c) Compliance with paragraph (b) of this section must be shown by 
tests unless experience with similar batteries and installations has 
shown that maintaining safe cell temperatures and pressures presents no 
problem.

[[Page 296]]

    (d) No explosive or toxic gases emitted by any battery in normal 
operation, or as the result of any probable malfunction in the charging 
system or battery installation, may accumulate in hazardous quantities 
within the airplane.
    (e) No corrosive fluids or gases that may escape from the battery 
may damage surrounding structures or adjacent essential equipment.
    (f) Each nickel cadmium battery installation capable of being used 
to start an engine or auxiliary power unit must have provisions to 
prevent any hazardous effect on structure or essential systems that may 
be caused by the maximum amount of heat the battery can generate during 
a short circuit of the battery or of its individual cells.
    (g) Nickel cadmium battery installations capable of being used to 
start an engine or auxiliary power unit must have--
    (1) A system to control the charging rate of the battery 
automatically so as to prevent battery overheating;
    (2) A battery temperature sensing and over-temperature warning 
system with a means for disconnecting the battery from its charging 
source in the event of an over-temperature condition; or
    (3) A battery failure sensing and warning system with a means for 
disconnecting the battery from its charging source in the event of 
battery failure.
    (h) In the event of a complete loss of the primary electrical power 
generating system, the battery must be capable of providing at least 30 
minutes of electrical power to those loads that are essential to 
continued safe flight and landing. The 30 minute time period includes 
the time needed for the pilots to recognize the loss of generated power 
and take appropriate load shedding action.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-20, 42 FR 36969, July 18, 1977; Amdt. 23-21, 43 FR 
2319, Jan. 16, 1978; Amdt. 23-49, 61 FR 5169, Feb. 9, 1996]



Sec. 23.1357  Circuit protective devices.

    (a) Protective devices, such as fuses or circuit breakers, must be 
installed in all electrical circuits other than--
    (1) Main circuits of starter motors used during starting only; and
    (2) Circuits in which no hazard is presented by their omission.
    (b) A protective device for a circuit essential to flight safety may 
not be used to protect any other circuit.
    (c) Each resettable circuit protective device (``trip free'' device 
in which the tripping mechanism cannot be overridden by the operating 
control) must be designed so that--
    (1) A manual operation is required to restore service after 
tripping; and
    (2) If an overload or circuit fault exists, the device will open the 
circuit regardless of the position of the operating control.
    (d) If the ability to reset a circuit breaker or replace a fuse is 
essential to safety in flight, that circuit breaker or fuse must be so 
located and identified that it can be readily reset or replaced in 
flight.
    (e) For fuses identified as replaceable in flight--
    (1) There must be one spare of each rating or 50 percent spare fuses 
of each rating, whichever is greater; and
    (2) The spare fuse(s) must be readily accessible to any required 
pilot.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-20, 42 FR 36969, July 18, 1977]; Amdt. 23-43, 58 FR 
18976, Apr. 9, 1993



Sec. 23.1359  Electrical system fire protection.

    (a) Each component of the electrical system must meet the applicable 
fire protection requirements of Secs. 23.863 and 23.1182.
    (b) Electrical cables, terminals, and equipment in designated fire 
zones that are used during emergency procedures must be fire-resistant.
    (c) Insulation on electrical wire and electrical cable must be self-
extinguishing when tested at an angle of 60 degrees in accordance with 
the applicable portions of appendix F of this part, or other approved 
equivalent methods. The average burn length must not exceed 3 inches (76 
mm) and the average flame time after removal of the flame source must 
not exceed 30 seconds. Drippings from the test specimen must

[[Page 297]]

not continue to flame for more than an average of 3 seconds after 
falling.

[Doc. No. 27806, 61 FR 5169, Feb. 9, 1996]



Sec. 23.1361  Master switch arrangement.

    (a) There must be a master switch arrangement to allow ready 
disconnection of each electric power source from power distribution 
systems, except as provided in paragraph (b) of this section. The point 
of disconnection must be adjacent to the sources controlled by the 
switch arrangement. If separate switches are incorporated into the 
master switch arrangement, a means must be provided for the switch 
arrangement to be operated by one hand with a single movement.
    (b) Load circuits may be connected so that they remain energized 
when the master switch is open, if the circuits are isolated, or 
physically shielded, to prevent their igniting flammable fluids or 
vapors that might be liberated by the leakage or rupture of any 
flammable fluid system; and
    (1) The circuits are required for continued operation of the engine; 
or
    (2) The circuits are protected by circuit protective devices with a 
rating of five amperes or less adjacent to the electric power source.
    (3) In addition, two or more circuits installed in accordance with 
the requirements of paragraph (b)(2) of this section must not be used to 
supply a load of more than five amperes.
    (c) The master switch or its controls must be so installed that the 
switch is easily discernible and accessible to a crewmember.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-20, 42 FR 36969, July 18, 1977; Amdt. 23-43, 58 FR 
18977, Apr. 9, 1993; Amdt. 23-49, 61 FR 5169, Feb. 9, 1996]



Sec. 23.1365  Electric cables and equipment.

    (a) Each electric connecting cable must be of adequate capacity.
    (b) Any equipment that is associated with any electrical cable 
installation and that would overheat in the event of circuit overload or 
fault must be flame resistant. That equipment and the electrical cables 
must not emit dangerous quantities of toxic fumes.
    (c) Main power cables (including generator cables) in the fuselage 
must be designed to allow a reasonable degree of deformation and 
stretching without failure and must--
    (1) Be separated from flammable fluid lines; or
    (2) Be shrouded by means of electrically insulated flexible conduit, 
or equivalent, which is in addition to the normal cable insulation.
    (d) Means of identification must be provided for electrical cables, 
terminals, and connectors.
    (e) Electrical cables must be installed such that the risk of 
mechanical damage and/or damage cased by fluids vapors, or sources of 
heat, is minimized.
    (f) Where a cable cannot be protected by a circuit protection device 
or other overload protection, it must not cause a fire hazard under 
fault conditions.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-14, 
38 FR 31824, Nov. 19, 1973; Amdt. 23-43, 58 FR 18977, Apr. 9, 1993; 
Amdt. 23-49, 61 FR 5169, Feb. 9, 1996]



Sec. 23.1367  Switches.

    Each switch must be--
    (a) Able to carry its rated current;
    (b) Constructed with enough distance or insulating material between 
current carrying parts and the housing so that vibration in flight will 
not cause shorting;
    (c) Accessible to appropriate flight crewmembers; and
    (d) Labeled as to operation and the circuit controlled.

                                 Lights



Sec. 23.1381  Instrument lights.

    The instrument lights must--
    (a) Make each instrument and control easily readable and 
discernible;
    (b) Be installed so that their direct rays, and rays reflected from 
the windshield or other surface, are shielded from the pilot's eyes; and
    (c) Have enough distance or insulating material between current 
carrying parts and the housing so that vibration in flight will not 
cause shorting.

A cabin dome light is not an instrument light.

[[Page 298]]



Sec. 23.1383  Taxi and landing lights.

    Each taxi and landing light must be designed and installed so that:
    (a) No dangerous glare is visible to the pilots.
    (b) The pilot is not seriously affected by halation.
    (c) It provides enough light for night operations.
    (d) It does not cause a fire hazard in any configuration.

[Doc. No. 27806, 61 FR 5169, Feb. 9, 1996]



Sec. 23.1385  Position light system installation.

    (a) General. Each part of each position light system must meet the 
applicable requirements of this section and each system as a whole must 
meet the requirements of Secs. 23.1387 through 23.1397.
    (b) Left and right position lights. Left and right position lights 
must consist of a red and a green light spaced laterally as far apart as 
practicable and installed on the airplane such that, with the airplane 
in the normal flying position, the red light is on the left side and the 
green light is on the right side.
    (c) Rear position light. The rear position light must be a white 
light mounted as far aft as practicable on the tail or on each wing tip.
    (d) Light covers and color filters. Each light cover or color filter 
must be at least flame resistant and may not change color or shape or 
lose any appreciable light transmission during normal use.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-17, 
41 FR 55465, Dec. 20, 1976; Amdt. 23-43, 58 FR 18977, Apr. 9, 1993]



Sec. 23.1387  Position light system dihedral angles.

    (a) Except as provided in paragraph (e) of this section, each 
position light must, as installed, show unbroken light within the 
dihedral angles described in this section.
    (b) Dihedral angle L (left) is formed by two intersecting vertical 
planes, the first parallel to the longitudinal axis of the airplane, and 
the other at 110 degrees to the left of the first, as viewed when 
looking forward along the longitudinal axis.
    (c) Dihedral angle R (right) is formed by two intersecting vertical 
planes, the first parallel to the longitudinal axis of the airplane, and 
the other at 110 degrees to the right of the first, as viewed when 
looking forward along the longitudinal axis.
    (d) Dihedral angle A (aft) is formed by two intersecting vertical 
planes making angles of 70 degrees to the right and to the left, 
respectively, to a vertical plane passing through the longitudinal axis, 
as viewed when looking aft along the longitudinal axis.
    (e) If the rear position light, when mounted as far aft as 
practicable in accordance with Sec. 23.1385(c), cannot show unbroken 
light within dihedral angle A (as defined in paragraph (d) of this 
section), a solid angle or angles of obstructed visibility totaling not 
more than 0.04 steradians is allowable within that dihedral angle, if 
such solid angle is within a cone whose apex is at the rear position 
light and whose elements make an angle of 30 deg. with a vertical line 
passing through the rear position light.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-12, 36 FR 21278, Nov. 5, 1971; Amdt. 23-43, 58 FR 
18977, Apr. 9, 1993]



Sec. 23.1389  Position light distribution and intensities.

    (a) General. The intensities prescribed in this section must be 
provided by new equipment with each light cover and color filter in 
place. Intensities must be determined with the light source operating at 
a steady value equal to the average luminous output of the source at the 
normal operating voltage of the airplane. The light distribution and 
intensity of each position light must meet the requirements of paragraph 
(b) of this section.
    (b) Position lights. The light distribution and intensities of 
position lights must be expressed in terms of minimum intensities in the 
horizontal plane, minimum intensities in any vertical plane, and maximum 
intensities in overlapping beams, within dihedral angles L, R, and A, 
and must meet the following requirements:
    (1) Intensities in the horizontal plane. Each intensity in the 
horizontal plane (the plane containing the longitudinal

[[Page 299]]

axis of the airplane and perpendicular to the plane of symmetry of the 
airplane) must equal or exceed the values in Sec. 23.1391.
    (2) Intensities in any vertical plane. Each intensity in any 
vertical plane (the plane perpendicular to the horizontal plane) must 
equal or exceed the appropriate value in Sec. 23.1393, where I is the 
minimum intensity prescribed in Sec. 23.1391 for the corresponding 
angles in the horizontal plane.
    (3) Intensities in overlaps between adjacent signals. No intensity 
in any overlap between adjacent signals may exceed the values in 
Sec. 23.1395, except that higher intensities in overlaps may be used 
with main beam intensities substantially greater than the minima 
specified in Secs. 23.1391 and 23.1393, if the overlap intensities in 
relation to the main beam intensities do not adversely affect signal 
clarity. When the peak intensity of the left and right position lights 
is more than 100 candles, the maximum overlap intensities between them 
may exceed the values in Sec. 23.1395 if the overlap intensity in Area A 
is not more than 10 percent of peak position light intensity and the 
overlap intensity in Area B is not more than 2.5 percent of peak 
position light intensity.
    (c) Rear position light installation. A single rear position light 
may be installed in a position displaced laterally from the plane of 
symmetry of an airplane if--
    (1) The axis of the maximum cone of illumination is parallel to the 
flight path in level flight; and
    (2) There is no obstruction aft of the light and between planes 70 
degrees to the right and left of the axis of maximum illumination.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18977, Apr. 9, 1993]



Sec. 23.1391  Minimum intensities in the horizontal plane of position lights.

    Each position light intensity must equal or exceed the applicable 
values in the following table:

------------------------------------------------------------------------
                                        Angle from right or
                                       left of longitudinal    Intensity
   Dihedral angle (light included)      axis, measured from    (candles)
                                            dead ahead
------------------------------------------------------------------------
L and R (red and green).............  0 deg. to 10 deg......          40
                                      10 deg. to 20 deg.....          30
                                      20 deg. to 110 deg....           5
A (rear white)......................  110 deg. to 180 deg...          20
------------------------------------------------------------------------


[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18977, Apr. 9, 1993]



Sec. 23.1393  Minimum intensities in any vertical plane of position lights.

    Each position light intensity must equal or exceed the applicable 
values in the following table:

------------------------------------------------------------------------
                                                              Intensity,
          Angle above or below the horizontal plane                l
------------------------------------------------------------------------
0 deg.......................................................        1.00
0 deg. to 5 deg.............................................        0.90
5 deg. to 10 deg............................................        0.80
10 deg. to 15 deg...........................................        0.70
15 deg. to 20 deg...........................................        0.50
20 deg. to 30 deg...........................................        0.30
30 deg. to 40 deg...........................................        0.10
40 deg. to 90 deg...........................................        0.05
------------------------------------------------------------------------


[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18977, Apr. 9, 1993]



Sec. 23.1395  Maximum intensities in overlapping beams of position lights.

    No position light intensity may exceed the applicable values in the 
following equal or exceed the applicable values in Sec. 23.1389(b)(3):

------------------------------------------------------------------------
                                                     Maximum intensity
                                                 -----------------------
                    Overlaps                        Area A      Area B
                                                   (candles)   (candles)
------------------------------------------------------------------------
Green in dihedral angle L.......................          10           1
Red in dihedral angle R.........................          10           1
Green in dihedral angle A.......................           5           1
Red in dihedral angle A.........................           5           1
Rear white in dihedral angle L..................           5           1
Rear white in dihedral angle R..................           5           1
------------------------------------------------------------------------


Where--
    (a) Area A includes all directions in the adjacent dihedral angle 
that pass through the light source and intersect the common boundary 
plane at more than 10 degrees but less than 20 degrees; and
    (b) Area B includes all directions in the adjacent dihedral angle 
that pass through the light source and intersect

[[Page 300]]

the common boundary plane at more than 20 degrees.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-43, 
58 FR 18977, Apr. 9, 1993]



Sec. 23.1397  Color specifications.

    Each position light color must have the applicable International 
Commission on Illumination chromaticity coordinates as follows:
    (a) Aviation red--

    ``y'' is not greater than 0.335; and
    ``z'' is not greater than 0.002.

    (b) Aviation green--

    ``x'' is not greater than 0.440-0.320 y;
    ``x'' is not greater than y -0.170; and
    ``y'' is not less than 0.390-0.170 x.

    (c) Aviation white--

    ``x'' is not less than 0.300 and not greater than 0.540;
    ``y'' is not less than ``x -0.040'' or ``y0 -0.010,'' 
whichever is the smaller; and
    ``y'' is not greater than ``x+0.020'' nor ``0.636-0.400 x '';

    Where ``y0'' is the ``y'' coordinate of the Planckian 
radiator for the value of ``x'' considered.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, amended by Amdt. 23-11, 36 
FR 12971, July 10, 1971]



Sec. 23.1399  Riding light.

    (a) Each riding (anchor) light required for a seaplane or amphibian, 
must be installed so that it can--
    (1) Show a white light for at least two miles at night under clear 
atmospheric conditions; and
    (2) Show the maximum unbroken light practicable when the airplane is 
moored or drifting on the water.
    (b) Externally hung lights may be used.



Sec. 23.1401  Anticollision light system.

    (a) General. The airplane must have an anticollision light system 
that:
    (1) Consists of one or more approved anticollision lights located so 
that their light will not impair the flight crewmembers' vision or 
detract from the conspicuity of the position lights; and
    (2) Meets the requirements of paragraphs (b) through (f) of this 
section.
    (b) Field of coverage. The system must consist of enough lights to 
illuminate the vital areas around the airplane, considering the physical 
configuration and flight characteristics of the airplane. The field of 
coverage must extend in each direction within at least 75 degrees above 
and 75 degrees below the horizontal plane of the airplane, except that 
there may be solid angles of obstructed visibility totaling not more 
than 0.5 steradians.
    (c) Flashing characteristics. The arrangement of the system, that 
is, the number of light sources, beam width, speed of rotation, and 
other characteristics, must give an effective flash frequency of not 
less than 40, nor more than 100, cycles per minute. The effective flash 
frequency is the frequency at which the airplane's complete 
anticollision light system is observed from a distance, and applies to 
each sector of light including any overlaps that exist when the system 
consists of more than one light source. In overlaps, flash frequencies 
may exceed 100, but not 180, cycles per minute.
    (d) Color. Each anticollision light must be either aviation red or 
aviation white and must meet the applicable requirements of 
Sec. 23.1397.
    (e) Light intensity. The minimum light intensities in any vertical 
plane, measured with the red filter (if used) and expressed in terms of 
``effective'' intensities, must meet the requirements of paragraph (f) 
of this section. The following relation must be assumed:
[GRAPHIC] [TIFF OMITTED] TC28SE91.018

where:

Ie =effective intensity (candles).
I(t) =instantaneous intensity as a function of time.
t2-t1 =flash time interval (seconds).


Normally, the maximum value of effective intensity is obtained when 
t2 and t1 are chosen so that the effective 
intensity is equal to the instantaneous intensity at t2 and 
t1.
    (f) Minimum effective intensities for anticollision lights. Each 
anticollision light effective intensity must equal or exceed the 
applicable values in the following table.

[[Page 301]]



------------------------------------------------------------------------
                                                              Effective
         Angle above or below the horizontal plane            intensity
                                                              (candles)
------------------------------------------------------------------------
0 deg. to 5 deg............................................          400
5 deg. to 10 deg...........................................          240
10 deg. to 20 deg..........................................           80
20 deg. to 30 deg..........................................           40
30 deg. to 75 deg..........................................           20
------------------------------------------------------------------------


[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-11, 
36 FR 12972, July 10, 1971; Amdt. 23-20, 42 FR 36969, July 18, 1977; 
Amdt. 23-49, 61 FR 5169, Feb. 9, 1996]

                            Safety Equipment



Sec. 23.1411  General.

    (a) Required safety equipment to be used by the flight crew in an 
emergency, such as automatic liferaft releases, must be readily 
accessible.
    (b) Stowage provisions for required safety equipment must be 
furnished and must--
    (1) Be arranged so that the equipment is directly accessible and its 
location is obvious; and
    (2) Protect the safety equipment from damage caused by being 
subjected to the inertia loads resulting from the ultimate static load 
factors specified in Sec. 23.561(b)(3) of this part.

[Amdt. 23-17, 41 FR 55465, Dec. 20, 1976, as amended by Amdt. 23-36, 53 
FR 30815, Aug. 15, 1988]



Sec. 23.1415  Ditching equipment.

    (a) Emergency flotation and signaling equipment required by any 
operating rule in this chapter must be installed so that it is readily 
available to the crew and passengers.
    (b) Each raft and each life preserver must be approved.
    (c) Each raft released automatically or by the pilot must be 
attached to the airplane by a line to keep it alongside the airplane. 
This line must be weak enough to break before submerging the empty raft 
to which it is attached.
    (d) Each signaling device required by any operating rule in this 
chapter, must be accessible, function satisfactorily, and must be free 
of any hazard in its operation.



Sec. 23.1416  Pneumatic de-icer boot system.

    If certification with ice protection provisions is desired and a 
pneumatic de-icer boot system is installed--
    (a) The system must meet the requirements specified in Sec. 23.1419.
    (b) The system and its components must be designed to perform their 
intended function under any normal system operating temperature or 
pressure, and
    (c) Means to indicate to the flight crew that the pneumatic de-icer 
boot system is receiving adequate pressure and is functioning normally 
must be provided.

[Amdt. 23-23, 43 FR 50593, Oct. 30, 1978]



Sec. 23.1419  Ice protection.

    If certification with ice protection provisions is desired, 
compliance with the requirements of this section and other applicable 
sections of this part must be shown:
    (a) An analysis must be performed to establish, on the basis of the 
airplane's operational needs, the adequacy of the ice protection system 
for the various components of the airplane. In addition, tests of the 
ice protection system must be conducted to demonstrate that the airplane 
is capable of operating safely in continuous maximum and intermittent 
maximum icing conditions, as described in appendix C of part 25 of this 
chapter. As used in this section, ``Capable of operating safely,'' means 
that airplane performance, controllability, maneuverability, and 
stability must not be less than that required in part 23, subpart B.
    (b) Except as provided by paragraph (c) of this section, in addition 
to the analysis and physical evaluation prescribed in paragraph (a) of 
this section, the effectiveness of the ice protection system and its 
components must be shown by flight tests of the airplane or its 
components in measured natural atmospheric icing conditions and by one 
or more of the following tests, as found necessary to determine the 
adequacy of the ice protection system--
    (1) Laboratory dry air or simulated icing tests, or a combination of 
both, of

[[Page 302]]

the components or models of the components.
    (2) Flight dry air tests of the ice protection system as a whole, or 
its individual components.
    (3) Flight test of the airplane or its components in measured 
simulated icing conditions.
    (c) If certification with ice protection has been accomplished on 
prior type certificated airplanes whose designs include components that 
are thermodynamically and aerodynamically equivalent to those used on a 
new airplane design, certification of these equivalent components may be 
accomplished by reference to previously accomplished tests, required in 
Sec. 23.1419 (a) and (b), provided that the applicant accounts for any 
differences in installation of these components.
    (d) A means must be identified or provided for determining the 
formation of ice on the critical parts of the airplane. Adequate 
lighting must be provided for the use of this means during night 
operation. Also, when monitoring of the external surfaces of the 
airplane by the flight crew is required for operation of the ice 
protection equipment, external lighting must be provided that is 
adequate to enable the monitoring to be done at night. Any illumination 
that is used must be of a type that will not cause glare or reflection 
that would handicap crewmembers in the performance of their duties. The 
Airplane Flight Manual or other approved manual material must describe 
the means of determining ice formation and must contain information for 
the safe operation of the airplane in icing conditions.

[Doc. No. 26344, 58 FR 18977, Apr. 9, 1993]

                         Miscellaneous Equipment



Sec. 23.1431  Electronic equipment.

    (a) In showing compliance with Sec. 23.1309(b)(1) and (2) with 
respect to radio and electronic equipment and their installations, 
critical environmental conditions must be considered.
    (b) Radio and electronic equipment, controls, and wiring must be 
installed so that operation of any unit or system of units will not 
adversely affect the simultaneous operation of any other radio or 
electronic unit, or system of units, required by this chapter.
    (c) For those airplanes required to have more than one flightcrew 
member, or whose operation will require more than one flightcrew member, 
the cockpit must be evaluated to determine if the flightcrew members, 
when seated at their duty station, can converse without difficulty under 
the actual cockpit noise conditions when the airplane is being operated. 
If the airplane design includes provision for the use of communication 
headsets, the evaluation must also consider conditions where headsets 
are being used. If the evaluation shows conditions under which it will 
be difficult to converse, an intercommunication system must be provided.
    (d) If installed communication equipment includes transmitter ``off-
on'' switching, that switching means must be designed to return from the 
``transmit'' to the ``off'' position when it is released and ensure that 
the transmitter will return to the off (non transmitting) state.
    (e) If provisions for the use of communication headsets are 
provided, it must be demonstrated that the flightcrew members will 
receive all aural warnings under the actual cockpit noise conditions 
when the airplane is being operated when any headset is being used.

[Doc. No. 26344, 58 FR 18977, Apr. 9, 1993, as amended by Amdt. 23-49, 
61 FR 5169, Feb. 9, 1996]



Sec. 23.1435  Hydraulic systems.

    (a) Design. Each hydraulic system must be designed as follows:
    (1) Each hydraulic system and its elements must withstand, without 
yielding, the structural loads expected in addition to hydraulic loads.
    (2) A means to indicate the pressure in each hydraulic system which 
supplies two or more primary functions must be provided to the flight 
crew.
    (3) There must be means to ensure that the pressure, including 
transient (surge) pressure, in any part of the system will not exceed 
the safe limit above design operating pressure and to prevent excessive 
pressure resulting from fluid volumetric changes in all

[[Page 303]]

lines which are likely to remain closed long enough for such changes to 
occur.
    (4) The minimum design burst pressure must be 2.5 times the 
operating pressure.
    (b) Tests. Each system must be substantiated by proof pressure 
tests. When proof tested, no part of any system may fail, malfunction, 
or experience a permanent set. The proof load of each system must be at 
least 1.5 times the maximum operating pressure of that system.
    (c) Accumulators. A hydraulic accumulator or reservoir may be 
installed on the engine side of any firewall if--
    (1) It is an integral part of an engine or propeller system, or
    (2) The reservoir is nonpressurized and the total capacity of all 
such nonpressurized reservoirs is one quart or less.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13096, Aug. 13, 1969; Amdt. 23-14, 38 FR 31824, Nov. 19, 1973; Amdt. 
23-43, 58 FR 18977, Apr. 9, 1993; Amdt. 23-49, 61 FR 5170, Feb. 9, 1996]



Sec. 23.1437  Accessories for multiengine airplanes.

    For multiengine airplanes, engine-driven accessories essential to 
safe operation must be distributed among two or more engines so that the 
failure of any one engine will not impair safe operation through the 
malfunctioning of these accessories.



Sec. 23.1438  Pressurization and pneumatic systems.

    (a) Pressurization system elements must be burst pressure tested to 
2.0 times, and proof pressure tested to 1.5 times, the maximum normal 
operating pressure.
    (b) Pneumatic system elements must be burst pressure tested to 3.0 
times, and proof pressure tested to 1.5 times, the maximum normal 
operating pressure.
    (c) An analysis, or a combination of analysis and test, may be 
substituted for any test required by paragraph (a) or (b) of this 
section if the Administrator finds it equivalent to the required test.

[Amdt. 23-20, 42 FR 36969, July 18, 1977]



Sec. 23.1441  Oxygen equipment and supply.

    (a) If certification with supplemental oxygen equipment is 
requested, or the airplane is approved for operations at or above 
altitudes where oxygen is required to be used by the operating rules, 
oxygen equipment must be provided that meets the requirements of this 
section and Secs. 23.1443 through 23.1449. Portable oxygen equipment may 
be used to meet the requirements of this part if the portable equipment 
is shown to comply with the applicable requirements, is identified in 
the airplane type design, and its stowage provisions are found to be in 
compliance with the requirements of Sec. 23.561.
    (b) The oxygen system must be free from hazards in itself, in its 
method of operation, and its effect upon other components.
    (c) There must be a means to allow the crew to readily determine, 
during the flight, the quantity of oxygen available in each source of 
supply.
    (d) Each required flight crewmember must be provided with--
    (1) Demand oxygen equipment if the airplane is to be certificated 
for operation above 25,000 feet.
    (2) Pressure demand oxygen equipment if the airplane is to be 
certificated for operation above 40,000 feet.
    (e) There must be a means, readily available to the crew in flight, 
to turn on and to shut off the oxygen supply at the high pressure 
source. This shutoff requirement does not apply to chemical oxygen 
generators.

[Amdt. 23-9, 35 FR 6386, Apr. 21, 1970, as amended by Amdt. 23-43, 58 FR 
18978, Apr. 9, 1993]



Sec. 23.1443  Minimum mass flow of supplemental oxygen.

    (a) If continuous flow oxygen equipment is installed, an applicant 
must show compliance with the requirements of either paragraphs (a)(1) 
and (a)(2) or paragraph (a)(3) of this section:
    (1) For each passenger, the minimum mass flow of supplemental oxygen 
required at various cabin pressure altitudes may not be less than the 
flow required to maintain, during inspiration and while using the oxygen 
equipment

[[Page 304]]

(including masks) provided, the following mean tracheal oxygen partial 
pressures:
    (i) At cabin pressure altitudes above 10,000 feet up to and 
including 18,500 feet, a mean tracheal oxygen partial pressure of 100 
mm. Hg when breathing 15 liters per minute, Body Temperature, Pressure, 
Saturated (BTPS) and with a tidal volume of 700 cc. with a constant time 
interval between respirations.
    (ii) At cabin pressure altitudes above 18,500 feet up to and 
including 40,000 feet, a mean tracheal oxygen partial pressure of 83.8 
mm. Hg when breathing 30 liters per minute, BTPS, and with a tidal 
volume of 1,100 cc. with a constant time interval between respirations.
    (2) For each flight crewmember, the minimum mass flow may not be 
less than the flow required to maintain, during inspiration, a mean 
tracheal oxygen partial pressure of 149 mm. Hg when breathing 15 liters 
per minute, BTPS, and with a maximum tidal volume of 700 cc. with a 
constant time interval between respirations.
    (3) The minimum mass flow of supplemental oxygen supplied for each 
user must be at a rate not less than that shown in the following figure 
for each altitude up to and including the maximum operating altitude of 
the airplane.
[GRAPHIC] [TIFF OMITTED] TC28SE91.019

    (b) If demand equipment is installed for use by flight crewmembers, 
the minimum mass flow of supplemental oxygen required for each flight 
crewmember may not be less than the flow required to maintain, during 
inspiration, a mean tracheal oxygen partial pressure of 122 mm. Hg up to 
and including a cabin pressure altitude of 35,000 feet, and 95 percent 
oxygen between cabin pressure altitudes of 35,000 and 40,000 feet, when 
breathing 20 liters per minute BTPS. In addition, there must be means to 
allow the crew to use undiluted oxygen at their discretion.
    (c) If first-aid oxygen equipment is installed, the minimum mass 
flow of oxygen to each user may not be less than 4 liters per minute, 
STPD. However, there may be a means to decrease this flow to not less 
than 2 liters per minute, STPD, at any cabin altitude. The quantity of 
oxygen required is based upon an average flow rate of 3 liters per 
minute per person for whom first-aid oxygen is required.
    (d) As used in this section:
    (1) BTPS means Body Temperature, and Pressure, Saturated (which is, 
37  deg.C, and the ambient pressure to which the body is exposed, minus 
47 mm. Hg,

[[Page 305]]

which is the tracheal pressure displaced by water vapor pressure when 
the breathed air becomes saturated with water vapor at 37  deg.C).
    (2) STPD means Standard, Temperature, and Pressure, Dry (which is, 0 
 deg.C at 760 mm. Hg with no water vapor).

[Doc. No. 26344, 58 FR 18978, Apr. 9, 1993]



Sec. 23.1445  Oxygen distribution system.

    (a) Except for flexible lines from oxygen outlets to the dispensing 
units, or where shown to be otherwise suitable to the installation, 
nonmetallic tubing must not be used for any oxygen line that is normally 
pressurized during flight.
    (b) Nonmetallic oxygen distribution lines must not be routed where 
they may be subjected to elevated temperatures, electrical arcing, and 
released flammable fluids that might result from any probable failure.

[Doc. No. 26344, 58 FR 18978, Apr. 9, 1993]



Sec. 23.1447  Equipment standards for oxygen dispensing units.

    If oxygen dispensing units are installed, the following apply:
    (a) There must be an individual dispensing unit for each occupant 
for whom supplemental oxygen is to be supplied. Each dispensing unit 
must:
    (1) Provide for effective utilization of the oxygen being delivered 
to the unit.
    (2) Be capable of being readily placed into position on the face of 
the user.
    (3) Be equipped with a suitable means to retain the unit in position 
on the face.
    (4) If radio equipment is installed, the flightcrew oxygen 
dispensing units must be designed to allow the use of that equipment and 
to allow communication with any other required crew member while at 
their assigned duty station.
    (b) If certification for operation up to and including 18,000 feet 
(MSL) is requested, each oxygen dispensing unit must:
    (1) Cover the nose and mouth of the user; or
    (2) Be a nasal cannula, in which case one oxygen dispensing unit 
covering both the nose and mouth of the user must be available. In 
addition, each nasal cannula or its connecting tubing must have 
permanently affixed--
    (i) A visible warning against smoking while in use;
    (ii) An illustration of the correct method of donning; and
    (iii) A visible warning against use with nasal obstructions or head 
colds with resultant nasal congestion.
    (c) If certification for operation above 18,000 feet (MSL) is 
requested, each oxygen dispensing unit must cover the nose and mouth of 
the user.
    (d) For a pressurized airplane designed to operate at flight 
altitudes above 25,000 feet (MSL), the dispensing units must meet the 
following:
    (1) The dispensing units for passengers must be connected to an 
oxygen supply terminal and be immediately available to each occupant 
wherever seated.
    (2) The dispensing units for crewmembers must be automatically 
presented to each crewmember before the cabin pressure altitude exceeds 
15,000 feet, or the units must be of the quick-donning type, connected 
to an oxygen supply terminal that is immediately available to 
crewmembers at their station.
    (e) If certification for operation above 30,000 feet is requested, 
the dispensing units for passengers must be automatically presented to 
each occupant before the cabin pressure altitude exceeds 15,000 feet.
    (f) If an automatic dispensing unit (hose and mask, or other unit) 
system is installed, the crew must be provided with a manual means to 
make the dispensing units immediately available in the event of failure 
of the automatic system.

[Amdt. 23-9, 35 FR 6387, Apr. 21, 1970, as amended by Amdt. 23-20, 42 FR 
36969, July 18, 1977; Amdt. 23-30, 49 FR 7340, Feb. 28, 1984; Amdt. 23-
43, 58 FR 18978, Apr. 9, 1993; Amdt. 23-49, 61 FR 5170, Feb. 9, 1996]



Sec. 23.1449  Means for determining use of oxygen.

    There must be a means to allow the crew to determine whether oxygen 
is being delivered to the dispensing equipment.

[Amdt. 23-9, 35 FR 6387, Apr. 21, 1970]

[[Page 306]]



Sec. 23.1450  Chemical oxygen generators.

    (a) For the purpose of this section, a chemical oxygen generator is 
defined as a device which produces oxygen by chemical reaction.
    (b) Each chemical oxygen generator must be designed and installed in 
accordance with the following requirements:
    (1) Surface temperature developed by the generator during operation 
may not create a hazard to the airplane or to its occupants.
    (2) Means must be provided to relieve any internal pressure that may 
be hazardous.
    (c) In addition to meeting the requirements in paragraph (b) of this 
section, each portable chemical oxygen generator that is capable of 
sustained operation by successive replacement of a generator element 
must be placarded to show--
    (1) The rate of oxygen flow, in liters per minute;
    (2) The duration of oxygen flow, in minutes, for the replaceable 
generator element; and
    (3) A warning that the replaceable generator element may be hot, 
unless the element construction is such that the surface temperature 
cannot exceed 100 deg. F.

[Amdt. 23-20, 42 FR 36969, July 18, 1977]



Sec. 23.1451  Fire protection for oxygen equipment.

    Oxygen equipment and lines must:
    (a) Not be installed in any designed fire zones.
    (b) Be protected from heat that may be generated in, or escape from, 
any designated fire zone.
    (c) Be installed so that escaping oxygen cannot come in contact with 
and cause ignition of grease, fluid, or vapor accumulations that are 
present in normal operation or that may result from the failure or 
malfunction of any other system.

[Doc. No. 27806, 61 FR 5170, Feb. 9, 1996]



Sec. 23.1453  Protection of oxygen equipment from rupture.

    (a) Each element of the oxygen system must have sufficient strength 
to withstand the maximum pressure and temperature, in combination with 
any externally applied loads arising from consideration of limit 
structural loads, that may be acting on that part of the system.
    (b) Oxygen pressure sources and the lines between the source and the 
shutoff means must be:
    (1) Protected from unsafe temperatures; and
    (2) Located where the probability and hazard of rupture in a crash 
landing are minimized.

[Doc. No. 27806, 61 FR 5170, Feb. 9, 1996]



Sec. 23.1457  Cockpit voice recorders.

    (a) Each cockpit voice recorder required by the operating rules of 
this chapter must be approved and must be installed so that it will 
record the following:
    (1) Voice communications transmitted from or received in the 
airplane by radio.
    (2) Voice communications of flight crewmembers on the flight deck.
    (3) Voice communications of flight crewmembers on the flight deck, 
using the airplane's interphone system.
    (4) Voice or audio signals identifying navigation or approach aids 
introduced into a headset or speaker.
    (5) Voice communications of flight crewmembers using the passenger 
loudspeaker system, if there is such a system and if the fourth channel 
is available in accordance with the requirements of paragraph (c)(4)(ii) 
of this section.
    (b) The recording requirements of paragraph (a)(2) of this section 
must be met by installing a cockpit-mounted area microphone, located in 
the best position for recording voice communications originating at the 
first and second pilot stations and voice communications of other 
crewmembers on the flight deck when directed to those stations. The 
microphone must be so located and, if necessary, the preamplifiers and 
filters of the recorder must be so adjusted or supplemented, so that the 
intelligibility of the recorded communications is as high as practicable 
when recorded under flight cockpit noise conditions and played back. 
Repeated aural or visual playback of the record may be used in 
evaluating intelligibility.

[[Page 307]]

    (c) Each cockpit voice recorder must be installed so that the part 
of the communication or audio signals specified in paragraph (a) of this 
section obtained from each of the following sources is recorded on a 
separate channel:
    (1) For the first channel, from each boom, mask, or handheld 
microphone, headset, or speaker used at the first pilot station.
    (2) For the second channel from each boom, mask, or handheld 
microphone, headset, or speaker used at the second pilot station.
    (3) For the third channel--from the cockpit-mounted area microphone.
    (4) For the fourth channel from:
    (i) Each boom, mask, or handheld microphone, headset, or speaker 
used at the station for the third and fourth crewmembers.
    (ii) If the stations specified in paragraph (c)(4)(i) of this 
section are not required or if the signal at such a station is picked up 
by another channel, each microphone on the flight deck that is used with 
the passenger loudspeaker system, if its signals are not picked up by 
another channel.
    (5) And that as far as is practicable all sounds received by the 
microphone listed in paragraphs (c)(1), (2), and (4) of this section 
must be recorded without interruption irrespective of the position of 
the interphone-transmitter key switch. The design shall ensure that 
sidetone for the flight crew is produced only when the interphone, 
public address system, or radio transmitters are in use.
    (d) Each cockpit voice recorder must be installed so that:
    (1) It receives its electric power from the bus that provides the 
maximum reliability for operation of the cockpit voice recorder without 
jeopardizing service to essential or emergency loads.
    (2) There is an automatic means to simultaneously stop the recorder 
and prevent each erasure feature from functioning, within 10 minutes 
after crash impact; and
    (3) There is an aural or visual means for preflight checking of the 
recorder for proper operation.
    (e) The record container must be located and mounted to minimize the 
probability of rupture of the container as a result of crash impact and 
consequent heat damage to the record from fire. In meeting this 
requirement, the record container must be as far aft as practicable, but 
may not be where aft mounted engines may crush the container during 
impact. However, it need not be outside of the pressurized compartment.
    (f) If the cockpit voice recorder has a bulk erasure device, the 
installation must be designed to minimize the probability of inadvertent 
operation and actuation of the device during crash impact.
    (g) Each recorder container must:
    (1) Be either bright orange or bright yellow;
    (2) Have reflective tape affixed to its external surface to 
facilitate its location under water; and
    (3) Have an underwater locating device, when required by the 
operating rules of this chapter, on or adjacent to the container which 
is secured in such manner that they are not likely to be separated 
during crash impact.

[Amdt. 23-35, 53 FR 26142, July 11, 1988]



Sec. 23.1459  Flight recorders.

    (a) Each flight recorder required by the operating rules of this 
chapter must be installed so that:
    (1) It is supplied with airspeed, altitude, and directional data 
obtained from sources that meet the accuracy requirements of 
Secs. 23.1323, 23.1325, and 23.1327, as appropriate;
    (2) The vertical acceleration sensor is rigidly attached, and 
located longitudinally either within the approved center of gravity 
limits of the airplane, or at a distance forward or aft of these limits 
that does not exceed 25 percent of the airplane's mean aerodynamic 
chord;
    (3) It receives its electrical power power from the bus that 
provides the maximum reliability for operation of the flight recorder 
without jeopardizing service to essential or emergency loads;
    (4) There is an aural or visual means for preflight checking of the 
recorder for proper recording of data in the storage medium.

[[Page 308]]

    (5) Except for recorders powered solely by the engine-driven 
electrical generator system, there is an automatic means to 
simultaneously stop a recorder that has a data erasure feature and 
prevent each erasure feature from functioning, within 10 minutes after 
crash impact; and
    (b) Each nonejectable record container must be located and mounted 
so as to minimize the probability of container rupture resulting from 
crash impact and subsequent damage to the record from fire. In meeting 
this requirement the record container must be located as far aft as 
practicable, but need not be aft of the pressurized compartment, and may 
not be where aft-mounted engines may crush the container upon impact.
    (c) A correlation must be established between the flight recorder 
readings of airspeed, altitude, and heading and the corresponding 
readings (taking into account correction factors) of the first pilot's 
instruments. The correlation must cover the airspeed range over which 
the airplane is to be operated, the range of altitude to which the 
airplane is limited, and 360 degrees of heading. Correlation may be 
established on the ground as appropriate.
    (d) Each recorder container must:
    (1) Be either bright orange or bright yellow;
    (2) Have reflective tape affixed to its external surface to 
facilitate its location under water; and
    (3) Have an underwater locating device, when required by the 
operating rules of this chapter, on or adjacent to the container which 
is secured in such a manner that they are not likely to be separated 
during crash impact.
    (e) Any novel or unique design or operational characteristics of the 
aircraft shall be evaluated to determine if any dedicated parameters 
must be recorded on flight recorders in addition to or in place of 
existing requirements. CITA[Amdt. 23-35, 53 FR 26143, July 
11, 1988]



Sec. 23.1461  Equipment containing high energy rotors.

    (a) Equipment, such as Auxiliary Power Units (APU) and constant 
speed drive units, containing high energy rotors must meet paragraphs 
(b), (c), or (d) of this section.
    (b) High energy rotors contained in equipment must be able to 
withstand damage caused by malfunctions, vibration, abnormal speeds, and 
abnormal temperatures. In addition--
    (1) Auxiliary rotor cases must be able to contain damage caused by 
the failure of high energy rotor blades; and
    (2) Equipment control devices, systems, and instrumentation must 
reasonably ensure that no operating limitations affecting the integrity 
of high energy rotors will be exceeded in service.
    (c) It must be shown by test that equipment containing high energy 
rotors can contain any failure of a high energy rotor that occurs at the 
highest speed obtainable with the normal speed control devices 
inoperative.
    (d) Equipment containing high energy rotors must be located where 
rotor failure will neither endanger the occupants nor adversely affect 
continued safe flight.

[Amdt. 23-20, 42 FR 36969, July 18, 1977, as amended by Amdt. 23-49, 61 
FR 5170, Feb. 9, 1996]



            Subpart G--Operating Limitations and Information



Sec. 23.1501  General.

    (a) Each operating limitation specified in Secs. 23.1505 through 
23.1527 and other limitations and information necessary for safe 
operation must be established.
    (b) The operating limitations and other information necessary for 
safe operation must be made available to the crewmembers as prescribed 
in Secs. 23.1541 through 23.1589.

[Amdt. 23-21, 43 FR 2319, Jan. 16, 1978]



Sec. 23.1505  Airspeed limitations.

    (a) The never-exceed speed VNE must be established so 
that it is--
    (1) Not less than 0.9 times the minimum value of VD 
allowed under Sec. 23.335; and
    (2) Not more than the lesser of--
    (i) 0.9 VD established under Sec. 23.335; or
    (ii) 0.9 times the maximum speed shown under Sec. 23.251.

[[Page 309]]

    (b) The maximum structural cruising speed VNO must be 
established so that it is--
    (1) Not less than the minimum value of VC allowed under 
Sec. 23.335; and
    (2) Not more than the lesser of--
    (i) VC established under Sec. 23.335; or
    (ii) 0.89 VNE established under paragraph (a) of this 
section.
    (c) Paragraphs (a) and (b) of this section do not apply to turbine 
airplanes or to airplanes for which a design diving speed VD/
MD is established under Sec. 23.335(b)(4). For those 
airplanes, a maximum operating limit speed (VMO/
MMO-airspeed or Mach number, whichever is critical at a 
particular altitude) must be established as a speed that may not be 
deliberately exceeded in any regime of flight (climb, cruise, or 
descent) unless a higher speed is authorized for flight test or pilot 
training operations. VMO/MMO must be established 
so that it is not greater than the design cruising speed VC/
MC and so that it is sufficiently below VD/MD 
and the maximum speed shown under Sec. 23.251 to make it highly 
improbable that the latter speeds will be inadvertently exceeded in 
operations. The speed margin between VMO/MMO and 
VD/MD or the maximum speed shown under Sec. 23.251 
may not be less than the speed margin established between VC/
MC and VD/MD under Sec. 23.335(b), or 
the speed margin found necessary in the flight test conducted under 
Sec. 23.253.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13096, Aug. 13, 1969]



Sec. 23.1507  Operating maneuvering speed.

    The maximum operating maneuvering speed, VO, must be 
established as an operating limitation. VO is a selected 
speed that is not greater than VSn established in 
Sec. 23.335(c).

[Doc. No. 26269, 58 FR 42165, Aug. 6, 1993]



Sec. 23.1511  Flap extended speed.

    (a) The flap extended speed VFE must be established so 
that it is--
    (1) Not less than the minimum value of VF allowed in 
Sec. 23.345(b); and
    (2) Not more than VF established under Sec. 23.345(a), 
(c), and (d).
    (i) VF established under Sec. 23.345; or
    (ii) VF established under Sec. 23.457.
    (b) Additional combinations of flap setting, airspeed, and engine 
power may be established if the structure has been proven for the 
corresponding design conditions.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-50, 61 FR 5192, Feb. 9, 1996]



Sec. 23.1513  Minimum control speed.

    The minimum control speed VMC, determined under 
Sec. 23.149, must be established as an operating limitation.



Sec. 23.1519  Weight and center of gravity.

    The weight and center of gravity limitations determined under 
Sec. 23.23 must be established as operating limitations.



Sec. 23.1521  Powerplant limitations.

    (a) General. The powerplant limitations prescribed in this section 
must be established so that they do not exceed the corresponding limits 
for which the engines or propellers are type certificated. In addition, 
other powerplant limitations used in determining compliance with this 
part must be established.
    (b) Takeoff operation. The powerplant takeoff operation must be 
limited by--
    (1) The maximum rotational speed (rpm);
    (2) The maximum allowable manifold pressure (for reciprocating 
engines);
    (3) The maximum allowable gas temperature (for turbine engines);
    (4) The time limit for the use of the power or thrust corresponding 
to the limitations established in paragraphs (b)(1) through (3) of this 
section; and
    (5) The maximum allowable cylinder head (as applicable), liquid 
coolant and oil temperatures.
    (c) Continuous operation. The continuous operation must be limited 
by--
    (1) The maximum rotational speed;
    (2) The maximum allowable manifold pressure (for reciprocating 
engines);
    (3) The maximum allowable gas temperature (for turbine engines); and
    (4) The maximum allowable cylinder head, oil, and liquid coolant 
temperatures.
    (d) Fuel grade or designation. The minimum fuel grade (for 
reciprocating engines), or fuel designation (for turbine engines), must 
be established so that it is not less than that required for the

[[Page 310]]

operation of the engines within the limitations in paragraphs (b) and 
(c) of this section.
    (e) Ambient temperature. For all airplanes except reciprocating 
engine-powered airplanes of 6,000 pounds or less maximum weight, ambient 
temperature limitations (including limitations for winterization 
installations if applicable) must be established as the maximum ambient 
atmospheric temperature at which compliance with the cooling provisions 
of Secs. 23.1041 through 23.1047 is shown.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-21, 43 FR 2319, Jan. 16, 1978; Amdt. 23-45, 58 FR 
42165, Aug. 6, 1993; Amdt. 23-50, 61 FR 5192, Feb. 9, 1996]



Sec. 23.1522  Auxiliary power unit limitations.

    If an auxiliary power unit is installed, the limitations established 
for the auxiliary power must be specified in the operating limitations 
for the airplane.[Doc. No. 26269, 58 FR 42166, Aug. 6, 1993]



Sec. 23.1523  Minimum flight crew.

    The minimum flight crew must be established so that it is sufficient 
for safe operation considering--
    (a) The workload on individual crewmembers and, in addition for 
commuter category airplanes, each crewmember workload determination must 
consider the following:
    (1) Flight path control,
    (2) Collision avoidance,
    (3) Navigation,
    (4) Communications,
    (5) Operation and monitoring of all essential airplane systems,
    (6) Command decisions, and
    (7) The accessibility and ease of operation of necessary controls by 
the appropriate crewmember during all normal and emergency operations 
when at the crewmember flight station;
    (b) The accessibility and ease of operation of necessary controls by 
the appropriate crewmember; and
    (c) The kinds of operation authorized under Sec. 23.1525.

[Amdt. 23-21, 43 FR 2319, Jan. 16, 1978, as amended by Amdt. 23-34, 52 
FR 1834, Jan. 15, 1987]



Sec. 23.1524  Maximum passenger seating configuration.

    The maximum passenger seating configuration must be established.

[Amdt. 23-10, 36 FR 2864, Feb. 11, 1971]



Sec. 23.1525  Kinds of operation.

    The kinds of operation authorized (e.g. VFR, IFR, day or night) and 
the meteorological conditions (e.g. icing) to which the operation of the 
airplane is limited or from which it is prohibited, must be established 
appropriate to the installed equipment.

[Doc. No. 26269, 58 FR 42166, Aug. 6, 1993]



Sec. 23.1527  Maximum operating altitude.

    (a) The maximum altitude up to which operation is allowed, as 
limited by flight, structural, powerplant, functional or equipment 
characteristics, must be established.
    (b) A maximum operating altitude limitation of not more than 25,000 
feet must be established for pressurized airplanes unless compliance 
with Sec. 23.775(e) is shown.

[Doc. No. 26269, 58 FR 42166, Aug. 6, 1993]



Sec. 23.1529  Instructions for Continued Airworthiness.

    The applicant must prepare Instructions for Continued Airworthiness 
in accordance with appendix G to this part that are acceptable to the 
Administrator. The instructions may be incomplete at type certification 
if a program exists to ensure their completion prior to delivery of the 
first airplane or issuance of a standard certificate of airworthiness, 
whichever occurs later.

[Amdt. 23-26, 45 FR 60171, Sept. 11, 1980]

                          Markings And Placards



Sec. 23.1541  General.

    (a) The airplane must contain--
    (1) The markings and placards specified in Secs. 23.1545 through 
23.1567; and
    (2) Any additional information, instrument markings, and placards 
required for the safe operation if it has unusual design, operating, or 
handling characteristics.
    (b) Each marking and placard prescribed in paragraph (a) of this 
section--

[[Page 311]]

    (1) Must be displayed in a conspicuous place; and
    (2) May not be easily erased, disfigured, or obscured.
    (c) For airplanes which are to be certificated in more than one 
category--
    (1) The applicant must select one category upon which the placards 
and markings are to be based; and
    (2) The placards and marking information for all categories in which 
the airplane is to be certificated must be furnished in the Airplane 
Flight Manual.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-21, 43 FR 2319, Jan. 16, 1978]



Sec. 23.1543  Instrument markings: General.

    For each instrument--
    (a) When markings are on the cover glass of the instrument, there 
must be means to maintain the correct alignment of the glass cover with 
the face of the dial; and
    (b) Each arc and line must be wide enough and located to be clearly 
visible to the pilot.
    (c) All related instruments must be calibrated in compatible units.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-50, 61 FR 5192, Feb. 9, 1996]



Sec. 23.1545  Airspeed indicator.

    (a) Each airspeed indicator must be marked as specified in paragraph 
(b) of this section, with the marks located at the corresponding 
indicated airspeeds.
    (b) The following markings must be made:
    (1) For the never-exceed speed VNE, a radial red line.
    (2) For the caution range, a yellow arc extending from the red line 
specified in paragraph (b)(1) of this section to the upper limit of the 
green arc specified in paragraph (b)(3) of this section.
    (3) For the normal operating range, a green arc with the lower limit 
at VS1 with maximum weight and with landing gear and wing 
flaps retracted, and the upper limit at the maximum structural cruising 
speed VNO established under Sec. 23.1505(b).
    (4) For the flap operating range, a white arc with the lower limit 
at VS0 at the maximum weight, and the upper limit at the 
flaps-extended speed VFE established under Sec. 23.1511.
    (5) For reciprocating multiengine-powered airplanes of 6,000 pounds 
or less maximum weight, for the speed at which compliance has been shown 
with Sec. 23.69(b) relating to rate of climb at maximum weight and at 
sea level, a blue radial line.
    (6) For reciprocating multiengine-powered airplanes of 6,000 pounds 
or less maximum weight, for the maximum value of minimum control speed, 
VMC, (one-engine-inoperative) determined under 
Sec. 23.149(b), a red radial line.
    (c) If VNE or VNO vary with altitude, there 
must be means to indicate to the pilot the appropriate limitations 
throughout the operating altitude range.
    (d) Paragraphs (b)(1) through (b)(3) and paragraph (c) of this 
section do not apply to aircraft for which a maximum operating speed 
VMO/MMO is established under Sec. 23.1505(c). For 
those aircraft there must either be a maximum allowable airspeed 
indication showing the variation of VMO/MMO with 
altitude or compressibility limitations (as appropriate), or a radial 
red line marking for VMO/MMO must be made at 
lowest value of VMO/MMO established for any 
altitude up to the maximum operating altitude for the airplane.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-3, 30 
FR 14240, Nov. 13, 1965; Amdt. 23-7, 34 FR 13097, Aug. 13, 1969; Amdt. 
23-23, 43 FR 50593, Oct. 30, 1978; Amdt. 23-50, 61 FR 5193, Feb. 9, 
1996]



Sec. 23.1547  Magnetic direction indicator.

    (a) A placard meeting the requirements of this section must be 
installed on or near the magnetic direction indicator.
    (b) The placard must show the calibration of the instrument in level 
flight with the engines operating.
    (c) The placard must state whether the calibration was made with 
radio receivers on or off.
    (d) Each calibration reading must be in terms of magnetic headings 
in not more than 30 degree increments.
    (e) If a magnetic nonstabilized direction indicator can have a 
deviation of

[[Page 312]]

more than 10 degrees caused by the operation of electrical equipment, 
the placard must state which electrical loads, or combination of loads, 
would cause a deviation of more than 10 degrees when turned on.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-20, 42 FR 36969, July 18, 1977]



Sec. 23.1549  Powerplant and auxiliary power unit instruments.

    For each required powerplant and auxiliary power unit instrument, as 
appropriate to the type of instruments--
    (a) Each maximum and, if applicable, minimum safe operating limit 
must be marked with a red radial or a red line;
    (b) Each normal operating range must be marked with a green arc or 
green line, not extending beyond the maximum and minimum safe limits;
    (c) Each takeoff and precautionary range must be marked with a 
yellow arc or a yellow line; and
    (d) Each engine, auxiliary power unit, or propeller range that is 
restricted because of excessive vibration stresses must be marked with 
red arcs or red lines.

[Amdt. 23-12, 41 FR 55466, Dec. 20, 1976, as amended by Amdt. 23-28, 47 
FR 13315, Mar. 29, 1982; Amdt. 23-45, 58 FR 42166, Aug. 6, 1993]



Sec. 23.1551  Oil quantity indicator.

    Each oil quantity indicator must be marked in sufficient increments 
to indicate readily and accurately the quantity of oil.



Sec. 23.1553  Fuel quantity indicator.

    A red radial line must be marked on each indicator at the calibrated 
zero reading, as specified in Sec. 23.1337(b)(1).

[Doc. No. 27807, 61 FR 5193, Feb. 9, 1996]



Sec. 23.1555  Control markings.

    (a) Each cockpit control, other than primary flight controls and 
simple push button type starter switches, must be plainly marked as to 
its function and method of operation.
    (b) Each secondary control must be suitably marked.
    (c) For powerplant fuel controls--
    (1) Each fuel tank selector control must be marked to indicate the 
position corresponding to each tank and to each existing cross feed 
position;
    (2) If safe operation requires the use of any tanks in a specific 
sequence, that sequence must be marked on or near the selector for those 
tanks;
    (3) The conditions under which the full amount of usable fuel in any 
restricted usage fuel tank can safely be used must be stated on a 
placard adjacent to the selector valve for that tank; and
    (4) Each valve control for any engine of a multiengine airplane must 
be marked to indicate the position corresponding to each engine 
controlled.
    (d) Usable fuel capacity must be marked as follows:
    (1) For fuel systems having no selector controls, the usable fuel 
capacity of the system must be indicated at the fuel quantity indicator.
    (2) For fuel systems having selector controls, the usable fuel 
capacity available at each selector control position must be indicated 
near the selector control.
    (e) For accessory, auxiliary, and emergency controls--
    (1) If retractable landing gear is used, the indicator required by 
Sec. 23.729 must be marked so that the pilot can, at any time, ascertain 
that the wheels are secured in the extreme positions; and
    (2) Each emergency control must be red and must be marked as to 
method of operation. No control other than an emergency control, or a 
control that serves an emergency function in addition to its other 
functions, shall be this color.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-21, 43 FR 2319, Jan. 16, 1978; Amdt. 23-50, 61 FR 
5193, Feb. 9, 1996]



Sec. 23.1557  Miscellaneous markings and placards.

    (a) Baggage and cargo compartments, and ballast location. Each 
baggage and cargo compartment, and each ballast location, must have a 
placard stating any limitations on contents, including weight, that are 
necessary under the loading requirements.
    (b) Seats. If the maximum allowable weight to be carried in a seat 
is less than 170 pounds, a placard stating the

[[Page 313]]

lesser weight must be permanently attached to the seat structure.
    (c) Fuel, oil, and coolant filler openings. The following apply:
    (1) Fuel filter openings must be marked at or near the filler cover 
with--
    (i) For reciprocating engine-powered airplanes--
    (A) The word ``Avgas''; and
    (B) The minimum fuel grade.
    (ii) For turbine engine-powered airplanes--
    (A) The words ``Jet Fuel''; and
    (B) The permissible fuel designations, or references to the Airplane 
Flight Manual (AFM) for permissible fuel designations.
    (iii) For pressure fueling systems, the maximum permissible fueling 
supply pressure and the maximum permissible defueling pressure.
    (2) Oil filler openings must be marked at or near the filler cover 
with the word ``Oil'' and the permissible oil designations, or 
references to the Airplane Flight Manual (AFM) for permissible oil 
designations.
    (3) Coolant filler openings must be marked at or near the filler 
cover with the word ``Coolant''.
    (d) Emergency exit placards. Each placard and operating control for 
each emergency exit must be red. A placard must be near each emergency 
exit control and must clearly indicate the location of that exit and its 
method of operation.
    (e) The system voltage of each direct current installation must be 
clearly marked adjacent to its exernal power connection.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; as amended by Amdt. 23-21, 
42 FR 15042, Mar. 17, 1977; Amdt. 23-23, 43 FR 50594, Oct. 30, 1978; 
Amdt. 23-45, 58 FR 42166, Aug. 6, 1993]



Sec. 23.1559  Operating limitations placard.

    (a) There must be a placard in clear view of the pilot stating--
    (1) That the airplane must be operated in accordance with the 
Airplane Flight Manual; and
    (2) The certification category of the airplane to which the placards 
apply.
    (b) For airplanes certificated in more than one category, there must 
be a placard in clear view of the pilot stating that other limitations 
are contained in the Airplane Flight Manual.
    (c) There must be a placard in clear view of the pilot that 
specifies the kind of operations to which the operation of the airplane 
is limited or from which it is prohibited under Sec. 23.1525.

[Doc. No. 27807, 61 FR 5193, Feb. 9, 1996]



Sec. 23.1561  Safety equipment.

    (a) Safety equipment must be plainly marked as to method of 
operation.
    (b) Stowage provisions for required safety equipment must be marked 
for the benefit of occupants.



Sec. 23.1563  Airspeed placards.

    There must be an airspeed placard in clear view of the pilot and as 
close as practicable to the airspeed indicator. This placard must list--
    (a) The operating maneuvering speed, VO; and
    (b) The maximum landing gear operating speed VLO.
    (c) For reciprocating multiengine-powered airplanes of more than 
6,000 pounds maximum weight, and turbine engine-powered airplanes, the 
maximum value of the minimum control speed, VMC (one-engine-
inoperative) determined under Sec. 23.149(b).

[Amdt. 23-7, 34 FR 13097, Aug. 13, 1969, as amended by Amdt. 23-45, 58 
FR 42166, Aug. 6, 1993; Amdt. 23-50, 61 FR 5193, Feb. 9, 1996]



Sec. 23.1567  Flight maneuver placard.

    (a) For normal category airplanes, there must be a placard in front 
of and in clear view of the pilot stating: ``No acrobatic maneuvers, 
including spins, approved.''
    (b) For utility category airplanes, there must be--
    (1) A placard in clear view of the pilot stating: ``Acrobatic 
maneuvers are limited to the following ------'' (list approved maneuvers 
and the recommended entry speed for each); and
    (2) For those airplanes that do not meet the spin requirements for 
acrobatic category airplanes, an additional placard in clear view of the 
pilot stating: ``Spins Prohibited.''
    (c) For acrobatic category airplanes, there must be a placard in 
clear view of the pilot listing the approved acrobatic maneuvers and the 
recommended entry

[[Page 314]]

airspeed for each. If inverted flight maneuvers are not approved, the 
placard must bear a notation to this effect.
    (d) For acrobatic category airplanes and utility category airplanes 
approved for spinning, there must be a placard in clear view of the 
pilot--
    (1) Listing the control actions for recovery from spinning 
maneuvers; and
    (2) Stating that recovery must be initiated when spiral 
characteristics appear, or after not more than six turns or not more 
than any greater number of turns for which the airplane has been 
certificated.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964; 30 FR 258, Jan. 9, 1965, as 
amended by Amdt. 23-13, 37 FR 20023, Sept. 23, 1972; Amdt. 23-21, 43 FR 
2319, Jan. 16, 1978; Amdt. 23-50, 61 FR 5193, Feb. 9, 1996]

           Airplane Flight Manual and Approved Manual Material



Sec. 23.1581  General.

    (a) Furnishing information. An Airplane Flight Manual must be 
furnished with each airplane, and it must contain the following:
    (1) Information required by Secs. 23.1583 through 23.1589.
    (2) Other information that is necessary for safe operation because 
of design, operating, or handling characteristics.
    (3) Further information necessary to comply with the relevant 
operating rules.
    (b) Approved information. (1) Except as provided in paragraph (b)(2) 
of this section, each part of the Airplane Flight Manual containing 
information prescribed in Secs. 23.1583 through 23.1589 must be 
approved, segregated, identified and clearly distinguished from each 
unapproved part of that Airplane Flight Manual.
    (2) The requirements of paragraph (b)(1) of this section do not 
apply to reciprocating engine-powered airplanes of 6,000 pounds or less 
maximum weight, if the following is met:
    (i) Each part of the Airplane Flight Manual containing information 
prescribed in Sec. 23.1583 must be limited to such information, and must 
be approved, identified, and clearly distinguished from each other part 
of the Airplane Flight Manual.
    (ii) The information prescribed in Secs. 23.1585 through 23.1589 
must be determined in accordance with the applicable requirements of 
this part and presented in its entirety in a manner acceptable to the 
Administrator.
    (3) Each page of the Airplane Flight Manual containing information 
prescribed in this section must be of a type that is not easily erased, 
disfigured, or misplaced, and is capable of being inserted in a manual 
provided by the applicant, or in a folder, or in any other permanent 
binder.
    (c) The units used in the Airplane Flight Manual must be the same as 
those marked on the appropriate instruments and placards.
    (d) All Airplane Flight Manual operational airspeeds, unless 
otherwise specified, must be presented as indicated airspeeds.
    (e) Provision must be made for stowing the Airplane Flight Manual in 
a suitable fixed container which is readily accessible to the pilot.
    (f) Revisions and amendments. Each Airplane Flight Manual (AFM) must 
contain a means for recording the incorporation of revisions and 
amendments.

[Amdt. 23-21, 43 FR 2319, Jan. 16, 1978, as amended by Amdt. 23-34, 52 
FR 1834, Jan. 15, 1987; Amdt. 23-45, 58 FR 42166, Aug. 6, 1993; Amdt. 
23-50, 61 FR 5193, Feb. 9, 1996]



Sec. 23.1583  Operating limitations.

    The Airplane Flight Manual must contain operating limitations 
determined under this part 23, including the following--
    (a) Airspeed limitations. The following information must be 
furnished:
    (1) Information necessary for the marking of the airspeed limits on 
the indicator as required in Sec. 23.1545, and the significance of each 
of those limits and of the color coding used on the indicator.
    (2) The speeds VMC, VO, VLE, and 
VLO, if established, and their significance.
    (3) In addition, for turbine powered commuter category airplanes--
    (i) The maximum operating limit speed, VMO/MMO 
and a statement that this speed must not be deliberately exceeded in any 
regime of flight (climb, cruise or descent) unless a higher speed

[[Page 315]]

is authorized for flight test or pilot training;
    (ii) If an airspeed limitation is based upon compressibility 
effects, a statement to this effect and information as to any symptoms, 
the probable behavior of the airplane, and the recommended recovery 
procedures; and
    (iii) The airspeed limits must be shown in terms of VMO/
MMO instead of VNO and VNE.
    (b) Powerplant limitations. The following information must be 
furnished:
    (1) Limitations required by Sec. 23.1521.
    (2) Explanation of the limitations, when appropriate.
    (3) Information necessary for marking the instruments required by 
Sec. 23.1549 through Sec. 23.1553.
    (c) Weight. The airplane flight manual must include--
    (1) The maximum weight; and
    (2) The maximum landing weight, if the design landing weight 
selected by the applicant is less than the maximum weight.
    (3) For normal, utility, and acrobatic category reciprocating 
engine-powered airplanes of more than 6,000 pounds maximum weight and 
for turbine engine-powered airplanes in the normal, utility, and 
acrobatic category, performance operating limitations as follows--
    (i) The maximum takeoff weight for each airport altitude and ambient 
temperature within the range selected by the applicant at which the 
airplane complies with the climb requirements of Sec. 23.63(c)(1).
    (ii) The maximum landing weight for each airport altitude and 
ambient temperature within the range selected by the applicant at which 
the airplane complies with the climb requirements of Sec. 23.63(c)(2).
    (4) For commuter category airplanes, the maximum takeoff weight for 
each airport altitude and ambient temperature within the range selected 
by the applicant at which--
    (i) The airplane complies with the climb requirements of 
Sec. 23.63(d)(1); and
    (ii) The accelerate-stop distance determined under Sec. 23.55 is 
equal to the available runway length plus the length of any stopway, if 
utilized; and either:
    (iii) The takeoff distance determined under Sec. 23.59(a) is equal 
to the available runway length; or
    (iv) At the option of the applicant, the takeoff distance determined 
under Sec. 23.59(a) is equal to the available runway length plus the 
length of any clearway and the takeoff run determined under 
Sec. 23.59(b) is equal to the available runway length.
    (5) For commuter category airplanes, the maximum landing weight for 
each airport altitude within the range selected by the applicant at 
which--
    (i) The airplane complies with the climb requirements of 
Sec. 23.63(d)(2) for ambient temperatures within the range selected by 
the applicant; and
    (ii) The landing distance determined under Sec. 23.75 for standard 
temperatures is equal to the available runway length.
    (6) The maximum zero wing fuel weight, where relevant, as 
established in accordance with Sec. 23.343.
    (d) Center of gravity. The established center of gravity limits.
    (e) Maneuvers. The following authorized maneuvers, appropriate 
airspeed limitations, and unauthorized maneuvers, as prescribed in this 
section.
    (1) Normal category airplanes. No acrobatic maneuvers, including 
spins, are authorized.
    (2) Utility category airplanes. A list of authorized maneuvers 
demonstrated in the type flight tests, together with recommended entry 
speeds and any other associated limitations. No other maneuver is 
authorized.
    (3) Acrobatic category airplanes. A list of approved flight 
maneuvers demonstrated in the type flight tests, together with 
recommended entry speeds and any other associated limitations.
    (4) Acrobatic category airplanes and utility category airplanes 
approved for spinning. Spin recovery procedure established to show 
compliance with Sec. 23.221(c).
    (5) Commuter category airplanes. Maneuvers are limited to any 
maneuver incident to normal flying, stalls, (except whip stalls) and 
steep turns in which the angle of bank is not more than 60 degrees.

[[Page 316]]

    (f) Maneuver load factor. The positive limit load factors in g's, 
and, in addition, the negative limit load factor for acrobatic category 
airplanes.
    (g) Minimum flight crew. The number and functions of the minimum 
flight crew determined under Sec. 23.1523.
    (h) Kinds of operation. A list of the kinds of operation to which 
the airplane is limited or from which it is prohibited under 
Sec. 23.1525, and also a list of installed equipment that affects any 
operating limitation and identification as to the equipment's required 
operational status for the kinds of operation for which approval has 
been given.
    (i) Maximum operating altitude. The maximum altitude established 
under Sec. 23.1527.
    (j) Maximum passenger seating configuration. The maximum passenger 
seating configuration.
    (k) Allowable lateral fuel loading. The maximum allowable lateral 
fuel loading differential, if less than the maximum possible.
    (l) Baggage and cargo loading. The following information for each 
baggage and cargo compartment or zone--
    (1) The maximum allowable load; and
    (2) The maximum intensity of loading.
    (m) Systems. Any limitations on the use of airplane systems and 
equipment.
    (n) Ambient temperatures. Where appropriate, maximum and minimum 
ambient air temperatures for operation.
    (o) Smoking. Any restrictions on smoking in the airplane.
    (p) Types of surface. A statement of the types of surface on which 
operations may be conducted. (See Sec. 23.45(g) and Sec. 23.1587 (a)(4), 
(c)(2), and (d)(4)).

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13097, Aug. 13, 1969; Amdt. 23-10, 36 FR 2864, Feb. 11, 1971; Amdt. 
23-21, 43 FR 2320, Jan. 16, 1978; Amdt. 23-23, 43 FR 50594, Oct. 30, 
1978; Amdt. 23-34, 52 FR 1834, Jan. 15, 1987; Amdt. 23-45, 58 FR 42166, 
Aug. 6, 1993; Amdt. 23-50, 61 FR 5193, Feb. 9, 1996]



Sec. 23.1585  Operating procedures.

    (a) For all airplanes, information concerning normal, abnormal (if 
applicable), and emergency procedures and other pertinent information 
necessary for safe operation and the achievement of the scheduled 
performance must be furnished, including--
    (1) An explanation of significant or unusual flight or ground 
handling characteristics;
    (2) The maximum demonstrated values of crosswind for takeoff and 
landing, and procedures and information pertinent to operations in 
crosswinds;
    (3) A recommended speed for flight in rough air. This speed must be 
chosen to protect against the occurrence, as a result of gusts, of 
structural damage to the airplane and loss of control (for example, 
stalling);
    (4) Procedures for restarting any turbine engine in flight, 
including the effects of altitude; and
    (5) Procedures, speeds, and configuration(s) for making a normal 
approach and landing, in accordance with Secs. 23.73 and 23.75, and a 
transition to the balked landing condition.
    (6) For seaplanes and amphibians, water handling procedures and the 
demonstrated wave height.
    (b) In addition to paragraph (a) of this section, for all single-
engine airplanes, the procedures, speeds, and configuration(s) for a 
glide following engine failure, in accordance with Sec. 23.71 and the 
subsequent forced landing, must be furnished.
    (c) In addition to paragraph (a) of this section, for all 
multiengine airplanes, the following information must be furnished:
    (1) Procedures, speeds, and configuration(s) for making an approach 
and landing with one engine inoperative;
    (2) Procedures, speeds, and configuration(s) for making a balked 
landing with one engine inoperative and the conditions under which a 
balked landing can be performed safely, or a warning against attempting 
a balked landing;
    (3) The VSSE determined in Sec. 23.149; and
    (4) Procedures for restarting any engine in flight including the 
effects of altitude.
    (d) In addition to paragraphs (a) and either (b) or (c) of this 
section, as appropriate, for all normal, utility, and acrobatic category 
airplanes, the following information must be furnished:
    (1) Procedures, speeds, and configuration(s) for making a normal 
takeoff, in

[[Page 317]]

accordance with Sec. 23.51 (a) and (b), and Sec. 23.53 (a) and (b), and 
the subsequent climb, in accordance with Sec. 23.65 and Sec. 23.69(a).
    (2) Procedures for abandoning a takeoff due to engine failure or 
other cause.
    (e) In addition to paragraphs (a), (c), and (d) of this section, for 
all normal, utility, and acrobatic category multiengine airplanes, the 
information must include the following:
    (1) Procedures and speeds for continuing a takeoff following engine 
failure and the conditions under which takeoff can safely be continued, 
or a warning against attempting to continue the takeoff.
    (2) Procedures, speeds, and configurations for continuing a climb 
following engine failure, after takeoff, in accordance with Sec. 23.67, 
or enroute, in accordance with Sec. 23.69(b).
    (f) In addition to paragraphs (a) and (c) of this section, for 
commuter category airplanes, the information must include the following:
    (1) Procedures, speeds, and configuration(s) for making a normal 
takeoff.
    (2) Procedures and speeds for carrying out an accelerate-stop in 
accordance with Sec. 23.55.
    (3) Procedures and speeds for continuing a takeoff following engine 
failure in accordance with Sec. 23.59(a)(1) and for following the flight 
path determined under Sec. 23.57 and Sec. 23.61(a).
    (g) For multiengine airplanes, information identifying each 
operating condition in which the fuel system independence prescribed in 
Sec. 23.953 is necessary for safety must be furnished, together with 
instructions for placing the fuel system in a configuration used to show 
compliance with that section.
    (h) For each airplane showing compliance with Sec. 23.1353 (g)(2) or 
(g)(3), the operating procedures for disconnecting the battery from its 
charging source must be furnished.
    (i) Information on the total quantity of usable fuel for each fuel 
tank, and the effect on the usable fuel quantity, as a result of a 
failure of any pump, must be furnished.
    (j) Procedures for the safe operation of the airplane's systems and 
equipment, both in normal use and in the event of malfunction, must be 
furnished.

[Doc. No. 27807, 61 FR 5194, Feb. 9, 1996]



Sec. 23.1587  Performance information.

    Unless otherwise prescribed, performance information must be 
provided over the altitude and temperature ranges required by 
Sec. 23.45(b).
    (a) For all airplanes, the following information must be furnished--
    (1) The stalling speeds VSO and VS1 with the 
landing gear and wing flaps retracted, determined at maximum weight 
under Sec. 23.49, and the effect on these stalling speeds of angles of 
bank up to 60 degrees;
    (2) The steady rate and gradient of climb with all engines 
operating, determined under Sec. 23.69(a);
    (3) The landing distance, determined under Sec. 23.75 for each 
airport altitude and standard temperature, and the type of surface for 
which it is valid;
    (4) The effect on landing distances of operation on other than 
smooth hard surfaces, when dry, determined under Sec. 23.45(g); and
    (5) The effect on landing distances of runway slope and 50 percent 
of the headwind component and 150 percent of the tailwind component.
    (b) In addition to paragraph (a) of this section, for all normal, 
utility, and acrobatic category reciprocating engine-powered airplanes 
of 6,000 pounds or less maximum weight, the steady angle of climb/
descent, determined under Sec. 23.77(a), must be furnished.
    (c) In addition to paragraphs (a) and (b) of this section, if 
appropriate, for normal, utility, and acrobatic category airplanes, the 
following information must be furnished--
    (1) The takeoff distance, determined under Sec. 23.53 and the type 
of surface for which it is valid.
    (2) The effect on takeoff distance of operation on other than smooth 
hard surfaces, when dry, determined under Sec. 23.45(g);
    (3) The effect on takeoff distance of runway slope and 50 percent of 
the headwind component and 150 percent of the tailwind component;
    (4) For multiengine reciprocating engine-powered airplanes of more 
than 6,000 pounds maximum weight and multiengine turbine powered 
airplanes, the

[[Page 318]]

one-engine-inoperative takeoff climb/descent gradient, determined under 
Sec. 23.66;
    (5) For multiengine airplanes, the enroute rate and gradient of 
climb/descent with one engine inoperative, determined under 
Sec. 23.69(b); and
    (6) For single-engine airplanes, the glide performance determined 
under Sec. 23.71.
    (d) In addition to paragraph (a) of this section, for commuter 
category airplanes, the following information must be furnished--
    (1) The accelerate-stop distance determined under Sec. 23.55;
    (2) The takeoff distance determined under Sec. 23.59(a);
    (3) At the option of the applicant, the takeoff run determined under 
Sec. 23.59(b);
    (4) The effect on accelerate-stop distance, takeoff distance and, if 
determined, takeoff run, of operation on other than smooth hard 
surfaces, when dry, determined under Sec. 23.45(g);
    (5) The effect on accelerate-stop distance, takeoff distance, and if 
determined, takeoff run, of runway slope and 50 percent of the headwind 
component and 150 percent of the tailwind component;
    (6) The net takeoff flight path determined under Sec. 23.61(b);
    (7) The enroute gradient of climb/descent with one engine 
inoperative, determined under Sec. 23.69(b);
    (8) The effect, on the net takeoff flight path and on the enroute 
gradient of climb/descent with one engine inoperative, of 50 percent of 
the headwind component and 150 percent of the tailwind component;
    (9) Overweight landing performance information (determined by 
extrapolation and computed for the range of weights between the maximum 
landing and maximum takeoff weights) as follows--
    (i) The maximum weight for each airport altitude and ambient 
temperature at which the airplane complies with the climb requirements 
of Sec. 23.63(d)(2); and
    (ii) The landing distance determined under Sec. 23.75 for each 
airport altitude and standard temperature.
    (10) The relationship between IAS and CAS determined in accordance 
with Sec. 23.1323 (b) and (c).
    (11) The altimeter system calibration required by Sec. 23.1325(e).

[Doc. No. 27807, 61 FR 5194, Feb. 9, 1996]



Sec. 23.1589  Loading information.

    The following loading information must be furnished:
    (a) The weight and location of each item of equipment that can be 
easily removed, relocated, or replaced and that is installed when the 
airplane was weighed under the requirement of Sec. 23.25.
    (b) Appropriate loading instructions for each possible loading 
condition between the maximum and minimum weights established under 
Sec. 23.25, to facilitate the center of gravity remaining within the 
limits established under Sec. 23.23.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42167, Aug. 6, 1993; Amdt. 23-50, 61 FR 5195, Feb. 9, 1996]

         Appendix A to Part 23--Simplified Design Load Criteria

                             A23.1  General.

    (a) The design load criteria in this appendix are an approved 
equivalent of those in Secs. 23.321 through 23.459 of this subchapter 
for an airplane having a maximum weight of 6,000 pounds or less and the 
following configuration:
    (1) A single engine excluding turbine powerplants;
    (2) A main wing located closer to the airplane's center of gravity 
than to the aft, fuselage-mounted, empennage;
    (3) A main wing that contains a quarter-chord sweep angle of not 
more than 15 degrees fore or aft;
    (4) A main wing that is equipped with trailing-edge controls 
(ailerons or flaps, or both);
    (5) A main wing aspect ratio not greater than 7;
    (6) A horizontal tail aspect ratio not greater than 4;
    (7) A horizontal tail volume coefficient not less than 0.34;
    (8) A vertical tail aspect ratio not greater than 2;
    (9) A vertical tail platform area not greater than 10 percent of the 
wing platform area; and
    (10) Symmetrical airfoils must be used in both the horizontal and 
vertical tail designs.
    (b) Appendix A criteria may not be used on any airplane 
configuration that contains any of the following design features:
    (1) Canard, tandem-wing, close-coupled, or tailless arrangements of 
the lifting surfaces;

[[Page 319]]

    (2) Biplane or multiplane wing arrangements;
    (3) T-tail, V-tail, or cruciform-tail (+) arrangements;
    (4) Highly-swept wing platform (more than 15-degrees of sweep at the 
quarter-chord), delta planforms, or slatted lifting surfaces; or
    (5) Winglets or other wing tip devices, or outboard fins.

A23.3  Special symbols.

n1 =Airplane Positive Maneuvering Limit Load Factor.
n2 =Airplane Negative Maneuvering Limit Load Factor.
n3 =Airplane Positive Gust Limit Load Factor at 
          VC.
n4 =Airplane Negative Gust Limit Load Factor at 
          VC.
nflap =Airplane Positive Limit Load Factor With Flaps Fully 
          Extended at VF.
          [GRAPHIC] [TIFF OMITTED] TC28SE91.020
          
A23.5  Certification in more than one category.

    The criteria in this appendix may be used for certification in the 
normal, utility, and acrobatic categories, or in any combination of 
these categories. If certification in more than one category is desired, 
the design category weights must be selected to make the term `` 
n1W '' constant for all categories or greater for one desired 
category than for others. The wings and control surfaces (including wing 
flaps and tabs) need only be investigated for the maximum value of `` 
n1W '', or for the category corresponding to the maximum 
design weight, where `` n1W '' is constant. If the acrobatic 
category is selected, a special unsymmetrical flight load investigation 
in accordance with paragraphs A23.9(c)(2) and A23.11(c)(2) of this 
appendix must be completed. The wing, wing carrythrough, and the 
horizontal tail structures must be checked for this condition. The basic 
fuselage structure need only be investigated for the highest load factor 
design category selected. The local supporting structure for dead weight 
items need only be designed for the highest load factor imposed when the 
particular items are installed in the airplane. The engine mount, 
however, must be designed for a higher side load factor, if 
certification in the acrobatic category is desired, than that required 
for certification in the normal and utility categories. When designing 
for landing loads, the landing gear and the airplane as a whole need 
only be investigated for the category corresponding to the maximum 
design weight. These simplifications apply to single-engine aircraft of 
conventional types for which experience is available, and the 
Administrator may require additional investigations for aircraft with 
unusual design features.

A23.7  Flight loads.

    (a) Each flight load may be considered independent of altitude and, 
except for the local supporting structure for dead weight items, only 
the maximum design weight conditions must be investigated.
    (b) Table 1 and figures 3 and 4 of this appendix must be used to 
determine values of n1, n2, n3, and 
n4, corresponding to the maximum design weights in the 
desired categories.
    (c) Figures 1 and 2 of this appendix must be used to determine 
values of n3 and n4 corresponding to the minimum 
flying weights in the desired categories, and, if these load factors are 
greater than the load factors at the design weight, the supporting 
structure for dead weight items must be substantiated for the resulting 
higher load factors.
    (d) Each specified wing and tail loading is independent of the 
center of gravity range. The applicant, however, must select a c.g. 
range, and the basic fuselage structure must be investigated for the 
most adverse dead weight loading conditions for the c.g. range selected.
    (e) The following loads and loading conditions are the minimums for 
which strength must be provided in the structure:
    (1) Airplane equilibrium. The aerodynamic wing loads may be 
considered to act normal to the relative wind, and to have a magnitude 
of 1.05 times the airplane normal loads (as determined from paragraphs 
A23.9 (b) and (c) of this appendix) for the positive flight conditions 
and a magnitude equal to the airplane normal loads for the negative 
conditions. Each chordwise and normal component of this wing load must 
be considered.
    (2) Minimum design airspeeds. The minimum design airspeeds may be 
chosen by the applicant except that they may not be less than the 
minimum speeds found by using figure 3 of this appendix. In addition, 
VCmin need not exceed values of 0.9 VH actually 
obtained at sea level for the lowest design weight category for which 
certification is desired. In computing these minimum design airspeeds, 
n1 may not be less than 3.8.
    (3) Flight load factor. The limit flight load factors specified in 
Table 1 of this appendix represent the ratio of the aerodynamic force 
component (acting normal to the assumed longitudinal axis of the 
airplane) to the weight of the airplane. A positive flight load

[[Page 320]]

factor is an aerodynamic force acting upward, with respect to the 
airplane.

A23.9  Flight conditions.

    (a) General. Each design condition in paragraphs (b) and (c) of this 
section must be used to assure sufficient strength for each condition of 
speed and load factor on or within the boundary of a V-n diagram for the 
airplane similar to the diagram in figure 4 of this appendix. This 
diagram must also be used to determine the airplane structural operating 
limitations as specified in Secs. 23.1501(c) through 23.1513 and 
Sec. 23.1519.
    (b) Symmetrical flight conditions. The airplane must be designed for 
symmetrical flight conditions as follows:
    (1) The airplane must be designed for at least the four basic flight 
conditions, ``A'', ``D'', ``E'', and ``G'' as noted on the flight 
envelope of figure 4 of this appendix. In addition, the following 
requirements apply:
    (i) The design limit flight load factors corresponding to conditions 
``D'' and ``E'' of figure 4 must be at least as great as those specified 
in Table 1 and figure 4 of this appendix, and the design speed for these 
conditions must be at least equal to the value of VD found 
from figure 3 of this appendix.
    (ii) For conditions ``A'' and ``G'' of figure 4, the load factors 
must correspond to those specified in Table 1 of this appendix, and the 
design speeds must be computed using these load factors with the maximum 
static lift coefficient CNA determined by the applicant. 
However, in the absence of more precise computations, these latter 
conditions may be based on a value of CNA 
=plus-minus1.35 and the design speed for condition ``A'' may 
be less than VAmin.
    (iii) Conditions ``C'' and ``F'' of figure 4 need only be 
investigated when n3 W/S or n4 W/S are greater 
than n1 W/S or n2 W/S of this appendix, 
respectively.
    (2) If flaps or other high lift devices intended for use at the 
relatively low airspeed of approach, landing, and takeoff, are 
installed, the airplane must be designed for the two flight conditions 
corresponding to the values of limit flap-down factors specified in 
Table 1 of this appendix with the flaps fully extended at not less than 
the design flap speed VFmin from figure 3 of this appendix.
    (c) Unsymmetrical flight conditions. Each affected structure must be 
designed for unsymmetrical loadings as follows:
    (1) The aft fuselage-to-wing attachment must be designed for the 
critical vertical surface load determined in accordance with paragraph 
SA23.11(c)(1) and (2) of this appendix.
    (2) The wing and wing carry-through structures must be designed for 
100 percent of condition ``A'' loading on one side of the plane of 
symmetry and 70 percent on the opposite side for certification in the 
normal and utility categories, or 60 percent on the opposite side for 
certification in the acrobatic category.
    (3) The wing and wing carry-through structures must be designed for 
the loads resulting from a combination of 75 percent of the positive 
maneuvering wing loading on both sides of the plane of symmetry and the 
maximum wing torsion resulting from aileron displacement. The effect of 
aileron displacement on wing torsion at VC or VA 
using the basic airfoil moment coefficient modified over the aileron 
portion of the span, must be computed as follows:
    (i) Cm=Cm +0.01 (up aileron side) wing basic 
airfoil.
    (ii) Cm=Cm -0.01(down aileron side) wing basic 
airfoil, where  is the up aileron deflection and 
 d is the down aileron deflection.
    (4)  critical, which is the sum of 
+ d must be computed as follows:
    (i) Compute  and b from the formulas:
    [GRAPHIC] [TIFF OMITTED] TC28SE91.021
    
Where p = the maximum total deflection (sum of both aileron 
deflections) at VA with VA, VC, and 
VD described in subparagraph (2) of Sec. 23.7(e) of this 
appendix.

    (ii) Compute K from the formula:
    [GRAPHIC] [TIFF OMITTED] TC28SE91.022
    
where  is the down aileron deflection corresponding to 
, and  b is the down aileron deflection 
corresponding to  b as computed in step (i).
    (iii) If K is less than 1.0,  is  
critical and must be used to determine u and d. In 
this case, VC is the critical speed which must be used in 
computing the wing torsion loads over the aileron span.
    (iv) If K is equal to or greater than 1.0, b is  
critical and must be used to determine u and d. In 
this case, Vd is the critical speed which must be used in 
computing the wing torsion loads over the aileron span.
    (d) Supplementary conditions; rear lift truss; engine torque; side 
load on engine mount. Each of the following supplementary conditions 
must be investigated:
    (1) In designing the rear lift truss, the special condition 
specified in Sec. 23.369 may be investigated instead of condition ``G'' 
of figure 4 of this appendix. If this is done, and if certification in 
more than one category is desired, the value of W/S used in the formula

[[Page 321]]

appearing in Sec. 23.369 must be that for the category corresponding to 
the maximum gross weight.
    (2) Each engine mount and its supporting structures must be designed 
for the maximum limit torque corresponding to METO power and propeller 
speed acting simultaneously with the limit loads resulting from the 
maximum positive maneuvering flight load factor n1. The limit 
torque must be obtained by multiplying the mean torque by a factor of 
1.33 for engines with five or more cylinders. For 4, 3, and 2 cylinder 
engines, the factor must be 2, 3, and 4, respectively.
    (3) Each engine mount and its supporting structure must be designed 
for the loads resulting from a lateral limit load factor of not less 
than 1.47 for the normal and utility categories, or 2.0 for the 
acrobatic category.

A23.11  Control surface loads.

    (a) General. Each control surface load must be determined using the 
criteria of paragraph (b) of this section and must lie within the 
simplified loadings of paragraph (c) of this section.
    (b) Limit pilot forces. In each control surface loading condition 
described in paragraphs (c) through (e) of this section, the airloads on 
the movable surfaces and the corresponding deflections need not exceed 
those which could be obtained in flight by employing the maximum limit 
pilot forces specified in the table in Sec. 23.397(b). If the surface 
loads are limited by these maximum limit pilot forces, the tabs must 
either be considered to be deflected to their maximum travel in the 
direction which would assist the pilot or the deflection must correspond 
to the maximum degree of ``out of trim'' expected at the speed for the 
condition under consideration. The tab load, however, need not exceed 
the value specified in Table 2 of this appendix.
    (c) Surface loading conditions. Each surface loading condition must 
be investigated as follows:
    (1) Simplified limit surface loadings for the horizontal tail, 
vertical tail, aileron, wing flaps, and trim tabs are specified in 
figures 5 and 6 of this appendix.
    (i) The distribution of load along the span of the surface, 
irrespective of the chordwise load distribution, must be assumed 
proportional to the total chord, except on horn balance surfaces.
    (ii) The load on the stabilizer and elevator, and the load on fin 
and rudder, must be distributed chordwise as shown in figure 7 of this 
appendix.
    (iii) In order to ensure adequate torsional strength and to account 
for maneuvers and gusts, the most severe loads must be considered in 
association with every center of pressure position between the leading 
edge and the half chord of the mean chord of the surface (stabilizer and 
elevator, or fin and rudder).
    (iv) To ensure adequate strength under high leading edge loads, the 
most severe stabilizer and fin loads must be further considered as being 
increased by 50 percent over the leading 10 percent of the chord with 
the loads aft of this appropriately decreased to retain the same total 
load.
    (v) The most severe elevator and rudder loads should be further 
considered as being distributed parabolically from three times the mean 
loading of the surface (stabilizer and elevator, or fin and rudder) at 
the leading edge of the elevator and rudder, respectively, to zero at 
the trailing edge according to the equation:
[GRAPHIC] [TIFF OMITTED] TR09FE96.004


[[Page 322]]


[GRAPHIC] [TIFF OMITTED] TR09FE96.007

Where--
P(x)=local pressure at the chordwise stations x,
c=chord length of the tail surface,
cf=chord length of the elevator and rudder respectively, and
w8=average surface loading as specified in Figure A5.

    (vi) The chordwise loading distribution for ailerons, wing flaps, 
and trim tabs are specified in Table 2 of this appendix.
    (2) If certification in the acrobatic category is desired, the 
horizontal tail must be investigated for an unsymmetrical load of 100 
percent w on one side of the airplane centerline and 50 percent on the 
other side of the airplane centerline.
    (d) Outboard fins. Outboard fins must meet the requirements of 
Sec. 23.445.
    (e) Special devices. Special devices must meet the requirements of 
Sec. 23.459.

A23.13  Control system loads.

    (a) Primary flight controls and systems. Each primary flight control 
and system must be designed as follows:
    (1) The flight control system and its supporting structure must be 
designed for loads corresponding to 125 percent of the computed hinge 
moments of the movable control surface in the conditions prescribed in 
A23.11 of this appendix. In addition--
    (i) The system limit loads need not exceed those that could be 
produced by the pilot and automatic devices operating the controls; and
    (ii) The design must provide a rugged system for service use, 
including jamming, ground gusts, taxiing downwind, control inertia, and 
friction.
    (2) Acceptable maximum and minimum limit pilot forces for elevator, 
aileron, and rudder controls are shown in the table in Sec. 23.397(b). 
These pilots loads must be assumed to act at the appropriate control 
grips or pads as they would under flight conditions, and to be reacted 
at the attachments of the control system to the control surface horn.
    (b) Dual controls. If there are dual controls, the systems must be 
designed for pilots operating in opposition, using individual pilot 
loads equal to 75 percent of those obtained in accordance with paragraph 
(a) of this section, except that individual pilot loads may not be less 
than the minimum limit pilot forces shown in the table in 
Sec. 23.397(b).
    (c) Ground gust conditions. Ground gust conditions must meet the 
requirements of Sec. 23.415.
    (d) Secondary controls and systems. Secondary controls and systems 
must meet the requirements of Sec. 23.405.

                   Table 1--Limit Flight Load Factors
                       [Limit flight load factors]
------------------------------------------------------------------------
                                        Normal      Utility    Acrobatic
         Flight load factors           category    category    category
------------------------------------------------------------------------
Flaps up:
  n1................................         3.8         4.4         6.0
  n2................................     -0.5 n1  ..........  ..........
  n3................................       (\1\)  ..........  ..........
  n4................................       (\2\)  ..........  ..........
Flaps down:
  n flap............................      0.5 n1  ..........  ..........
  n flap............................    \3\ Zero  ..........  ..........
------------------------------------------------------------------------
\1\ Find n3 from Fig. 1
\2\ Find n4 from Fig. 2

[[Page 323]]

 
\3\ Vertical wing load may be assumed equal to zero and only the flap
  part of the wing need be checked for this condition.

  [GRAPHIC] [TIFF OMITTED] TR09FE96.008
  

[[Page 324]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.023


[[Page 325]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.024


[[Page 326]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.025

[GRAPHIC] [TIFF OMITTED] TC28SE91.026


[[Page 327]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.027


[[Page 328]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.028


[[Page 329]]

 Figure A7.--Chordwise Load Distribution for Stabilizer and Elevator or 
                             Fin and Rudder
[GRAPHIC] [TIFF OMITTED] TR09FE96.009

[GRAPHIC] [TIFF OMITTED] TR09FE96.005

where:
w=average surface loading (as specified in figure A.5)
E=ratio of elevator (or rudder) chord to total stabilizer and elevator 
          (or fin and rudder) chord.
d'=ratio of distance of center of pressure of a unit spanwise length of 
          combined stabilizer and elevator (or fin and rudder) measured 
          from stabilizer (or fin) leading edge to the local chord. Sign 
          convention is positive when center of pressure is behind 
          leading edge.
c=local chord.
    Note: Positive values of w, P1 and P2 are all 
measured in the same direction.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13097, Aug. 13, 1969; 34 FR 14727, Sept. 24, 1969; Amdt. 23-16, 40 FR 
2577, Jan. 14, 1975; Amdt. 23-28, 47 FR 13315, Mar. 29, 1982; Amdt. 23-
48, 61 FR 5149, Feb. 9, 1996]

                    Appendix B to Part 23 [Reserved]

             Appendix C to Part 23--Basic Landing Conditions

                                                            [C23.1 Basic landing conditions]
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                                     Tail wheel type                                           Nose wheel type
                                    --------------------------------------------------------------------------------------------------------------------
             Condition                                                                                        Level landing with
                                          Level landing         Tail-down landing      Level landing with   nose wheel just clear    Tail-down landing
                                                                                       inclined reactions         of ground
--------------------------------------------------------------------------------------------------------------------------------------------------------
Reference section..................  23.479(a)(1)..........  23.481(a)(1)..........  23.479(a)(2)(i)......  23.479(a)(2)(ii).....  23.481(a)(2) and (b).
--------------------------------------------------------------------------------------------------------------------------------------------------------
Vertical component at c. g.........  nW....................  nW....................  nW...................  nW...................  nW.
Fore and aft component at c. g.....  KnW...................  0.....................  KnW..................  KnW..................  0.
Lateral component in either          0.....................  0.....................  0....................  0....................  0.
 direction at c. g.
Shock absorber extension (hydraulic  Note (2)..............  Note (2)..............  Note (2).............  Note (2).............  Note (2).
 shock absorber).
Shock absorber deflection (rubber    100...................  100...................  100..................  100..................  100.
 or spring shock absorber), percent.
Tire deflection....................  Static................  Static................  Static...............  Static...............  Static.
Main wheel loads (both wheels) (Vr)  (n-L)W................  (n-L)W b/d............  (n-L)W a'/d'.........  (n-L)W...............  (n-L)W.
Main wheel loads (both wheels) (Dr)  KnW...................  0.....................  KnW a'/d'............  KnW..................  0.
Tail (nose) wheel loads (Vf).......  0.....................  (n-L)W a/d............  (n-L)W b'/d'.........  0....................  0.
Tail (nose) wheel loads (Df).......  0.....................  0.....................  KnW b'/d'............  0....................  0.

[[Page 330]]

 
Notes..............................  (1), (3), and (4).....  (4)...................  (1)..................  (1), (3), and (4)....  (3) and (4).
--------------------------------------------------------------------------------------------------------------------------------------------------------
Note (1). K may be determined as follows: K=0.25 for W=3,000 pounds or less; K=0.33 for W=6,000 pounds or greater, with linear variation of K between
  these weights.
Note (2). For the purpose of design, the maximum load factor is assumed to occur throughout the shock absorber stroke from 25 percent deflection to 100
  percent deflection unless otherwise shown and the load factor must be used with whatever shock absorber extension is most critical for each element of
  the landing gear.
Note (3). Unbalanced moments must be balanced by a rational or conservative method.
Note (4). L is defined in Sec.  23.735(b).
Note (5). n is the limit inertia load factor, at the c.g. of the airplane, selected under Sec.  23.473 (d), (f), and (g).

[GRAPHIC] [TIFF OMITTED] TC28SE91.029

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-7, 34 
FR 13099, Aug. 13, 1969]

       Appendix D to Part 23--Wheel Spin-Up and Spring-Back Loads

D23.1 Wheel spin-up loads.
    (a) The following method for determining wheel spin-up loads for 
landing conditions is based on NACA T.N. 863. However, the drag 
component used for design may not be less than the drag load prescribed 
in Sec. 23.479(b).

              FHmax =1/re  
  2Iw(VH--Vc)nFVmax/tS

where--

FHmax=maximum rearward horizontal force acting on the wheel 
          (in pounds);
re=effective rolling radius of wheel under impact based on 
          recommended operating tire pressure (which may be assumed to 
          be equal to the rolling radius under a static load of 
          njWe) in feet;
Iw=rotational mass moment of inertia of rolling assembly (in 
          slug feet);

[[Page 331]]

VH=linear velocity of airplane parallel to ground at instant 
          of contact (assumed to be 1.2 VS0, in feet per 
          second);
Vc=peripheral speed of tire, if prerotation is used (in feet 
          per second) (there must be a positive means of pre-rotation 
          before pre-rotation may be considered);
n=equals effective coefficient of friction (0.80 may be used);
FVmax=maximum vertical force on wheel (pounds)= 
          njWe, where We and nj 
          are defined in Sec. 23.725;
ts=time interval between ground contact and attainment of 
          maximum vertical force on wheel (seconds). (However, if the 
          value of FVmax, from the above equation exceeds 0.8 
          FVmax, the latter value must be used for 
          FHmax.)

    (b) The equation assumes a linear variation of load factor with time 
until the peak load is reached and under this assumption, the equation 
determines the drag force at the time that the wheel peripheral velocity 
at radius re equals the airplane velocity. Most shock 
absorbers do not exactly follow a linear variation of load factor with 
time. Therefore, rational or conservative allowances must be made to 
compensate for these variations. On most landing gears, the time for 
wheel spin-up will be less than the time required to develop maximum 
vertical load factor for the specified rate of descent and forward 
velocity. For exceptionally large wheels, a wheel peripheral velocity 
equal to the ground speed may not have been attained at the time of 
maximum vertical gear load. However, as stated above, the drag spin-up 
load need not exceed 0.8 of the maximum vertical loads.
    (c) Dynamic spring-back of the landing gear and adjacent structure 
at the instant just after the wheels come up to speed may result in 
dynamic forward acting loads of considerable magnitude. This effect must 
be determined, in the level landing condition, by assuming that the 
wheel spin-up loads calculated by the methods of this appendix are 
reversed. Dynamic spring-back is likely to become critical for landing 
gear units having wheels of large mass or high landing speeds.

[Doc. No. 4080, 29 FR 17955, Dec. 18, 1964, as amended by Amdt. 23-45, 
58 FR 42167, Aug. 6, 1993]

                    Appendix E to Part 23 [Reserved]

                  Appendix F to Part 23--Test Procedure

    Acceptable test procedure for self-extinguishing materials for 
showing compliance with Secs. 23.853, 23.855 and 23.1359.
    (a) Conditioning. Specimens must be conditioned to 70 degrees F, 
plus or minus 5 degrees, and at 50 percent plus or minus 5 percent 
relative humidity until moisture equilibrium is reached or for 24 hours. 
Only one specimen at a time may be removed from the conditioning 
environment immediately before subjecting it to the flame.
    (b) Specimen configuration. Except as provided for materials used in 
electrical wire and cable insulation and in small parts, materials must 
be tested either as a section cut from a fabricated part as installed in 
the airplane or as a specimen simulating a cut section, such as: a 
specimen cut from a flat sheet of the material or a model of the 
fabricated part. The specimen may be cut from any location in a 
fabricated part; however, fabricated units, such as sandwich panels, may 
not be separated for a test. The specimen thickness must be no thicker 
than the minimum thickness to be qualified for use in the airplane, 
except that: (1) Thick foam parts, such as seat cushions, must be tested 
in \1/2\ inch thickness; (2) when showing compliance with 
Sec. 23.853(d)(3)(v) for materials used in small parts that must be 
tested, the materials must be tested in no more than \1/8\ inch 
thickness; (3) when showing compliance with Sec. 23.1359(c) for 
materials used in electrical wire and cable insulation, the wire and 
cable specimens must be the same size as used in the airplane. In the 
case of fabrics, both the warp and fill direction of the weave must be 
tested to determine the most critical flammability conditions. When 
performing the tests prescribed in paragraphs (d) and (e) of this 
appendix, the specimen must be mounted in a metal frame so that (1) in 
the vertical tests of paragraph (d) of this appendix, the two long edges 
and the upper edge are held securely; (2) in the horizontal test of 
paragraph (e) of this appendix, the two long edges and the edge away 
from the flame are held securely; (3) the exposed area of the specimen 
is at least 2 inches wide and 12 inches long, unless the actual size 
used in the airplane is smaller; and (4) the edge to which the burner 
flame is applied must not consist of the finished or protected edge of 
the specimen but must be representative of the actual cross section of 
the material or part installed in the airplane. When performing the test 
prescribed in paragraph (f) of this appendix, the specimen must be 
mounted in metal frame so that all four edges are held securely and the 
exposed area of the specimen is at least 8 inches by 8 inches.
    (c) Apparatus. Except as provided in paragraph (g) of this appendix, 
tests must be conducted in a draft-free cabinet in accordance with 
Federal Test Method Standard 191 Method 5903 (revised Method 5902) which 
is available from the General Services Administration, Business Service 
Center, Region 3, Seventh and D Streets SW., Washington, D.C. 20407, or 
with some other approved equivalent method. Specimens which are too

[[Page 332]]

large for the cabinet must be tested in similar draft-free conditions.
    (d) Vertical test. A minimum of three specimens must be tested and 
the results averaged. For fabrics, the direction of weave corresponding 
to the most critical flammability conditions must be parallel to the 
longest dimension. Each specimen must be supported vertically. The 
specimen must be exposed to a Bunsen or Tirrill burner with a nominal 
\3/8\-inch I.D. tube adjusted to give a flame of 1\1/2\ inches in 
height. The minimum flame temperature measured by a calibrated 
thermocouple pryometer in the center of the flame must be 1550  deg.F. 
The lower edge of the specimen must be three-fourths inch above the top 
edge of the burner. The flame must be applied to the center line of the 
lower edge of the specimen. For materials covered by 
Secs. 23.853(d)(3)(i) and 23.853(f), the flame must be applied for 60 
seconds and then removed. For materials covered by 
Sec. 23.853(d)(3)(ii), the flame must be applied for 12 seconds and then 
removed. Flame time, burn length, and flaming time of drippings, if any, 
must be recorded. The burn length determined in accordance with 
paragraph (h) of this appendix must be measured to the nearest one-tenth 
inch.
    (e) Horizontal test. A minimum of three specimens must be tested and 
the results averaged. Each specimen must be supported horizontally. The 
exposed surface when installed in the airplane must be face down for the 
test. The specimen must be exposed to a Bunsen burner or Tirrill burner 
with a nominal \3/8\-inch I.D. tube adjusted to give a flame of 1\1/2\ 
inches in height. The minimum flame temperature measured by a calibrated 
thermocouple pyrometer in the center of the flame must be 1550  deg.F. 
The specimen must be positioned so that the edge being tested is three-
fourths of an inch above the top of, and on the center line of, the 
burner. The flame must be applied for 15 seconds and then removed. A 
minimum of 10 inches of the specimen must be used for timing purposes, 
approximately 1\1/2\ inches must burn before the burning front reaches 
the timing zone, and the average burn rate must be recorded.
    (f) Forty-five degree test. A minimum of three specimens must be 
tested and the results averaged. The specimens must be supported at an 
angle of 45 degrees to a horizontal surface. The exposed surface when 
installed in the aircraft must be face down for the test. The specimens 
must be exposed to a Bunsen or Tirrill burner with a nominal \3/8\ inch 
I.D. tube adjusted to give a flame of 1\1/2\ inches in height. The 
minimum flame temperature measured by a calibrated thermocouple 
pyrometer in the center of the flame must be 1550 deg.F. Suitable 
precautions must be taken to avoid drafts. The flame must be applied for 
30 seconds with one-third contacting the material at the center of the 
specimen and then removed. Flame time, glow time, and whether the flame 
penetrates (passes through) the specimen must be recorded.
    (g) Sixty-degree test. A minimum of three specimens of each wire 
specification (make and size) must be tested. The specimen of wire or 
cable (including insulation) must be placed at an angle of 60 degrees 
with the horizontal in the cabinet specified in paragraph (c) of this 
appendix, with the cabinet door open during the test or placed within a 
chamber approximately 2 feet high  x  1 foot  x  1 foot, open at the top 
and at one vertical side (front), that allows sufficient flow of air for 
complete combustion but is free from drafts. The specimen must be 
parallel to and approximately 6 inches from the front of the chamber. 
The lower end of the specimen must be held rigidly clamped. The upper 
end of the specimen must pass over a pulley or rod and must have an 
appropriate weight attached to it so that the specimen is held tautly 
throughout the flammability test. The test specimen span between lower 
clamp and upper pulley or rod must be 24 inches and must be marked 8 
inches from the lower end to indicate the central point for flame 
application. A flame from a Bunsen or Tirrill burner must be applied for 
30 seconds at the test mark. The burner must be mounted underneath the 
test mark on the specimen, perpendicular to the specimen and at an angle 
of 30 degrees to the vertical plane of the specimen. The burner must 
have a nominal bore of three-eighths inch, and must be adjusted to 
provide a three-inch-high flame with an inner cone approximately one-
third of the flame height. The minimum temperature of the hottest 
portion of the flame, as measured with a calibrated thermocouple 
pyrometer, may not be less than 1,750  deg.F. The burner must be 
positioned so that the hottest portion of the flame is applied to the 
test mark on the wire. Flame time, burn length, and flaming time 
drippings, if any, must be recorded. The burn length determined in 
accordance with paragraph (h) of this appendix must be measured to the 
nearest one-tenth inch. Breaking of the wire specimen is not considered 
a failure.
    (h) Burn length. Burn length is the distance from the original edge 
to the farthest evidence of damage to the test specimen due to flame 
impingement, including areas of partial or complete consumption, 
charring, or embrittlement, but not including areas sooted, stained, 
warped, or discolored, nor areas where material has shrunk or melted 
away from the heat source.

[Amdt. 23-23, 43 FR 50594, Oct. 30, 1978, as amended by Amdt. 23-34, 52 
FR 1835, Jan. 15, 1987; 52 FR 34745, Sept. 14, 1987; Amdt. 23-49, 61 FR 
5170, Feb. 9, 1996]

[[Page 333]]

     Appendix G to Part 23--Instructions for Continued Airworthiness

    G23.1  General. (a) This appendix specifies requirements for the 
preparation of Instructions for Continued Airworthiness as required by 
Sec. 23.1529.
    (b) The Instructions for Continued Airworthiness for each airplane 
must include the Instructions for Continued Airworthiness for each 
engine and propeller (hereinafter designated `products'), for each 
appliance required by this chapter, and any required information 
relating to the interface of those appliances and products with the 
airplane. If Instructions for Continued Airworthiness are not supplied 
by the manufacturer of an appliance or product installed in the 
airplane, the Instructions for Continued Airworthiness for the airplane 
must include the information essential to the continued airworthiness of 
the airplane.
    (c) The applicant must submit to the FAA a program to show how 
changes to the Instructions for Continued Airworthiness made by the 
applicant or by the manufacturers of products and appliances installed 
in the airplane will be distributed.
    G23.2  Format. (a) The Instructions for Continued Airworthiness must 
be in the form of a manual or manuals as appropriate for the quantity of 
data to be provided.
    (b) The format of the manual or manuals must provide for a practical 
arrangement.
    G23.3  Content. The contents of the manual or manuals must be 
prepared in the English language. The Instructions for Continued 
Airworthiness must contain the following manuals or sections, as 
appropriate, and information:
    (a) Airplane maintenance manual or section. (1) Introduction 
information that includes an explanation of the airplane's features and 
data to the extent necessary for maintenance or preventive maintenance.
    (2) A description of the airplane and its systems and installations 
including its engines, propellers, and appliances.
    (3) Basic control and operation information describing how the 
airplane components and systems are controlled and how they operate, 
including any special procedures and limitations that apply.
    (4) Servicing information that covers details regarding servicing 
points, capacities of tanks, reservoirs, types of fluids to be used, 
pressures applicable to the various systems, location of access panels 
for inspection and servicing, locations of lubrication points, 
lubricants to be used, equipment required for servicing, tow 
instructions and limitations, mooring, jacking, and leveling 
information.
    (b) Maintenance instructions. (1) Scheduling information for each 
part of the airplane and its engines, auxiliary power units, propellers, 
accessories, instruments, and equipment that provides the recommended 
periods at which they should be cleaned, inspected, adjusted, tested, 
and lubricated, and the degree of inspection, the applicable wear 
tolerances, and work recommended at these periods. However, the 
applicant may refer to an accessory, instrument, or equipment 
manufacturer as the source of this information if the applicant shows 
that the item has an exceptionally high degree of complexity requiring 
specialized maintenance techniques, test equipment, or expertise. The 
recommended overhaul periods and necessary cross reference to the 
Airworthiness Limitations section of the manual must also be included. 
In addition, the applicant must include an inspection program that 
includes the frequency and extent of the inspections necessary to 
provide for the continued airworthiness of the airplane.
    (2) Troubleshooting information describing probable malfunctions, 
how to recognize those malfunctions, and the remedial action for those 
malfunctions.
    (3) Information describing the order and method of removing and 
replacing products and parts with any necessary precautions to be taken.
    (4) Other general procedural instructions including procedures for 
system testing during ground running, symmetry checks, weighing and 
determining the center of gravity, lifting and shoring, and storage 
limitations.
    (c) Diagrams of structural access plates and information needed to 
gain access for inspections when access plates are not provided.
    (d) Details for the application of special inspection techniques 
including radiographic and ultrasonic testing where such processes are 
specified.
    (e) Information needed to apply protective treatments to the 
structure after inspection.
    (f) All data relative to structural fasteners such as 
identification, discard recommendations, and torque values.
    (g) A list of special tools needed.
    (h) In addition, for commuter category airplanes, the following 
information must be furnished:
    (1) Electrical loads applicable to the various systems;
    (2) Methods of balancing control surfaces;
    (3) Identification of primary and secondary structures; and
    (4) Special repair methods applicable to the airplane.
    G23.4  Airworthiness Limitations section. The Instructions for 
Continued Airworthiness must contain a section titled Airworthiness 
Limitations that is segregated and clearly

[[Page 334]]

distinguishable from the rest of the document. This section must set 
forth each mandatory replacement time, structural inspection interval, 
and related structural inspection procedure required for type 
certification. If the Instructions for Continued Airworthiness consist 
of multiple documents, the section required by this paragraph must be 
included in the principal manual. This section must contain a legible 
statement in a prominent location that reads: ``The Airworthiness 
Limitations section is FAA approved and specifies maintenance required 
under Secs. 43.16 and 91.403 of the Federal Aviation Regulations unless 
an alternative program has been FAA approved.''

[Amdt. 23-26, 45 FR 60171, Sept. 11, 1980, as amended by Amdt. 23-34, 52 
FR 1835, Jan. 15, 1987; 52 FR 34745, Sept. 14, 1987; Amdt. 23-37, 54 FR 
34329, Aug. 18, 1989]

Appendix H to Part 23--Installation of An Automatic Power Reserve (APR) 
                                 System

    H23.1, General.
    (a) This appendix specifies requirements for installation of an APR 
engine power control system that automatically advances power or thrust 
on the operating engine(s) in the event any engine fails during takeoff.
    (b) With the APR system and associated systems functioning normally, 
all applicable requirements (except as provided in this appendix) must 
be met without requiring any action by the crew to increase power or 
thrust.
    H23.2, Definitions.
    (a) Automatic power reserve system means the entire automatic system 
used only during takeoff, including all devices both mechanical and 
electrical that sense engine failure, transmit signals, actuate fuel 
controls or power levers on operating engines, including power sources, 
to achieve the scheduled power increase and furnish cockpit information 
on system operation.
    (b) Selected takeoff power, notwithstanding the definition of 
``Takeoff Power'' in part 1 of the Federal Aviation Regulations, means 
the power obtained from each initial power setting approved for takeoff.
    (c) Critical Time Interval, as illustrated in figure H1, means that 
period starting at V1 minus one second and ending at the 
intersection of the engine and APR failure flight path line with the 
minimum performance all engine flight path line. The engine and APR 
failure flight path line intersects the one-engine-inoperative flight 
path line at 400 feet above the takeoff surface. The engine and APR 
failure flight path is based on the airplane's performance and must have 
a positive gradient of at least 0.5 percent at 400 feet above the 
takeoff surface.
[GRAPHIC] [TIFF OMITTED] TC28SE91.030

    H23.3, Reliability and performance requirements.
    (a) It must be shown that, during the critical time interval, an APR 
failure that increases or does not affect power on either engine will 
not create a hazard to the airplane, or it must be shown that such 
failures are improbable.
    (b) It must be shown that, during the critical time interval, there 
are no failure modes

[[Page 335]]

of the APR system that would result in a failure that will decrease the 
power on either engine or it must be shown that such failures are 
extremely improbable.
    (c) It must be shown that, during the critical time interval, there 
will be no failure of the APR system in combination with an engine 
failure or it must be shown that such failures are extremely improbable.
    (d) All applicable performance requirements must be met with an 
engine failure occurring at the most critical point during takeoff with 
the APR system functioning normally.
    H23.4, Power setting.
    The selected takeoff power set on each engine at the beginning of 
the takeoff roll may not be less than--
    (a) The power necessary to attain, at V1, 90 percent of 
the maximum takeoff power approved for the airplane for the existing 
conditions;
    (b) That required to permit normal operation of all safety-related 
systems and equipment that are dependent upon engine power or power 
lever position; and
    (c) That shown to be free of hazardous engine response 
characteristics when power is advanced from the selected takeoff power 
level to the maximum approved takeoff power.
    H23.5, Powerplant controls--general.
    (a) In addition to the requirements of Sec. 23.1141, no single 
failure or malfunction (or probable combination thereof) of the APR, 
including associated systems, may cause the failure of any powerplant 
function necessary for safety.
    (b) The APR must be designed to--
    (1) Provide a means to verify to the flight crew before takeoff that 
the APR is in an operating condition to perform its intended function;
    (2) Automatically advance power on the operating engines following 
an engine failure during takeoff to achieve the maximum attainable 
takeoff power without exceeding engine operating limits;
    (3) Prevent deactivation of the APR by manual adjustment of the 
power levers following an engine failure;
    (4) Provide a means for the flight crew to deactivate the automatic 
function. This means must be designed to prevent inadvertent 
deactivation; and
    (5) Allow normal manual decrease or increase in power up to the 
maximum takeoff power approved for the airplane under the existing 
conditions through the use of power levers, as stated in 
Sec. 23.1141(c), except as provided under paragraph (c) of H23.5 of this 
appendix.
    (c) For airplanes equipped with limiters that automatically prevent 
engine operating limits from being exceeded, other means may be used to 
increase the maximum level of power controlled by the power levers in 
the event of an APR failure. The means must be located on or forward of 
the power levers, must be easily identified and operated under all 
operating conditions by a single action of any pilot with the hand that 
is normally used to actuate the power levers, and must meet the 
requirements of Sec. 23.777 (a), (b), and (c).
    H23.6, Powerplant instruments.
    In addition to the requirements of Sec. 23.1305:
    (a) A means must be provided to indicate when the APR is in the 
armed or ready condition.
    (b) If the inherent flight characteristics of the airplane do not 
provide warning that an engine has failed, a warning system independent 
of the APR must be provided to give the pilot a clear warning of any 
engine failure during takeoff.
    (c) Following an engine failure at V1 or above, there 
must be means for the crew to readily and quickly verify that the APR 
has operated satisfactorily.

[Doc. 26344, 58 FR 18979, Apr. 9, 1993]

[[Page 336]]

                  Appendix I to Part 23--Seaplane Loads
      [GRAPHIC] [TIFF OMITTED] TC28SE91.031
      

[[Page 337]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.032

[Amdt. 23-45, 58 FR 42167, Aug. 6, 1993; 58 FR 51970, Oct. 5, 1993]



PART 25--AIRWORTHINESS STANDARDS: TRANSPORT CATEGORY AIRPLANES--Table of Contents




Special Federal Aviation Regulation No. 13

                           Subpart A--General

Sec.
25.1  Applicability.
25.2  Special retroactive requirements.

[[Page 338]]

                            Subpart B--Flight

                                 General

25.21  Proof of compliance.
25.23  Load distribution limits.
25.25  Weight limits.
25.27  Center of gravity limits.
25.29  Empty weight and corresponding center of gravity.
25.31  Removable ballast.
25.33  Propeller speed and pitch limits.

                               Performance

25.101  General.
25.103  Stalling speed.
25.105  Takeoff.
25.107  Takeoff speeds.
25.109  Accelerate-stop distance.
25.111  Takeoff path.
25.113  Takeoff distance and takeoff run.
25.115  Takeoff flight path.
25.117  Climb: general.
25.119  Landing climb: All-engines-operating.
25.121  Climb: One-engine-inoperative.
25.123  En route flight paths.
25.125  Landing.

                   Controllability and Maneuverability

25.143  General.
25.145  Longitudinal control.
25.147  Directional and lateral control.
25.149  Minimum control speed.

                                  Trim

25.161  Trim.

                                Stability

25.171  General.
25.173  Static longitudinal stability.
25.175  Demonstration of static longitudinal stability.
25.177  Static lateral-directional stability.
25.181  Dynamic stability.

                                 Stalls

25.201  Stall demonstration.
25.203  Stall characteristics.
25.207  Stall warning.

                Ground and Water Handling Characteristics

25.231  Longitudinal stability and control.
25.233  Directional stability and control.
25.235  Taxiing condition.
25.237  Wind velocities.
25.239  Spray characteristics, control, and stability on water.

                    Miscellaneous Flight Requirements

25.251  Vibration and buffeting.
25.253  High-speed characteristics.
25.255  Out-of-trim characteristics.

                          Subpart C--Structure

                                 General

25.301  Loads.
25.303  Factor of safety.
25.305  Strength and deformation.
25.307  Proof of structure.

                              Flight Loads

25.321  General.

                   Flight Maneuver and Gust Conditions

25.331  Symmetric maneuvering conditions.
25.333  Flight maneuvering envelope.
25.335  Design airspeeds.
25.337  Limit maneuvering load factors.
25.341  Gust and turbulence loads.
25.343  Design fuel and oil loads.
25.345  High lift devices.
25.349  Rolling conditions.
25.351  Yaw maneuver conditions.

                        Supplementary Conditions

25.361  Engine torque.
25.363  Side load on engine and auxiliary power unit mounts.
25.365  Pressurized compartment loads.
25.367  Unsymmetrical loads due to engine failure.
25.371  Gyroscopic loads.
25.373  Speed control devices.

                    Control Surface and System Loads

25.391  Control surface loads: General.
25.393  Loads parallel to hinge line.
25.395  Control system.
25.397  Control system loads.
25.399  Dual control system.
25.405  Secondary control system.
25.407  Trim tab effects.
25.409  Tabs.
25.415  Ground gust conditions.
25.427  Unsymmetrical loads.
25.445  Auxilliary aerodynamic surfaces.
25.457  Wing flaps.
25.459  Special devices.

                              Ground Loads

25.471  General.
25.473  Landing load conditions and assumptions.
25.477  Landing gear arrangement.
25.479  Level landing conditions.
25.481  Tail-down landing conditions.
25.483  One-gear landing conditions.
25.485  Side load conditions.
25.487  Rebound landing condition.
25.489  Ground handling conditions.
25.491  Taxi, takeoff and landing roll.
25.493  Braked roll conditions.
25.495  Turning.
25.497  Tail-wheel yawing.
25.499  Nose-wheel yaw and steering.
25.503  Pivoting.
25.507  Reversed braking.

[[Page 339]]

25.509  Towing loads.
25.511  Ground load: unsymmetrical loads on multiple-wheel units.
25.519  Jacking and tie-down provisions.

                               Water Loads

25.521  General.
25.523  Design weights and center of gravity positions.
25.525  Application of loads.
25.527  Hull and main float load factors.
25.529  Hull and main float landing conditions.
25.531  Hull and main float takeoff condition.
25.533  Hull and main float bottom pressures.
25.535  Auxiliary float loads.
25.537  Seawing loads.

                      Emergency Landing Conditions

25.561  General.
25.562  Emergency landing dynamic conditions.
25.563  Structural ditching provisions.

                           Fatigue Evaluation

25.571  Damage--tolerance and fatigue evaluation of structure.

                          Lightning Protection

25.581  Lightning protection.

                   Subpart D--Design and Construction

                                 General

25.601  General.
25.603  Materials.
25.605  Fabrication methods.
25.607  Fasteners.
25.609  Protection of structure.
25.611  Accessibility provisions.
25.613  Material strength properties and design values.
25.619  Special factors.
25.621  Casting factors.
25.623  Bearing factors.
25.625  Fitting factors.
25.629  Aeroelastic stability requirements.
25.631  Bird strike damage.

                            Control Surfaces

25.651  Proof of strength.
25.655  Installation.
25.657  Hinges.

                             Control Systems

25.671  General.
25.672  Stability augmentation and automatic and power-operated systems.
25.675  Stops.
25.677  Trim systems.
25.679  Control system gust locks.
25.681  Limit load static tests.
25.683  Operation tests.
25.685  Control system details.
25.689  Cable systems.
25.693  Joints.
25.697  Lift and drag devices, controls.
25.699  Lift and drag device indicator.
25.701  Flap and slat interconnection.
25.703  Takeoff warning system.

                              Landing Gear

25.721  General.
25.723  Shock absorption tests.
25.725  [Reserved]
25.727  [Reserved]
25.729  Retracting mechanism.
25.731  Wheels.
25.733  Tires.
25.735  Brakes.
25.737  Skis.

                            Floats and Hulls

25.751  Main float buoyancy.
25.753  Main float design.
25.755  Hulls.

                   Personnel and Cargo Accommodations

25.771  Pilot compartment.
25.772  Pilot compartment doors.
25.773  Pilot compartment view.
25.775  Windshields and windows.
25.777  Cockpit controls.
25.779  Motion and effect of cockpit controls.
25.781  Cockpit control knob shape.
25.783  Doors.
25.785  Seats, berths, safety belts, and harnesses.
25.787  Stowage compartments.
25.789  Retention of items of mass in passenger and crew compartments 
          and galleys.
25.791  Passenger information signs and placards.
25.793  Floor surfaces.

                          Emergency Provisions

25.801  Ditching.
25.803  Emergency evacuation.
25.807  Emergency exits.
25.809  Emergency exit arrangement.
25.810  Emergency egress assist means and escape routes.
25.811  Emergency exit marking.
25.812  Emergency lighting.
25.813  Emergency exit access.
25.815  Width of aisle.
25.817  Maximum number of seats abreast.
25.819  Lower deck surface compartments (including galleys).

                         Ventilation and Heating

25.831  Ventilation.
25.832  Cabin ozone concentration.
25.833  Combustion heating systems.

                             Pressurization

25.841  Pressurized cabins.
25.843  Tests for pressurized cabins.

[[Page 340]]

                             Fire Protection

25.851  Fire extinguishers.
25.853  Compartment interiors.
25.854  Lavatory fire protection.
25.855  Cargo or baggage compartments.
25.857  Cargo compartment classification.
25.858  Cargo or baggage compartment smoke or fire detection systems.
25.859  Combustion heater fire protection.
25.863  Flammable fluid fire protection.
25.865  Fire protection of flight controls, engine mounts, and other 
          flight structure.
25.867  Fire protection: other components.
25.869  Fire protection: systems.

                              Miscellaneous

25.871  Leveling means.
25.875  Reinforcement near propellers.

                          Subpart E--Powerplant

                                 General

25.901  Installation.
25.903  Engines.
25.904  Automatic takeoff thrust control system (ATTCS).
25.905  Propellers.
25.907  Propeller vibration.
25.925  Propeller clearance.
25.929  Propeller deicing.
25.933  Reversing systems.
25.934  Turbojet engine thrust reverser system tests.
25.937  Turbopropeller-drag limiting systems.
25.939  Turbine engine operating characteristics.
25.941  Inlet, engine, and exhaust compatibility.
25.943  Negative acceleration.
25.945  Thrust or power augmentation system.

                               Fuel System

25.951  General.
25.952  Fuel system analysis and test.
25.953  Fuel system independence.
25.954  Fuel system lightning protection.
25.955  Fuel flow.
25.957  Flow between interconnected tanks.
25.959  Unusable fuel supply.
25.961  Fuel system hot weather operation.
25.963  Fuel tanks: general.
25.965  Fuel tank tests.
25.967  Fuel tank installations.
25.969  Fuel tank expansion space.
25.971  Fuel tank sump.
25.973  Fuel tank filler connection.
25.975  Fuel tank vents and carburetor vapor vents.
25.977  Fuel tank outlet.
25.979  Pressure fueling system.
25.981  Fuel tank ignition prevention.

                         Fuel System Components

25.991  Fuel pumps.
25.993  Fuel system lines and fittings.
25.994  Fuel system components.
25.995  Fuel valves.
25.997  Fuel strainer or filter.
25.999  Fuel system drains.
25.1001  Fuel jettisoning system.

                               Oil System

25.1011  General.
25.1013  Oil tanks.
25.1015  Oil tank tests.
25.1017  Oil lines and fittings.
25.1019  Oil strainer or filter.
25.1021  Oil system drains.
25.1023  Oil radiators.
25.1025  Oil valves.
25.1027  Propeller feathering system.

                                 Cooling

25.1041  General.
25.1043  Cooling tests.
25.1045  Cooling test procedures.

                            Induction System

25.1091  Air induction.
25.1093  Induction system icing protection.
25.1101  Carburetor air preheater design.
25.1103  Induction system ducts and air duct systems.
25.1105  Induction system screens.
25.1107  Inter-coolers and after-coolers.

                             Exhaust System

25.1121  General.
25.1123  Exhaust piping.
25.1125  Exhaust heat exchangers.
25.1127  Exhaust driven turbo-superchargers.

                   Powerplant Controls and Accessories

25.1141  Powerplant controls: general.
25.1142  Auxiliary power unit controls.
25.1143  Engine controls.
25.1145  Ignition switches.
25.1147  Mixture controls.
25.1149  Propeller speed and pitch controls.
25.1153  Propeller feathering controls.
25.1155  Reverse thrust and propeller pitch settings below the flight 
          regime.
25.1157  Carburetor air temperature controls.
25.1159  Supercharger controls.
25.1161  Fuel jettisoning system controls.
25.1163  Powerplant accessories.
25.1165  Engine ignition systems.
25.1167  Accessory gearboxes.

                       Powerplant Fire Protection

25.1181  Designated fire zones; regions included.
25.1182  Nacelle areas behind firewalls, and engine pod attaching 
          structures containing flammable fluid lines.
25.1183  Flammable fluid-carrying components.
25.1185  Flammable fluids.
25.1187  Drainage and ventilation of fire zones.

[[Page 341]]

25.1189  Shutoff means.
25.1191  Firewalls.
25.1192  Engine accessory section diaphragm.
25.1193  Cowling and nacelle skin.
25.1195  Fire extinguishing systems.
25.1197  Fire extinguishing agents.
25.1199  Extinguishing agent containers.
25.1201  Fire extinguishing system materials.
25.1203  Fire detector system.
25.1207  Compliance.

                          Subpart F--Equipment

                                 General

25.1301  Function and installation.
25.1303  Flight and navigation instruments.
25.1305  Powerplant instruments.
25.1307  Miscellaneous equipment.
25.1309  Equipment, systems, and installations.
25.1316  System lightning protection.

                        Instruments: Installation

25.1321  Arrangement and visibility.
25.1322  Warning, caution, and advisory lights.
25.1323  Airspeed indicating system.
25.1325  Static pressure systems.
25.1326  Pitot heat indication systems.
25.1327  Magnetic direction indicator.
25.1329  Automatic pilot system.
25.1331  Instruments using a power supply.
25.1333  Instrument systems.
25.1335  Flight director systems.
25.1337  Powerplant instruments.

                    Electrical Systems and Equipment

25.1351  General.
25.1353  Electrical equipment and installations.
25.1355  Distribution system.
25.1357  Circuit protective devices.
25.1363  Electrical system tests.

                                 Lights

25.1381  Instrument lights.
25.1383  Landing lights.
25.1385  Position light system installation.
25.1387  Position light system dihedral angles.
25.1389  Position light distribution and intensities.
25.1391  Minimum intensities in the horizontal plane of forward and rear 
          position lights.
25.1393  Minimum intensities in any vertical plane of forward and rear 
          position lights.
25.1395  Maximum intensities in overlapping beams of forward and rear 
          position lights.
25.1397  Color specifications.
25.1399  Riding light.
25.1401  Anticollision light system.
25.1403  Wing icing detection lights.

                            Safety Equipment

25.1411  General.
25.1415  Ditching equipment.
25.1419  Ice protection.
25.1421  Megaphones.
25.1423  Public address system.

                         Miscellaneous Equipment

25.1431  Electronic equipment.
25.1433  Vacuum systems.
25.1435  Hydraulic systems.
25.1438  Pressurization and pneumatic systems.
25.1439  Protective breathing equipment.
25.1441  Oxygen equipment and supply.
25.1443  Minimum mass flow of supplemental oxygen.
25.1445  Equipment standards for the oxygen distributing system.
25.1447  Equipment standards for oxygen dispensing units.
25.1449  Means for determining use of oxygen.
25.1450  Chemical oxygen generators.
25.1453  Protection of oxygen equipment from rupture.
25.1455  Draining of fluids subject to freezing.
25.1457  Cockpit voice recorders.
25.1459  Flight recorders.
25.1461  Equipment containing high energy rotors.

            Subpart G--Operating Limitations and Information

25.1501  General.

                          Operating Limitations

25.1503  Airspeed limitations: general.
25.1505  Maximum operating limit speed.
25.1507  Maneuvering speed.
25.1511  Flap extended speed.
25.1513  Minimum control speed.
25.1515  Landing gear speeds.
25.1516  Other speed limitations.
25.1517  Rough air speed, VRA.
25.1519  Weight, center of gravity, and weight distribution.
25.1521  Powerplant limitations.
25.1522  Auxiliary power unit limitations.
25.1523  Minimum flight crew.
25.1525  Kinds of operation.
25.1527  Ambient air temperature and operating altitude.
25.1529  Instructions for Continued Airworthiness.
25.1531  Maneuvering flight load factors.
25.1533  Additional operating limitations.

                          Markings and Placards

25.1541  General.
25.1543  Instrument markings: general.
25.1545  Airspeed limitation information.
25.1547  Magnetic direction indicator.

[[Page 342]]

25.1549  Powerplant and auxiliary power unit instruments.
25.1551  Oil quantity indication.
25.1553  Fuel quantity indicator.
25.1555  Control markings.
25.1557  Miscellaneous markings and placards.
25.1561  Safety equipment.
25.1563  Airspeed placard.

                         Airplane Flight Manual

25.1581  General.
25.1583  Operating limitations.
25.1585  Operating procedures.
25.1587  Performance information.

Appendix A to Part 25
Appendix B to Part 25
Appendix C to Part 25
Appendix D to Part 25
Appendix E to Part 25
Appendix F to Part 25
Appendix G to Part 25--Continuous Gust Design Criteria
Appendix H to Part 25--Instructions for Continued Airworthiness
Appendix I to Part 25--Installation of an Automatic Takeoff Thrust 
          Control System (ATTCS)
Appendix J to Part 25--Emergency Evacuation

    Authority: 49 U.S.C. 106(g), 40113, 44701, 44702 and 44704.

    Source: Docket No. 5066, 29 FR 18291, Dec. 24, 1964, unless 
otherwise noted.

               Special Federal Aviation Regulation No. 13

    1. Applicability. Contrary provisions of the Civil Air Regulations 
regarding certification notwithstanding,\1\ this regulation shall 
provide the basis for approval by the Administrator of modifications of 
individual Douglas DC-3 and Lockheed L-18 airplanes subsequent to the 
effective date of this regulation.
---------------------------------------------------------------------------

    \1\ It is not intended to waive compliance with such airworthiness 
requirements as are included in the operating parts of the Civil Air 
Regulations for specific types of operation.
---------------------------------------------------------------------------

    2. General modifications. Except as modified in sections 3 and 4 of 
this regulation, an applicant for approval of modifications to a DC-3 or 
L-18 airplane which result in changes in design or in changes to 
approved limitations shall show that the modifications were accomplished 
in accordance with the rules of either Part 4a or Part 4b in effect on 
September 1, 1953, which are applicable to the modification being made: 
Provided, That an applicant may elect to accomplish a modification in 
accordance with the rules of Part 4b in effect on the date of 
application for the modification in lieu of Part 4a or Part 4b as in 
effect on September 1, 1953: And provided further, That each specific 
modification must be accomplished in accordance with all of the 
provisions contained in the elected rules relating to the particular 
modification.
    3. Specific conditions for approval. An applicant for any approval 
of the following specific changes shall comply with section 2 of this 
regulation as modified by the applicable provisions of this section.
    (a) Increase in take-off power limitation--1,200 to 1,350 
horsepower. The engine take-off power limitation for the airplane may be 
increased to more than 1,200 horsepower but not to more than 1,350 
horsepower per engine if the increase in power does not adversely affect 
the flight characteristics of the airplane.
    (b) Increase in take-off power limitation to more than 1,350 
horsepower. The engine take-off power limitation for the airplane may be 
increased to more than 1,350 horsepower per engine if compliance is 
shown with the flight characteristics and ground handling requirements 
of Part 4b.
    (c) Installation of engines of not more than 1,830 cubic inches 
displacement and not having a certificated take-off rating of more than 
1,350 horsepower. Engines of not more than 1,830 cubic inches 
displacement and not having a certificated take-off rating of more than 
1,350 horsepower which necessitate a major modification of redesign of 
the engine installation may be installed, if the engine fire prevention 
and fire protection are equivalent to that on the prior engine 
installation.
    (d) Installation of engines of more than 1,830 cubic inches 
displacement or having certificated take-off rating of more than 1,350 
horsepower. Engines of more than 1,830 cubic inches displacement or 
having certificated take-off rating of more than 1,350 horsepower may be 
installed if compliance is shown with the engine installation 
requirements of Part 4b: Provided, That where literal compliance with 
the engine installation requirements of Part 4b is extremely difficult 
to accomplish and would not contribute materially to the objective 
sought, and the Administrator finds that the experience with the DC-3 or 
L-18 airplanes justifies it, he is authorized to accept such measures of 
compliance as he finds will effectively accomplish the basic objective.
    4. Establishment of new maximum certificated weights. An applicant 
for approval of new maximum certificated weights shall apply for an 
amendment of the airworthiness certificate of the airplane and shall 
show that the weights sought have been established, and the appropriate 
manual material obtained, as provided in this section.
    Note: Transport category performance requirements result in the 
establishment of maximum certificated weights for various altitudes.

[[Page 343]]

    (a) Weights-25,200 to 26,900 for the DC-3 and 18,500 to 19,500 for 
the L-18. New maximum certificated weights of more than 25,200 but not 
more than 26,900 pounds for DC-3 and more than 18,500 but not more than 
19,500 pounds for L-18 airplanes may be established in accordance with 
the transport category performance requirements of either Part 4a or 
Part 4b, if the airplane at the new maximum weights can meet the 
structural requirements of the elected part.
    (b) Weights of more than 26,900 for the DC-3 and 19,500 for the L-
18. New maximum certificated weights of more than 26,900 pounds for DC-3 
and 19,500 pounds for L-18 airplanes shall be established in accordance 
with the structural performance, flight characteristics, and ground 
handling requirements of Part 4b: Provided, That where literal 
compliance with the structural requirements of Part 4b is extremely 
difficult to accomplish and would not contribute materially to the 
objective sought, and the Administrator finds that the experience with 
the DC-3 or L-18 airplanes justifies it, he is authorized to accept such 
measures of compliance as he finds will effectively accomplish the basic 
objective.
    (c) Airplane flight manual-performance operating information. An 
approved airplane flight manual shall be provided for each DC-3 and L-18 
airplane which has had new maximum certificated weights established 
under this section. The airplane flight manual shall contain the 
applicable performance information prescribed in that part of the 
regulations under which the new certificated weights were established 
and such additional information as may be necessary to enable the 
application of the take-off, en route, and landing limitations 
prescribed for transport category airplanes in the operating parts of 
the Civil Air Regulations.
    (d) Performance operating limitations. Each airplane for which new 
maximum certificated weights are established in accordance with 
paragraphs (a) or (b) of this section shall be considered a transport 
category airplane for the purpose of complying with the performance 
operating limitations applicable to the operations in which it is 
utilized.
    5. Reference. Unless otherwise provided, all references in this 
regulation to Part 4a and Part 4b are those parts of the Civil Air 
Regulations in effect on September 1, 1953.
    This regulation supersedes Special Civil Air Regulation SR-398 and 
shall remain effective until superseded or rescinded by the Board.

[19 FR 5039, Aug. 11, 1954. Redesignated at 29 FR 19099, Dec. 30, 1964]



                           Subpart A--General



Sec. 25.1  Applicability.

    (a) This part prescribes airworthiness standards for the issue of 
type certificates, and changes to those certificates, for transport 
category airplanes.
    (b) Each person who applies under Part 21 for such a certificate or 
change must show compliance with the applicable requirements in this 
part.



Sec. 25.2  Special retroactive requirements.

    The following special retroactive requirements are applicable to an 
airplane for which the regulations referenced in the type certificate 
predate the sections specified below--
    (a) Irrespective of the date of application, each applicant for a 
supplemental type certificate (or an amendment to a type certificate) 
involving an increase in passenger seating capacity to a total greater 
than that for which the airplane has been type certificated must show 
that the airplane concerned meets the requirements of:
    (1) Sections 25.721(d), 25.783(g), 25.785(c), 25.803(c)(2) through 
(9), 25.803 (d) and (e), 25.807 (a), (c), and (d), 25.809 (f) and (h), 
25.811, 25.812, 25.813 (a), (b), and (c), 25.815, 25.817, 25.853 (a) and 
(b), 25.855(a), 25.993(f), and 25.1359(c) in effect on October 24, 1967, 
and
    (2) Sections 25.803(b) and 25.803(c)(1) in effect on April 23, 1969.
    (b) Irrespective of the date of application, each applicant for a 
supplemental type certificate (or an amendment to a type certificate) 
for an airplane manufactured after October 16, 1987, must show that the 
airplane meets the requirements of Sec. 25.807(c)(7) in effect on July 
24, 1989.
    (c) Compliance with subsequent revisions to the sections specified 
in paragraph (a) or (b) of this section may be elected or may be 
required in accordance with Sec. 21.101(a) of this chapter.

[Amdt. 25-72, 55 FR 29773, July 20, 1990, as amended by Amdt. 25-99, 65 
FR 36266, June 7, 2000]

[[Page 344]]



                            Subpart B--Flight

                                 General



Sec. 25.21  Proof of compliance.

    (a) Each requirement of this subpart must be met at each appropriate 
combination of weight and center of gravity within the range of loading 
conditions for which certification is requested. This must be shown--
    (1) By tests upon an airplane of the type for which certification is 
requested, or by calculations based on, and equal in accuracy to, the 
results of testing; and
    (2) By systematic investigation of each probable combination of 
weight and center of gravity, if compliance cannot be reasonably 
inferred from combinations investigated.
    (b)  [Reserved]
    (c) The controllability, stability, trim, and stalling 
characteristics of the airplane must be shown for each altitude up to 
the maximum expected in operation.
    (d) Parameters critical for the test being conducted, such as 
weight, loading (center of gravity and inertia), airspeed, power, and 
wind, must be maintained within acceptable tolerances of the critical 
values during flight testing.
    (e) If compliance with the flight characteristics requirements is 
dependent upon a stability augmentation system or upon any other 
automatic or power-operated system, compliance must be shown with 
Secs. 25.671 and 25.672.
    (f) In meeting the requirements of Secs. 25.105(d), 25.125, 25.233, 
and 25.237, the wind velocity must be measured at a height of 10 meters 
above the surface, or corrected for the difference between the height at 
which the wind velocity is measured and the 10-meter height.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5671, Apr. 8, 1970; Amdt. 25-42, 43 FR 2320, Jan. 16, 1978; Amdt. 
25-72, 55 FR 29774, July 20, 1990]



Sec. 25.23  Load distribution limits.

    (a) Ranges of weights and centers of gravity within which the 
airplane may be safely operated must be established. If a weight and 
center of gravity combination is allowable only within certain load 
distribution limits (such as spanwise) that could be inadvertently 
exceeded, these limits and the corresponding weight and center of 
gravity combinations must be established.
    (b) The load distribution limits may not exceed--
    (1) The selected limits;
    (2) The limits at which the structure is proven; or
    (3) The limits at which compliance with each applicable flight 
requirement of this subpart is shown.



Sec. 25.25  Weight limits.

    (a) Maximum weights. Maximum weights corresponding to the airplane 
operating conditions (such as ramp, ground or water taxi, takeoff, en 
route, and landing), environmental conditions (such as altitude and 
temperature), and loading conditions (such as zero fuel weight, center 
of gravity position and weight distribution) must be established so that 
they are not more than--
    (1) The highest weight selected by the applicant for the particular 
conditions; or
    (2) The highest weight at which compliance with each applicable 
structural loading and flight requirement is shown, except that for 
airplanes equipped with standby power rocket engines the maximum weight 
must not be more than the highest weight established in accordance with 
appendix E of this part; or
    (3) The highest weight at which compliance is shown with the 
certification requirements of Part 36 of this chapter.
    (b) Minimum weight. The minimum weight (the lowest weight at which 
compliance with each applicable requirement of this part is shown) must 
be established so that it is not less than--
    (1) The lowest weight selected by the applicant;
    (2) The design minimum weight (the lowest weight at which compliance 
with each structural loading condition of this part is shown); or
    (3) The lowest weight at which compliance with each applicable 
flight requirement is shown.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5671, Apr. 8, 1970; Amdt. 25-63, 53 FR 16365, May 6, 1988]

[[Page 345]]



Sec. 25.27  Center of gravity limits.

    The extreme forward and the extreme aft center of gravity 
limitations must be established for each practicably separable operating 
condition. No such limit may lie beyond--
    (a) The extremes selected by the applicant;
    (b) The extremes within which the structure is proven; or
    (c) The extremes within which compliance with each applicable flight 
requirement is shown.



Sec. 25.29  Empty weight and corresponding center of gravity.

    (a) The empty weight and corresponding center of gravity must be 
determined by weighing the airplane with--
    (1) Fixed ballast;
    (2) Unusable fuel determined under Sec. 25.959; and
    (3) Full operating fluids, including--
    (i) Oil;
    (ii) Hydraulic fluid; and
    (iii) Other fluids required for normal operation of airplane 
systems, except potable water, lavatory precharge water, and fluids 
intended for injection in the engine.
    (b) The condition of the airplane at the time of determining empty 
weight must be one that is well defined and can be easily repeated.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-42, 
43 FR 2320, Jan. 16, 1978; Amdt. 25-72, 55 FR 29774, July 20, 1990]



Sec. 25.31  Removable ballast.

    Removable ballast may be used on showing compliance with the flight 
requirements of this subpart.



Sec. 25.33  Propeller speed and pitch limits.

    (a) The propeller speed and pitch must be limited to values that 
will ensure-
    (1) Safe operation under normal operating conditions; and
    (2) Compliance with the performance requirements of Secs. 25.101 
through 25.125.
    (b) There must be a propeller speed limiting means at the governor. 
It must limit the maximum possible governed engine speed to a value not 
exceeding the maximum allowable r.p.m.
    (c) The means used to limit the low pitch position of the propeller 
blades must be set so that the engine does not exceed 103 percent of the 
maximum allowable engine rpm or 99 percent of an approved maximum 
overspeed, whichever is greater, with--
    (1) The propeller blades at the low pitch limit and governor 
inoperative;
    (2) The airplane stationary under standard atmospheric conditions 
with no wind; and
    (3) The engines operating at the takeoff manifold pressure limit for 
reciprocating engine powered airplanes or the maximum takeoff torque 
limit for turbopropeller engine-powered airplanes.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-57, 
49 FR 6848, Feb. 23, 1984; Amdt. 25-72, 55 FR 29774, July 20, 1990]

                               Performance



Sec. 25.101  General.

    (a) Unless otherwise prescribed, airplanes must meet the applicable 
performance requirements of this subpart for ambient atmospheric 
conditions and still air.
    (b) The performance, as affected by engine power or thrust, must be 
based on the following relative humidities;
    (1) For turbine engine powered airplanes, a relative humidity of--
    (i) 80 percent, at and below standard temperatures; and
    (ii) 34 percent, at and above standard temperatures plus 50 deg. F.

Between these two temperatures, the relative humidity must vary 
linearly.
    (2) For reciprocating engine powered airplanes, a relative humidity 
of 80 percent in a standard atmosphere. Engine power corrections for 
vapor pressure must be made in accordance with the following table:

------------------------------------------------------------------------
                                    Specific
                                   humidity w
   Altitude H    Vapor pressure   (Lb. moisture  Density ratio /
     (ft.)         e (In. Hg.)     per lb. dry     =0.0023769
                                      air)
------------------------------------------------------------------------
            0           0.403         0.00849              0.99508
        1,000            .354          .00773               .96672
        2,000            .311          .00703               .93895
        3,000            .272          .00638               .91178
        4,000            .238          .00578               .88514
        5,000            .207          .00523               .85910
        6,000           .1805          .00472               .83361
        7,000           .1566          .00425               .80870
        8,000           .1356          .00382               .78434
        9,000           .1172          .00343               .76053
       10,000           .1010          .00307               .73722

[[Page 346]]

 
       15,000           .0463         .001710               .62868
       20,000          .01978         .000896               .53263
       25,000          .00778         .000436               .44806
------------------------------------------------------------------------

    (c) The performance must correspond to the propulsive thrust 
available under the particular ambient atmospheric conditions, the 
particular flight condition, and the relative humidity specified in 
paragraph (b) of this section. The available propulsive thrust must 
correspond to engine power or thrust, not exceeding the approved power 
or thrust less--
    (1) Installation losses; and
    (2) The power or equivalent thrust absorbed by the accessories and 
services appropriate to the particular ambient atmospheric conditions 
and the particular flight condition.
    (d) Unless otherwise prescribed, the applicant must select the 
takeoff, en route, approach, and landing configurations for the 
airplane.
    (e) The airplane configurations may vary with weight, altitude, and 
temperature, to the extent they are compatible with the operating 
procedures required by paragraph (f) of this section.
    (f) Unless otherwise prescribed, in determining the accelerate-stop 
distances, takeoff flight paths, takeoff distances, and landing 
distances, changes in the airplane's configuration, speed, power, and 
thrust, must be made in accordance with procedures established by the 
applicant for operation in service.
    (g) Procedures for the execution of balked landings and missed 
approaches associated with the conditions prescribed in Secs. 25.119 and 
25.121(d) must be established.
    (h) The procedures established under paragraphs (f) and (g) of this 
section must--
    (1) Be able to be consistently executed in service by crews of 
average skill;
    (2) Use methods or devices that are safe and reliable; and
    (3) Include allowance for any time delays, in the execution of the 
procedures, that may reasonably be expected in service.
    (i) The accelerate-stop and landing distances prescribed in 
Secs. 25.109 and 25.125, respectively, must be determined with all the 
airplane wheel brake assemblies at the fully worn limit of their 
allowable wear range.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55466, Dec. 20, 1976; Amdt. 25-92, 63 FR 8318, Feb. 18, 1998]



Sec. 25.103  Stalling speed.

    (a) VS is the calibrated stalling speed, or the minimum 
steady flight speed, in knots, at which the airplane is controllable, 
with--
    (1) Zero thrust at the stalling speed, or, if the resultant thrust 
has no appreciable effect on the stalling speed, with engines idling and 
throttles closed;
    (2) Propeller pitch controls (if applicable) in the position 
necessary for compliance with paragraph (a)(1) of this section and the 
airplane in other respects (such as flaps and landing gear) in the 
condition existing in the test in which VS is being used;
    (3) The weight used when VS is being used as a factor to 
determine compliance with a required performance standard; and
    (4) The most unfavorable center of gravity allowable.
    (b) The stalling speed VS is the minimum speed obtained 
as follows:
    (1) Trim the airplane for straight flight at any speed not less than 
1.2 VS or more than 1.4 VS At a speed sufficiently 
above the stall speed to ensure steady conditions, apply the elevator 
control at a rate so that the airplane speed reduction does not exceed 
one knot per second.
    (2) Meet the flight characteristics provisions of Sec. 25.203.



Sec. 25.105  Takeoff.

    (a) The takeoff speeds described in Sec. 25.107, the accelerate-stop 
distance described in Sec. 25.109, the takeoff path described in 
Sec. 25.111, and the takeoff distance and takeoff run described in 
Sec. 25.113, must be determined--
    (1) At each weight, altitude, and ambient temperature within the 
operational limits selected by the applicant; and
    (2) In the selected configuration for takeoff.

[[Page 347]]

    (b) No takeoff made to determine the data required by this section 
may require exceptional piloting skill or alertness.
    (c) The takeoff data must be based on--
    (1) In the case of land planes and amphibians:
    (i) Smooth, dry and wet, hard-surfaced runways; and
    (ii) At the option of the applicant, grooved or porous friction 
course wet, hard-surfaced runways.
    (2) Smooth water, in the case of seaplanes and amphibians; and
    (3) Smooth, dry snow, in the case of skiplanes.
    (d) The takeoff data must include, within the established 
operational limits of the airplane, the following operational correction 
factors:
    (1) Not more than 50 percent of nominal wind components along the 
takeoff path opposite to the direction of takeoff, and not less than 150 
percent of nominal wind components along the takeoff path in the 
direction of takeoff.
    (2) Effective runway gradients.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-92, 
63 FR 8318, Feb. 18, 1998]



Sec. 25.107  Takeoff speeds.

    (a) V1 must be established in relation to VEF 
as follows:
    (1) VEF is the calibrated airspeed at which the critical 
engine is assumed to fail. VEF must be selected by the 
applicant, but may not be less than VMCG determined under 
Sec. 25.149(e).
    (2) V1, in terms of calibrated airspeed, is selected by 
the applicant; however, V1 may not be less than 
VEF plus the speed gained with critical engine inoperative 
during the time interval between the instant at which the critical 
engine is failed, and the instant at which the pilot recognizes and 
reacts to the engine failure, as indicated by the pilot's initiation of 
the first action (e.g., applying brakes, reducing thrust, deploying 
speed brakes) to stop the airplane during accelerate-stop tests.
    (b) V2MIN, in terms of calibrated airspeed, may not be 
less than--
    (1) 1.2 VS for--
    (i) Two-engine and three-engine turbopropeller and reciprocating 
engine powered airplanes; and
    (ii) Turbojet powered airplanes without provisions for obtaining a 
significant reduction in the one-engine-inoperative power-on stalling 
speed;
    (2) 1.15 VS for--
    (i) Turbopropeller and reciprocating engine powered airplanes with 
more than three engines; and
    (ii) Turbojet powered airplanes with provisions for obtaining a 
significant reduction in the one-engine-inoperative power-on stalling 
speed; and
    (3) 1.10 times VMC established under Sec. 25.149.
    (c) V2, in terms of calibrated airspeed, must be selected 
by the applicant to provide at least the gradient of climb required by 
Sec. 25.121(b) but may not be less than--
    (1) V2MIN, and
    (2) VR plus the speed increment attained (in accordance 
with Sec. 25.111(c)(2)) before reaching a height of 35 feet above the 
takeoff surface.
    (d) VMU is the calibrated airspeed at and above which the 
airplane can safely lift off the ground, and con- tinue the takeoff. 
VMU speeds must be selected by the applicant throughout the 
range of thrust-to-weight ratios to be certificated. These speeds may be 
established from free air data if these data are verified by ground 
takeoff tests.
    (e) VR, in terms of calibrated airspeed, must be selected 
in accordance with the conditions of paragraphs (e)(1) through (4) of 
this section:
    (1) VR may not be less than--
    (i) V1;
    (ii) 105 percent of VMC;
    (iii) The speed (determined in accordance with Sec. 25.111(c)(2)) 
that allows reaching V2 before reaching a height of 35 feet 
above the takeoff surface; or
    (iv) A speed that, if the airplane is rotated at its maximum 
practicable rate, will result in a VLOF of not less than 110 
percent of VMU in the all-engines-operating condition and not 
less than 105 percent of VMU determined at the thrust-to-
weight ratio corresponding to the one-engine-inoperative condition.
    (2) For any given set of conditions (such as weight, configuration, 
and

[[Page 348]]

temperature), a single value of VR, obtained in accordance 
with this paragraph, must be used to show compliance with both the one-
engine-inoperative and the all-engines-operating takeoff provisions.
    (3) It must be shown that the one-engine-inoperative takeoff 
distance, using a rotation speed of 5 knots less than VR 
established in accordance with paragraphs (e)(1) and (2) of this 
section, does not exceed the corresponding one-engine-inoperative 
takeoff distance using the established VR. The takeoff 
distances must be determined in accordance with Sec. 25.113(a)(1).
    (4) Reasonably expected variations in service from the established 
takeoff procedures for the operation of the airplane (such as over-
rotation of the airplane and out-of-trim conditions) may not result in 
unsafe flight characteristics or in marked increases in the scheduled 
takeoff distances established in accordance with Sec. 25.113(a).
    (f) VLOF is the calibrated airspeed at which the airplane 
first becomes airborne.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55466, Dec. 20, 1976; Amdt. 25-42, 43 FR 2320, Jan. 16, 1978; 
Amdt. 25-92, 63 FR 8318, Feb. 18, 1998; Amdt. 25-94, 63 FR 8848, Feb. 
23, 1998]



Sec. 25.109  Accelerate-stop distance.

    (a) The accelerate-stop distance on a dry runway is the greater of 
the following distances:
    (1) The sum of the distances necessary to--
    (i) Accelerate the airplane from a standing start with all engines 
operating to VEF for takeoff from a dry runway;
    (ii) Allow the airplane to accelerate from VEF to the 
highest speed reached during the rejected takeoff, assuming the critical 
engine fails at VEF and the pilot takes the first action to 
reject the takeoff at the V1 for takeoff from a dry runway; 
and
    (iii) Come to a full stop on a dry runway from the speed reached as 
prescribed in paragraph (a)(1)(ii) of this section; plus
    (iv) A distance equivalent to 2 seconds at the V1 for 
takeoff from a dry runway.
    (2) The sum of the distances necessary to--
    (i) Accelerate the airplane from a standing start with all engines 
operating to the highest speed reached during the rejected takeoff, 
assuming the pilot takes the first action to reject the takeoff at the 
V1 for takeoff from a dry runway; and
    (ii) With all engines still operating, come to a full stop on dry 
runway from the speed reached as prescribed in paragraph (a)(2)(i) of 
this section; plus
    (iii) A distance equivalent to 2 seconds at the V1 for 
takeoff from a dry runway.
    (b) The accelerate-stop distance on a wet runway is the greater of 
the following distances:
    (1) The accelerate-stop distance on a dry runway determined in 
accordance with paragraph (a) of this section; or
    (2) The accelerate-stop distance determined in accordance with 
paragraph (a) of this section, except that the runway is wet and the 
corresponding wet runway values of VEF and V1 are 
used. In determining the wet runway accelerate-stop distance, the 
stopping force from the wheel brakes may never exceed:
    (i) The wheel brakes stopping force determined in meeting the 
requirements of Sec. 25.101(i) and paragraph (a) of this section; and
    (ii) The force resulting from the wet runway braking coefficient of 
friction determined in accordance with paragraphs (c) or (d) of this 
section, as applicable, taking into account the distribution of the 
normal load between braked and unbraked wheels at the most adverse 
center-of-gravity position approved for takeoff.
    (c) The wet runway braking coefficient of friction for a smooth wet 
runway is defined as a curve of friction coefficient versus ground speed 
and must be computed as follows:
    (1) The maximum tire-to-ground wet runway braking coefficient of 
friction is defined as:


[[Page 349]]


[GRAPHIC] [TIFF OMITTED] TR18FE98.004


Where--

Tire Pressure=maximum airplane operating tire pressure (psi);
t/gMAX=maximum tire-to-ground braking coefficient;
V=airplane true ground speed (knots); and
Linear interpolation may be used for tire pressures other than those 
listed.

    (2) The maximum tire-to-ground wet runway braking coefficient of 
friction must be adjusted to take into account the efficiency of the 
anti-skid system on a wet runway. Anti-skid system operation must be 
demonstrated by flight testing on a smooth wet runway, and its 
efficiency must be determined. Unless a specific anti-skid system 
efficiency is determined from a quantitative analysis of the flight 
testing on a smooth wet runway, the maximum tire-to-ground wet runway 
braking coefficient of friction determined in paragraph (c)(1) of this 
section must be multiplied by the efficiency value associated with the 
type of anti-skid system installed on the airplane:

------------------------------------------------------------------------
                                                              Efficiency
                  Type of anti-skid system                       value
------------------------------------------------------------------------
On-Off......................................................       0.30
Quasi-Modulating............................................       0.50
Fully Modulating............................................       0.80
------------------------------------------------------------------------

    (d) At the option of the applicant, a higher wet runway braking 
coefficient of friction may be used for runway surfaces that have been 
grooved or treated with a porous friction course material. For grooved 
and porous friction course runways, the wet runway braking coefficent of 
friction is defined as either:
    (1) 70 percent of the dry runway braking coefficient of friction 
used to determine the dry runway accelerate-stop distance; or
    (2) The wet runway braking coefficient defined in paragraph (c) of 
this section, except that a specific anti-skid system efficiency, if 
determined, is appropriate for a grooved or porous friction course wet 
runway, and the maximum tire-to-ground wet runway braking coefficient of 
friction is defined as:


[[Page 350]]


[GRAPHIC] [TIFF OMITTED] TR18FE98.005


Where--

Tire Pressure=maximum airplane operating tire pressure (psi);
t/gMAX=maximum tire-to-ground braking coefficient;
V=airplane true ground speed (knots); and
Linear interpolation may be used for tire pressures other than those 
listed.

    (e) Except as provided in paragraph (f)(1) of this section, means 
other than wheel brakes may be used to determine the accelerate-stop 
distance if that means--
    (1) Is safe and reliable;
    (2) Is used so that consistent results can be expected under normal 
operating conditions; and
    (3) Is such that exceptional skill is not required to control the 
airplane.
    (f) The effects of available reverse thrust--
    (1) Shall not be included as an additional means of deceleration 
when determining the accelerate-stop distance on a dry runway; and
    (2) May be included as an additional means of deceleration using 
recommended reverse thrust procedures when determining the accelerate-
stop distance on a wet runway, provided the requirements of paragraph 
(e) of this section are met.
    (g) The landing gear must remain extended throughout the accelerate-
stop distance.
    (h) If the accelerate-stop distance includes a stopway with surface 
characteristics substantially different from those of the runway, the 
takeoff data must include operational correction factors for the 
accelerate-stop distance. The correction factors must account for the 
particular surface characteristics of the stopway and the variations in 
these characteristics with seasonal weather conditions (such as 
temperature, rain, snow, and ice) within the established operational 
limits.
    (i) A flight test demonstration of the maximum brake kinetic energy 
accelerate-stop distance must be conducted with not more than 10 percent 
of the allowable brake wear range remaining on each of the airplane 
wheel brakes.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-42, 
43 FR 2321, Jan. 16, 1978; Amdt. 25-92, 63 FR 8318, Feb. 18, 1998]



Sec. 25.111  Takeoff path.

    (a) The takeoff path extends from a standing start to a point in the 
takeoff at which the airplane is 1,500 feet above the takeoff surface, 
or at which the transition from the takeoff to the en route 
configuration is completed and a speed is reached at which compliance 
with Sec. 25.121(c) is shown, whichever point is higher. In addition--
    (1) The takeoff path must be based on the procedures prescribed in 
Sec. 25.101(f);
    (2) The airplane must be accelerated on the ground to 
VEF, at which point the critical engine must be made 
inoperative and remain inoperative for the rest of the takeoff; and
    (3) After reaching VEF, the airplane must be accelerated 
to V2.
    (b) During the acceleration to speed V2, the nose gear 
may be raised off the ground at a speed not less than VR. 
However, landing gear retraction may

[[Page 351]]

not be begun until the airplane is airborne.
    (c) During the takeoff path determination in accordance with 
paragraphs (a) and (b) of this section--
    (1) The slope of the airborne part of the takeoff path must be 
positive at each point;
    (2) The airplane must reach V2 before it is 35 feet above 
the takeoff surface and must continue at a speed as close as practical 
to, but not less than V2, until it is 400 feet above the 
takeoff surface;
    (3) At each point along the takeoff path, starting at the point at 
which the airplane reaches 400 feet above the takeoff surface, the 
available gradient of climb may not be less than--
    (i) 1.2 percent for two-engine airplanes;
    (ii) 1.5 percent for three-engine airplanes; and
    (iii) 1.7 percent for four-engine airplanes; and
    (4) Except for gear retraction and propeller feathering, the 
airplane configuration may not be changed, and no change in power or 
thrust that requires action by the pilot may be made, until the airplane 
is 400 feet above the takeoff surface.
    (d) The takeoff path must be determined by a continuous demonstrated 
takeoff or by synthesis from segments. If the takeoff path is determined 
by the segmental method--
    (1) The segments must be clearly defined and must be related to the 
distinct changes in the configuration, power or thrust, and speed;
    (2) The weight of the airplane, the configuration, and the power or 
thrust must be constant throughout each segment and must correspond to 
the most critical condition prevailing in the segment;
    (3) The flight path must be based on the airplane's performance 
without ground effect; and
    (4) The takeoff path data must be checked by continuous demonstrated 
takeoffs up to the point at which the airplane is out of ground effect 
and its speed is stabilized, to ensure that the path is conservative 
relative to the continous path.

The airplane is considered to be out of the ground effect when it 
reaches a height equal to its wing span.
    (e) For airplanes equipped with standby power rocket engines, the 
takeoff path may be determined in accordance with section II of appendix 
E.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-6, 30 
FR 8468, July 2, 1965; Amdt. 25-42, 43 FR 2321, Jan. 16, 1978; Amdt. 25-
54, 45 FR 60172, Sept. 11, 1980; Amdt. 25-72, 55 FR 29774, July 20, 
1990; Amdt. 25-94, 63 FR 8848, Feb. 23, 1998]



Sec. 25.113  Takeoff distance and takeoff run.

    (a) Takeoff distance on a dry runway is the greater of--
    (1) The horizontal distance along the takeoff path from the start of 
the takeoff to the point at which the airplane is 35 feet above the 
takeoff surface, determined under Sec. 25.111 for a dry runway; or
    (2) 115 percent of the horizontal distance along the takeoff path, 
with all engines operating, from the start of the takeoff to the point 
at which the airplane is 35 feet above the takeoff surface, as 
determined by a procedure consistent with Sec. 25.111.
    (b) Takeoff distance on a wet runway is the greater of--
    (1) The takeoff distance on a dry runway determined in accordance 
with paragraph (a) of this section; or
    (2) The horizontal distance along the takeoff path from the start of 
the takeoff to the point at which the airplane is 15 feet above the 
takeoff surface, achieved in a manner consistent with the achievement of 
V2 before reaching 35 feet above the takeoff surface, 
determined under Sec. 25.111 for a wet runway.
    (c) If the takeoff distance does not include a clearway, the takeoff 
run is equal to the takeoff distance. If the takeoff distance includes a 
clearway--
    (1) The takeoff run on a dry runway is the greater of--
    (i) The horizontal distance along the takeoff path from the start of 
the takeoff to a point equidistant between the point at which 
VLOF is reached and the point at which the airplane is 35 
feet above the takeoff surface, as determined under Sec. 25.111 for a 
dry runway; or

[[Page 352]]

    (ii) 115 percent of the horizontal distance along the takeoff path, 
with all engines operating, from the start of the takeoff to a point 
equidistant between the point at which VLOF is reached and 
the point at which the airplane is 35 feet above the takeoff surface, 
determined by a procedure consistent with Sec. 25.111.
    (2) The takeoff run on a wet runway is the greater of--
    (i) The horizontal distance along the takeoff path from the start of 
the takeoff to the point at which the airplane is 15 feet above the 
takeoff surface, achieved in a manner consistent with the achievement of 
V2 before reaching 35 feet above the takeoff surface, as 
determined under Sec. 25.111 for a wet runway; or
    (ii) 115 percent of the horizontal distance along the takeoff path, 
with all engines operating, from the start of the takeoff to a point 
equidistant between the point at which VLOF is reached and 
the point at which the airplane is 35 feet above the takeoff surface, 
determined by a procedure consistent with Sec. 25.111.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5671, Apr. 8, 1970; Amdt. 25-92, 63 FR 8320, Feb. 18, 1998]



Sec. 25.115  Takeoff flight path.

    (a) The takeoff flight path shall be considered to begin 35 feet 
above the takeoff surface at the end of the takeoff distance determined 
in accordance with Sec. 25.113(a) or (b), as appropriate for the runway 
surface condition.
    (b) The net takeoff flight path data must be determined so that they 
represent the actual takeoff flight paths (determined in accordance with 
Sec. 25.111 and with paragraph (a) of this section) reduced at each 
point by a gradient of climb equal to--
    (1) 0.8 percent for two-engine airplanes;
    (2) 0.9 percent for three-engine airplanes; and
    (3) 1.0 percent for four-engine airplanes.
    (c) The prescribed reduction in climb gradient may be applied as an 
equivalent reduction in acceleration along that part of the takeoff 
flight path at which the airplane is accelerated in level flight.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-92, 
63 FR 8320, Feb. 18, 1998]



Sec. 25.117  Climb: general.

    Compliance with the requirements of Secs. 25.119 and 25.121 must be 
shown at each weight, altitude, and ambient temperature within the 
operational limits established for the airplane and with the most 
unfavorable center of gravity for each configuration.



Sec. 25.119  Landing climb: All-engines-operating.

    In the landing configuration, the steady gradient of climb may not 
be less than 3.2 percent, with--
    (a) The engines at the power or thrust that is available eight 
seconds after initiation of movement of the power or thrust controls 
from the minimum flight idle to the go-around power or thrust setting; 
and
    (b) A climb speed of not more than 1.3 VS.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 
25-84, 60 FR 30749, June 9, 1995]



Sec. 25.121  Climb: One-engine-inoperative.

    (a) Takeoff; landing gear extended. In the critical takeoff 
configuration existing along the flight path (between the points at 
which the airplane reaches VLOF and at which the landing gear 
is fully retracted) and in the configuration used in Sec. 25.111 but 
without ground effect, the steady gradient of climb must be positive for 
two-engine airplanes, and not less than 0.3 percent for three-engine 
airplanes or 0.5 percent for four-engine airplanes, at VLOF 
and with--
    (1) The critical engine inoperative and the remaining engines at the 
power or thrust available when retraction of the landing gear is begun 
in accordance with Sec. 25.111 unless there is a more critical power 
operating condition existing later along the flight path but before the 
point at which the landing gear is fully retracted; and
    (2) The weight equal to the weight existing when retraction of the 
landing

[[Page 353]]

gear is begun, determined under Sec. 25.111.
    (b) Takeoff; landing gear retracted. In the takeoff configuration 
existing at the point of the flight path at which the landing gear is 
fully retracted, and in the configuration used in Sec. 25.111 but 
without ground effect, the steady gradient of climb may not be less than 
2.4 percent for two-engine airplanes, 2.7 percent for three-engine 
airplanes, and 3.0 percent for four-engine airplanes, at V2 
and with--
    (1) The critical engine inoperative, the remaining engines at the 
takeoff power or thrust available at the time the landing gear is fully 
retracted, determined under Sec. 25.111, unless there is a more critical 
power operating condition existing later along the flight path but 
before the point where the airplane reaches a height of 400 feet above 
the takeoff surface; and
    (2) The weight equal to the weight existing when the airplane's 
landing gear is fully retracted, determined under Sec. 25.111.
    (c) Final takeoff. In the en route configuration at the end of the 
takeoff path determined in accordance with Sec. 25.111, the steady 
gradient of climb may not be less than 1.2 percent for two-engine 
airplanes, 1.5 percent for three-engine airplanes, and 1.7 percent for 
four-engine airplanes, at not less than 1.25 VS and with--
    (1) The critical engine inoperative and the remaining engines at the 
available maximum continuous power or thrust; and
    (2) The weight equal to the weight existing at the end of the 
takeoff path, determined under Sec. 25.111.
    (d) Approach. In the approach configuration corresponding to the 
normal all-engines-operating procedure in which VS for this 
configuration does not exceed 110 percent of the VS for the 
related landing configuration, the steady gradient of climb may not be 
less than 2.1 percent for two-engine airplanes, 2.4 percent for three-
engine airplanes, and 2.7 percent for four-engine airplanes, with--
    (1) The critical engine inoperative, the remaining engines at the 
go-around power or thrust setting;
    (2) The maximum landing weight; and
    (3) A climb speed established in connection with normal landing 
procedures, but not exceeding 1.5 VS.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-84, 
60 FR 30749, June 9, 1995]



Sec. 25.123  En route flight paths.

    (a) For the en route configuration, the flight paths prescribed in 
paragraphs (b) and (c) of this section must be determined at each 
weight, altitude, and ambient temperature, within the operating limits 
established for the airplane. The variation of weight along the flight 
path, accounting for the progressive consumption of fuel and oil by the 
operating engines, may be included in the computation. The flight paths 
must be determined at any selected speed, with--
    (1) The most unfavorable center of gravity;
    (2) The critical engines inoperative;
    (3) The remaining engines at the available maximum continuous power 
or thrust; and
    (4) The means for controlling the engine-cooling air supply in the 
position that provides adequate cooling in the hot-day condition.
    (b) The one-engine-inoperative net flight path data must represent 
the actual climb performance diminished by a gradient of climb of 1.1 
percent for two-engine airplanes, 1.4 percent for three-engine 
airplanes, and 1.6 percent for four-engine airplanes.
    (c) For three- or four-engine airplanes, the two-engine-inoperative 
net flight path data must represent the actual climb performance 
diminished by a gradient of climb of 0.3 percent for three-engine 
airplanes and 0.5 percent for four-engine airplanes.



Sec. 25.125  Landing.

    (a) The horizontal distance necessary to land and to come to a 
complete stop (or to a speed of approximately 3 knots for water 
landings) from a point 50 feet above the landing surface must be 
determined (for standard temperatures, at each weight, altitude, and 
wind within the operational limits established by the applicant for the 
airplane) as follows:
    (1) The airplane must be in the landing configuration.

[[Page 354]]

    (2) A stabilized approach, with a calibrated airspeed of not less 
than 1.3 VS or VMCL, whichever is greater, must be 
maintained down to the 50 foot height.
    (3) Changes in configuration, power or thrust, and speed, must be 
made in accordance with the established procedures for service 
operation.
    (4) The landing must be made without excessive vertical 
acceleration, tendency to bounce, nose over, ground loop, porpoise, or 
water loop.
    (5) The landings may not require exceptional piloting skill or 
alertness.
    (b) For landplanes and amphibians, the landing distance on land must 
be determined on a level, smooth, dry, hard-surfaced runway. In 
addition--
    (1) The pressures on the wheel braking systems may not exceed those 
specified by the brake manufacturer;
    (2) The brakes may not be used so as to cause excessive wear of 
brakes or tires; and
    (3) Means other than wheel brakes may be used if that means--
    (i) Is safe and reliable;
    (ii) Is used so that consistent results can be expected in service; 
and
    (iii) Is such that exceptional skill is not required to control the 
airplane.
    (c) For seaplanes and amphibians, the landing distance on water must 
be determined on smooth water.
    (d) For skiplanes, the landing distance on snow must be determined 
on smooth, dry, snow.
    (e) The landing distance data must include correction factors for 
not more than 50 percent of the nominal wind components along the 
landing path opposite to the direction of landing, and not less than 150 
percent of the nominal wind components along the landing path in the 
direction of landing.
    (f) If any device is used that depends on the operation of any 
engine, and if the landing distance would be noticeably increased when a 
landing is made with that engine inoperative, the landing distance must 
be determined with that engine inoperative unless the use of 
compensating means will result in a landing distance not more than that 
with each engine operating.

Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 55 
FR 29774, July 20, 1990; Amdt. 25-84, 60 FR 30749, June 9, 1995]

                   Controllability and Maneuverability



Sec. 25.143  General.

    (a) The airplane must be safely controllable and maneuverable 
during--
    (1) Takeoff;
    (2) Climb;
    (3) Level flight;
    (4) Descent; and
    (5) Landing.
    (b) It must be possible to make a smooth transition from one flight 
condition to any other flight condition without exceptional piloting 
skill, alertness, or strength, and without danger of exceeding the 
airplane limit-load factor under any probable operating conditions, 
including--
    (1) The sudden failure of the critical engine;
    (2) For airplanes with three or more engines, the sudden failure of 
the second critical engine when the airplane is in the en route, 
approach, or landing configuration and is trimmed with the critical 
engine inoperative; and
    (3) Configuration changes, including deployment or retraction of 
deceleration devices.
    (c) The following table prescribes, for conventional wheel type 
controls, the maximum control forces permitted during the testing 
required by paragraphs (a) and (b) of this section:

------------------------------------------------------------------------
   Force, in pounds, applied to the control
            wheel or rudder pedals              Pitch     Roll     Yaw
------------------------------------------------------------------------
For short term application for pitch and roll       75       50  .......
 control--two hands available for control....
For short term application for pitch and roll       50       25  .......
 control--one hand available for control.....
For short term application for yaw control...  .......  .......      150
For long term application....................       10        5       20
------------------------------------------------------------------------

    (d) Approved operating procedures or conventional operating 
practices must be followed when demonstrating compliance with the 
control force limitations for short term application that are prescribed 
in paragraph (c) of this section. The airplane must be in trim, or as 
near to being in trim as practical, in the immediately preceding steady 
flight condition. For the takeoff condition, the airplane must be 
trimmed according to the approved operating procedures.

[[Page 355]]

    (e) When demonstrating compliance with the control force limitations 
for long term application that are prescribed in paragraph (c) of this 
section, the airplane must be in trim, or as near to being in trim as 
practical.
    (f) When maneuvering at a constant airspeed or Mach number (up to 
VFC/MFC), the stick forces and the gradient of the 
stick force versus maneuvering load factor must lie within satisfactory 
limits. The stick forces must not be so great as to make excessive 
demands on the pilot's strength when maneuvering the airplane, and must 
not be so low that the airplane can easily be overstressed 
inadvertently. Changes of gradient that occur with changes of load 
factor must not cause undue difficulty in maintaining control of the 
airplane, and local gradients must not be so low as to result in a 
danger of overcontrolling.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-42, 
43 FR 2321, Jan. 16, 1978; Amdt. 25-84, 60 FR 30749, June 9, 1995]



Sec. 25.145  Longitudinal control.

    (a) It must be possible at any speed between the trim speed 
prescribed in Sec. 25.103(b)(1) and Vs, to pitch the nose 
downward so that the acceleration to this selected trim speed is prompt 
with--
    (1) The airplane trimmed at the trim speed prescribed in 
Sec. 25.103(b)(1).
    (2) The landing gear extended;
    (3) The wing flaps (i) retracted and (ii) extended; and
    (4) Power (i) off and (ii) at maximum continuous power on the 
engines.
    (b) With the landing gear extended, no change in trim control, or 
exertion of more than 50 pounds control force (representative of the 
maximum short term force that can be applied readily by one hand) may be 
required for the following maneuvers:
    (1) With power off, flaps retracted, and the airplane trimmed at 1.4 
VS1, extend the flaps as rapidly as possible while 
maintaining the airspeed at approximately 40 percent above the stalling 
speed existing at each instant throughout the maneuver.
    (2) Repeat paragraph (b)(1) except initially extend the flaps and 
then retract them as rapidly as possible.
    (3) Repeat paragraph (b)(2), except at the go-around power or thrust 
setting.
    (4) With power off, flaps retracted, and the airplane trimmed at 1.4 
VSI, rapidly set go-around power or thrust while maintaining 
the same airspeed.
    (5) Repeat paragraph (b)(4) except with flaps extended.
    (6) With power off, flaps extended, and the airplane trimmed at 1.4 
VS1, obtain and maintain airspeeds between 1.1 
VS1, and either 1.7 VS1, or VFE, 
whichever is lower.
    (c) It must be possible, without exceptional piloting skill, to 
prevent loss of altitude when complete retraction of the high-lift 
devices from any position is begun during steady, straight, level flight 
at 1.1 VS1 for propeller powered airplanes, or 
1.2VS1 for turbojet powered airplanes, with--
    (1) Simultaneous movement of the power or thrust controls to the go-
around power or thrust setting;
    (2) The landing gear extended; and
    (3) The critical combinations of landing weights and altitudes.
    (d) If gated high-lift device control positions are provided, 
paragraph (c) of this section applies to retractions of the high-lift 
devices from any position from the maximum landing position to the first 
gated position, between gated positions, and from the last gated 
position to the fully retracted position. The requirements of paragraph 
(c) of this section also apply to retractions from each approved landing 
position to the control position(s) associated with the high-lift device 
configuration(s) used to establish the go-around procedure(s) from that 
landing position. In addition, the first gated control position from the 
maximum landing position must correspond with a configuration of the 
high-lift devices used to establish a go-around procedure from a landing 
configuration. Each gated control position must require a separate and 
distinct motion of the control to pass through the gated position and 
must have features to prevent inadvertent movement of the control 
through the gated position. It must only be possible to make this 
separate

[[Page 356]]

and distinct motion once the control has reached the gated position.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5671, Apr. 8, 1970; Amdt. 25-72, 55 FR 29774, July 20, 1990; Amdt. 
25-84, 60 FR 30749, June 9, 1995; Amdt. 25-98, 64 FR 6164, Feb. 8, 1999; 
64 FR 10740, Mar. 5, 1999]



Sec. 25.147  Directional and lateral control.

    (a) Directional control; general. It must be possible, with the 
wings level, to yaw into the operative engine and to safely make a 
reasonably sudden change in heading of up to 15 degrees in the direction 
of the critical inoperative engine. This must be shown at 1.4Vs1 
for heading changes up to 15 degrees (except that the heading change at 
which the rudder pedal force is 150 pounds need not be exceeded), and 
with--
    (1) The critical engine inoperative and its propeller in the minimum 
drag position;
    (2) The power required for level flight at 1.4 VS1, but 
not more than maximum continuous power;
    (3) The most unfavorable center of gravity;
    (4) Landing gear retracted;
    (5) Flaps in the approach position; and
    (6) Maximum landing weight.
    (b) Directional control; airplanes with four or more engines. 
Airplanes with four or more engines must meet the requirements of 
paragraph (a) of this section except that--
    (1) The two critical engines must be inoperative with their 
propellers (if applicable) in the minimum drag position;
    (2)  [Reserved]
    (3) The flaps must be in the most favorable climb position.
    (c) Lateral control; general. It must be possible to make 20 deg. 
banked turns, with and against the inoperative engine, from steady 
flight at a speed equal to 1.4 VS1, with--
    (1) The critical engine inoperative and its propeller (if 
applicable) in the minimum drag position;
    (2) The remaining engines at maximum continuous power;
    (3) The most unfavorable center of gravity;
    (4) Landing gear (i) retracted and (ii) extended;
    (5) Flaps in the most favorable climb position; and
    (6) Maximum takeoff weight.
    (d) Lateral control; airplanes with four or more engines. Airplanes 
with four or more engines must be able to make 20 deg. banked turns, 
with and against the inoperative engines, from steady flight at a speed 
equal to 1.4 VS1, with maximum continuous power, and with the 
airplane in the configuration prescribed by paragraph (b) of this 
section.
    (e) Lateral control; all engines operating. With the engines 
operating, roll response must allow normal maneuvers (such as recovery 
from upsets produced by gusts and the initiation of evasive maneuvers). 
There must be enough excess lateral control in sideslips (up to sideslip 
angles that might be required in normal operation), to allow a limited 
amount of maneuvering and to correct for gusts. Lateral control must be 
enough at any speed up to VFC/MFC to provide a 
peak roll rate necessary for safety, without excessive control forces or 
travel.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-42, 
43 FR 2321, Jan. 16, 1978; Amdt. 25-72, 55 FR 29774, July 20, 1990]



Sec. 25.149  Minimum control speed.

    (a) In establishing the minimum control speeds required by this 
section, the method used to simulate critical engine failure must 
represent the most critical mode of powerplant failure with respect to 
controllability expected in service.
    (b) VMC is the calibrated airspeed at which, when the 
critical engine is suddenly made inoperative, it is possible to maintain 
control of the airplane with that engine still inoperative and maintain 
straight flight with an angle of bank of not more than 5 degrees.
    (c) VMC may not exceed 1.2 VS with--
    (1) Maximum available takeoff power or thrust on the engines;
    (2) The most unfavorable center of gravity;
    (3) The airplane trimmed for takeoff;
    (4) The maximum sea level takeoff weight (or any lesser weight 
necessary to show VMC);
    (5) The airplane in the most critical takeoff configuration existing 
along

[[Page 357]]

the flight path after the airplane becomes airborne, except with the 
landing gear retracted;
    (6) The airplane airborne and the ground effect negligible; and
    (7) If applicable, the propeller of the inoperative engine--
    (i) Windmilling;
    (ii) In the most probable position for the specific design of the 
propeller control; or
    (iii) Feathered, if the airplane has an automatic feathering device 
acceptable for showing compliance with the climb requirements of 
Sec. 25.121.
    (d) The rudder forces required to maintain control at VMC 
may not exceed 150 pounds nor may it be necessary to reduce power or 
thrust of the operative engines. During recovery, the airplane may not 
assume any dangerous attitude or require exceptional piloting skill, 
alertness, or strength to prevent a heading change of more than 20 
degrees.
    (e) VMCG, the minimum control speed on the ground, is the 
calibrated airspeed during the takeoff run at which, when the critical 
engine is suddenly made inoperative, it is possible to maintain control 
of the airplane using the rudder control alone (without the use of 
nosewheel steering), as limited by 150 pounds of force, and the lateral 
control to the extent of keeping the wings level to enable the takeoff 
to be safely continued using normal piloting skill. In the determination 
of VMCG, assuming that the path of the airplane accelerating 
with all engines operating is along the centerline of the runway, its 
path from the point at which the critical engine is made inoperative to 
the point at which recovery to a direction parallel to the centerline is 
completed may not deviate more than 30 feet laterally from the 
centerline at any point. VMCG must be established with--
    (1) The airplane in each takeoff configuration or, at the option of 
the applicant, in the most critical takeoff configuration;
    (2) Maximum available takeoff power or thrust on the operating 
engines;
    (3) The most unfavorable center of gravity;
    (4) The airplane trimmed for takeoff; and
    (5) The most unfavorable weight in the range of takeoff weights.
    (f) VMCL, the minimum control speed during approach and 
landing with all engines operating, is the calibrated airspeed at which, 
when the critical engine is suddenly made inoperative, it is possible to 
maintain control of the airplane with that engine still inoperative, and 
maintain straight flight with an angle of bank of not more than 5 
degrees. VMCL must be established with--
    (1) The airplane in the most critical configuration (or, at the 
option of the applicant, each configuration) for approach and landing 
with all engines operating;
    (2) The most unfavorable center of gravity;
    (3) The airplane trimmed for approach with all engines operating;
    (4) The most favorable weight, or, at the option of the applicant, 
as a function of weight;
    (5) For propeller airplanes, the propeller of the inoperative engine 
in the position it achieves without pilot action, assuming the engine 
fails while at the power or thrust necessary to maintain a three degree 
approach path angle; and
    (6) Go-around power or thrust setting on the operating engine(s).
    (g) For airplanes with three or more engines, VMCL-2, the 
minimum control speed during approach and landing with one critical 
engine inoperative, is the calibrated airspeed at which, when a second 
critical engine is suddenly made inoperative, it is possible to maintain 
control of the airplane with both engines still inoperative, and 
maintain straight flight with an angle of bank of not more than 5 
degrees. VMCL-2 must be established with--
    (1) The airplane in the most critical configuration (or, at the 
option of the applicant, each configuration) for approach and landing 
with one critical engine inoperative;
    (2) The most unfavorable center of gravity;
    (3) The airplane trimmed for approach with one critical engine 
inoperative;
    (4) The most unfavorable weight, or, at the option of the applicant, 
as a function of weight;

[[Page 358]]

    (5) For propeller airplanes, the propeller of the more critical 
inoperative engine in the position it achieves without pilot action, 
assuming the engine fails while at the power or thrust necessary to 
maintain a three degree approach path angle, and the propeller of the 
other inoperative engine feathered;
    (6) The power or thrust on the operating engine(s) necessary to 
maintain an approach path angle of three degrees when one critical 
engine is inoperative; and
    (7) The power or thrust on the operating engine(s) rapidly changed, 
immediately after the second critical engine is made inoperative, from 
the power or thrust prescribed in paragraph (g)(6) of this section to--

    (i) Minimum power or thrust; and

    (ii) Go-around power or thrust setting.

    (h) In demonstrations of VMCL and VMCL-2--

    (1) The rudder force may not exceed 150 pounds;

    (2) The airplane may not exhibit hazardous flight characteristics or 
require exceptional piloting skill, alertness, or strength;

    (3) Lateral control must be sufficient to roll the airplane, from an 
initial condition of steady flight, through an angle of 20 degrees in 
the direction necessary to initiate a turn away from the inoperative 
engine(s), in not more than 5 seconds; and

    (4) For propeller airplanes, hazardous flight characteristics must 
not be exhibited due to any propeller position achieved when the engine 
fails or during any likely subsequent movements of the engine or 
propeller controls.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-42, 
43 FR 2321, Jan. 16, 1978; Amdt. 25-72, 55 FR 29774, July 20, 1990; 55 
FR 37607, Sept. 12, 1990; Amdt. 25-84, 60 FR 30749, June 9, 1995]

                                  Trim



Sec. 25.161  Trim.

    (a) General. Each airplane must meet the trim requirements of this 
section after being trimmed, and without further pressure upon, or 
movement of, either the primary controls or their corresponding trim 
controls by the pilot or the automatic pilot.
    (b) Lateral and directional trim. The airplane must maintain lateral 
and directional trim with the most adverse lateral displacement of the 
center of gravity within the relevant operating limitations, during 
normally expected conditions of operation (including operation at any 
speed from 1.4 VS1 to VMO/MMO).
    (c) Longitudinal trim. The airplane must maintain longitudinal trim 
during--
    (1) A climb with maximum continuous power at a speed not more than 
1.4 VS1, with the landing gear retracted, and the flaps (i) 
retracted and (ii) in the takeoff position;
    (2) A glide with power off at a speed not more than 1.4 
VS1, with the landing gear extended, the wing flaps (i) 
retracted and (ii) extended, the most unfavorable center of gravity 
position approved for landing with the maximum landing weight, and with 
the most unfavorable center of gravity position approved for landing 
regardless of weight; and
    (3) Level flight at any speed from 1.4 VS1, to 
VMO/MMO, with the landing gear and flaps 
retracted, and from 1.4 VS1 to VLE with the 
landing gear extended.
    (d) Longitudinal, directional, and lateral trim. The airplane must 
maintain longitudinal, directional, and lateral trim (and for the 
lateral trim, the angle of bank may not exceed five degrees) at 1.4 
VS1 during climbing flight with--
    (1) The critical engine inoperative;
    (2) The remaining engines at maximum continuous power; and
    (3) The landing gear and flaps retracted.
    (e) Airplanes with four or more engines. Each airplane with four or 
more engines must maintain trim in rectilinear flight--
    (1) At the climb speed, configuration, and power required by 
Sec. 25.123(a) for the purpose of establishing the rate of climb;
    (2) With the most unfavorable center of gravity position; and
    (3) At the weight at which the two-engine-inoperative climb is equal 
to at

[[Page 359]]

least 0.013 VS02 at an altitude of 5,000 feet.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5671, Apr. 8, 1970; Amdt. 25-38, 41 FR 55466, Dec. 20, 1976]

                                Stability



Sec. 25.171  General.

    The airplane must be longitudinally, directionally, and laterally 
stable in accordance with the provisions of Secs. 25.173 through 25.177. 
In addition, suitable stability and control feel (static stability) is 
required in any condition normally encountered in service, if flight 
tests show it is necessary for safe operation.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-7, 30 
FR 13117, Oct. 15, 1965]



Sec. 25.173  Static longitudinal stability.

    Under the conditions specified in Sec. 25.175, the characteristics 
of the elevator control forces (including friction) must be as follows:
    (a) A pull must be required to obtain and maintain speeds below the 
specified trim speed, and a push must be required to obtain and maintain 
speeds above the specified trim speed. This must be shown at any speed 
that can be obtained except speeds higher than the landing gear or wing 
flap operating limit speeds or VFC/MFC, whichever 
is appropriate, or lower than the minimum speed for steady unstalled 
flight.
    (b) The airspeed must return to within 10 percent of the original 
trim speed for the climb, approach, and landing conditions specified in 
Sec. 25.175 (a), (c), and (d), and must return to within 7.5 percent of 
the original trim speed for the cruising condition specified in 
Sec. 25.175(b), when the control force is slowly released from any speed 
within the range specified in paragraph (a) of this section.
    (c) The average gradient of the stable slope of the stick force 
versus speed curve may not be less than 1 pound for each 6 knots.
    (d) Within the free return speed range specified in paragraph (b) of 
this section, it is permissible for the airplane, without control 
forces, to stabilize on speeds above or below the desired trim speeds if 
exceptional attention on the part of the pilot is not required to return 
to and maintain the desired trim speed and altitude.

[Amdt. 25-7, 30 FR 13117, Oct. 15, 1965]



Sec. 25.175  Demonstration of static longitudinal stability.

    Static longitudinal stability must be shown as follows:
    (a) Climb. The stick force curve must have a stable slope at speeds 
between 85 and 115 percent of the speed at which the airplane--
    (1) Is trimmed, with--
    (i) Wing flaps retracted;
    (ii) Landing gear retracted;
    (iii) Maximum takeoff weight; and
    (iv) 75 percent of maximum continuous power for reciprocating 
engines or the maximum power or thrust selected by the applicant as an 
operating limitation for use during climb for turbine engines; and
    (2) Is trimmed at the speed for best rate-of-climb except that the 
speed need not be less than 1.4 VS1.
    (b) Cruise. Static longitudinal stability must be shown in the 
cruise condition as follows:
    (1) With the landing gear retracted at high speed, the stick force 
curve must have a stable slope at all speeds within a range which is the 
greater of 15 percent of the trim speed plus the resulting free return 
speed range, or 50 knots plus the resulting free return speed range, 
above and below the trim speed (except that the speed range need not 
include speeds less than 1.4 VS1, nor speeds greater than 
VFC/MFC, nor speeds that require a stick force of 
more than 50 pounds), with--
    (i) The wing flaps retracted;
    (ii) The center of gravity in the most adverse position (see 
Sec. 25.27);
    (iii) The most critical weight between the maximum takeoff and 
maximum landing weights;
    (iv) 75 percent of maximum continuous power for reciprocating 
engines or for turbine engines, the maximum cruising power selected by 
the applicant as an operating limitation (see Sec. 25.1521), except that 
the power need not exceed that required at VMO/
MMO; and
    (v) The airplane trimmed for level flight with the power required in 
paragraph (b)(1)(iv) of this section.

[[Page 360]]

    (2) With the landing gear retracted at low speed, the stick force 
curve must have a stable slope at all speeds within a range which is the 
greater of 15 percent of the trim speed plus the resulting free return 
speed range, or 50 knots plus the resulting free return speed range, 
above and below the trim speed (except that the speed range need not 
include speeds less than 1.4 VS1, nor speeds greater than the 
minimum speed of the applicable speed range prescribed in paragraph 
(b)(1), nor speeds that require a stick force of more than 50 pounds), 
with--
    (i) Wing flaps, center of gravity position, and weight as specified 
in paragraph (b)(1) of this section;
    (ii) Power required for level flight at a speed equal to VMO 
+ 1.4 VS1/2; and
    (iii) The airplane trimmed for level flight with the power required 
in paragraph (b)(2)(ii) of this section.
    (3) With the landing gear extended, the stick force curve must have 
a stable slope at all speeds within a range which is the greater of 15 
percent of the trim speed plus the resulting free return speed range, or 
50 knots plus the resulting free return speed range, above and below the 
trim speed (except that the speed range need not include speeds less 
than 1.4 VS1, nor speeds greater than VLE, nor 
speeds that require a stick force of more than 50 pounds), with--
    (i) Wing flap, center of gravity position, and weight as specified 
in paragraph (b)(1) of this section;
    (ii) 75 percent of maximum continuous power for reciprocating 
engines or, for turbine engines, the maximum cruising power selected by 
the applicant as an operating limitation, except that the power need not 
exceed that required for level flight at VLE; and
    (iii) The aircraft trimmed for level flight with the power required 
in paragraph (b)(3)(ii) of this section.
    (c) Approach. The stick force curve must have a stable slope at 
speeds between 1.1 VS1 and 1.8 VS1, with--
    (1) Wing flaps in the approach position;
    (2) Landing gear retracted;
    (3) Maximum landing weight; and
    (4) The airplane trimmed at 1.4 VS1 with enough power to 
maintain level flight at this speed.
    (d) Landing. The stick force curve must have a stable slope, and the 
stick force may not exceed 80 pounds, at speeds between 1.1 VS0 
and 1.3 VS0 with--
    (1) Wing flaps in the landing position;
    (2) Landing gear extended;
    (3) Maximum landing weight;
    (4) Power or thrust off on the engines; and
    (5) The airplane trimmed at 1.4 VS0 with power or thrust 
off.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-7, 30 
FR 13117, Oct. 15, 1965]



Sec. 25.177  Static lateral-directional stability.

    (a)-(b)  [Reserved]
    (c) In straight, steady sideslips, the aileron and rudder control 
movements and forces must be substantially proportional to the angle of 
sideslip in a stable sense; and the factor of proportionality must lie 
between limits found necessary for safe operation throughout the range 
of sideslip angles appropriate to the operation of the airplane. At 
greater angles, up to the angle at which full rudder is used or a rudder 
force of 180 pounds is obtained, the rudder pedal forces may not 
reverse; and increased rudder deflection must be needed for increased 
angles of sideslip. Compliance with this paragraph must be demonstrated 
for all landing gear and flap positions and symmetrical power conditions 
at speeds from 1.2 VS1 to VFE, VLE, or 
VFC/MFC, as appropriate.
    (d) The rudder gradients must meet the requirements of paragraph (c) 
at speeds between VMO/MMO and VFC/
MFC except that the dihedral effect (aileron deflection 
opposite the corresponding rudder input) may be negative provided the 
divergence is gradual, easily recognized, and easily controlled by the 
pilot.

[Amdt. 25-72, 55 FR 29774, July 20, 1990; 55 FR 37607, Sept. 12, 1990]



Sec. 25.181  Dynamic stability.

    (a) Any short period oscillation, not including combined lateral-
directional oscillations, occurring between 1.2 VS and 
maximum allowable speed appropriate to the configuration of the airplane 
must be heavily damped with the primary controls--

[[Page 361]]

    (1) Free; and
    (2) In a fixed position.
    (b) Any combined lateral-directional oscillations (``Dutch roll'') 
occurring between 1.2 VS and maximum allowable speed 
appropriate to the configuration of the airplane must be positively 
damped with controls free, and must be controllable with normal use of 
the primary controls without requiring exceptional pilot skill.

[Amdt. 25-42, 43 FR 2322, Jan. 16, 1978, as amended by Amdt. 25-72, 55 
FR 29775, July 20, 1990; 55 FR 37607, Sept. 12, 1990]

                                 Stalls



Sec. 25.201  Stall demonstration.

    (a) Stalls must be shown in straight flight and in 30 degree banked 
turns with--
    (1) Power off; and
    (2) The power necessary to maintain level flight at 1.6 VS1 
(where VS1 corresponds to the stalling speed with flaps in 
the approach position, the landing gear retracted, and maximum landing 
weight).
    (b) In each condition required by paragraph (a) of this section, it 
must be possible to meet the applicable requirements of Sec. 25.203 
with--
    (1) Flaps, landing gear, and deceleration devices in any likely 
combination of positions approved for operation;
    (2) Representative weights within the range for which certification 
is requested;
    (3) The most adverse center of gravity for recovery; and
    (4) The airplane trimmed for straight flight at the speed prescribed 
in Sec. 25.103(b)(1).
    (c) The following procedures must be used to show compliance with 
Sec. 25.203;
    (1) Starting at a speed sufficiently above the stalling speed to 
ensure that a steady rate of speed reduction can be established, apply 
the longitudinal control so that the speed reduction does not exceed one 
knot per second until the airplane is stalled.
    (2) In addition, for turning flight stalls, apply the longitudinal 
control to achieve airspeed deceleration rates up to 3 knots per second.
    (3) As soon as the airplane is stalled, recover by normal recovery 
techniques.
    (d) The airplane is considered stalled when the behavior of the 
airplane gives the pilot a clear and distinctive indication of an 
acceptable nature that the airplane is stalled. Acceptable indications 
of a stall, occurring either individually or in combination, are--
    (1) A nose-down pitch that cannot be readily arrested;
    (2) Buffeting, of a magnitude and severity that is a strong and 
effective deterrent to further speed reduction; or
    (3) The pitch control reaches the aft stop and no further increase 
in pitch attitude occurs when the control is held full aft for a short 
time before recovery is initiated.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-84, 
60 FR 30750, June 9, 1995]



Sec. 25.203  Stall characteristics.

    (a) It must be possible to produce and to correct roll and yaw by 
unreversed use of the aileron and rudder controls, up to the time the 
airplane is stalled. No abnormal nose-up pitching may occur. The 
longitudinal control force must be positive up to and throughout the 
stall. In addition, it must be possible to promptly prevent stalling and 
to recover from a stall by normal use of the controls.
    (b) For level wing stalls, the roll occurring between the stall and 
the completion of the recovery may not exceed approximately 20 degrees.
    (c) For turning flight stalls, the action of the airplane after the 
stall may not be so violent or extreme as to make it difficult, with 
normal piloting skill, to effect a prompt recovery and to regain control 
of the airplane. The maximum bank angle that occurs during the recovery 
may not exceed--
    (1) Approximately 60 degrees in the original direction of the turn, 
or 30 degrees in the opposite direction, for deceleration rates up to 1 
knot per second; and
    (2) Approximately 90 degrees in the original direction of the turn, 
or 60 degrees in the opposite direction, for deceleration rates in 
excess of 1 knot per second.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-84, 
60 FR 30750, June 9, 1995]

[[Page 362]]



Sec. 25.207  Stall warning.

    (a) Stall warning with sufficient margin to prevent inadvertent 
stalling with the flaps and landing gear in any normal position must be 
clear and distinctive to the pilot in straight and turning flight.
    (b) The warning may be furnished either through the inherent 
aerodynamic qualities of the airplane or by a device that will give 
clearly distinguishable indications under expected conditions of flight. 
However, a visual stall warning device that requires the attention of 
the crew within the cockpit is not acceptable by itself. If a warning 
device is used, it must provide a warning in each of the airplane 
configuations prescribed in paragraph (a) of this section at the speed 
prescribed in paragraph (c) of this section.
    (c) The stall warning must begin at a speed exceeding the stalling 
speed (i.e., the speed at which the airplane stalls or the minimum speed 
demonstrated, whichever is applicable under the provisions of 
Sec. 25.201(d)) by seven percent or at any lesser margin if the stall 
warning has enough clarity, duration, distinctiveness, or similar 
properties.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-7, 30 
FR 13118, Oct. 15, 1965; Amdt. 25-42, 43 FR 2322, Jan. 16, 1978]

                Ground and Water Handling Characteristics



Sec. 25.231  Longitudinal stability and control.

    (a) Landplanes may have no uncontrollable tendency to nose over in 
any reasonably expected operating condition or when rebound occurs 
during landing or takeoff. In addition--
    (1) Wheel brakes must operate smoothly and may not cause any undue 
tendency to nose over; and
    (2) If a tail-wheel landing gear is used, it must be possible, 
during the takeoff ground run on concrete, to maintain any altitude up 
to thrust line level, at 80 percent of VS1.
    (b) For seaplanes and amphibians, the most adverse water conditions 
safe for takeoff, taxiing, and landing, must be established.



Sec. 25.233  Directional stability and control.

    (a) There may be no uncontrollable ground-looping tendency in 
90 deg. cross winds, up to a wind velocity of 20 knots or 0.2 
VS0, whichever is greater, except that the wind velocity need 
not exceed 25 knots at any speed at which the airplane may be expected 
to be operated on the ground. This may be shown while establishing the 
90 deg. cross component of wind velocity required by Sec. 25.237.
    (b) Landplanes must be satisfactorily controllable, without 
exceptional piloting skill or alertness, in power-off landings at normal 
landing speed, without using brakes or engine power to maintain a 
straight path. This may be shown during power-off landings made in 
conjunction with other tests.
    (c) The airplane must have adequate directional control during 
taxiing. This may be shown during taxiing prior to takeoffs made in 
conjunction with other tests.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5671, Apr. 8, 1970; Amdt. 25-42, 43 FR 2322, Jan. 16, 1978; Amdt. 
25-94, 63 FR 8848, Feb. 23, 1998]



Sec. 25.235  Taxiing condition.

    The shock absorbing mechanism may not damage the structure of the 
airplane when the airplane is taxied on the roughest ground that may 
reasonably be expected in normal operation.



Sec. 25.237  Wind velocities.

    (a) For landplanes and amphibians, a 90-degree cross component of 
wind velocity, demonstrated to be safe for takeoff and landing, must be 
established for dry runways and must be at least 20 knots or 0.2 
VS0, whichever is greater, except that it need not exceed 25 
knots.
    (b) For seaplanes and amphibians, the following applies:
    (1) A 90-degree cross component of wind velocity, up to which 
takeoff and landing is safe under all water conditions that may 
reasonably be expected in normal operation, must be established and must 
be at least 20 knots or 0.2 Vs0, whichever is greater, except 
that it need not exceed 25 knots.
    (2) A wind velocity, for which taxiing is safe in any direction 
under all water

[[Page 363]]

conditions that may reasonably be expected in normal operation, must be 
established and must be at least 20 knots or 0.2 VS0, 
whichever is greater, except that it need not exceed 25 knots.

[Amdt. 25-42, 43 FR 2322, Jan. 16, 1978]



Sec. 25.239  Spray characteristics, control, and stability on water.

    (a) For seaplanes and amphibians, during takeoff, taxiing, and 
landing, and in the conditions set forth in paragraph (b) of this 
section, there may be no--
    (1) Spray characteristics that would impair the pilot's view, cause 
damage, or result in the taking in of an undue quantity of water;
    (2) Dangerously uncontrollable porpoising, bounding, or swinging 
tendency; or
    (3) Immersion of auxiliary floats or sponsons, wing tips, propeller 
blades, or other parts not designed to withstand the resulting water 
loads.
    (b) Compliance with the requirements of paragraph (a) of this 
section must be shown--
    (1) In water conditions, from smooth to the most adverse condition 
established in accordance with Sec. 25.231;
    (2) In wind and cross-wind velocities, water currents, and 
associated waves and swells that may reasonably be expected in operation 
on water;
    (3) At speeds that may reasonably be expected in operation on water;
    (4) With sudden failure of the critical engine at any time while on 
water; and
    (5) At each weight and center of gravity position, relevant to each 
operating condition, within the range of loading conditions for which 
certification is requested.
    (c) In the water conditions of paragraph (b) of this section, and in 
the corresponding wind conditions, the seaplane or amphibian must be 
able to drift for five minutes with engines inoperative, aided, if 
necessary, by a sea anchor.

                    Miscellaneous Flight Requirements



Sec. 25.251  Vibration and buffeting.

    (a) The airplane must be demonstrated in flight to be free from any 
vibration and buffeting that would prevent continued safe flight in any 
likely operating condition.
    (b) Each part of the airplane must be demonstrated in flight to be 
free from excessive vibration under any appropriate speed and power 
conditions up to VDF/MDF. The maximum speeds shown 
must be used in establishing the operating limitations of the airplane 
in accordance with Sec. 25.1505.
    (c) Except as provided in paragraph (d) of this section, there may 
be no buffeting condition, in normal flight, including configuration 
changes during cruise, severe enough to interfere with the control of 
the airplane, to cause excessive fatigue to the crew, or to cause 
structural damage. Stall warning buffeting within these limits is 
allowable.
    (d) There may be no perceptible buffeting condition in the cruise 
configuration in straight flight at any speed up to VMO/
MMO, except that stall warning buffeting is allowable.
    (e) For an airplane with MD greater than .6 or with a 
maximum operating altitude greater than 25,000 feet, the positive 
maneuvering load factors at which the onset of perceptible buffeting 
occurs must be determined with the airplane in the cruise configuration 
for the ranges of airspeed or Mach number, weight, and altitude for 
which the airplane is to be certificated. The envelopes of load factor, 
speed, altitude, and weight must provide a sufficient range of speeds 
and load factors for normal operations. Probable inadvertent excursions 
beyond the boundaries of the buffet onset envelopes may not result in 
unsafe conditions.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5671, Apr. 8, 1970; Amdt. 25-72, 55 FR 29775, July 20, 1990; Amdt. 
25-77, 57 FR 28949, June 29, 1992]



Sec. 25.253  High-speed characteristics.

    (a) Speed increase and recovery characteristics. The following speed 
increase and recovery characteristics must be met:
    (1) Operating conditions and characteristics likely to cause 
inadvertent speed increases (including upsets in pitch and roll) must be 
simulated with the airplane trimmed at any likely cruise speed up to 
VMO/MMO. These conditions and characteristics 
include gust

[[Page 364]]

upsets, inadvertent control movements, low stick force gradient in 
relation to control friction, passenger movement, leveling off from 
climb, and descent from Mach to airspeed limit altitudes.
    (2) Allowing for pilot reaction time after effective inherent or 
artificial speed warning occurs, it must be shown that the airplane can 
be recovered to a normal attitude and its speed reduced to 
VMO/MMO, without-
    (i) Exceptional piloting strength or skill;
    (ii) Exceeding VD/MD, VDF/
MDF, or the structural limitations; and
    (iii) Buffeting that would impair the pilot's ability to read the 
instruments or control the airplane for recovery.
    (3) With the airplane trimmed at any speed up to VMO /
MMO, there must be no reversal of the response to control 
input about any axis at any speed up to VDF/MDF. 
Any tendency to pitch, roll, or yaw must be mild and readily 
controllable, using normal piloting techniques. When the airplane is 
trimmed at VMO/MMO, the slope of the elevator 
control force versus speed curve need not be stable at speeds greater 
than VFC/MFC, but there must be a push force at 
all speeds up to VDF/MDF and there must be no 
sudden or excessive reduction of elevator control force as 
VDF/MDF is reached.
    (b) Maximum speed for stability characteristics, VFC/
MFC. VFC/MFC is the maximum speed at 
which the requirements of Secs. 25.143(f), 25.147(e), 25.175(b)(1), 
25.177, and 25.181 must be met with flaps and landing gear retracted. It 
may not be less than a speed midway between VMO/MMO 
and VDF/MDF, except that for altitudes where Mach 
number is the limiting factor, MFC need not exceed the Mach 
number at which effective speed warning occurs.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5671, Apr. 8, 1970; Amdt. 25-54, 45 FR 60172, Sept. 11, 1980; 
Amdt. 25-72, 55 FR 29775, July 20, 1990; Amdt. 25-84, 60 FR 30750, June 
9, 1995]



Sec. 25.255  Out-of-trim characteristics.

    (a) From an initial condition with the airplane trimmed at cruise 
speeds up to VMO/MMO, the airplane must have 
satisfactory maneuvering stability and controllability with the degree 
of out-of-trim in both the airplane nose-up and nose-down directions, 
which results from the greater of--
    (1) A three-second movement of the longitudinal trim system at its 
normal rate for the particular flight condition with no aerodynamic load 
(or an equivalent degree of trim for airplanes that do not have a power-
operated trim system), except as limited by stops in the trim system, 
including those required by Sec. 25.655(b) for adjustable stabilizers; 
or
    (2) The maximum mistrim that can be sustained by the autopilot while 
maintaining level flight in the high speed cruising condition.
    (b) In the out-of-trim condition specified in paragraph (a) of this 
section, when the normal acceleration is varied from +1 g to the 
positive and negative values specified in paragraph (c) of this 
section--
    (1) The stick force vs. g curve must have a positive slope at any 
speed up to and including VFC/MFC; and
    (2) At speeds between VFC/MFC and 
VDF/MDF the direction of the primary longitudinal 
control force may not reverse.
    (c) Except as provided in paragraphs (d) and (e) of this section, 
compliance with the provisions of paragraph (a) of this section must be 
demonstrated in flight over the acceleration range--
    (1) -1 g to +2.5 g; or
    (2) 0 g to 2.0 g, and extrapolating by an acceptable method to -1 g 
and +2.5 g.
    (d) If the procedure set forth in paragraph (c)(2) of this section 
is used to demonstrate compliance and marginal conditions exist during 
flight test with regard to reversal of primary longitudinal control 
force, flight tests must be accomplished from the normal acceleration at 
which a marginal condition is found to exist to the applicable limit 
specified in paragraph (b)(1) of this section.
    (e) During flight tests required by paragraph (a) of this section, 
the limit maneuvering load factors prescribed in Secs. 25.333(b) and 
25.337, and the maneuvering load factors associated with probable 
inadvertent excursions beyond the boundaries of the buffet onset 
envelopes determined under Sec. 25.251(e), need not be exceeded. In 
addition, the

[[Page 365]]

entry speeds for flight test demonstrations at normal acceleration 
values less than 1 g must be limited to the extent necessary to 
accomplish a recovery without exceeding VDF/MDF.
    (f) In the out-of-trim condition specified in paragraph (a) of this 
section, it must be possible from an overspeed condition at 
VDF/MDF to produce at least 1.5 g for recovery by 
applying not more than 125 pounds of longitudinal control force using 
either the primary longitudinal control alone or the primary 
longitudinal control and the longitudinal trim system. If the 
longitudinal trim is used to assist in producing the required load 
factor, it must be shown at VDF/MDF that the 
longitudinal trim can be actuated in the airplane nose-up direction with 
the primary surface loaded to correspond to the least of the following 
airplane nose-up control forces:
    (1) The maximum control forces expected in service as specified in 
Secs. 25.301 and 25.397.
    (2) The control force required to produce 1.5 g.
    (3) The control force corresponding to buffeting or other phenomena 
of such intensity that it is a strong deterrent to further application 
of primary longitudinal control force.

[Amdt. No. 25-42, 43 FR 2322, Jan. 16, 1978]



                          Subpart C--Structure

                                 General



Sec. 25.301  Loads.

    (a) Strength requirements are specified in terms of limit loads (the 
maximum loads to be expected in service) and ultimate loads (limit loads 
multiplied by prescribed factors of safety). Unless otherwise provided, 
prescribed loads are limit loads.
    (b) Unless otherwise provided, the specified air, ground, and water 
loads must be placed in equilibrium with inertia forces, considering 
each item of mass in the airplane. These loads must be distributed to 
conservatively approximate or closely represent actual conditions. 
Methods used to determine load intensities and distribution must be 
validated by flight load measurement unless the methods used for 
determining those loading conditions are shown to be reliable.
    (c) If deflections under load would significantly change the 
distribution of external or internal loads, this redistribution must be 
taken into account.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970]



Sec. 25.303  Factor of safety.

    Unless otherwise specified, a factor of safety of 1.5 must be 
applied to the prescribed limit load which are considered external loads 
on the structure. When a loading condition is prescribed in terms of 
ultimate loads, a factor of safety need not be applied unless otherwise 
specified.

[Amdt. 25-23, 35 FR 5672, Apr. 8, 1970]



Sec. 25.305  Strength and deformation.

    (a) The structure must be able to support limit loads without 
detrimental permanent deformation. At any load up to limit loads, the 
deformation may not interfere with safe operation.
    (b) The structure must be able to support ultimate loads without 
failure for at least 3 seconds. However, when proof of strength is shown 
by dynamic tests simulating actual load conditions, the 3-second limit 
does not apply. Static tests conducted to ultimate load must include the 
ultimate deflections and ultimate deformation induced by the loading. 
When analytical methods are used to show compliance with the ultimate 
load strength requirements, it must be shown that--
    (1) The effects of deformation are not significant;
    (2) The deformations involved are fully accounted for in the 
analysis; or
    (3) The methods and assumptions used are sufficient to cover the 
effects of these deformations.
    (c) Where structural flexibility is such that any rate of load 
application likely to occur in the operating conditions might produce 
transient stresses appreciably higher than those corresponding to static 
loads, the effects of this rate of application must be considered.
    (d) [Reserved]
    (e) The airplane must be designed to withstand any vibration and 
buffeting

[[Page 366]]

that might occur in any likely operating condition up to VD/
MD, including stall and probable inadvertent excursions 
beyond the boundaries of the buffet onset envelope. This must be shown 
by analysis, flight tests, or other tests found necessary by the 
Administrator.
    (f) Unless shown to be extremely improbable, the airplane must be 
designed to withstand any forced structural vibration resulting from any 
failure, malfunction or adverse condition in the flight control system. 
These must be considered limit loads and must be investigated at 
airspeeds up to VC/MC.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970; Amdt. 25-54, 45 FR 60172, Sept. 11, 1980; 
Amdt. 25-77, 57 FR 28949, June 29, 1992; Amdt. 25-86, 61 FR 5220, Feb. 
9, 1996]



Sec. 25.307  Proof of structure.

    (a) Compliance with the strength and deformation requirements of 
this subpart must be shown for each critical loading condition. 
Structural analysis may be used only if the structure conforms to that 
for which experience has shown this method to be reliable. The 
Administrator may require ultimate load tests in cases where limit load 
tests may be inadequate.
    (b)-(c)  [Reserved]
    (d) When static or dynamic tests are used to show compliance with 
the requirements of Sec. 25.305(b) for flight structures, appropriate 
material correction factors must be applied to the test results, unless 
the structure, or part thereof, being tested has features such that a 
number of elements contribute to the total strength of the structure and 
the failure of one element results in the redistribution of the load 
through alternate load paths.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970; Amdt. 25-54, 45 FR 60172, Sept. 11, 1980; 
Amdt. 25-72, 55 FR 29775, July 20, 1990]

                              Flight Loads



Sec. 25.321  General.

    (a) Flight load factors represent the ratio of the aerodynamic force 
component (acting normal to the assumed longitudinal axis of the 
airplane) to the weight of the airplane. A positive load factor is one 
in which the aerodynamic force acts upward with respect to the airplane.
    (b) Considering compressibility effects at each speed, compliance 
with the flight load requirements of this subpart must be shown--
    (1) At each critical altitude within the range of altitudes selected 
by the applicant;
    (2) At each weight from the design minimum weight to the design 
maximum weight appropriate to each particular flight load condition; and
    (3) For each required altitude and weight, for any practicable 
distribution of disposable load within the operating limitations 
recorded in the Airplane Flight Manual.
    (c) Enough points on and within the boundaries of the design 
envelope must be investigated to ensure that the maximum load for each 
part of the airplane structure is obtained.
    (d) The significant forces acting on the airplane must be placed in 
equilibrium in a rational or conservative manner. The linear inertia 
forces must be considered in equilibrium with the thrust and all 
aerodynamic loads, while the angular (pitching) inertia forces must be 
considered in equilibrium with thrust and all aerodynamic moments, 
including moments due to loads on components such as tail surfaces and 
nacelles. Critical thrust values in the range from zero to maximum 
continuous thrust must be considered.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970; Amdt. 25-86, 61 FR 5220, Feb. 9, 1996]

                   Flight Maneuver and Gust Conditions



Sec. 25.331  Symmetric maneuvering conditions.

    (a) Procedure. For the analysis of the maneuvering flight conditions 
specified in paragraphs (b) and (c) of this section, the following 
provisions apply:
    (1) Where sudden displacement of a control is specified, the assumed 
rate of control surface displacement may not be less than the rate that 
could be applied by the pilot through the control system.
    (2) In determining elevator angles and chordwise load distribution 
in the

[[Page 367]]

maneuvering conditions of paragraphs (b) and (c) of this section, the 
effect of corresponding pitching velocities must be taken into account. 
The in-trim and out-of-trim flight conditions specified in Sec. 25.255 
must be considered.
    (b) Maneuvering balanced conditions. Assuming the airplane to be in 
equilibrium with zero pitching acceleration, the maneuvering conditions 
A through I on the maneuvering envelope in Sec. 25.333(b) must be 
investigated.
    (c) Pitch maneuver conditions. The conditions specified in 
paragraphs (c)(1) and (2) of this section must be investigated. The 
movement of the pitch control surfaces may be adjusted to take into 
account limitations imposed by the maximum pilot effort specified by 
Sec. 25.397(b), control system stops and any indirect effect imposed by 
limitations in the output side of the control system (for example, 
stalling torque or maximum rate obtainable by a power control system.)
    (1) Maximum pitch control displacement at VA. The 
airplane is assumed to be flying in steady level flight (point 
A1, Sec. 25.333(b)) and the cockpit pitch control is suddenly 
moved to obtain extreme nose up pitching acceleration. In defining the 
tail load, the response of the airplane must be taken into account. 
Airplane loads that occur subsequent to the time when normal 
acceleration at the c.g. exceeds the positive limit maneuvering load 
factor (at point A2 in Sec. 25.333(b)), or the resulting 
tailplane normal load reaches its maximum, whichever occurs first, need 
not be considered.
    (2) Specified control displacement. A checked maneuver, based on a 
rational pitching control motion vs. time profile, must be established 
in which the design limit load factor specified in Sec. 25.337 will not 
be exceeded. Unless lesser values cannot be exceeded, the airplane 
response must result in pitching accelerations not less than the 
following:
    (i) A positive pitching acceleration (nose up) is assumed to be 
reached concurrently with the airplane load factor of 1.0 (Points 
A1 to D1, Sec. 25.333(b)). The positive 
acceleration must be equal to at least
[GRAPHIC] [TIFF OMITTED] TC28SE91.033

where--
n is the positive load factor at the speed under consideration, and V is 
          the airplane equivalent speed in knots.

    (ii) A negative pitching acceleration (nose down) is assumed to be 
reached concurrently with the positive maneuvering load factor (points 
A2 to D2, Sec. 25.333(b)). This negative pitching 
acceleration must be equal to at least
[GRAPHIC] [TIFF OMITTED] TC28SE91.034

where--
n is the positive load factor at the speed under consideration; and V is 
          the airplane equivalent speed in knots.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970; Amdt. 25-46, 43 FR 50594, Oct. 30, 1978; 43 FR 
52495, Nov. 13, 1978; 43 FR 54082, Nov. 20, 1978; Amdt. 25-72, 55 FR 
29775, July 20, 1990; 55 FR 37607, Sept. 12, 1990; Amdt. 25-86, 61 FR 
5220, Feb. 9, 1996; Amdt. 25-91, 62 FR 40704, July 29, 1997]



Sec. 25.333  Flight maneuvering envelope.

    (a) General. The strength requirements must be met at each 
combination of airspeed and load factor on and within the boundaries of 
the representative maneuvering envelope (V-n diagram) of paragraph (b) 
of this section. This envelope must also be used in determining the 
airplane structural operating limitations as specified in Sec. 25.1501.
    (b) Maneuvering envelope.

[[Page 368]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.035


[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-86, 
61 FR 5220, Feb. 9, 1996]



Sec. 25.335  Design airspeeds.

    The selected design airspeeds are equivalent airspeeds (EAS). 
Estimated values of VS0 and VS1 must be 
conservative.
    (a) Design cruising speed, VC. For VC, the 
following apply:
    (1) The minimum value of VC must be sufficiently greater 
than VB to provide for inadvertent speed increases likely to 
occur as a result of severe atmospheric turbulence.
    (2) Except as provided in Sec. 25.335(d)(2), VC may not 
be less than VB + 1.32 U REF (with UREF 
as specified in Sec. 25.341(a)(5)(i)). However VC need not 
exceed the maximum speed in level flight at maximum continuous power for 
the corresponding altitude.
    (3) At altitudes where VD is limited by Mach number, 
VC may be limited to a selected Mach number.
    (b) Design dive speed, VD. VD must be selected 
so that VC/MC is not greater than 0.8 
VD/MD, or so that the minimum speed margin between 
VC/MC and VD/MD is the 
greater of the following values:
    (1) From an initial condition of stabilized flight at VC/
MC, the airplane is upset, flown for 20 seconds along a 
flight path 7.5 deg. below the initial path, and then pulled up at a 
load factor of 1.5 g (0.5 g acceleration increment). The speed increase 
occurring in this maneuver may be calculated if reliable or conservative 
aerodynamic data is used. Power as specified in Sec. 25.175(b)(1)(iv) is 
assumed until the pullup is initiated, at which time power reduction and 
the use of pilot controlled drag devices may be assumed;
    (2) The minimum speed margin must be enough to provide for 
atmospheric variations (such as horizontal gusts, and penetration of jet 
streams and cold fronts) and for instrument errors and airframe 
production variations. These factors may be considered on a probability 
basis. The margin at altitude where MC is limited by 
compressibility effects must not less than 0.07M unless a lower margin 
is determined using a rational analysis that includes the effects of any 
automatic systems. In any

[[Page 369]]

case, the margin may not be reduced to less than 0.05M.
    (c) Design maneuvering speed VA. For VA, the 
following apply:
    (1) VA may not be less than VS1 n 
where--
    (i) n is the limit positive maneuvering load factor at 
VC; and
    (ii) VS1 is the stalling speed with flaps retracted.
    (2) VA and VS must be evaluated at the design 
weight and altitude under consideration.
    (3) VA need not be more than VC or the speed 
at which the positive CN!max curve intersects the positive 
maneuver load factor line, whichever is less.
    (d) Design speed for maximum gust intensity, VB.
    (1) VB may not be less than
    [GRAPHIC] [TIFF OMITTED] TR09FE96.016
    
where--
VS1=the 1-g stalling speed based on CNAmax with 
the flaps retracted at the particular weight under consideration;
Vc=design cruise speed (knots equivalent airspeed);
Uref=the reference gust velocity (feet per second equivalent 
airspeed) from Sec. 25.341(a)(5)(i);
w=average wing loading (pounds per square foot) at the particular weight 
under consideration.
[GRAPHIC] [TIFF OMITTED] TR09FE96.017

=density of air (slugs/ft\3\);
c=mean geometric chord of the wing (feet);
g=acceleration due to gravity (ft/sec\2\);
a=slope of the airplane normal force coefficient curve, CNA 
per radian;

    (2) At altitudes where VC is limited by Mach number--
    (i) VB may be chosen to provide an optimum margin between 
low and high speed buffet boundaries; and,
    (ii) VB need not be greater than VC.
    (e) Design flap speeds, VF. For VF, the 
following apply:
    (1) The design flap speed for each flap position (established in 
accordance with Sec. 25.697(a)) must be sufficiently greater than the 
operating speed recommended for the corresponding stage of flight 
(including balked landings) to allow for probable variations in control 
of airspeed and for transition from one flap position to another.
    (2) If an automatic flap positioning or load limiting device is 
used, the speeds and corresponding flap positions programmed or allowed 
by the device may be used.
    (3) VF may not be less than--
    (i) 1.6 VS1 with the flaps in takeoff position at maximum 
takeoff weight;
    (ii) 1.8 VS1 with the flaps in approach position at 
maximum landing weight, and
    (iii) 1.8 VS0 with the flaps in landing position at 
maximum landing weight.
    (f) Design drag device speeds, VDD. The selected design 
speed for each drag device must be sufficiently greater than the speed 
recommended for the operation of the device to allow for probable 
variations in speed control. For drag devices intended for use in high 
speed descents, VDD may not be less than VD. When 
an automatic drag device positioning or load limiting means is used, the 
speeds and corresponding drag device positions programmed or allowed by 
the automatic means must be used for design.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970; Amdt. 25-86, 61 FR 5220, Feb. 9, 1996; Amdt. 
25-91, 62 FR 40704, July 29, 1997]



Sec. 25.337  Limit maneuvering load factors.

    (a) Except where limited by maximum (static) lift coefficients, the 
airplane is assumed to be subjected to symmetrical maneuvers resulting 
in the limit maneuvering load factors prescribed in this section. 
Pitching velocities appropriate to the corresponding pull-up and steady 
turn maneuvers must be taken into account.
    (b) The positive limit maneuvering load factor ``n'' for any speed 
up to Vn may not be less than 2.1+24,000/ (W +10,000) except that ``n'' 
may not be less than 2.5 and need not be greater

[[Page 370]]

than 3.8--where ``W'' is the design maximum takeoff weight.
    (c) The negative limit maneuvering load factor--
    (1) May not be less than -1.0 at speeds up to VC; and
    (2) Must vary linearly with speed from the value at VC to 
zero at VD.
    (d) Maneuvering load factors lower than those specified in this 
section may be used if the airplane has design features that make it 
impossible to exceed these values in flight.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970]



Sec. 25.341  Gust and turbulence loads.

    (a) Discrete Gust Design Criteria. The airplane is assumed to be 
subjected to symmetrical vertical and lateral gusts in level flight. 
Limit gust loads must be determined in accordance with the provisions:
    (1) Loads on each part of the structure must be determined by 
dynamic analysis. The analysis must take into account unsteady 
aerodynamic characteristics and all significant structural degrees of 
freedom including rigid body motions.
    (2) The shape of the gust must be:
    [GRAPHIC] [TIFF OMITTED] TR09FE96.018
    
for 0  s  2H
where--
s=distance penetrated into the gust (feet);
Uds=the design gust velocity in equivalent airspeed specified 
in paragraph (a)(4) of this section; and
H=the gust gradient which is the distance (feet) parallel to the 
airplane's flight path for the gust to reach its peak velocity.

    (3) A sufficient number of gust gradient distances in the range 30 
feet to 350 feet must be investigated to find the critical response for 
each load quantity.
    (4) The design gust velocity must be:
    [GRAPHIC] [TIFF OMITTED] TR09FE96.019
    
where--
Uref=the reference gust velocity in equivalent airspeed 
defined in paragraph (a)(5) of this section.
Fg=the flight profile alleviation factor defined in paragraph 
(a)(6) of this section.

    (5) The following reference gust velocities apply:
    (i) At the airplane design speed VC: Positive and 
negative gusts with reference gust velocities of 56.0 ft/sec EAS must be 
considered at sea level. The reference gust velocity may be reduced 
linearly from 56.0 ft/sec EAS at sea level to 44.0 ft/sec EAS at 15000 
feet. The reference gust velocity may be further reduced linearly from 
44.0 ft/sec EAS at 15000 feet to 26.0 ft/sec EAS at 50000 feet.
    (ii) At the airplane design speed VD: The reference gust 
velocity must be 0.5 times the value obtained under 
Sec. 25.341(a)(5)(i).
    (6) The flight profile alleviation factor, Fg, must be 
increased linearly from the sea level value to a value of 1.0 at the 
maximum operating altitude defined in Sec. 25.1527. At sea level, the 
flight profile alleviation factor is determined by the following 
equation:
[GRAPHIC] [TIFF OMITTED] TN08MR96.004

Zmo=Maximum operating altitude defined in Sec. 25.1527.

    (7) When a stability augmentation system is included in the 
analysis, the effect of any significant system nonlinearities should be 
accounted for when deriving limit loads from limit gust conditions.

[[Page 371]]

    (b) Continuous Gust Design Criteria. The dynamic response of the 
airplane to vertical and lateral continuous turbulence must be taken 
into account. The continuous gust design criteria of appendix G of this 
part must be used to establish the dynamic response unless more rational 
criteria are shown.

[Doc. No. 27902, 61 FR 5221, Feb. 9, 1996; 61 FR 9533, Mar. 8, 1996]



Sec. 25.343  Design fuel and oil loads.

    (a) The disposable load combinations must include each fuel and oil 
load in the range from zero fuel and oil to the selected maximum fuel 
and oil load. A structural reserve fuel condition, not exceeding 45 
minutes of fuel under the operating conditions in Sec. 25.1001(e) and 
(f), as applicable, may be selected.
    (b) If a structural reserve fuel condition is selected, it must be 
used as the minimum fuel weight condition for showing compliance with 
the flight load requirements as prescribed in this subpart. In 
addition--
    (1) The structure must be designed for a condition of zero fuel and 
oil in the wing at limit loads corresponding to--
    (i) A maneuvering load factor of +2.25; and
    (ii) The gust conditions of Sec. 25.341(a) but assuming 85% of the 
design velocities prescribed in Sec. 25.341(a)(4).
    (2) Fatigue evaluation of the structure must account for any 
increase in operating stresses resulting from the design condition of 
paragraph (b)(1) of this section; and
    (3) The flutter, deformation, and vibration requirements must also 
be met with zero fuel.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-18, 
33 FR 12226, Aug. 30, 1968; Amdt. 25-72, 55 FR 37607, Sept. 12, 1990; 
Amdt. 25-86, 61 FR 5221, Feb. 9, 1996]



Sec. 25.345  High lift devices.

    (a) If wing flaps are to be used during takeoff, approach, or 
landing, at the design flap speeds established for these stages of 
flight under Sec. 25.335(e) and with the wing flaps in the corresponding 
positions, the airplane is assumed to be subjected to symmetrical 
maneuvers and gusts. The resulting limit loads must correspond to the 
conditions determined as follows:
    (1) Maneuvering to a positive limit load factor of 2.0; and
    (2) Positive and negative gusts of 25 ft/sec EAS acting normal to 
the flight path in level flight. Gust loads resulting on each part of 
the structure must be determined by rational analysis. The analysis must 
take into account the unsteady aerodynamic characteristics and rigid 
body motions of the aircraft. The shape of the gust must be as described 
in Sec. 25.341(a)(2) except that--

Uds=25 ft/sec EAS;
H=12.5 c; and
c=mean geometric chord of the wing (feet).

    (b) The airplane must be designed for the conditions prescribed in 
paragraph (a) of this section, except that the airplane load factor need 
not exceed 1.0, taking into account, as separate conditions, the effects 
of--
    (1) Propeller slipstream corresponding to maximum continuous power 
at the design flap speeds VF, and with takeoff power at not 
less than 1.4 times the stalling speed for the particular flap position 
and associated maximum weight; and
    (2) A head-on gust of 25 feet per second velocity (EAS).
    (c) If flaps or other high lift devices are to be used in en route 
conditions, and with flaps in the appropriate position at speeds up to 
the flap design speed chosen for these conditions, the airplane is 
assumed to be subjected to symmetrical maneuvers and gusts within the 
range determined by--
    (1) Maneuvering to a positive limit load factor as prescribed in 
Sec. 25.337(b); and
    (2) The discrete vertical gust criteria in Sec. 25.341(a).
    (d) The airplane must be designed for a maneuvering load factor of 
1.5 g at the maximum take-off weight with the wing-flaps and similar 
high lift devices in the landing configurations.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-46, 
43 FR 50595, Oct. 30, 1978; Amdt. 25-72, 55 FR 37607, Sept. 17, 1990; 
Amdt. 25-86, 61 FR 5221, Feb. 9, 1996; Amdt. 25-91, 62 FR 40704, July 
29, 1997]



Sec. 25.349  Rolling conditions.

    The airplane must be designed for loads resulting from the rolling 
conditions specified in paragraphs (a) and (b)

[[Page 372]]

of this section. Unbalanced aerodynamic moments about the center of 
gravity must be reacted in a rational or conservative manner, 
considering the principal masses furnishing the reacting inertia forces.
    (a) Maneuvering. The following conditions, speeds, and aileron 
deflections (except as the deflections may be limited by pilot effort) 
must be considered in combination with an airplane load factor of zero 
and of two-thirds of the positive maneuvering factor used in design. In 
determining the required aileron deflections, the torsional flexibility 
of the wing must be considered in accordance with Sec. 25.301(b):
    (1) Conditions corresponding to steady rolling velocities must be 
investigated. In addition, conditions corresponding to maximum angular 
acceleration must be investigated for airplanes with engines or other 
weight concentrations outboard of the fuselage. For the angular 
acceleration conditions, zero rolling velocity may be assumed in the 
absence of a rational time history investigation of the maneuver.
    (2) At VA, a sudden deflection of the aileron to the stop 
is assumed.
    (3) At VC, the aileron deflection must be that required 
to produce a rate of roll not less than that obtained in paragraph 
(a)(2) of this section.
    (4) At VD, the aileron deflection must be that required 
to produce a rate of roll not less than one-third of that in paragraph 
(a)(2) of this section.
    (b) Unsymmetrical gusts. The airplane is assumed to be subjected to 
unsymmetrical vertical gusts in level flight. The resulting limit loads 
must be determined from either the wing maximum airload derived directly 
from Sec. 25.341(a), or the wing maximum airload derived indirectly from 
the vertical load factor calculated from Sec. 25.341(a). It must be 
assumed that 100 percent of the wing air load acts on one side of the 
airplane and 80 percent of the wing air load acts on the other side.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970; Amdt. 25-86, 61 FR 5222, Feb. 9, 1996; Amdt. 
25-94, 63 FR 8848, Feb. 23, 1998]



Sec. 25.351  Yaw maneuver conditions.

    The airplane must be designed for loads resulting from the yaw 
maneuver conditions specified in paragraphs (a) through (d) of this 
section at speeds from VMC to VD. Unbalanced 
aerodynamic moments about the center of gravity must be reacted in a 
rational or conservative manner considering the airplane inertia forces. 
In computing the tail loads the yawing velocity may be assumed to be 
zero.
    (a) With the airplane in unaccelerated flight at zero yaw, it is 
assumed that the cockpit rudder control is suddenly displaced to achieve 
the resulting rudder deflection, as limited by:
    (1) The control system on control surface stops; or
    (2) A limit pilot force of 300 pounds from VMC to 
VA and 200 pounds from VC/MC to 
VD/MD, with a linear variation between 
VA and VC/MC.
    (b) With the cockpit rudder control deflected so as always to 
maintain the maximum rudder deflection available within the limitations 
specified in paragraph (a) of this section, it is assumed that the 
airplane yaws to the overswing sideslip angle.
    (c) With the airplane yawed to the static equilibrium sideslip 
angle, it is assumed that the cockpit rudder control is held so as to 
achieve the maximum rudder deflection available within the limitations 
specified in paragraph (a) of this section.
    (d) With the airplane yawed to the static equilibrium sideslip angle 
of paragraph (c) of this section, it is assumed that the cockpit rudder 
control is suddenly returned to neutral.

[Amdt. 25-91, 62 FR 40704, July 29, 1997]

                        Supplementary Conditions



Sec. 25.361  Engine torque.

    (a) Each engine mount and its supporting structure must be designed 
for the effects of--
    (1) A limit engine torque corresponding to takeoff power and 
propeller speed acting simultaneously with 75 percent of the limit loads 
from flight condition A of Sec. 25.333(b);
    (2) A limit torque corresponding to the maximum continuous power and 
propeller speed, acting simultaneously

[[Page 373]]

with the limit loads from flight condition A of Sec. 25.333(b); and
    (3) For turbopropeller installations, in addition to the conditions 
specified in paragraphs (a)(1) and (2) of this section, a limit engine 
torque corresponding to takeoff power and propeller speed, multiplied by 
a factor accounting for propeller control system malfunction, including 
quick feathering, acting simultaneously with 1g level flight loads. In 
the absence of a rational analysis, a factor of 1.6 must be used.
    (b) For turbine engine installations, the engine mounts and 
supporting structure must be designed to withstand each of the 
following:
    (1) A limit engine torque load imposed by sudden engine stoppage due 
to malfunction or structural failure (such as compressor jamming).
    (2) A limit engine torque load imposed by the maximum acceleration 
of the engine.
    (c) The limit engine torque to be considered under paragraph (a) of 
this section must be obtained by multiplying mean torque for the 
specified power and speed by a factor of--
    (1) 1.25 for turbopropeller installations;
    (2) 1.33 for reciprocating engines with five or more cylinders; or
    (3) Two, three, or four, for engines with four, three, or two 
cylinders, respectively.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970; Amdt. 25-46, 43 FR 50595, Oct. 30, 1978; Amdt. 
25-72, 55 FR 29776, July 20, 1990]



Sec. 25.363  Side load on engine and auxiliary power unit mounts.

    (a) Each engine and auxiliary power unit mount and its supporting 
structure must be designed for a limit load factor in lateral direction, 
for the side load on the engine and auxiliary power unit mount, at least 
equal to the maximum load factor obtained in the yawing conditions but 
not less than--
    (1) 1.33; or
    (2) One-third of the limit load factor for flight condition A as 
prescribed in Sec. 25.333(b).
    (b) The side load prescribed in paragraph (a) of this section may be 
assumed to be independent of other flight conditions.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970; Amdt. 25-91, 62 FR 40704, July 29, 1997]



Sec. 25.365  Pressurized compartment loads.

    For airplanes with one or more pressurized compartments the 
following apply:
    (a) The airplane structure must be strong enough to withstand the 
flight loads combined with pressure differential loads from zero up to 
the maximum relief valve setting.
    (b) The external pressure distribution in flight, and stress 
concentrations and fatigue effects must be accounted for.
    (c) If landings may be made with the compartment pressurized, 
landing loads must be combined with pressure differential loads from 
zero up to the maximum allowed during landing.
    (d) The airplane structure must be designed to be able to withstand 
the pressure differential loads corresponding to the maximum relief 
valve setting multiplied by a factor of 1.33 for airplanes to be 
approved for operation to 45,000 feet or by a factor of 1.67 for 
airplanes to be approved for operation above 45,000 feet, omitting other 
loads.
    (e) Any structure, component or part, inside or outside a 
pressurized compartment, the failure of which could interfere with 
continued safe flight and landing, must be designed to withstand the 
effects of a sudden release of pressure through an opening in any 
compartment at any operating altitude resulting from each of the 
following conditions:
    (1) The penetration of the compartment by a portion of an engine 
following an engine disintegration;
    (2) Any opening in any pressurized compartment up to the size 
Ho in square feet; however, small compartments may be 
combined with an adjacent pressurized compartment and both considered as 
a single compartment for openings that cannot reasonably be expected to 
be confined to the small compartment. The size Ho must be 
computed by the following formula:

    Ho=PAs
    where,

[[Page 374]]

    Ho=Maximum opening in square feet, need not exceed 20 
square feet.


 
                                  As
                    P=     ----------------     +.024
                                 6240
------------------------------------------------------------------------
 

    As=Maximum cross-sectional area of the pressurized shell 
normal to the longitudinal axis, in square feet; and

    (3) The maximum opening caused by airplane or equipment failures not 
shown to be extremely improbable.
    (f) In complying with paragraph (e) of this section, the fail-safe 
features of the design may be considered in determining the probability 
of failure or penetration and probable size of openings, provided that 
possible improper operation of closure devices and inadvertent door 
openings are also considered. Furthermore, the resulting differential 
pressure loads must be combined in a rational and conservative manner 
with 1-g level flight loads and any loads arising from emergency 
depressurization conditions. These loads may be considered as ultimate 
conditions; however, any deformations associated with these conditions 
must not interfere with continued safe flight and landing. The pressure 
relief provided by intercompartment venting may also be considered.
    (g) Bulkheads, floors, and partitions in pressurized compartments 
for occupants must be designed to withstand the conditions specified in 
paragraph (e) of this section. In addition, reasonable design 
precautions must be taken to minimize the probability of parts becoming 
detached and injuring occupants while in their seats.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-54, 
45 FR 60172, Sept. 11, 1980; Amdt. 25-71, 55 FR 13477, Apr. 10, 1990; 
Amdt. 25-72, 55 FR 29776, July 20, 1990; Amdt. 25-87, 61 FR 28695, June 
5, 1996]



Sec. 25.367  Unsymmetrical loads due to engine failure.

    (a) The airplane must be designed for the unsymmetrical loads 
resulting from the failure of the critical engine. Turbopropeller 
airplanes must be designed for the following conditions in combination 
with a single malfunction of the propeller drag limiting system, 
considering the probable pilot corrective action on the flight controls:
    (1) At speeds between VMC and VD, the loads 
resulting from power failure because of fuel flow interruption are 
considered to be limit loads.
    (2) At speeds between VMC and VC, the loads 
resulting from the disconnection of the engine compressor from the 
turbine or from loss of the turbine blades are considered to be ultimate 
loads.
    (3) The time history of the thrust decay and drag build-up occurring 
as a result of the prescribed engine failures must be substantiated by 
test or other data applicable to the particular engine-propeller 
combination.
    (4) The timing and magnitude of the probable pilot corrective action 
must be conservatively estimated, considering the characteristics of the 
particular engine-propeller-airplane combination.
    (b) Pilot corrective action may be assumed to be initiated at the 
time maximum yawing velocity is reached, but not earlier than two 
seconds after the engine failure. The magnitude of the corrective action 
may be based on the control forces specified in Sec. 25.397(b) except 
that lower forces may be assumed where it is shown by anaylsis or test 
that these forces can control the yaw and roll resulting from the 
prescribed engine failure conditions.



Sec. 25.371  Gyroscopic loads.

    The structure supporting any engine or auxiliary power unit must be 
designed for the loads including the gyroscopic loads arising from the 
conditions specified in Secs. 25.331, 25.341(a), 25.349, 25.351, 25.473, 
25.479, and 25.481, with the engine or auxiliary power unit at the 
maximum rpm appropriate to the condition. For the purposes of compliance 
with this section, the pitch maneuver in Sec. 25.331(c)(1) must be 
carried out until the positive limit maneuvering load factor (point 
A2 in Sec. 25.333(b)) is reached.

[Amdt. 25-91, 62 FR 40704, July 29, 1997]



Sec. 25.373  Speed control devices.

    If speed control devices (such as spoilers and drag flaps) are 
installed for use in en route conditions--

[[Page 375]]

    (a) The airplane must be designed for the symmetrical maneuvers 
prescribed in Sec. 25.333 and Sec. 25.337, the yawing maneuvers 
prescribed in Sec. 25.351, and the vertical and later gust conditions 
prescribed in Sec. 25.341(a), at each setting and the maximum speed 
associated with that setting; and
    (b) If the device has automatic operating or load limiting features, 
the airplane must be designed for the maneuver and gust conditions 
prescribed in paragraph (a) of this section, at the speeds and 
corresponding device positions that the mechanism allows.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29776, July 20, 1990; Amdt. 25-86, 61 FR 5222, Feb. 9, 1996]

                    Control Surface and System Loads



Sec. 25.391  Control surface loads: General.

    The control surfaces must be designed for the limit loads resulting 
from the flight conditions in Secs. 25.331, 25.341(a), 25.349 and 25.351 
and the ground gust conditions in Sec. 25.415, considering the 
requirements for--
    (a) Loads parallel to hinge line, in Sec. 25.393;
    (b) Pilot effort effects, in Sec. 25.397;
    (c) Trim tab effects, in Sec. 25.407;
    (d) Unsymmetrical loads, in Sec. 25.427; and
    (e) Auxiliary aerodynamic surfaces, in Sec. 25.445.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-86, 
61 FR 5222, Feb. 9, 1996]



Sec. 25.393  Loads parallel to hinge line.

    (a) Control surfaces and supporting hinge brackets must be designed 
for inertia loads acting parallel to the hinge line.
    (b) In the absence of more rational data, the inertia loads may be 
assumed to be equal to KW, where--

  (1) K=24 for vertical surfaces;
  (2) K=12 for horizontal surfaces; and
  (3) W= weight of the movable surfaces.



Sec. 25.395  Control system.

    (a) Longitudinal, lateral, directional, and drag control system and 
their supporting structures must be designed for loads corresponding to 
125 percent of the computed hinge moments of the movable control surface 
in the conditions prescribed in Sec. 25.391.
    (b) The system limit loads, except the loads resulting from ground 
gusts, need not exceed the loads that can be produced by the pilot (or 
pilots) and by automatic or power devices operating the controls.
    (c) The loads must not be less than those resulting from application 
of the minimum forces prescribed in Sec. 25.397(c).

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5672, Apr. 8, 1970; Amdt. 25-72, 55 FR 29776, July 20, 1990]



Sec. 25.397  Control system loads.

    (a) General. The maximum and minimum pilot forces, specified in 
paragraph (c) of this section, are assumed to act at the appropriate 
control grips or pads (in a manner simulating flight conditions) and to 
be reacted at the attachment of the control system to the control 
surface horn.
    (b) Pilot effort effects. In the control surface flight loading 
condition, the air loads on movable surfaces and the corresponding 
deflections need not exceed those that would result in flight from the 
application of any pilot force within the ranges specified in paragraph 
(c) of this section. Two-thirds of the maximum values specified for the 
aileron and elevator may be used if control surface hinge moments are 
based on reliable data. In applying this criterion, the effects of servo 
mechanisms, tabs, and automatic pilot systems, must be considered.
    (c) Limit pilot forces and torques. The limit pilot forces and 
torques are as follows:

------------------------------------------------------------------------
                                    Maximum forces or  Minimum forces or
             Control                     torques            torques
------------------------------------------------------------------------
Aileron:
  Stick..........................  100 lbs...........  40 lbs.
  Wheel \1\......................  80 D in.-lbs \2\..  40 D in.-lbs.
Elevator:
  Stick..........................  250 lbs...........  100 lbs.
  Wheel (symmetrical)............  300 lbs...........  100 lbs.
  Wheel (unsymmetrical) \3\......  ..................  100 lbs.
Rudder...........................  300 lbs...........  130 lbs.
------------------------------------------------------------------------
\1\ The critical parts of the aileron control system must be designed
  for a single tangential force with a limit value equal to 1.25 times
  the couple force determined from these criteria.
\2\ D= wheel diameter (inches).
\3\ The unsymmetrical forces must be applied at one of the normal
  handgrip points on the periphery of the control wheel.


[[Page 376]]


[Doc. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 41 FR 
55466, Dec. 20, 1976; Amdt. 25-72, 55 FR 29776, July 20, 1990]



Sec. 25.399  Dual control system.

    (a) Each dual control system must be designed for the pilots 
operating in opposition, using individual pilot forces not less than--
    (1) 0.75 times those obtained under Sec. 25.395; or
    (2) The minimum forces specified in Sec. 25.397(c).
    (b) The control system must be designed for pilot forces applied in 
the same direction, using individual pilot forces not less than 0.75 
times those obtained under Sec. 25.395.



Sec. 25.405  Secondary control system.

    Secondary controls, such as wheel brake, spoiler, and tab controls, 
must be designed for the maximum forces that a pilot is likely to apply 
to those controls. The following values may be used:

             Pilot Control Force Limits (Secondary Controls)
------------------------------------------------------------------------
                  Control                        Limit pilot forces
------------------------------------------------------------------------
Miscellaneous:                                1+R
  *Crank, wheel, or                         <5-line (>------<5-ln )>  x
                                             50 lbs., but
    lever.                                      3
 
                                              not less than 50 lbs. nor
                                             more than 150 lbs.
                                             (R=radius). (Applicable to
                                             any angle within 20 deg. of
                                             plane of control).
Twist.....................................  133 in.-lbs.
Push-pull.................................  To be chosen by applicant.
------------------------------------------------------------------------
*Limited to flap, tab, stabilizer, spoiler, and landing gear operation
  controls.



Sec. 25.407  Trim tab effects.

    The effects of trim tabs on the control surface design conditions 
must be accounted for only where the surface loads are limited by 
maximum pilot effort. In these cases, the tabs are considered to be 
deflected in the direction that would assist the pilot, and the 
deflections are--
    (a) For elevator trim tabs, those required to trim the airplane at 
any point within the positive portion of the pertinent flight envelope 
in Sec. 25.333(b), except as limited by the stops; and
    (b) For aileron and rudder trim tabs, those required to trim the 
airplane in the critical unsymmetrical power and loading conditions, 
with appropriate allowance for rigging tolerances.



Sec. 25.409  Tabs.

    (a) Trim tabs. Trim tabs must be designed to withstand loads arising 
from all likely combinations of tab setting, primary control position, 
and airplane speed (obtainable without exceeding the flight load 
conditions prescribed for the airplane as a whole), when the effect of 
the tab is opposed by pilot effort forces up to those specified in 
Sec. 25.397(b).
    (b) Balancing tabs. Balancing tabs must be designed for deflections 
consistent with the primary control surface loading conditions.
    (c) Servo tabs. Servo tabs must be designed for deflections 
consistent with the primary control surface loading conditions 
obtainable within the pilot maneuvering effort, considering possible 
opposition from the trim tabs.



Sec. 25.415  Ground gust conditions.

    (a) The control system must be designed as follows for control 
surface loads due to ground gusts and taxiing downwind:
    (1) The control system between the stops nearest the surfaces and 
the cockpit controls must be designed for loads corresponding to the 
limit hinge moments H of paragraph (a)(2) of this section. These loads 
need not exceed--
    (i) The loads corresponding to the maximum pilot loads in 
Sec. 25.397(c) for each pilot alone; or
    (ii) 0.75 times these maximum loads for each pilot when the pilot 
forces are applied in the same direction.
    (2) The control system stops nearest the surfaces, the control 
system locks, and the parts of the systems (if any) between these stops 
and locks and the control surface horns, must be designed for limit 
hinge moments H, in foot pounds, obtained from the formula, 
H=.0034KV2cS, where--

V=65 (wind speed in knots)
K=limit hinge moment factor for ground gusts derived in paragraph (b) of 
          this section.
c=mean chord of the control surface aft of the hinge line (ft);

[[Page 377]]

S=area of the control surface aft of the hinge line (sq ft);
    (b) The limit hinge moment factor K for ground gusts must be derived 
as follows:

------------------------------------------------------------------------
               Surface                     K       Position of controls
------------------------------------------------------------------------
(a) Aileron..........................      0.75  Control column locked
                                                  or lashed in mid-
                                                  position.
(b) ......do.........................  \1\ 1 pl  Ailerons at full throw.
                                          u0.50
(c) Elevator.........................  \1\ 1 pl  (c) Elevator full down.
                                          u0.75
(d) ......do.........................  \1\ 1 pl  (d) Elevator full up.
                                          u0.75
(e) Rudder...........................      0.75  (e) Rudder in neutral.
(f) ......do.........................      0.75  (f) Rudder at full
                                                  throw.
------------------------------------------------------------------------
\1\ A positive value of K indicates a moment tending to depress the
  surface, while a negative value of K indicates a moment tending to
  raise the surface.


[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29776, July 20, 1990; Amdt. 25-91, 62 FR 40705, July 29, 1997]



Sec. 25.427  Unsymmetrical loads.

    (a) In designing the airplane for lateral gust, yaw maneuver and 
roll maneuver conditions, account must be taken of unsymmetrical loads 
on the empennage arising from effects such as slipstream and aerodynamic 
interference with the wing, vertical fin and other aerodynamic surfaces.
    (b) The horizontal tail must be assumed to be subjected to 
unsymmetrical loading conditions determined as follows:
    (1) 100 percent of the maximum loading from the symmetrical maneuver 
conditions of Sec. 25.331 and the vertical gust conditions of 
Sec. 25.341(a) acting separately on the surface on one side of the plane 
of symmetry; and
    (2) 80 percent of these loadings acting on the other side.
    (c) For empennage arrangements where the horizontal tail surfaces 
have dihedral angles greater than plus or minus 10 degrees, or are 
supported by the vertical tail surfaces, the surfaces and the supporting 
structure must be designed for gust velocities specified in 
Sec. 25.341(a) acting in any orientation at right angles to the flight 
path.
    (d) Unsymmetrical loading on the empennage arising from buffet 
conditions of Sec. 25.305(e) must be taken into account.

[Doc. No. 27902, 61 FR 5222, Feb. 9, 1996]



Sec. 25.445  Auxiliary aerodynamic surfaces.

    (a) When significant, the aerodynamic influence between auxiliary 
aerodynamic surfaces, such as outboard fins and winglets, and their 
supporting aerodynamic surfaces, must be taken into account for all 
loading conditions including pitch, roll, and yaw maneuvers, and gusts 
as specified in Sec. 25.341(a) acting at any orientation at right angles 
to the flight path.
    (b) To provide for unsymmetrical loading when outboard fins extend 
above and below the horizontal surface, the critical vertical surface 
loading (load per unit area) determined under Sec. 25.391 must also be 
applied as follows:
    (1) 100 percent to the area of the vertical surfaces above (or 
below) the horizontal surface.
    (2) 80 percent to the area below (or above) the horizontal surface.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-86, 
61 FR 5222, Feb. 9, 1996]



Sec. 25.457  Wing flaps.

    Wing flaps, their operating mechanisms, and their supporting 
structures must be designed for critical loads occurring in the 
conditions prescribed in Sec. 25.345, accounting for the loads occurring 
during transition from one flap position and airspeed to another.



Sec. 25.459  Special devices.

    The loading for special devices using aerodynamic surfaces (such as 
slots, slats and spoilers) must be determined from test data.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29776, July 20, 1990]

                              Ground Loads



Sec. 25.471  General.

    (a) Loads and equilibrium. For limit ground loads--
    (1) Limit ground loads obtained under this subpart are considered to 
be external forces applied to the airplane structure; and
    (2) In each specified ground load condition, the external loads must 
be placed in equilibrium with the linear

[[Page 378]]

and angular inertia loads in a rational or conservative manner.
    (b) Critical centers of gravity. The critical centers of gravity 
within the range for which certification is requested must be selected 
so that the maximum design loads are obtained in each landing gear 
element. Fore and aft, vertical, and lateral airplane centers of gravity 
must be considered. Lateral displacements of the c.g. from the airplane 
centerline which would result in main gear loads not greater than 103 
percent of the critical design load for symmetrical loading conditions 
may be selected without considering the effects of these lateral c.g. 
displacements on the loading of the main gear elements, or on the 
airplane structure provided--
    (1) The lateral displacement of the c.g. results from random 
passenger or cargo disposition within the fuselage or from random 
unsymmetrical fuel loading or fuel usage; and
    (2) Appropriate loading instructions for random disposable loads are 
included under the provisions of Sec. 25.1583(c)(1) to ensure that the 
lateral displacement of the center of gravity is maintained within these 
limits.
    (c) Landing gear dimension data. Figure 1 of appendix A contains the 
basic landing gear dimension data.

[Amdt. 25-23, 35 FR 5673, Apr. 8, 1970]



Sec. 25.473  Landing load conditions and assumptions.

    (a) For the landing conditions specified in Sec. 25.479 to 
Sec. 25.485 the airplane is assumed to contact the ground--
    (1) In the attitudes defined in Sec. 25.479 and Sec. 25.481;
    (2) With a limit descent velocity of 10 fps at the design landing 
weight (the maximum weight for landing conditions at maximum descent 
velocity); and
    (3) With a limit descent velocity of 6 fps at the design take-off 
weight (the maximum weight for landing conditions at a reduced descent 
velocity).
    (4) The prescribed descent velocities may be modified if it is shown 
that the airplane has design features that make it impossible to develop 
these velocities.
    (b) Airplane lift, not exceeding airplane weight, may be assumed 
unless the presence of systems or procedures significantly affects the 
lift.
    (c) The method of analysis of airplane and landing gear loads must 
take into account at least the following elements:
    (1) Landing gear dynamic characteristics.
    (2) Spin-up and springback.
    (3) Rigid body response.
    (4) Structural dynamic response of the airframe, if significant.
    (d) The landing gear dynamic characteristics must be validated by 
tests as defined in Sec. 25.723(a).
    (e) The coefficient of friction between the tires and the ground may 
be established by considering the effects of skidding velocity and tire 
pressure. However, this coefficient of friction need not be more than 
0.8.

[Amdt. 25-91, 62 FR 40705, July 29, 1997; Amdt. 25-91, 62 FR 45481, Aug. 
27, 1997; Amdt 25-103, 66 FR 27394, May 16, 2001]



Sec. 25.477  Landing gear arrangement.

    Sections 25.479 through 25.485 apply to airplanes with conventional 
arrangements of main and nose gears, or main and tail gears, when normal 
operating techniques are used.



Sec. 25.479  Level landing conditions.

    (a) In the level attitude, the airplane is assumed to contact the 
ground at forward velocity components, ranging from VL1 to 
1.25 VL2 parallel to the ground under the conditions 
prescribed in Sec. 25.473 with--
    (1) VL1 equal to VS0 (TAS) at the appropriate 
landing weight and in standard sea level conditions; and
    (2) VL2 equal to VS0 (TAS) at the appropriate 
landing weight and altitudes in a hot day temperature of 41 degrees F. 
above standard.
    (3) The effects of increased contact speed must be investigated if 
approval of downwind landings exceeding 10 knots is requested.
    (b) For the level landing attitude for airplanes with tail wheels, 
the conditions specified in this section must be investigated with the 
airplane horizontal reference line horizontal in accordance with Figure 
2 of Appendix A of this part.
    (c) For the level landing attitude for airplanes with nose wheels, 
shown in

[[Page 379]]

Figure 2 of Appendix A of this part, the conditions specified in this 
section must be investigated assuming the following attitudes:
    (1) An attitude in which the main wheels are assumed to contact the 
ground with the nose wheel just clear of the ground; and
    (2) If reasonably attainable at the specified descent and forward 
velocities, an attitude in which the nose and main wheels are assumed to 
contact the ground simultaneously.
    (d) In addition to the loading conditions prescribed in paragraph 
(a) of this section, but with maximum vertical ground reactions 
calculated from paragraph (a), the following apply:
    (1) The landing gear and directly affected attaching structure must 
be designed for the maximum vertical ground reaction combined with an 
aft acting drag component of not less than 25% of this maximum vertical 
ground reaction.
    (2) The most severe combination of loads that are likely to arise 
during a lateral drift landing must be taken into account. In absence of 
a more rational analysis of this condition, the following must be 
investigated:
    (i) A vertical load equal to 75% of the maximum ground reaction of 
Sec. 25.473 must be considered in combination with a drag and side load 
of 40% and 25% respectively of that vertical load.
    (ii) The shock absorber and tire deflections must be assumed to be 
75% of the deflection corresponding to the maximum ground reaction of 
Sec. 25.473(a)(2). This load case need not be considered in combination 
with flat tires.
    (3) The combination of vertical and drag components is considered to 
be acting at the wheel axle centerline.

[Amdt. 25-91, 62 FR 40705, July 29, 1997; Amdt. 25-91, 62 FR 45481, Aug. 
27, 1997]



Sec. 25.481  Tail-down landing conditions.

    (a) In the tail-down attitude, the airplane is assumed to contact 
the ground at forward velocity components, ranging from VL1 
to VL2 parallel to the ground under the conditions prescribed 
in Sec. 25.473 with--
    (1) VL1 equal to VS0 (TAS) at the appropriate 
landing weight and in standard sea level conditions; and
    (2) VL2 equal to VS0 (TAS) at the appropriate 
landing weight and altitudes in a hot day temperature of 41 degrees F. 
above standard.
    (3) The combination of vertical and drag components considered to be 
acting at the main wheel axle centerline.
    (b) For the tail-down landing condition for airplanes with tail 
wheels, the main and tail wheels are assumed to contact the ground 
simultaneously, in accordance with figure 3 of appendix A. Ground 
reaction conditions on the tail wheel are assumed to act--
    (1) Vertically; and
    (2) Up and aft through the axle at 45 degrees to the ground line.
    (c) For the tail-down landing condition for airplanes with nose 
wheels, the airplane is assumed to be at an attitude corresponding to 
either the stalling angle or the maximum angle allowing clearance with 
the ground by each part of the airplane other than the main wheels, in 
accordance with figure 3 of appendix A, whichever is less.

[Docket No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-91, 
62 FR 40705, July 29, 1997; Amdt. 25-94, 63 FR 8848, Feb. 23, 1998]



Sec. 25.483  One-gear landing conditions.

    For the one-gear landing conditions, the airplane is assumed to be 
in the level attitude and to contact the ground on one main landing 
gear, in accordance with Figure 4 of Appendix A of this part. In this 
attitude--
    (a) The ground reactions must be the same as those obtained on that 
side under Sec. 25.479(d)(1), and
    (b) Each unbalanced external load must be reacted by airplane 
inertia in a rational or conservative manner.

[Docket No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-91, 
62 FR 40705, July 29, 1997]



Sec. 25.485  Side load conditions.

    In addition to Sec. 25.479(d)(2) the following conditions must be 
considered:
    (a) For the side load condition, the airplane is assumed to be in 
the level attitude with only the main wheels contacting the ground, in 
accordance with figure 5 of appendix A.
    (b) Side loads of 0.8 of the vertical reaction (on one side) acting 
inward and 0.6 of the vertical reaction (on the other side) acting 
outward must be

[[Page 380]]

combined with one-half of the maximum vertical ground reactions obtained 
in the level landing conditions. These loads are assumed to be applied 
at the ground contact point and to be resisted by the inertia of the 
airplane. The drag loads may be assumed to be zero.

[Docket No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-91, 
62 FR 40705, July 29, 1997]



Sec. 25.487  Rebound landing condition.

    (a) The landing gear and its supporting structure must be 
investigated for the loads occurring during rebound of the airplane from 
the landing surface.
    (b) With the landing gear fully extended and not in contact with the 
ground, a load factor of 20.0 must act on the unsprung weights of the 
landing gear. This load factor must act in the direction of motion of 
the unsprung weights as they reach their limiting positions in extending 
with relation to the sprung parts of the landing gear.



Sec. 25.489  Ground handling conditions.

    Unless otherwise prescribed, the landing gear and airplane structure 
must be investigated for the conditions in Secs. 25.491 through 25.509 
with the airplane at the design ramp weight (the maximum weight for 
ground handling conditions). No wing lift may be considered. The shock 
absorbers and tires may be assumed to be in their static position.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970]



Sec. 25.491  Taxi, takeoff and landing roll.

    Within the range of appropriate ground speeds and approved weights, 
the airplane structure and landing gear are assumed to be subjected to 
loads not less than those obtained when the aircraft is operating over 
the roughest ground that may reasonably be expected in normal operation.

[Amdt. 25-91, 62 FR 40705, July 29, 1997]



Sec. 25.493  Braked roll conditions.

    (a) An airplane with a tail wheel is assumed to be in the level 
attitude with the load on the main wheels, in accordance with figure 6 
of appendix A. The limit vertical load factor is 1.2 at the design 
landing weight and 1.0 at the design ramp weight. A drag reaction equal 
to the vertical reaction multiplied by a coefficient of friction of 0.8, 
must be combined with the vertical ground reaction and applied at the 
ground contact point.
    (b) For an airplane with a nose wheel the limit vertical load factor 
is 1.2 at the design landing weight, and 1.0 at the design ramp weight. 
A drag reaction equal to the vertical reaction, multiplied by a 
coefficient of friction of 0.8, must be combined with the vertical 
reaction and applied at the ground contact point of each wheel with 
brakes. The following two attitudes, in accordance with figure 6 of 
appendix A, must be considered:
    (1) The level attitude with the wheels contacting the ground and the 
loads distributed between the main and nose gear. Zero pitching 
acceleration is assumed.
    (2) The level attitude with only the main gear contacting the ground 
and with the pitching moment resisted by angular acceleration.
    (c) A drag reaction lower than that prescribed in this section may 
be used if it is substantiated that an effective drag force of 0.8 times 
the vertical reaction cannot be attained under any likely loading 
condition.
    (d) An airplane equipped with a nose gear must be designed to 
withstand the loads arising from the dynamic pitching motion of the 
airplane due to sudden application of maximum braking force. The 
airplane is considered to be at design takeoff weight with the nose and 
main gears in contact with the ground, and with a steady-state vertical 
load factor of 1.0. The steady-state nose gear reaction must be combined 
with the maximum incremental nose gear vertical reaction caused by the 
sudden application of maximum braking force as described in paragraphs 
(b) and (c) of this section.
    (e) In the absence of a more rational analysis, the nose gear 
vertical reaction prescribed in paragraph (d) of this section must be 
calculated according to the following formula:


[[Page 381]]


[GRAPHIC] [TIFF OMITTED] TR27MY98.017


Where:

VN=Nose gear vertical reaction.
WT=Design takeoff weight.
A=Horizontal distance between the c.g. of the airplane and the nose 
wheel.
B=Horizontal distance between the c.g. of the airplane and the line 
joining the centers of the main wheels.
E=Vertical height of the c.g. of the airplane above the ground in the 
1.0 g static condition.
=Coefficient of friction of 0.80.
f=Dynamic response factor; 2.0 is to be used unless a lower factor is 
substantiated. In the absence of other information, the dynamic response 
factor f may be defined by the equation:
[GRAPHIC] [TIFF OMITTED] TR27MY98.018


Where:
 is the effective critical damping ratio of the rigid body 
pitching mode about the main landing gear effective ground contact 
point.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970; Amdt. 25-97, 63 FR 29072, May 27, 1998]



Sec. 25.495  Turning.

    In the static position, in accordance with figure 7 of appendix A, 
the airplane is assumed to execute a steady turn by nose gear steering, 
or by application of sufficient differential power, so that the limit 
load factors applied at the center of gravity are 1.0 vertically and 0.5 
laterally. The side ground reaction of each wheel must be 0.5 of the 
vertical reaction.



Sec. 25.497  Tail-wheel yawing.

    (a) A vertical ground reaction equal to the static load on the tail 
wheel, in combination with a side component of equal magnitude, is 
assumed.
    (b) If there is a swivel, the tail wheel is assumed to be swiveled 
90 deg. to the airplane longitudinal axis with the resultant load 
passing through the axle.
    (c) If there is a lock, steering device, or shimmy damper the tail 
wheel is also assumed to be in the trailing position with the side load 
acting at the ground contact point.



Sec. 25.499  Nose-wheel yaw and steering.

    (a) A vertical load factor of 1.0 at the airplane center of gravity, 
and a side component at the nose wheel ground contact equal to 0.8 of 
the vertical ground reaction at that point are assumed.
    (b) With the airplane assumed to be in static equilibrium with the 
loads resulting from the use of brakes on one side of the main landing 
gear, the nose gear, its attaching structure, and the fuselage structure 
forward of the center of gravity must be designed for the following 
loads:
    (1) A vertical load factor at the center of gravity of 1.0.
    (2) A forward acting load at the airplane center of gravity of 0.8 
times the vertical load on one main gear.
    (3) Side and vertical loads at the ground contact point on the nose 
gear that are required for static equilibrium.
    (4) A side load factor at the airplane center of gravity of zero.
    (c) If the loads prescribed in paragraph (b) of this section result 
in a nose gear side load higher than 0.8 times the vertical nose gear 
load, the design nose gear side load may be limited to 0.8 times the 
vertical load, with unbalanced yawing moments assumed to be resisted by 
airplane inertia forces.
    (d) For other than the nose gear, its attaching structure, and the 
forward fuselage structure, the loading conditions are those prescribed 
in paragraph (b) of this section, except that--
    (1) A lower drag reaction may be used if an effective drag force of 
0.8 times the vertical reaction cannot be reached under any likely 
loading condition; and
    (2) The forward acting load at the center of gravity need not exceed 
the maximum drag reaction on one main gear, determined in accordance 
with Sec. 25.493(b).
    (e) With the airplane at design ramp weight, and the nose gear in 
any steerable position, the combined application of full normal steering 
torque and

[[Page 382]]

vertical force equal to 1.33 times the maximum static reaction on the 
nose gear must be considered in designing the nose gear, its attaching 
structure, and the forward fuselage structure.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970; Amdt. 25-46, 43 FR 50595, Oct. 30, 1978; Amdt. 
25-91, 62 FR 40705, July 29, 1997]



Sec. 25.503  Pivoting.

    (a) The airplane is assumed to pivot about one side of the main gear 
with the brakes on that side locked. The limit vertical load factor must 
be 1.0 and the coefficient of friction 0.8.
    (b) The airplane is assumed to be in static equilibrium, with the 
loads being applied at the ground contact points, in accordance with 
figure 8 of appendix A.



Sec. 25.507  Reversed braking.

    (a) The airplane must be in a three point static ground attitude. 
Horizontal reactions parallel to the ground and directed forward must be 
applied at the ground contact point of each wheel with brakes. The limit 
loads must be equal to 0.55 times the vertical load at each wheel or to 
the load developed by 1.2 times the nominal maximum static brake torque, 
whichever is less.
    (b) For airplanes with nose wheels, the pitching moment must be 
balanced by rotational inertia.
    (c) For airplanes with tail wheels, the resultant of the ground 
reactions must pass through the center of gravity of the airplane.



Sec. 25.509  Towing loads.

    (a) The towing loads specified in paragraph (d) of this section must 
be considered separately. These loads must be applied at the towing 
fittings and must act parallel to the ground. In addition--
    (1) A vertical load factor equal to 1.0 must be considered acting at 
the center of gravity;
    (2) The shock struts and tires must be in their static positions; 
and
    (3) With WT as the design ramp weight, the towing load, 
FTOW, is--
    (i) 0.3 WT for WT less than 30,000 pounds;
    (ii) (6WT+450,000)/7 for WT between 30,000 and 
100,000 pounds; and
    (iii) 0.15 WT for WT over 100,000 pounds.
    (b) For towing points not on the landing gear but near the plane of 
symmetry of the airplane, the drag and side tow load components 
specified for the auxiliary gear apply. For towing points located 
outboard of the main gear, the drag and side tow load components 
specified for the main gear apply. Where the specified angle of swivel 
cannot be reached, the maximum obtainable angle must be used.
    (c) The towing loads specified in paragraph (d) of this section must 
be reacted as follows:
    (1) The side component of the towing load at the main gear must be 
reacted by a side force at the static ground line of the wheel to which 
the load is applied.
    (2) The towing loads at the auxiliary gear and the drag components 
of the towing loads at the main gear must be reacted as follows:
    (i) A reaction with a maximum value equal to the vertical reaction 
must be applied at the axle of the wheel to which the load is applied. 
Enough airplane inertia to achieve equilibrium must be applied.
    (ii) The loads must be reacted by airplane inertia.
    (d) The prescribed towing loads are as follows:

----------------------------------------------------------------------------------------------------------------
                                                                                     Load
             Tow point                      Position        ----------------------------------------------------
                                                                   Magnitude         No.         Direction
----------------------------------------------------------------------------------------------------------------
Main gear..........................  ......................  0.75 FTOW per main         1  Forward, parallel to
                                                              gear unit.                2   drag axis.
                                                                                        3  Forward, at 30 deg.
                                                                                        4   to drag axis.
                                                                                           Aft, parallel to drag
                                                                                            axis.
                                                                                           Aft, at 30 deg. to
                                                                                            drag axis.
Auxiliary gear.....................  Swiveled forward......  1.0 FTOW.............      5  Forward.
                                                                                        6  Aft.
                                     Swiveled aft..........  ......do.............      7  Forward.
                                                                                        8  Aft.

[[Page 383]]

 
                                     Swiveled 45 deg. from   0.5 FTOW.............      9  Forward, in plane of
                                      forward.                                         10   wheel.
                                                                                           Aft, in plane of
                                                                                            wheel.
                                     Swiveled 45 deg. from   ......do.............     11  Forward, in plane of
                                      aft.                                             12   wheel.
                                                                                           Aft, in plane of
                                                                                            wheel.
----------------------------------------------------------------------------------------------------------------

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970]



Sec. 25.511  Ground load: unsymmetrical loads on multiple-wheel units.

    (a) General. Multiple-wheel landing gear units are assumed to be 
subjected to the limit ground loads prescribed in this subpart under 
paragraphs (b) through (f) of this section. In addition--
    (1) A tandem strut gear arrangement is a multiple-wheel unit; and
    (2) In determining the total load on a gear unit with respect to the 
provisions of paragraphs (b) through (f) of this section, the transverse 
shift in the load centroid, due to unsymmetrical load distribution on 
the wheels, may be neglected.
    (b) Distribution of limit loads to wheels; tires inflated. The 
distribution of the limit loads among the wheels of the landing gear 
must be established for each landing, taxiing, and ground handling 
condition, taking into account the effects of the following factors:
    (1) The number of wheels and their physical arrangements. For truck 
type landing gear units, the effects of any seesaw motion of the truck 
during the landing impact must be considered in determining the maximum 
design loads for the fore and aft wheel pairs.
    (2) Any differentials in tire diameters resulting from a combination 
of manufacturing tolerances, tire growth, and tire wear. A maximum tire-
diameter differential equal to \2/3\ of the most unfavorable combination 
of diameter variations that is obtained when taking into account 
manufacturing tolerances, tire growth, and tire wear, may be assumed.
    (3) Any unequal tire inflation pressure, assuming the maximum 
variation to be plus-minus5 percent of the nominal tire 
inflation pressure.
    (4) A runway crown of zero and a runway crown having a convex upward 
shape that may be approximated by a slope of 1\1/2\ percent with the 
horizontal. Runway crown effects must be considered with the nose gear 
unit on either slope of the crown.
    (5) The airplane attitude.
    (6) Any structural deflections.
    (c) Deflated tires. The effect of deflated tires on the structure 
must be considered with respect to the loading conditions specified in 
paragraphs (d) through (f) of this section, taking into account the 
physical arrangement of the gear components. In addition--
    (1) The deflation of any one tire for each multiple wheel landing 
gear unit, and the deflation of any two critical tires for each landing 
gear unit using four or more wheels per unit, must be considered; and
    (2) The ground reactions must be applied to the wheels with inflated 
tires except that, for multiple-wheel gear units with more than one 
shock strut, a rational distribution of the ground reactions between the 
deflated and inflated tires, accounting for the differences in shock 
strut extensions resulting from a deflated tire, may be used.
    (d) Landing conditions. For one and for two deflated tires, the 
applied load to each gear unit is assumed to be 60 percent and 50 
percent, respectively, of the limit load applied to each gear for each 
of the prescribed landing conditions. However, for the drift landing 
condition of Sec. 25.485, 100 percent of the vertical load must be 
applied.
    (e) Taxiing and ground handling conditions. For one and for two 
deflated tires--
    (1) The applied side or drag load factor, or both factors, at the 
center of gravity must be the most critical value up to 50 percent and 
40 percent, respectively, of the limit side or drag load factors, or 
both factors, corresponding to the most severe condition resulting from 
consideration of the prescribed

[[Page 384]]

taxiing and ground handling conditions;
    (2) For the braked roll conditions of Sec. 25.493(a) and (b)(2), the 
drag loads on each inflated tire may not be less than those at each tire 
for the symmetrical load distribution with no deflated tires;
    (3) The vertical load factor at the center of gravity must be 60 
percent and 50 percent, respectively, of the factor with no deflated 
tires, except that it may not be less than 1g; and
    (4) Pivoting need not be considered.
    (f) Towing conditions. For one and for two deflated tires, the 
towing load, FTOW, must be 60 percent and 50 percent, 
respectively, of the load prescribed.



Sec. 25.519  Jacking and tie-down provisions.

    (a) General. The airplane must be designed to withstand the limit 
load conditions resulting from the static ground load conditions of 
paragraph (b) of this section and, if applicable, paragraph (c) of this 
section at the most critical combinations of airplane weight and center 
of gravity. The maximum allowable load at each jack pad must be 
specified.
    (b) Jacking. The airplane must have provisions for jacking and must 
withstand the following limit loads when the airplane is supported on 
jacks--
    (1) For jacking by the landing gear at the maximum ramp weight of 
the airplane, the airplane structure must be designed for a vertical 
load of 1.33 times the vertical static reaction at each jacking point 
acting singly and in combination with a horizontal load of 0.33 times 
the vertical static reaction applied in any direction.
    (2) For jacking by other airplane structure at maximum approved 
jacking weight:
    (i) The airplane structure must be designed for a vertical load of 
1.33 times the vertical reaction at each jacking point acting singly and 
in combination with a horizontal load of 0.33 times the vertical static 
reaction applied in any direction.
    (ii) The jacking pads and local structure must be designed for a 
vertical load of 2.0 times the vertical static reaction at each jacking 
point, acting singly and in combination with a horizontal load of 0.33 
times the vertical static reaction applied in any direction.
    (c) Tie-down. If tie-down points are provided, the main tie-down 
points and local structure must withstand the limit loads resulting from 
a 65-knot horizontal wind from any direction.

[Doc. No. 26129, 59 FR 22102, Apr. 28, 1994]

                               Water Loads



Sec. 25.521  General.

    (a) Seaplanes must be designed for the water loads developed during 
takeoff and landing, with the seaplane in any attitude likely to occur 
in normal operation, and at the appropriate forward and sinking 
velocities under the most severe sea conditions likely to be 
encountered.
    (b) Unless a more rational analysis of the water loads is made, or 
the standards in ANC-3 are used, Secs. 25.523 through 25.537 apply.
    (c) The requirements of this section and Secs. 25.523 through 25.537 
apply also to amphibians.



Sec. 25.523  Design weights and center of gravity positions.

    (a) Design weights. The water load requirements must be met at each 
operating weight up to the design landing weight except that, for the 
takeoff condition prescribed in Sec. 25.531, the design water takeoff 
weight (the maximum weight for water taxi and takeoff run) must be used.
    (b) Center of gravity positions. The critical centers of gravity 
within the limits for which certification is requested must be 
considered to reach maximum design loads for each part of the seaplane 
structure.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970]



Sec. 25.525  Application of loads.

    (a) Unless otherwise prescribed, the seaplane as a whole is assumed 
to be subjected to the loads corresponding to the load factors specified 
in Sec. 25.527.
    (b) In applying the loads resulting from the load factors prescribed 
in Sec. 25.527, the loads may be distributed over the hull or main float 
bottom (in order to avoid excessive local shear

[[Page 385]]

loads and bending moments at the location of water load application) 
using pressures not less than those prescribed in Sec. 25.533(b).
    (c) For twin float seaplanes, each float must be treated as an 
equivalent hull on a fictitious seaplane with a weight equal to one-half 
the weight of the twin float seaplane.
    (d) Except in the takeoff condition of Sec. 25.531, the aerodynamic 
lift on the seaplane during the impact is assumed to be \2/3\ of the 
weight of the seaplane.



Sec. 25.527  Hull and main float load factors.

    (a) Water reaction load factors nW must be computed in 
the following manner:
    (1) For the step landing case
    [GRAPHIC] [TIFF OMITTED] TC28SE91.036
    
    (2) For the bow and stern landing cases
    [GRAPHIC] [TIFF OMITTED] TC28SE91.037
    
    (b) The following values are used:
    (1) nW=water reaction load factor (that is, the water 
reaction divided by seaplane weight).
    (2) C1=empirical seaplane operations factor equal to 
0.012 (except that this factor may not be less than that necessary to 
obtain the minimum value of step load factor of 2.33).
    (3) VS0=seaplane stalling speed in knots with flaps 
extended in the appropriate landing position and with no slipstream 
effect.
    (4) =angle of dead rise at the longitudinal station at 
which the load factor is being determined in accordance with figure 1 of 
appendix B.
    (5) W= seaplane design landing weight in pounds.
    (6) K1=empirical hull station weighing factor, in 
accordance with figure 2 of appendix B.
    (7) rx=ratio of distance, measured parallel to hull 
reference axis, from the center of gravity of the seaplane to the hull 
longitudinal station at which the load factor is being computed to the 
radius of gyration in pitch of the seaplane, the hull reference axis 
being a straight line, in the plane of symmetry, tangential to the keel 
at the main step.
    (c) For a twin float seaplane, because of the effect of flexibility 
of the attachment of the floats to the seaplane, the factor K1 
may be reduced at the bow and stern to 0.8 of the value shown in figure 
2 of appendix B. This reduction applies only to the design of the 
carrythrough and seaplane structure.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970]



Sec. 25.529  Hull and main float landing conditions.

    (a) Symmetrical step, bow, and stern landing. For symmetrical step, 
bow, and stern landings, the limit water reaction load factors are those 
computed under Sec. 25.527. In addition--
    (1) For symmetrical step landings, the resultant water load must be 
applied at the keel, through the center of gravity, and must be directed 
perpendicularly to the keel line;
    (2) For symmetrical bow landings, the resultant water load must be 
applied at the keel, one-fifth of the longitudinal distance from the bow 
to the step, and must be directed perpendicularly to the keel line; and
    (3) For symmetrical stern landings, the resultant water load must be 
applied at the keel, at a point 85 percent of the longitudinal distance 
from the step to the stern post, and must be directed perpendicularly to 
the keel line.
    (b) Unsymmetrical landing for hull and single float seaplanes. 
Unsymmetrical step, bow, and stern landing conditions must be 
investigated. In addition--
    (1) The loading for each condition consists of an upward component 
and a side component equal, respectively, to 0.75 and 0.25 tan  
times the resultant load in the corresponding symmetrical landing 
condition; and
    (2) The point of application and direction of the upward component 
of the load is the same as that in the symmetrical condition, and the 
point of application of the side component is at the same longitudinal 
station as the

[[Page 386]]

upward component but is directed inward perpendicularly to the plane of 
symmetry at a point midway between the keel and chine lines.
    (c) Unsymmetrical landing; twin float seaplanes. The unsymmetrical 
loading consists of an upward load at the step of each float of 0.75 and 
a side load of 0.25 tan  at one float times the step landing 
load reached under Sec. 25.527. The side load is directed inboard, 
perpendicularly to the plane of symmetry midway between the keel and 
chine lines of the float, at the same longitudinal station as the upward 
load.



Sec. 25.531  Hull and main float takeoff condition.

    For the wing and its attachment to the hull or main float--
    (a) The aerodynamic wing lift is assumed to be zero; and
    (b) A downward inertia load, corresponding to a load factor computed 
from the following formula, must be applied:
[GRAPHIC] [TIFF OMITTED] TC28SE91.038

where--
n= inertia load factor;
CTO=empirical seaplane operations factor equal to 0.004;
VS1=seaplane stalling speed (knots) at the design takeoff 
          weight with the flaps extended in the appropriate takeoff 
          position;
=angle of dead rise at the main step (degrees); and
W= design water takeoff weight in pounds.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970]



Sec. 25.533  Hull and main float bottom pressures.

    (a) General. The hull and main float structure, including frames and 
bulkheads, stringers, and bottom plating, must be designed under this 
section.
    (b) Local pressures. For the design of the bottom plating and 
stringers and their attachments to the supporting structure, the 
following pressure distributions must be applied:
    (1) For an unflared bottom, the pressure at the chine is 0.75 times 
the pressure at the keel, and the pressures between the keel and chine 
vary linearly, in accordance with figure 3 of appendix B. The pressure 
at the keel (psi) is computed as follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.039

where--
Pk=pressure (p.s.i.) at the keel;
C2=0.00213;
K2=hull station weighing factor, in accordance with figure 2 
          of appendix B;
VS1=seaplane stalling speed (Knots) at the design water 
          takeoff weight with flaps extended in the appropriate takeoff 
          position; and
k=angle of dead rise at keel, in accordance with figure 1 of 
          appendix B.

    (2) For a flared bottom, the pressure at the beginning of the flare 
is the same as that for an unflared bottom, and the pressure between the 
chine and the beginning of the flare varies linearly, in accordance with 
figure 3 of appendix B. The pressure distribution is the same as that 
prescribed in paragraph (b)(1) of this section for an unflared bottom 
except that the pressure at the chine is computed as follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.040

where--
Pch=pressure (p.s.i.) at the chine;
C3=0.0016;
K2=hull station weighing factor, in accordance with figure 2 
          of appendix B;
VS1=seaplane stalling speed at the design water takeoff 
          weight with flaps extended in the appropriate takeoff 
          position; and
=angle of dead rise at appropriate station.

The area over which these pressures are applied must simulate pressures 
occurring during high localized impacts on the hull or float, but need 
not extend over an area that would induce critical stresses in the 
frames or in the overall structure.
    (c) Distributed pressures. For the design of the frames, keel, and 
chine structure, the following pressure distributions apply:
    (1) Symmetrical pressures are computed as follows:

[[Page 387]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.041

where--
P=pressure (p.s.i.);
C4=0.078 C1(with C1 computed under 
          Sec. 25.527);
K2=hull station weighing factor, determined in accordance 
          with figure 2 of appendix B;
VS0=seaplane stalling speed (Knots) with landing flaps 
          extended in the appropriate position and with no slipstream 
          effect; and
VS0=seaplane stalling speed with landing flaps extended in 
          the appropriate position and with no slipstream effect; and 
          =angle of dead rise at appropriate station.

    (2) The unsymmetrical pressure distribution consists of the 
pressures prescribed in paragraph (c)(1) of this section on one side of 
the hull or main float centerline and one-half of that pressure on the 
other side of the hull or main float centerline, in accordance with 
figure 3 of appendix B.

These pressures are uniform and must be applied simultaneously over the 
entire hull or main float bottom. The loads obtained must be carried 
into the sidewall structure of the hull proper, but need not be 
transmitted in a fore and aft direction as shear and bending loads.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970]



Sec. 25.535  Auxiliary float loads.

    (a) General. Auxiliary floats and their attachments and supporting 
structures must be designed for the conditions prescribed in this 
section. In the cases specified in paragraphs (b) through (e) of this 
section, the prescribed water loads may be distributed over the float 
bottom to avoid excessive local loads, using bottom pressures not less 
than those prescribed in paragraph (g) of this section.
    (b) Step loading. The resultant water load must be applied in the 
plane of symmetry of the float at a point three-fourths of the distance 
from the bow to the step and must be perpendicular to the keel. The 
resultant limit load is computed as follows, except that the value of L 
need not exceed three times the weight of the displaced water when the 
float is completely submerged:
[GRAPHIC] [TIFF OMITTED] TC28SE91.042

where--
L=limit load (lbs.);
C5=0.0053;
VS0=seaplane stalling speed (knots) with landing flaps 
          extended in the appropriate position and with no slipstream 
          effect;
W=seaplane design landing weight in pounds;
S=angle of dead rise at a station \3/4\ of the 
          distance from the bow to the step, but need not be less than 
          15 degrees; and
ry=ratio of the lateral distance between the center of 
          gravity and the plane of symmetry of the float to the radius 
          of gyration in roll.

    (c) Bow loading. The resultant limit load must be applied in the 
plane of symmetry of the float at a point one-fourth of the distance 
from the bow to the step and must be perpendicular to the tangent to the 
keel line at that point. The magnitude of the resultant load is that 
specified in paragraph (b) of this section.
    (d) Unsymmetrical step loading. The resultant water load consists of 
a component equal to 0.75 times the load specified in paragraph (a) of 
this section and a side component equal to 3.25 tan  times the 
load specified in paragraph (b) of this section. The side load must be 
applied perpendicularly to the plane of symmetry of the float at a point 
midway between the keel and the chine.
    (e) Unsymmetrical bow loading. The resultant water load consists of 
a component equal to 0.75 times the load specified in paragraph (b) of 
this section and a side component equal to 0.25 tan  times the 
load specified in paragraph (c) of this section. The side load must be 
applied perpendicularly to the plane of symmetry at a point midway 
between the keel and the chine.
    (f) Immersed float condition. The resultant load must be applied at 
the centroid of the cross section of the float at a point one-third of 
the distance from the bow to the step. The limit load components are as 
follows:

[[Page 388]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.043

where--
=mass density of water (slugs/ft.2);
V=volume of float (ft.2);
Cx=coefficient of drag force, equal to 0.133;
Cy=coefficient of side force, equal to 0.106;
K=0.8, except that lower values may be used if it is shown that the 
          floats are incapable of submerging at a speed of 0.8 VS0 
          in normal operations;
VS0=seaplane stalling speed (knots) with landing flaps 
          extended in the appropriate position and with no slipstream 
          effect; and
g=acceleration due to gravity (ft./sec.2).

    (g) Float bottom pressures. The float bottom pressures must be 
established under Sec. 25.533, except that the value of K2 in 
the formulae may be taken as 1.0. The angle of dead rise to be used in 
determining the float bottom pressures is set forth in paragraph (b) of 
this section.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970]



Sec. 25.537  Seawing loads.

    Seawing design loads must be based on applicable test data.

                      Emergency Landing Conditions



Sec. 25.561  General.

    (a) The airplane, although it may be damaged in emergency landing 
conditions on land or water, must be designed as prescribed in this 
section to protect each occupant under those conditions.
    (b) The structure must be designed to give each occupant every 
reasonable chance of escaping serious injury in a minor crash landing 
when--
    (1) Proper use is made of seats, belts, and all other safety design 
provisions;
    (2) The wheels are retracted (where applicable); and
    (3) The occupant experiences the following ultimate inertia forces 
acting separately relative to the surrounding structure:
    (i) Upward, 3.0g
    (ii) Forward, 9.0g
    (iii) Sideward, 3.0g on the airframe; and 4.0g on the seats and 
their attachments.
    (iv) Downward, 6.0g
    (v) Rearward, 1.5g
    (c) For equipment, cargo in the passenger compartments and any other 
large masses, the following apply:
    (1) Except as provided in paragraph (c)(2) of this section, these 
items must be positioned so that if they break loose they will be 
unlikely to:
    (i) Cause direct injury to occupants;
    (ii) Penetrate fuel tanks or lines or cause fire or explosion hazard 
by damage to adjacent systems; or
    (iii) Nullify any of the escape facilities provided for use after an 
emergency landing.
    (2) When such positioning is not practical (e.g. fuselage mounted 
engines or auxiliary power units) each such item of mass shall be 
restrained under all loads up to those specified in paragraph (b)(3) of 
this section. The local attachments for these items should be designed 
to withstand 1.33 times the specified loads if these items are subject 
to severe wear and tear through frequent removal (e.g. quick change 
interior items).
    (d) Seats and items of mass (and their supporting structure) must 
not deform under any loads up to those specified in paragraph (b)(3) of 
this section in any manner that would impede subsequent rapid evacuation 
of occupants.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5673, Apr. 8, 1970; Amdt. 25-64, 53 FR 17646, May 17, 1988; Amdt. 
25-91, 62 FR 40706, July 29, 1997]



Sec. 25.562  Emergency landing dynamic conditions.

    (a) The seat and restraint system in the airplane must be designed 
as prescribed in this section to protect each occupant during an 
emergency landing condition when--
    (1) Proper use is made of seats, safety belts, and shoulder 
harnesses provided for in the design; and
    (2) The occupant is exposed to loads resulting from the conditions 
prescribed in this section.

[[Page 389]]

    (b) Each seat type design approved for crew or passenger occupancy 
during takeoff and landing must successfully complete dynamic tests or 
be demonstrated by rational analysis based on dynamic tests of a similar 
type seat, in accordance with each of the following emergency landing 
conditions. The tests must be conducted with an occupant simulated by a 
170-pound anthropomorphic test dummy, as defined by 49 CFR Part 572, 
Subpart B, or its equivalent, sitting in the normal upright position.
    (1) A change in downward vertical velocity ( v) of not less 
than 35 feet per second, with the airplane's longitudinal axis canted 
downward 30 degrees with respect to the horizontal plane and with the 
wings level. Peak floor deceleration must occur in not more than 0.08 
seconds after impact and must reach a minimum of 14g.
    (2) A change in forward longitudinal velocity ( v) of not 
less than 44 feet per second, with the airplane's longitudinal axis 
horizontal and yawed 10 degrees either right or left, whichever would 
cause the greatest likelihood of the upper torso restraint system (where 
installed) moving off the occupant's shoulder, and with the wings level. 
Peak floor deceleration must occur in not more than 0.09 seconds after 
impact and must reach a minimum of 16g. Where floor rails or floor 
fittings are used to attach the seating devices to the test fixture, the 
rails or fittings must be misaligned with respect to the adjacent set of 
rails or fittings by at least 10 degrees vertically (i.e., out of 
Parallel) with one rolled 10 degrees.
    (c) The following performance measures must not be exceeded during 
the dynamic tests conducted in accordance with paragraph (b) of this 
section:
    (1) Where upper torso straps are used for crewmembers, tension loads 
in individual straps must not exceed 1,750 pounds. If dual straps are 
used for restraining the upper torso, the total strap tension loads must 
not exceed 2,000 pounds.
    (2) The maximum compressive load measured between the pelvis and the 
lumbar column of the anthropomorphic dummy must not exceed 1,500 pounds.
    (3) The upper torso restraint straps (where installed) must remain 
on the occupant's shoulder during the impact.
    (4) The lap safety belt must remain on the occupant's pelvis during 
the impact.
    (5) Each occupant must be protected from serious head injury under 
the conditions prescribed in paragraph (b) of this section. Where head 
contact with seats or other structure can occur, protection must be 
provided so that the head impact does not exceed a Head Injury Criterion 
(HIC) of 1,000 units. The level of HIC is defined by the equation:
[GRAPHIC] [TIFF OMITTED] TC28SE91.044

Where:
t1 is the initial integration time,
t2 is the final integration time, and
a(t) is the total acceleration vs. time curve for the head strike, and 
          where
(t) is in seconds, and (a) is in units of gravity (g).

    (6) Where leg injuries may result from contact with seats or other 
structure, protection must be provided to prevent axially compressive 
loads exceeding 2,250 pounds in each femur.
    (7) The seat must remain attached at all points of attachment, 
although the structure may have yielded.
    (8) Seats must not yield under the tests specified in paragraphs 
(b)(1) and (b)(2) of this section to the extent they would impede rapid 
evacuation of the airplane occupants.

[Amdt. 25-64, 53 FR 17646, May 17, 1988]

[[Page 390]]



Sec. 25.563  Structural ditching provisions.

    Structural strength considerations of ditching provisions must be in 
accordance with Sec. 25.801(e).

                           Fatigue Evaluation



Sec. 25.571  Damage--tolerance and fatigue evaluation of structure.

    (a) General. An evaluation of the strength, detail design, and 
fabrication must show that catastrophic failure due to fatigue, 
corrosion, manufacturing defects, or accidental damage, will be avoided 
throughout the operational life of the airplane. This evaluation must be 
conducted in accordance with the provisions of paragraphs (b) and (e) of 
this section, except as specified in paragraph (c) of this section, for 
each part of the structure that could contribute to a catastrophic 
failure (such as wing, empennage, control surfaces and their systems, 
the fuselage, engine mounting, landing gear, and their related primary 
attachments). For turbojet powered airplanes, those parts that could 
contribute to a catastrophic failure must also be evaluated under 
paragraph (d) of this section. In addition, the following apply:
    (1) Each evaluation required by this section must include--
    (i) The typical loading spectra, temperatures, and humidities 
expected in service;
    (ii) The identification of principal structural elements and detail 
design points, the failure of which could cause catastrophic failure of 
the airplane; and
    (iii) An analysis, supported by test evidence, of the principal 
structural elements and detail design points identified in paragraph 
(a)(1)(ii) of this section.
    (2) The service history of airplanes of similar structural design, 
taking due account of differences in operating conditions and 
procedures, may be used in the evaluations required by this section.
    (3) Based on the evaluations required by this section, inspections 
or other procedures must be established, as necessary, to prevent 
catastrophic failure, and must be included in the Airworthiness 
Limitations Section of the Instructions for Continued Airworthiness 
required by Sec. 25.1529. Inspection thresholds for the following types 
of structure must be established based on crack growth analyses and/or 
tests, assuming the structure contains an initial flaw of the maximum 
probable size that could exist as a result of manufacturing or service-
induced damage:
    (i) Single load path structure, and
    (ii) Multiple load path ``fail-safe'' structure and crack arrest 
``fail-safe'' structure, where it cannot be demonstrated that load path 
failure, partial failure, or crack arrest will be detected and repaired 
during normal maintenance, inspection, or operation of an airplane prior 
to failure of the remaining structure.
    (b) Damage-tolerance evaluation. The evaluation must include a 
determination of the probable locations and modes of damage due to 
fatigue, corrosion, or accidental damage. Repeated load and static 
analyses supported by test evidence and (if available) service 
experience must also be incorporated in the evaluation. Special 
consideration for widespread fatigue damage must be included where the 
design is such that this type of damage could occur. It must be 
demonstrated with sufficient full-scale fatigue test evidence that 
widespread fatigue damage will not occur within the design service goal 
of the airplane. The type certificate may be issued prior to completion 
of full-scale fatigue testing, provided the Administrator has approved a 
plan for completing the required tests, and the airworthiness 
limitations section of the instructions for continued airworthiness 
required by Sec. 25.1529 of this part specifies that no airplane may be 
operated beyond a number of cycles equal to \1/2\ the number of cycles 
accumulated on the fatigue test article, until such testing is 
completed. The extent of damage for residual strength evaluation at any 
time within the operational life of the airplane must be consistent with 
the initial detectability and subsequent growth under repeated loads. 
The residual strength evaluation must show that the remaining structure 
is able to withstand loads (considered as static ultimate loads)

[[Page 391]]

corresponding to the following conditions:
    (1) The limit symmetrical maneuvering conditions specified in 
Sec. 25.337 at all speeds up to Vc and in Sec. 25.345.
    (2) The limit gust conditions specified in Sec. 25.341 at the 
specified speeds up to VC and in Sec. 25.345.
    (3) The limit rolling conditions specified in Sec. 25.349 and the 
limit unsymmetrical conditions specified in Secs. 25.367 and 25.427 (a) 
through (c), at speeds up to VC.
    (4) The limit yaw maneuvering conditions specified in Sec. 25.351(a) 
at the specified speeds up to VC.
    (5) For pressurized cabins, the following conditions:
    (i) The normal operating differential pressure combined with the 
expected external aerodynamic pressures applied simultaneously with the 
flight loading conditions specified in paragraphs (b)(1) through (4) of 
this section, if they have a significant effect.
    (ii) The maximum value of normal operating differential pressure 
(including the expected external aerodynamic pressures during 1 g level 
flight) multiplied by a factor of 1.15, omitting other loads.
    (6) For landing gear and directly-affected airframe structure, the 
limit ground loading conditions specified in Secs. 25.473, 25.491, and 
25.493.

If significant changes in structural stiffness or geometry, or both, 
follow from a structural failure, or partial failure, the effect on 
damage tolerance must be further investigated.
    (c) Fatigue (safe-life) evaluation. Compliance with the damage-
tolerance requirements of paragraph (b) of this section is not required 
if the applicant establishes that their application for particular 
structure is impractical. This structure must be shown by analysis, 
supported by test evidence, to be able to withstand the repeated loads 
of variable magnitude expected during its service life without 
detectable cracks. Appropriate safe-life scatter factors must be 
applied.
    (d) Sonic fatigue strength. It must be shown by analysis, supported 
by test evidence, or by the service history of airplanes of similar 
structural design and sonic excitation environment, that--
    (1) Sonic fatigue cracks are not probable in any part of the flight 
structure subject to sonic excitation; or
    (2) Catastrophic failure caused by sonic cracks is not probable 
assuming that the loads prescribed in paragraph (b) of this section are 
applied to all areas affected by those cracks.
    (e) Damage-tolerance (discrete source) evaluation. The airplane must 
be capable of successfully completing a flight during which likely 
structural damage occurs as a result of--
    (1) Impact with a 4-pound bird when the velocity of the airplane 
relative to the bird along the airplane's flight path is equal to 
Vc at sea level or 0.85Vc at 8,000 feet, whichever 
is more critical;
    (2) Uncontained fan blade impact;
    (3) Uncontained engine failure; or
    (4) Uncontained high energy rotating machinery failure.

The damaged structure must be able to withstand the static loads 
(considered as ultimate loads) which are reasonably expected to occur on 
the flight. Dynamic effects on these static loads need not be 
considered. Corrective action to be taken by the pilot following the 
incident, such as limiting maneuvers, avoiding turbulence, and reducing 
speed, must be considered. If significant changes in structural 
stiffness or geometry, or both, follow from a structural failure or 
partial failure, the effect on damage tolerance must be further 
investigated.

[Amdt. 25-45, 43 FR 46242, Oct. 5, 1978, as amended by Amdt. 25-54, 45 
FR 60173, Sept. 11, 1980; Amdt. 25-72, 55 FR 29776, July 20, 1990; Amdt. 
25-86, 61 FR 5222, Feb. 9, 1996; Amdt. 25-96, 63 FR 15714, Mar. 31, 
1998; 63 FR 23338, Apr. 28, 1998]

                          Lightning Protection



Sec. 25.581  Lightning protection.

    (a) The airplane must be protected against catastrophic effects from 
lightning.
    (b) For metallic components, compliance with paragraph (a) of this 
section may be shown by--
    (1) Bonding the components properly to the airframe; or
    (2) Designing the components so that a strike will not endanger the 
airplane.

[[Page 392]]

    (c) For nonmetallic components, compliance with paragraph (a) of 
this section may be shown by--
    (1) Designing the components to minimize the effect of a strike; or
    (2) Incorporating acceptable means of diverting the resulting 
electrical current so as not to endanger the airplane.

[Amdt. 25-23, 35 FR 5674, Apr. 8, 1970]



                   Subpart D--Design and Construction

                                 General



Sec. 25.601  General.

    The airplane may not have design features or details that experience 
has shown to be hazardous or unreliable. The suitability of each 
questionable design detail and part must be established by tests.



Sec. 25.603  Materials.

    The suitability and durability of materials used for parts, the 
failure of which could adversely affect safety, must--
    (a) Be established on the basis of experience or tests;
    (b) Conform to approved specifications (such as industry or military 
specifications, or Technical Standard Orders) that ensure their having 
the strength and other properties assumed in the design data; and
    (c) Take into account the effects of environmental conditions, such 
as temperature and humidity, expected in service.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55466, Dec. 20 1976; Amdt. 25-46, 43 FR 50595, Oct. 30, 1978]



Sec. 25.605  Fabrication methods.

    (a) The methods of fabrication used must produce a consistently 
sound structure. If a fabrication process (such as gluing, spot welding, 
or heat treating) requires close control to reach this objective, the 
process must be performed under an approved process specification.
    (b) Each new aircraft fabrication method must be substantiated by a 
test program.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-46, 
43 FR 50595, Oct. 30, 1978]



Sec. 25.607  Fasteners.

    (a) Each removable bolt, screw, nut, pin, or other removable 
fastener must incorporate two separate locking devices if--
    (1) Its loss could preclude continued flight and landing within the 
design limitations of the airplane using normal pilot skill and 
strength; or
    (2) Its loss could result in reduction in pitch, yaw, or roll 
control capability or response below that required by Subpart B of this 
chapter.
    (b) The fasteners specified in paragraph (a) of this section and 
their locking devices may not be adversely affected by the environmental 
conditions associated with the particular installation.
    (c) No self-locking nut may be used on any bolt subject to rotation 
in operation unless a nonfriction locking device is used in addition to 
the self-locking device.

[Amdt. 25-23, 35 FR 5674, Apr. 8, 1970]



Sec. 25.609  Protection of structure.

    Each part of the structure must--
    (a) Be suitably protected against deterioration or loss of strength 
in service due to any cause, including--
    (1) Weathering;
    (2) Corrosion; and
    (3) Abrasion; and
    (b) Have provisions for ventilation and drainage where necessary for 
protection.



Sec. 25.611  Accessibility provisions.

    Means must be provided to allow inspection (including inspection of 
principal structural elements and control systems), replacement of parts 
normally requiring replacement, adjustment, and lubrication as necessary 
for continued airworthiness. The inspection means for each item must be 
practicable for the inspection interval for the item. Nondestructive 
inspection aids may be used to inspect structural elements where it is 
impracticable to

[[Page 393]]

provide means for direct visual inspection if it is shown that the 
inspection is effective and the inspection procedures are specified in 
the maintenance manual required by Sec. 25.1529.

[Amdt. 25-23, 35 FR 5674, Apr. 8, 1970]



Sec. 25.613  Material strength properties and design values.

    (a) Material strength properties must be based on enough tests of 
material meeting approved specifications to establish design values on a 
statistical basis.
    (b) Design values must be chosen to minimize the probability of 
structural failures due to material variability. Except as provided in 
paragraph (e) of this section, compliance with this paragraph must be 
shown by selecting design values which assure material strength with the 
following probability:
    (1) Where applied loads are eventually distributed through a single 
member within an assembly, the failure of which would result in loss of 
structural integrity of the component, 99 percent probability with 95 
percent confidence.
    (2) For redundant structure, in which the failure of individual 
elements would result in applied loads being safely distributed to other 
load carrying members, 90 percent probability with 95 percent 
confidence.
    (c) The effects of temperature on allowable stresses used for design 
in an essential component or structure must be considered where thermal 
effects are significant under normal operating conditions.
    (d) The strength, detail design, and fabrication of the structure 
must minimize the probability of disastrous fatigue failure, 
particularly at points of stress concentration.
    (e) Greater design values may be used if a ``premium selection'' of 
the material is made in which a specimen of each individual item is 
tested before use to determine that the actual strength properties of 
that particular item will equal or exceed those used in design.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-46, 
43 FR 50595, Oct. 30, 1978; Amdt. 25-72, 55 FR 29776, July 20, 1990]



Sec. 25.619  Special factors.

    The factor of safety prescribed in Sec. 25.303 must be multiplied by 
the highest pertinent special factor of safety prescribed in 
Secs. 25.621 through 25.625 for each part of the structure whose 
strength is--
    (a) Uncertain;
    (b) Likely to deteriorate in service before normal replacement; or
    (c) Subject to appreciable variability because of uncertainties in 
manufacturing processes or inspection methods.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5674, Apr. 8, 1970]



Sec. 25.621  Casting factors.

    (a) General. The factors, tests, and inspections specified in 
paragraphs (b) through (d) of this section must be applied in addition 
to those necessary to establish foundry quality control. The inspections 
must meet approved specifications. Paragraphs (c) and (d) of this 
section apply to any structural castings except castings that are 
pressure tested as parts of hydraulic or other fluid systems and do not 
support structural loads.
    (b) Bearing stresses and surfaces. The casting factors specified in 
paragraphs (c) and (d) of this section--
    (1) Need not exceed 1.25 with respect to bearing stresses regardless 
of the method of inspection used; and
    (2) Need not be used with respect to the bearing surfaces of a part 
whose bearing factor is larger than the applicable casting factor.
    (c) Critical castings. For each casting whose failure would preclude 
continued safe flight and landing of the airplane or result in serious 
injury to occupants, the following apply:
    (1) Each critical casting must--
    (i) Have a casting factor of not less than 1.25; and
    (ii) Receive 100 percent inspection by visual, radiographic, and 
magnetic particle or penetrant inspection methods or approved equivalent 
nondestructive inspection methods.
    (2) For each critical casting with a casting factor less than 1.50, 
three sample castings must be static tested and shown to meet--

[[Page 394]]

    (i) The strength requirements of Sec. 25.305 at an ultimate load 
corresponding to a casting factor of 1.25; and
    (ii) The deformation requirements of Sec. 25.305 at a load of 1.15 
times the limit load.
    (3) Examples of these castings are structural attachment fittings, 
parts of flight control systems, control surface hinges and balance 
weight attachments, seat, berth, safety belt, and fuel and oil tank 
supports and attachments, and cabin pressure valves.
    (d) Noncritical castings. For each casting other than those 
specified in paragraph (c) of this section, the following apply:
    (1) Except as provided in paragraphs (d)(2) and (3) of this section, 
the casting factors and corresponding inspections must meet the 
following table:

------------------------------------------------------------------------
              Casting factor                         Inspection
------------------------------------------------------------------------
2.0 or more..............................  100 percent visual.
Less than 2.0 but more than 1.5..........  100 percent visual, and
                                            magnetic particle or
                                            penetrant or equivalent
                                            nondestructive inspection
                                            methods.
1.25 through 1.50........................  100 percent visual, magnetic
                                            particle or penetrant, and
                                            radiographic, or approved
                                            equivalent nondestructive
                                            inspection methods.
------------------------------------------------------------------------

    (2) The percentage of castings inspected by nonvisual methods may be 
reduced below that specified in paragraph (d)(1) of this section when an 
approved quality control procedure is established.
    (3) For castings procured to a specification that guarantees the 
mechanical properties of the material in the casting and provides for 
demonstration of these properties by test of coupons cut from the 
castings on a sampling basis--
    (i) A casting factor of 1.0 may be used; and
    (ii) The castings must be inspected as provided in paragraph (d)(1) 
of this section for casting factors of ``1.25 through 1.50'' and tested 
under paragraph (c)(2) of this section.



Sec. 25.623  Bearing factors.

    (a) Except as provided in paragraph (b) of this section, each part 
that has clearance (free fit), and that is subject to pounding or 
vibration, must have a bearing factor large enough to provide for the 
effects of normal relative motion.
    (b) No bearing factor need be used for a part for which any larger 
special factor is prescribed.



Sec. 25.625  Fitting factors.

    For each fitting (a part or terminal used to join one structural 
member to another), the following apply:
    (a) For each fitting whose strength is not proven by limit and 
ultimate load tests in which actual stress conditions are simulated in 
the fitting and surrounding structures, a fitting factor of at least 
1.15 must be applied to each part of--
    (1) The fitting;
    (2) The means of attachment; and
    (3) The bearing on the joined members.
    (b) No fitting factor need be used--
    (1) For joints made under approved practices and based on 
comprehensive test data (such as continuous joints in metal plating, 
welded joints, and scarf joints in wood); or
    (2) With respect to any bearing surface for which a larger special 
factor is used.
    (c) For each integral fitting, the part must be treated as a fitting 
up to the point at which the section properties become typical of the 
member.
    (d) For each seat, berth, safety belt, and harness, the fitting 
factor specified in Sec. 25.785(f)(3) applies.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5674, Apr. 8, 1970; Amdt. 25-72, 55 FR 29776, July 20, 1990]



Sec. 25.629  Aeroelastic stability requirements.

    (a) General. The aeroelastic stability evaluations required under 
this section include flutter, divergence, control reversal and any undue 
loss of stability and control as a result of structural deformation. The 
aeroelastic evaluation must include whirl modes associated with any 
propeller or rotating device that contributes significant dynamic 
forces. Compliance with this section must be shown by analyses, wind 
tunnel tests, ground vibration tests, flight tests, or other means found 
necessary by the Administrator.

[[Page 395]]

    (b) Aeroelastic stability envelopes. The airplane must be designed 
to be free from aeroelastic instability for all configurations and 
design conditions within the aeroelastic stability envelopes as follows:
    (1) For normal conditions without failures, malfunctions, or adverse 
conditions, all combinations of altitudes and speeds encompassed by the 
VD/MD versus altitude envelope enlarged at all 
points by an increase of 15 percent in equivalent airspeed at both 
constant Mach number and constant altitude. In addition, a proper margin 
of stability must exist at all speeds up to VD/MD 
and, there must be no large and rapid reduction in stability as 
VD/MD is approached. The enlarged envelope may be 
limited to Mach 1.0 when MD is less than 1.0 at all design 
altitudes, and
    (2) For the conditions described in Sec. 25.629(d) below, for all 
approved altitudes, any airspeed up to the greater airspeed defined by;
    (i) The VD/MD envelope determined by 
Sec. 25.335(b); or,
    (ii) An altitude-airspeed envelope defined by a 15 percent increase 
in equivalent airspeed above VC at constant altitude, from 
sea level to the altitude of the intersection of 1.15 VC with 
the extension of the constant cruise Mach number line, MC, 
then a linear variation in equivalent airspeed to MC+.05 at 
the altitude of the lowest VC/MC intersection; 
then, at higher altitudes, up to the maximum flight altitude, the 
boundary defined by a .05 Mach increase in MC at constant 
altitude.
    (c) Balance weights. If concentrated balance weights are used, their 
effectiveness and strength, including supporting structure, must be 
substantiated.
    (d) Failures, malfunctions, and adverse conditions. The failures, 
malfunctions, and adverse conditions which must be considered in showing 
compliance with this section are:
    (1) Any critical fuel loading conditions, not shown to be extremely 
improbable, which may result from mismanagement of fuel.
    (2) Any single failure in any flutter damper system.
    (3) For airplanes not approved for operation in icing conditions, 
the maximum likely ice accumulation expected as a result of an 
inadvertent encounter.
    (4) Failure of any single element of the structure supporting any 
engine, independently mounted propeller shaft, large auxiliary power 
unit, or large externally mounted aerodynamic body (such as an external 
fuel tank).
    (5) For airplanes with engines that have propellers or large 
rotating devices capable of significant dynamic forces, any single 
failure of the engine structure that would reduce the rigidity of the 
rotational axis.
    (6) The absence of aerodynamic or gyroscopic forces resulting from 
the most adverse combination of feathered propellers or other rotating 
devices capable of significant dynamic forces. In addition, the effect 
of a single feathered propeller or rotating device must be coupled with 
the failures of paragraphs (d)(4) and (d)(5) of this section.
    (7) Any single propeller or rotating device capable of significant 
dynamic forces rotating at the highest likely overspeed.
    (8) Any damage or failure condition, required or selected for 
investigation by Sec. 25.571. The single structural failures described 
in paragraphs (d)(4) and (d)(5) of this section need not be considered 
in showing compliance with this section if;
    (i) The structural element could not fail due to discrete source 
damage resulting from the conditions described in Sec. 25.571(e), and
    (ii) A damage tolerance investigation in accordance with 
Sec. 25.571(b) shows that the maximum extent of damage assumed for the 
purpose of residual strength evaluation does not involve complete 
failure of the structural element.
    (9) Any damage, failure, or malfunction considered under 
Secs. 25.631, 25.671, 25.672, and 25.1309.
    (10) Any other combination of failures, malfunctions, or adverse 
conditions not shown to be extremely improbable.
    (e) Flight flutter testing. Full scale flight flutter tests at 
speeds up to VDF/MDF must be conducted for new 
type designs and for modifications to a type design unless the 
modifications have been shown to have an insignificant effect on the 
aeroelastic stability. These

[[Page 396]]

tests must demonstrate that the airplane has a proper margin of damping 
at all speeds up to VDF/MDF, and that there is no 
large and rapid reduction in damping as VDF/MDF, 
is approached. If a failure, malfunction, or adverse condition is 
simulated during flight test in showing compliance with paragraph (d) of 
this section, the maximum speed investigated need not exceed 
VFC/MFC if it is shown, by correlation of the 
flight test data with other test data or analyses, that the airplane is 
free from any aeroelastic instability at all speeds within the altitude-
airspeed envelope described in paragraph (b)(2) of this section.

[Doc. No. 26007, 57 FR 28949, June 29, 1992]



Sec. 25.631  Bird strike damage.

    The empennage structure must be designed to assure capability of 
continued safe flight and landing of the airplane after impact with an 
8-pound bird when the velocity of the airplane (relative to the bird 
along the airplane's flight path) is equal to VC at sea 
level, selected under Sec. 25.335(a). Compliance with this section by 
provision of redundant structure and protected location of control 
system elements or protective devices such as splitter plates or energy 
absorbing material is acceptable. Where compliance is shown by analysis, 
tests, or both, use of data on airplanes having similar structural 
design is acceptable.

[Amdt. 25-23, 35 FR 5674, Apr. 8, 1970]

                            Control Surfaces



Sec. 25.651  Proof of strength.

    (a) Limit load tests of control surfaces are required. These tests 
must include the horn or fitting to which the control system is 
attached.
    (b) Compliance with the special factors requirements of Secs. 25.619 
through 25.625 and 25.657 for control surface hinges must be shown by 
analysis or individual load tests.



Sec. 25.655  Installation.

    (a) Movable tail surfaces must be installed so that there is no 
interference between any surfaces when one is held in its extreme 
position and the others are operated through their full angular 
movement.
    (b) If an adjustable stabilizer is used, it must have stops that 
will limit its range of travel to the maximum for which the airplane is 
shown to meet the trim requirements of Sec. 25.161.



Sec. 25.657  Hinges.

    (a) For control surface hinges, including ball, roller, and self-
lubricated bearing hinges, the approved rating of the bearing may not be 
exceeded. For nonstandard bearing hinge configurations, the rating must 
be established on the basis of experience or tests and, in the absence 
of a rational investigation, a factor of safety of not less than 6.67 
must be used with respect to the ultimate bearing strength of the 
softest material used as a bearing.
    (b) Hinges must have enough strength and rigidity for loads parallel 
to the hinge line.

[Amdt. 25-23, 35 FR 5674, Apr. 8, 1970]

                             Control Systems



Sec. 25.671  General.

    (a) Each control and control system must operate with the ease, 
smoothness, and positiveness appropriate to its function.
    (b) Each element of each flight control system must be designed, or 
distinctively and permanently marked, to minimize the probability of 
incorrect assembly that could result in the malfunctioning of the 
system.
    (c) The airplane must be shown by analysis, tests, or both, to be 
capable of continued safe flight and landing after any of the following 
failures or jamming in the flight control system and surfaces (including 
trim, lift, drag, and feel systems), within the normal flight envelope, 
without requiring exceptional piloting skill or strength. Probable 
malfunctions must have only minor effects on control system operation 
and must be capable of being readily counteracted by the pilot.
    (1) Any single failure, excluding jamming (for example, 
disconnection or failure of mechanical elements, or structural failure 
of hydraulic components, such as actuators, control spool housing, and 
valves).

[[Page 397]]

    (2) Any combination of failures not shown to be extremely 
improbable, excluding jamming (for example, dual electrical or hydraulic 
system failures, or any single failure in combination with any probable 
hydraulic or electrical failure).
    (3) Any jam in a control position normally encountered during 
takeoff, climb, cruise, normal turns, descent, and landing unless the 
jam is shown to be extremely improbable, or can be alleviated. A runaway 
of a flight control to an adverse position and jam must be accounted for 
if such runaway and subsequent jamming is not extremely improbable.
    (d) The airplane must be designed so that it is controllable if all 
engines fail. Compliance with this requirement may be shown by analysis 
where that method has been shown to be reliable.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5674, Apr. 8, 1970]



Sec. 25.672  Stability augmentation and automatic and power-operated systems.

    If the functioning of stability augmentation or other automatic or 
power-operated systems is necessary to show compliance with the flight 
characteristics requirements of this part, such systems must comply with 
Sec. 25.671 and the following:
    (a) A warning which is clearly distinguishable to the pilot under 
expected flight conditions without requiring his attention must be 
provided for any failure in the stability augmentation system or in any 
other automatic or power-operated system which could result in an unsafe 
condition if the pilot were not aware of the failure. Warning systems 
must not activate the control systems.
    (b) The design of the stability augmentation system or of any other 
automatic or power-operated system must permit initial counteraction of 
failures of the type specified in Sec. 25.671(c) without requiring 
exceptional pilot skill or strength, by either the deactivation of the 
system, or a failed portion thereof, or by overriding the failure by 
movement of the flight controls in the normal sense.
    (c) It must be shown that after any single failure of the stability 
augmentation system or any other automatic or power-operated system--
    (1) The airplane is safely controllable when the failure or 
malfunction occurs at any speed or altitude within the approved 
operating limitations that is critical for the type of failure being 
considered;
    (2) The controllability and maneuverability requirements of this 
part are met within a practical operational flight envelope (for 
example, speed, altitude, normal acceleration, and airplane 
configurations) which is described in the Airplane Flight Manual; and
    (3) The trim, stability, and stall characteristics are not impaired 
below a level needed to permit continued safe flight and landing.

[Amdt. 25-23, 35 FR 5675 Apr. 8, 1970]



Sec. 25.675  Stops.

    (a) Each control system must have stops that positively limit the 
range of motion of each movable aerodynamic surface controlled by the 
system.
    (b) Each stop must be located so that wear, slackness, or take-up 
adjustments will not adversely affect the control characteristics of the 
airplane because of a change in the range of surface travel.
    (c) Each stop must be able to withstand any loads corresponding to 
the design conditions for the control system.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55466, Dec. 20, 1976]



Sec. 25.677  Trim systems.

    (a) Trim controls must be designed to prevent inadvertent or abrupt 
operation and to operate in the plane, and with the sense of motion, of 
the airplane.
    (b) There must be means adjacent to the trim control to indicate the 
direction of the control movement relative to the airplane motion. In 
addition, there must be clearly visible means to indicate the position 
of the trim device with respect to the range of adjustment.

[[Page 398]]

    (c) Trim control systems must be designed to prevent creeping in 
flight. Trim tab controls must be irreversible unless the tab is 
appropriately balanced and shown to be free from flutter.
    (d) If an irreversible tab control system is used, the part from the 
tab to the attachment of the irreversible unit to the airplane structure 
must consist of a rigid connection.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5675, Apr. 8, 1970]



Sec. 25.679  Control system gust locks.

    (a) There must be a device to prevent damage to the control surfaces 
(including tabs), and to the control system, from gusts striking the 
airplane while it is on the ground or water. If the device, when 
engaged, prevents normal operation of the control surfaces by the pilot, 
it must--
    (1) Automatically disengage when the pilot operates the primary 
flight controls in a normal manner; or
    (2) Limit the operation of the airplane so that the pilot receives 
unmistakable warning at the start of takeoff.
    (b) The device must have means to preclude the possibility of it 
becoming inadvertently engaged in flight.



Sec. 25.681  Limit load static tests.

    (a) Compliance with the limit load requirements of this Part must be 
shown by tests in which--
    (1) The direction of the test loads produces the most severe loading 
in the control system; and
    (2) Each fitting, pulley, and bracket used in attaching the system 
to the main structure is included.
    (b) Compliance must be shown (by analyses or individual load tests) 
with the special factor requirements for control system joints subject 
to angular motion.



Sec. 25.683  Operation tests.

    It must be shown by operation tests that when portions of the 
control system subject to pilot effort loads are loaded to 80 percent of 
the limit load specified for the system and the powered portions of the 
control system are loaded to the maximum load expected in normal 
operation, the system is free from--
    (a) Jamming;
    (b) Excessive friction; and
    (c) Excessive deflection.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5675, Apr. 8, 1970]



Sec. 25.685  Control system details.

    (a) Each detail of each control system must be designed and 
installed to prevent jamming, chafing, and interference from cargo, 
passengers, loose objects, or the freezing of moisture.
    (b) There must be means in the cockpit to prevent the entry of 
foreign objects into places where they would jam the system.
    (c) There must be means to prevent the slapping of cables or tubes 
against other parts.
    (d) Sections 25.689 and 25.693 apply to cable systems and joints.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55466, Dec. 20, 1976]



Sec. 25.689  Cable systems.

    (a) Each cable, cable fitting, turnbuckle, splice, and pulley must 
be approved. In addition--
    (1) No cable smaller than \1/8\ inch in diameter may be used in the 
aileron, elevator, or rudder systems; and
    (2) Each cable system must be designed so that there will be no 
hazardous change in cable tension throughout the range of travel under 
operating conditions and temperature variations.
    (b) Each kind and size of pulley must correspond to the cable with 
which it is used. Pulleys and sprockets must have closely fitted guards 
to prevent the cables and chains from being displaced or fouled. Each 
pulley must lie in the plane passing through the cable so that the cable 
does not rub against the pulley flange.
    (c) Fairleads must be installed so that they do not cause a change 
in cable direction of more than three degrees.
    (d) Clevis pins subject to load or motion and retained only by 
cotter pins may not be used in the control system.

[[Page 399]]

    (e) Turnbuckles must be attached to parts having angular motion in a 
manner that will positively prevent binding throughout the range of 
travel.
    (f) There must be provisions for visual inspection of fairleads, 
pulleys, terminals, and turnbuckles.



Sec. 25.693  Joints.

    Control system joints (in push-pull systems) that are subject to 
angular motion, except those in ball and roller bearing systems, must 
have a special factor of safety of not less than 3.33 with respect to 
the ultimate bearing strength of the softest material used as a bearing. 
This factor may be reduced to 2.0 for joints in cable control systems. 
For ball or roller bearings, the approved ratings may not be exceeded.

[Amdt. 25-72, 55 FR 29777, July 20, 1990]



Sec. 25.697  Lift and drag devices, controls.

    (a) Each lift device control must be designed so that the pilots can 
place the device in any takeoff, en route, approach, or landing position 
established under Sec. 25.101(d). Lift and drag devices must maintain 
the selected positions, except for movement produced by an automatic 
positioning or load limiting device, without further attention by the 
pilots.
    (b) Each lift and drag device control must be designed and located 
to make inadvertent operation improbable. Lift and drag devices intended 
for ground operation only must have means to prevent the inadvertant 
operation of their controls in flight if that operation could be 
hazardous.
    (c) The rate of motion of the surfaces in response to the operation 
of the control and the characteristics of the automatic positioning or 
load limiting device must give satisfactory flight and performance 
characteristics under steady or changing conditions of airspeed, engine 
power, and airplane attitude.
    (d) The lift device control must be designed to retract the surfaces 
from the fully extended position, during steady flight at maximum 
continuous engine power at any speed below VF +9.0 (knots).

[Amdt. 25-23, 35 FR 5675, Apr. 8, 1970, as amended by Amdt. 25-46, 43 FR 
50595, Oct. 30, 1978; Amdt. 25-57, 49 FR 6848, Feb. 23, 1984]



Sec. 25.699  Lift and drag device indicator.

    (a) There must be means to indicate to the pilots the position of 
each lift or drag device having a separate control in the cockpit to 
adjust its position. In addition, an indication of unsymmetrical 
operation or other malfunction in the lift or drag device systems must 
be provided when such indication is necessary to enable the pilots to 
prevent or counteract an unsafe flight or ground condition, considering 
the effects on flight characteristics and performance.
    (b) There must be means to indicate to the pilots the takeoff, en 
route, approach, and landing lift device positions.
    (c) If any extension of the lift and drag devices beyond the landing 
position is possible, the controls must be clearly marked to identify 
this range of extension.

[Amdt. 25-23, 35 FR 5675, Apr. 8, 1970]



Sec. 25.701  Flap and slat interconnection.

    (a) Unless the airplane has safe flight characteristics with the 
flaps or slats retracted on one side and extended on the other, the 
motion of flaps or slats on opposite sides of the plane of symmetry must 
be synchronized by a mechanical interconnection or approved equivalent 
means.
    (b) If a wing flap or slat interconnection or equivalent means is 
used, it must be designed to account for the applicable unsymmetrical 
loads, including those resulting from flight with the engines on one 
side of the plane of symmetry inoperative and the remaining engines at 
takeoff power.
    (c) For airplanes with flaps or slats that are not subjected to 
slipstream conditions, the structure must be designed for the loads 
imposed when the wing flaps or slats on one side are carrying the most 
severe load occurring in the prescribed symmetrical conditions and those 
on the other side are carrying not more than 80 percent of that load.

[[Page 400]]

    (d) The interconnection must be designed for the loads resulting 
when interconnected flap or slat surfaces on one side of the plane of 
symmetry are jammed and immovable while the surfaces on the other side 
are free to move and the full power of the surface actuating system is 
applied.

[Amdt. 25-72, 55 FR 29777, July 20, 1990]



Sec. 25.703  Takeoff warning system.

    A takeoff warning system must be installed and must meet the 
following requirements:
    (a) The system must provide to the pilots an aural warning that is 
automatically activated during the initial portion of the takeoff roll 
if the airplane is in a configuration, including any of the following, 
that would not allow a safe takeoff:
    (1) The wing flaps or leading edge devices are not within the 
approved range of takeoff positions.
    (2) Wing spoilers (except lateral control spoilers meeting the 
requirements of Sec. 25.671), speed brakes, or longitudinal trim devices 
are in a position that would not allow a safe takeoff.
    (b) The warning required by paragraph (a) of this section must 
continue until--
    (1) The configuration is changed to allow a safe takeoff;
    (2) Action is taken by the pilot to terminate the takeoff roll;
    (3) The airplane is rotated for takeoff; or
    (4) The warning is manually deactivated by the pilot.
    (c) The means used to activate the system must function properly 
throughout the ranges of takeoff weights, altitudes, and temperatures 
for which certification is requested.

[Amdt. 25-42, 43 FR 2323, Jan. 16, 1978]

                              Landing Gear



Sec. 25.721  General.

    (a) The main landing gear system must be designed so that if it 
fails due to overloads during takeoff and landing (assuming the 
overloads to act in the upward and aft directions), the failure mode is 
not likely to cause--
    (1) For airplanes that have passenger seating configuration, 
excluding pilots seats, of nine seats or less, the spillage of enough 
fuel from any fuel system in the fuselage to constitute a fire hazard; 
and
    (2) For airplanes that have a passenger seating configuration, 
excluding pilots seats, of 10 seats or more, the spillage of enough fuel 
from any part of the fuel system to constitute a fire hazard.
    (b) Each airplane that has a passenger seating configuration 
excluding pilots seats, of 10 seats or more must be designed so that 
with the airplane under control it can be landed on a paved runway with 
any one or more landing gear legs not extended without sustaining a 
structural component failure that is likely to cause the spillage of 
enough fuel to constitute a fire hazard.
    (c) Compliance with the provisions of this section may be shown by 
analysis or tests, or both.

[Amdt. 25-32, 37 FR 3969, Feb. 24, 1972]



Sec. 25.723  Shock absorption tests.

    (a) The analytical representation of the landing gear dynamic 
characteristics that is used in determining the landing loads must be 
validated by energy absorption tests. A range of tests must be conducted 
to ensure that the analytical representation is valid for the design 
conditions specified in Sec. 25.473.
    (1) The configurations subjected to energy absorption tests at limit 
design conditions must include at least the design landing weight or the 
design takeoff weight, whichever produces the greater value of landing 
impact energy.
    (2) The test attitude of the landing gear unit and the application 
of appropriate drag loads during the test must simulate the airplane 
landing conditions in a manner consistent with the development of 
rational or conservative limit loads.
    (b) The landing gear may not fail in a test, demonstrating its 
reserve energy absorption capacity, simulating a descent velocity of 12 
f.p.s. at design landing weight, assuming airplane lift not greater than 
airplane weight acting during the landing impact.
    (c) In lieu of the tests prescribed in this section, changes in 
previously approved design weights and minor

[[Page 401]]

changes in design may be substantiated by analyses based on previous 
tests conducted on the same basic landing gear system that has similar 
energy absorption characteristics.

[Doc. No. FAA-1999-5835, 66 FR 27394, May 16, 2001]



Sec. 25.725  [Reserved]



Sec. 25.727  [Reserved]



Sec. 25.729  Retracting mechanism.

    (a) General. For airplanes with retractable landing gear, the 
following apply:
    (1) The landing gear retracting mechanism, wheel well doors, and 
supporting structure, must be designed for--
    (i) The loads occurring in the flight conditions when the gear is in 
the retracted position,
    (ii) The combination of friction loads, inertia loads, brake torque 
loads, air loads, and gyroscopic loads resulting from the wheels 
rotating at a peripheral speed equal to 1.3 Vs (with the 
flaps in takeoff position at design takeoff weight), occurring during 
retraction and extension at any airspeed up to 1.6 Vs1 (with 
the flaps in the approach position at design landing weight), and
    (iii) Any load factor up to those specified in Sec. 25.345(a) for 
the flaps extended condition.
    (2) Unless there are other means to decelerate the airplane in 
flight at this speed, the landing gear, the retracting mechanism, and 
the airplane structure (including wheel well doors) must be designed to 
withstand the flight loads occurring with the landing gear in the 
extended position at any speed up to 0.67 VC.
    (3) Landing gear doors, their operating mechanism, and their 
supporting structures must be designed for the yawing maneuvers 
prescribed for the airplane in addition to the conditions of airspeed 
and load factor prescribed in paragraphs (a)(1) and (2) of this section.
    (b) Landing gear lock. There must be positive means to keep the 
landing gear extended, in flight and on the ground.
    (c) Emergency operation. There must be an emergency means for 
extending the landing gear in the event of--
    (1) Any reasonably probable failure in the normal retraction system; 
or
    (2) The failure of any single source of hydraulic, electric, or 
equivalent energy supply.
    (d) Operation test. The proper functioning of the retracting 
mechanism must be shown by operation tests.
    (e) Position indicator and warning device. If a retractable landing 
gear is used, there must be a landing gear position indicator (as well 
as necessary switches to actuate the indicator) or other means to inform 
the pilot that the gear is secured in the extended (or retracted) 
position. This means must be designed as follows:
    (1) If switches are used, they must be located and coupled to the 
landing gear mechanical systems in a manner that prevents an erroneous 
indication of ``down and locked'' if the landing gear is not in a fully 
extended position, or of ``up and locked'' if the landing gear is not in 
the fully retracted position. The switches may be located where they are 
operated by the actual landing gear locking latch or device.
    (2) The flightcrew must be given an aural warning that functions 
continuously, or is periodically repeated, if a landing is attempted 
when the landing gear is not locked down.
    (3) The warning must be given in sufficient time to allow the 
landing gear to be locked down or a go-around to be made.
    (4) There must not be a manual shut-off means readily available to 
the flightcrew for the warning required by paragraph (e)(2) of this 
section such that it could be operated instinctively, inadvertently, or 
by habitual reflexive action.
    (5) The system used to generate the aural warning must be designed 
to eliminate false or inappropriate alerts.
    (6) Failures of systems used to inhibit the landing gear aural 
warning, that would prevent the warning system from operating, must be 
improbable.
    (f) Protection of equipment in wheel wells. Equipment that is 
essential to safe operation of the airplane and that is located in wheel 
wells must be protected from the damaging effects of--

[[Page 402]]

    (1) A bursting tire, unless it is shown that a tire cannot burst 
from overheat; and
    (2) A loose tire tread, unless it is shown that a loose tire tread 
cannot cause damage.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5676, Apr. 8, 1970; Amdt. 25-42, 43 FR 2323, Jan. 16, 1978; Amdt. 
25-72, 55 FR 29777, July 20, 1990; Amdt. 25-75, 56 FR 63762, Dec. 5, 
1991]



Sec. 25.731  Wheels.

    (a) Each main and nose wheel must be approved.
    (b) The maximum static load rating of each wheel may not be less 
than the corresponding static ground reaction with--
    (1) Design maximum weight; and
    (2) Critical center of gravity.
    (c) The maximum limit load rating of each wheel must equal or exceed 
the maximum radial limit load determined under the applicable ground 
load requirements of this part.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29777, July 20, 1990]



Sec. 25.733  Tires.

    (a) When a landing gear axle is fitted with a single wheel and tire 
assembly, the wheel must be fitted with a suitable tire of proper fit 
with a speed rating approved by the Administrator that is not exceeded 
under critical conditions and with a load rating approved by the 
Administrator that is not exceeded under--
    (1) The loads on the main wheel tire, corresponding to the most 
critical combination of airplane weight (up to maximum weight) and 
center of gravity position, and
    (2) The loads corresponding to the ground reactions in paragraph (b) 
of this section, on the nose wheel tire, except as provided in 
paragraphs (b)(2) and (b)(3) of this section.
    (b) The applicable ground reactions for nose wheel tires are as 
follows:
    (1) The static ground reaction for the tire corresponding to the 
most critical combination of airplane weight (up to maximum ramp weight) 
and center of gravity position with a force of 1.0g acting downward at 
the center of gravity. This load may not exceed the load rating of the 
tire.
    (2) The ground reaction of the tire corresponding to the most 
critical combination of airplane weight (up to maximum landing weight) 
and center of gravity position combined with forces of 1.0g downward and 
0.31g forward acting at the center of gravity. The reactions in this 
case must be distributed to the nose and main wheels by the principles 
of statics with a drag reaction equal to 0.31 times the vertical load at 
each wheel with brakes capable of producing this ground reaction. This 
nose tire load may not exceed 1.5 times the load rating of the tire.
    (3) The ground reaction of the tire corresponding to the most 
critical combination of airplane weight (up to maximum ramp weight) and 
center of gravity position combined with forces of 1.0g downward and 
0.20g forward acting at the center of gravity. The reactions in this 
case must be distributed to the nose and main wheels by the principles 
of statics with a drag reaction equal to 0.20 times the vertical load at 
each wheel with brakes capable of producing this ground reaction. This 
nose tire load may not exceed 1.5 times the load rating of the tire.
    (c) When a landing gear axle is fitted with more than one wheel and 
tire assembly, such as dual or dual-tandem, each wheel must be fitted 
with a suitable tire of proper fit with a speed rating approved by the 
Administrator that is not exceeded under critical conditions, and with a 
load rating approved by the Administrator that is not exceeded by--
    (1) The loads on each main wheel tire, corresponding to the most 
critical combination of airplane weight (up to maximum weight) and 
center of gravity position, when multiplied by a factor of 1.07; and
    (2) Loads specified in paragraphs (a)(2), (b)(1), (b)(2), and (b)(3) 
of this section on each nose wheel tire.
    (d) Each tire installed on a retractable landing gear system must, 
at the maximum size of the tire type expected in service, have a 
clearance to surrounding structure and systems that is

[[Page 403]]

adequate to prevent unintended contact between the tire and any part of 
the structure or systems.
    (e) For an airplane with a maximum certificated takeoff weight of 
more than 75,000 pounds, tires mounted on braked wheels must be inflated 
with dry nitrogen or other gases shown to be inert so that the gas 
mixture in the tire does not contain oxygen in excess of 5 percent by 
volume, unless it can be shown that the tire liner material will not 
produce a volatile gas when heated or that means are provided to prevent 
tire temperatures from reaching unsafe levels.

[Amdt. 25-48, 44 FR 68752, Nov. 29, 1979; Amdt. 25-72, 55 FR 29777, July 
20, 1990, as amended by Amdt. 25-78, 58 FR 11781, Feb. 26, 1993]



Sec. 25.735  Brakes.

    (a) Each brake must be approved.
    (b) The brake system and associated systems must be designed and 
constructed so that if any electrical, pneumatic, hydraulic, or 
mechanical connecting or transmitting element (excluding the operating 
pedal or handle) fails, or if any single source of hydraulic or other 
brake operating energy supply is lost, it is possible to bring the 
airplane to rest under conditions specified in Sec. 25.125, with a mean 
deceleration during the landing roll of at least 50 percent of that 
obtained in determining the landing distance as prescribed in that 
section. Subcomponents within the brake assembly, such as brake drum, 
shoes, and actuators (or their equivalents), shall be considered as 
connecting or transmitting elements, unless it is shown that leakage of 
hydraulic fluid resulting from failure of the sealing elements in these 
subcomponents within the brake assembly would not reduce the braking 
effectiveness below that specified in this paragraph.
    (c) Brake controls may not require excessive control force in their 
operation.
    (d) The airplane must have a parking control that, when set by the 
pilot, will without further attention, prevent the airplane from rolling 
on a paved, level runway with takeoff power on the critical engine.
    (e) If antiskid devices are installed, the devices and associated 
systems must be designed so that no single probable malfunction will 
result in a hazardous loss of braking ability or directional control of 
the airplane.
    (f) The design landing brake kinetic energy capacity rating of each 
main wheel-brake assembly shall be used during qualification testing of 
the brake to the applicable Technical Standard Order (TSO) or an 
acceptable equivalent. This kinetic energy rating may not be less than 
the kinetic energy absorption requirements determined under either of 
the following methods:
    (1) The brake kinetic energy absorption requirements must be based 
on a rational analysis of the sequence of events expected during 
operational landings at maximum landing weight. This analysis must 
include conservative values of airplane speed at which the brakes are 
applied, braking coefficient of friction between tires and runway, 
aerodynamic drag, propeller drag or power-plant forward thrust, and (if 
more critical) the most adverse single engine or propeller malfunction.
    (2) Instead of a rational analysis, the kinetic energy absorption 
requirements for each main wheel-brake assembly may be derived from the 
following formula, which must be modified in cases of designed unequal 
braking distributions.
[GRAPHIC] [TIFF OMITTED] TR18FE98.006

Where--
KE=Kinetic energy per wheel (ft.-lb.);
W=Design landing weight (lb.);
V=Airplane speed in knots. V must not be less than VS0, the 
power off stalling speed of the airplane at sea level, at the design 
landing weight, and in the landing configuration; and
N=Number of main wheels with brakes.
    (g) The minimum stalling speed rating of each main wheel-brake 
assembly (that is, the initial speed used in the dynamometer tests) may 
not be more than the V used in the determination of kinetic energy in 
accordance with paragraph (f) of this section, assuming that the test 
procedures for wheel-brake assemblies involve a specified rate of 
deceleration, and, therefore, for

[[Page 404]]

the same amount of kinetic energy, the rate of energy absorption (the 
power absorbing ability of the brake) varies inversely with the initial 
speed.
    (h) The rejected takeoff brake kinetic energy capacity rating of 
each main wheel-brake assembly that is at the fully worn limit of its 
allowable wear range shall be used during qualification testing of the 
brake to the applicable Technical Standard Order (TSO) or an acceptable 
equivalent. This kinetic energy rating may not be less than the kinetic 
energy absorption requirements determined under either of the following 
methods:
    (1) The brake kinetic energy absorption requirements must be based 
on a rational analysis of the sequence of events expected during an 
accelerate-stop maneuver. This analysis must include conservative values 
of airplane speed at which the brakes are applied, braking coefficient 
of friction between tires and runway, aerodynamic drag, propeller drag 
or powerplant forward thrust, and (if more critical) the most adverse 
single engine or propeller malfunction.
    (2) Instead of a rational analysis, the kinetic energy absorption 
requirements for each main wheel brake assembly may be derived from the 
following formula, which must be modified in cases of designed unequal 
braking distributions:
[GRAPHIC] [TIFF OMITTED] TR18FE98.007

Where--
KE=Kinetic energy per wheel (ft.-lb.);
W=Airplane weight (lb.);
V=Airplane speed (knots);
N=Number of main wheels with brakes; and
W and V are the most critical combination of takeoff weight and ground 
speed obtained in a rejected takeoff.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5676, Apr. 8, 1970; Amdt. 25-48, 44 FR 68742, Nov. 29, 1979; Amdt. 
25-72, 55 FR 29777, July 20, 1990; Amdt. 25-92, 63 FR 8320, Feb. 18, 
1998]



Sec. 25.737  Skis.

    Each ski must be approved. The maximum limit load rating of each ski 
must equal or exceed the maximum limit load determined under the 
applicable ground load requirements of this part.

                            Floats and Hulls



Sec. 25.751  Main float buoyancy.

    Each main float must have--
    (a) A buoyancy of 80 percent in excess of that required to support 
the maximum weight of the seaplane or amphibian in fresh water; and
    (b) Not less than five watertight compartments approximately equal 
in volume.



Sec. 25.753  Main float design.

    Each main float must be approved and must meet the requirements of 
Sec. 25.521.



Sec. 25.755  Hulls.

    (a) Each hull must have enough watertight compartments so that, with 
any two adjacent compartments flooded, the buoyancy of the hull and 
auxiliary floats (and wheel tires, if used) provides a margin of 
positive stability great enough to minimize the probability of capsizing 
in rough, fresh water.
    (b) Bulkheads with watertight doors may be used for communication 
between compartments.

                   Personnel and Cargo Accommodations



Sec. 25.771  Pilot compartment.

    (a) Each pilot compartment and its equipment must allow the minimum 
flight crew (established under Sec. 25.1523) to perform their duties 
without unreasonable concentration or fatigue.
    (b) The primary controls listed in Sec. 25.779(a), excluding cables 
and control rods, must be located with respect to the propellers so that 
no member of the minimum flight crew (established under Sec. 25.1523), 
or part of the controls, lies in the region between the plane of 
rotation of any inboard propeller and the surface generated by a line 
passing through the center of the propeller hub making an angle of five 
degrees forward or aft of the plane of rotation of the propeller.

[[Page 405]]

    (c) If provision is made for a second pilot, the airplane must be 
controllable with equal safety from either pilot seat.
    (d) The pilot compartment must be constructed so that, when flying 
in rain or snow, it will not leak in a manner that will distract the 
crew or harm the structure.
    (e) Vibration and noise characteristics of cockpit equipment may not 
interfere with safe operation of the airplane.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-4, 30 
FR 6113, Apr. 30, 1965]



Sec. 25.772  Pilot compartment doors.

    For an airplane that has a maximum passenger seating configuration 
of more than 20 seats and that has a lockable door installed between the 
pilot compartment and the passenger compartment:
    (a) The emergency exit configuration must be designed so that 
neither crewmembers nor passengers need use that door in order to reach 
the emergency exits provided for them; and
    (b) Means must be provided to enable flight crewmembers to directly 
enter the passenger compartment from the pilot compartment if the 
cockpit door becomes jammed.

[Doc. No. 24344, 55 FR 29777, July 20, 1990]



Sec. 25.773  Pilot compartment view.

    (a) Nonprecipitation conditions. For nonprecipitation conditions, 
the following apply:
    (1) Each pilot compartment must be arranged to give the pilots a 
sufficiently extensive, clear, and undistorted view, to enable them to 
safely perform any maneuvers within the operating limitations of the 
airplane, including taxiing takeoff, approach, and landing.
    (2) Each pilot compartment must be free of glare and reflection that 
could interfere with the normal duties of the minimum flight crew 
(established under Sec. 25.1523). This must be shown in day and night 
flight tests under nonprecipitation conditions.
    (b) Precipitation conditions. For precipitation conditions, the 
following apply:
    (1) The airplane must have a means to maintain a clear portion of 
the windshield, during precipitation conditions, sufficient for both 
pilots to have a sufficiently extensive view along the flight path in 
normal flight attitudes of the airplane. This means must be designed to 
function, without continuous attention on the part of the crew, in--
    (i) Heavy rain at speeds up to 1.6 Vs1 with lift and drag 
devices retracted; and
    (ii) The icing conditions specified in Sec. 25.1419 if certification 
with ice protection provisions is requested.
    (2) The first pilot must have--
    (i) A window that is openable under the conditions prescribed in 
paragraph (b)(1) of this section when the cabin is not pressurized, 
provides the view specified in that paragraph, and gives sufficient 
protection from the elements against impairment of the pilot's vision; 
or
    (ii) An alternate means to maintain a clear view under the 
conditions specified in paragraph (b)(1) of this section, considering 
the probable damage due to a severe hail encounter.
    (c) Internal windshield and window fogging. The airplane must have a 
means to prevent fogging of the internal portions of the windshield and 
window panels over an area which would provide the visibility specified 
in paragraph (a) of this section under all internal and external ambient 
conditions, including precipitation conditions, in which the airplane is 
intended to be operated.
    (d) Fixed markers or other guides must be installed at each pilot 
station to enable the pilots to position themselves in their seats for 
an optimum combination of outside visibility and instrument scan. If 
lighted markers or guides are used they must comply with the 
requirements specified in Sec. 25.1381.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5676, Apr. 8, 1970; Amdt. 25-46, 43 FR 50595, Oct. 30, 1978; Amdt. 
25-72, 55 FR 29778, July 20, 1990]



Sec. 25.775  Windshields and windows.

    (a) Internal panes must be made of nonsplintering material.
    (b) Windshield panes directly in front of the pilots in the normal 
conduct of

[[Page 406]]

their duties, and the supporting structures for these panes, must 
withstand, without penetration, the impact of a four-pound bird when the 
velocity of the airplane (relative to the bird along the airplane's 
flight path) is equal to the value of VC, at sea level, 
selected under Sec. 25.335(a).
    (c) Unless it can be shown by analysis or tests that the probability 
of occurrence of a critical windshield fragmentation condition is of a 
low order, the airplane must have a means to minimize the danger to the 
pilots from flying windshield fragments due to bird impact. This must be 
shown for each transparent pane in the cockpit that--
    (1) Appears in the front view of the airplane;
    (2) Is inclined 15 degrees or more to the longitudinal axis of the 
airplane; and
    (3) Has any part of the pane located where its fragmentation will 
constitute a hazard to the pilots.
    (d) The design of windshields and windows in pressurized airplanes 
must be based on factors peculiar to high altitude operation, including 
the effects of continuous and cyclic pressurization loadings, the 
inherent characteristics of the material used, and the effects of 
temperatures and temperature differentials. The windshield and window 
panels must be capable of withstanding the maximum cabin pressure 
differential loads combined with critical aerodynamic pressure and 
temperature effects after any single failure in the installation or 
associated systems. It may be assumed that, after a single failure that 
is obvious to the flight crew (established under Sec. 25.1523), the 
cabin pressure differential is reduced from the maximum, in accordance 
with appropriate operating limitations, to allow continued safe flight 
of the airplane with a cabin pressure altitude of not more than 15,000 
feet.
    (e) The windshield panels in front of the pilots must be arranged so 
that, assuming the loss of vision through any one panel, one or more 
panels remain available for use by a pilot seated at a pilot station to 
permit continued safe flight and landing.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5676, Apr. 8, 1970; Amdt. 25-38, 41 FR 55466, Dec. 20, 1976]



Sec. 25.777  Cockpit controls.

    (a) Each cockpit control must be located to provide convenient 
operation and to prevent confusion and inadvertent operation.
    (b) The direction of movement of cockpit controls must meet the 
requirements of Sec. 25.779. Wherever practicable, the sense of motion 
involved in the operation of other controls must correspond to the sense 
of the effect of the operation upon the airplane or upon the part 
operated. Controls of a variable nature using a rotary motion must move 
clockwise from the off position, through an increasing range, to the 
full on position.
    (c) The controls must be located and arranged, with respect to the 
pilots' seats, so that there is full and unrestricted movement of each 
control without interference from the cockpit structure or the clothing 
of the minimum flight crew (established under Sec. 25.1523) when any 
member of this flight crew, from 5'2" to 6'3" in height, is seated with 
the seat belt and shoulder harness (if provided) fastened.
    (d) Identical powerplant controls for each engine must be located to 
prevent confusion as to the engines they control.
    (e) Wing flap controls and other auxiliary lift device controls must 
be located on top of the pedestal, aft of the throttles, centrally or to 
the right of the pedestal centerline, and not less than 10 inches aft of 
the landing gear control.
    (f) The landing gear control must be located forward of the 
throttles and must be operable by each pilot when seated with seat belt 
and shoulder harness (if provided) fastened.
    (g) Control knobs must be shaped in accordance with Sec. 25.781. In 
addition, the knobs must be of the same color, and this color must 
contrast with the color of control knobs for other purposes and the 
surrounding cockpit.
    (h) If a flight engineer is required as part of the minimum flight 
crew (established under Sec. 25.1523), the airplane must have a flight 
engineer station located and arranged so that the flight

[[Page 407]]

crewmembers can perform their functions efficiently and without 
interfering with each other.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-46, 
43 FR 50596, Oct. 30, 1978]



Sec. 25.779  Motion and effect of cockpit controls.

    Cockpit controls must be designed so that they operate in accordance 
with the following movement and actuation:
    (a) Aerodynamic controls:
    (1) Primary.

------------------------------------------------------------------------
                 Controls                        Motion and effect
------------------------------------------------------------------------
Aileron..................................  Right (clockwise) for right
                                            wing down.
Elevator.................................  Rearward for nose up.
Rudder...................................  Right pedal forward for nose
                                            right.
------------------------------------------------------------------------

    (2) Secondary.

------------------------------------------------------------------------
                 Controls                        Motion and effect
------------------------------------------------------------------------
Flaps (or auxiliary lift devices)........  Forward for flaps up;
                                            rearward for flaps down.
Trim tabs (or equivalent)................  Rotate to produce similar
                                            rotation of the airplane
                                            about an axis parallel to
                                            the axis of the control.
------------------------------------------------------------------------

    (b) Powerplant and auxiliary controls:
    (1) Powerplant.

------------------------------------------------------------------------
                 Controls                        Motion and effect
------------------------------------------------------------------------
Power or thrust..........................  Forward to increase forward
                                            thrust and rearward to
                                            increase rearward thrust.
Propellers...............................  Forward to increase rpm.
Mixture..................................  Forward or upward for rich.
Carburetor air heat......................  Forward or upward for cold.
Supercharger.............................  Forward or upward for low
                                            blower. For
                                            turbosuperchargers, forward,
                                            upward, or clockwise, to
                                            increase pressure.
------------------------------------------------------------------------

    (2) Auxiliary.

------------------------------------------------------------------------
                 Controls                        Motion and effect
------------------------------------------------------------------------
Landing gear.............................  Down to extend.
------------------------------------------------------------------------


[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29778, July 20, 1990]


Sec. 25.781    Cockpit control knob shape.

Cockpit control knobs must conform to the general shapes (but not 
necessarily the exact sizes or specific proportions) in the following 
figure:

[[Page 408]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.048

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29779, July 20, 1990]



Sec. 25.783  Doors.

    (a) Each cabin must have at least one easily accessible external 
door.
    (b) There must be a means to lock and safeguard each external door 
against opening in flight (either inadvertently by persons or as a 
result of mechanical failure or failure of a single structural element 
either during or after closure). Each external door must be openable 
from both the inside and the outside, even though persons may be crowded 
against the door on the inside of the airplane. Inward opening doors may 
be used if there are means to prevent occupants from crowding against 
the door to an extent that would interfere with the opening of the door. 
The means of opening must be simple and obvious and must be arranged and 
marked so that it can be

[[Page 409]]

readily located and operated, even in darkness. Auxiliary locking 
devices may be used.
    (c) Each external door must be reasonably free from jamming as a 
result of fuselage deformation in a minor crash.
    (d) Each external door must be located where persons using them will 
not be endangered by the propellers when appropriate operating 
procedures are used.
    (e) There must be a provision for direct visual inspection of the 
locking mechanism to determine if external doors, for which the initial 
opening movement is not inward (including passenger, crew, service, and 
cargo doors), are fully closed and locked. The provision must be 
discernible under operational lighting conditions by appropriate 
crewmembers using a flashlight or equivalent lighting source. In 
addition, there must be a visual warning means to signal the appropriate 
flight crewmembers if any external door is not fully closed and locked. 
The means must be designed such that any failure or combination of 
failures that would result in an erroneous closed and locked indication 
is improbable for doors for which the initial opening movement is not 
inward.
    (f) External doors must have provisions to prevent the initiation of 
pressurization of the airplane to an unsafe level if the door is not 
fully closed and locked. In addition, it must be shown by safety 
analysis that inadvertent opening is extemely improbable.
    (g) Cargo and service doors not suitable for use as emergency exits 
need only meet paragraphs (e) and (f) of this section and be safeguarded 
against opening in flight as a result of mechanical failure or failure 
of a single structural element.
    (h) Each passenger entry door in the side of the fuselage must meet 
the applicable requirements of Secs. 25.807 through 25.813 for a Type II 
or larger passenger emergency exit.
    (i) If an integral stair is installed in a passenger entry door that 
is qualified as a passenger emergency exit, the stair must be designed 
so that under the following conditions the effectiveness of passenger 
emergency egress will not be impaired:
    (1) The door, integral stair, and operating mechanism have been 
subjected to the inertia forces specified in Sec. 25.561(b)(3), acting 
separately relative to the surrounding structure.
    (2) The airplane is in the normal ground attitude and in each of the 
attitudes corresponding to collapse of one or more legs of the landing 
gear.
    (j) All lavatory doors must be designed to preclude anyone from 
becoming trapped inside the lavatory, and if a locking mechanism is 
installed, it be capable of being unlocked from the outside without the 
aid of special tools.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-15, 
32 FR 13262, Sept. 20, 1967; Amdt. 25-23, 35 FR 5676, Apr. 8, 1970; 
Amdt. 25-54, 45 FR 60173, Sept. 11, 1980; Amdt. 25-72, 55 FR 29780, July 
20, 1990; Amdt. 25-88, 61 FR 57956, Nov. 8, 1996]



Sec. 25.785  Seats, berths, safety belts, and harnesses.

    (a) A seat (or berth for a nonambulant person) must be provided for 
each occupant who has reached his or her second birthday.
    (b) Each seat, berth, safety belt, harness, and adjacent part of the 
airplane at each station designated as occupiable during takeoff and 
landing must be designed so that a person making proper use of these 
facilities will not suffer serious injury in an emergency landing as a 
result of the inertia forces specified in Secs. 25.561 and 25.562.
    (c) Each seat or berth must be approved.
    (d) Each occupant of a seat that makes more than an 18-degree angle 
with the vertical plane containing the airplane centerline must be 
protected from head injury by a safety belt and an energy absorbing rest 
that will support the arms, shoulders, head, and spine, or by a safety 
belt and shoulder harness that will prevent the head from contacting any 
injurious object. Each occupant of any other seat must be protected from 
head injury by a safety belt and, as appropriate to the type, location, 
and angle of facing of each seat, by one or more of the following:
    (1) A shoulder harness that will prevent the head from contacting 
any injurious object.

[[Page 410]]

    (2) The elimination of any injurious object within striking radius 
of the head.
    (3) An energy absorbing rest that will support the arms, shoulders, 
head, and spine.
    (e) Each berth must be designed so that the forward part has a 
padded end board, canvas diaphragm, or equivalent means, that can 
withstand the static load reaction of the occupant when subjected to the 
forward inertia force specified in Sec. 25.561. Berths must be free from 
corners and protuberances likely to cause injury to a person occupying 
the berth during emergency conditions.
    (f) Each seat or berth, and its supporting structure, and each 
safety belt or harness and its anchorage must be designed for an 
occupant weight of 170 pounds, considering the maximum load factors, 
inertia forces, and reactions among the occupant, seat, safety belt, and 
harness for each relevant flight and ground load condition (including 
the emergency landing conditions prescribed in Sec. 25.561). In 
addition--
    (1) The structural analysis and testing of the seats, berths, and 
their supporting structures may be determined by assuming that the 
critical load in the forward, sideward, downward, upward, and rearward 
directions (as determined from the prescribed flight, ground, and 
emergency landing conditions) acts separately or using selected 
combinations of loads if the required strength in each specified 
direction is substantiated. The forward load factor need not be applied 
to safety belts for berths.
    (2) Each pilot seat must be designed for the reactions resulting 
from the application of the pilot forces prescribed in Sec. 25.395.
    (3) The inertia forces specified in Sec. 25.561 must be multiplied 
by a factor of 1.33 (instead of the fitting factor prescribed in 
Sec. 25.625) in determining the strength of the attachment of each seat 
to the structure and each belt or harness to the seat or structure.
    (g) Each seat at a flight deck station must have a restraint system 
consisting of a combined safety belt and shoulder harness with a single-
point release that permits the flight deck occupant, when seated with 
the restraint system fastened, to perform all of the occupant's 
necessary flight deck functions. There must be a means to secure each 
combined restraint system when not in use to prevent interference with 
the operation of the airplane and with rapid egress in an emergency.
    (h) Each seat located in the passenger compartment and designated 
for use during takeoff and landing by a flight attendant required by the 
operating rules of this chapter must be:
    (1) Near a required floor level emergency exit, except that another 
location is acceptable if the emergency egress of passengers would be 
enhanced with that location. A flight attendant seat must be located 
adjacent to each Type A or B emergency exit. Other flight attendant 
seats must be evenly distributed among the required floor- level 
emergency exits to the extent feasible.
    (2) To the extent possible, without compromising proximity to a 
required floor level emergency exit, located to provide a direct view of 
the cabin area for which the flight attendant is responsible.
    (3) Positioned so that the seat will not interfere with the use of a 
passageway or exit when the seat is not in use.
    (4) Located to minimize the probability that occupants would suffer 
injury by being struck by items dislodged from service areas, stowage 
compartments, or service equipment.
    (5) Either forward or rearward facing with an energy absorbing rest 
that is designed to support the arms, shoulders, head, and spine.
    (6) Equipped with a restraint system consisting of a combined safety 
belt and shoulder harness unit with a single point release. There must 
be means to secure each restraint system when not in use to prevent 
interference with rapid egress in an emergency.
    (i) Each safety belt must be equipped with a metal to metal latching 
device.
    (j) If the seat backs do not provide a firm handhold, there must be 
a handgrip or rail along each aisle to enable persons to steady 
themselves while using the aisles in moderately rough air.
    (k) Each projecting object that would injure persons seated or 
moving about the airplane in normal flight must be padded.

[[Page 411]]

    (l) Each forward observer's seat required by the operating rules 
must be shown to be suitable for use in conducting the necessary enroute 
inspection.

[Amdt. 25-72, 55 FR 29780, July 20, 1990, as amended by Amdt. 25-88, 61 
FR 57956, Nov. 8, 1996]



Sec. 25.787  Stowage compartments.

    (a) Each compartment for the stowage of cargo, baggage, carry-on 
articles, and equipment (such as life rafts), and any other stowage 
compartment must be designed for its placarded maximum weight of 
contents and for the critical load distribution at the appropriate 
maximum load factors corresponding to the specified flight and ground 
load conditions, and to the emergency landing conditions of 
Sec. 25.561(b), except that the forces specified in the emergency 
landing conditions need not be applied to compartments located below, or 
forward, of all occupants in the airplane. If the airplane has a 
passenger seating configuration, excluding pilots seats, of 10 seats or 
more, each stowage compartment in the passenger cabin, except for 
underseat and overhead compartments for passenger convenience, must be 
completely enclosed.
    (b) There must be a means to prevent the contents in the 
compartments from becoming a hazard by shifting, under the loads 
specified in paragraph (a) of this section. For stowage compartments in 
the passenger and crew cabin, if the means used is a latched door, the 
design must take into consideration the wear and deterioration expected 
in service.
    (c) If cargo compartment lamps are installed, each lamp must be 
installed so as to prevent contact between lamp bulb and cargo.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-32, 
37 FR 3969, Feb. 24, 1972; Amdt. 25-38, 41 FR 55466, Dec. 20, 1976; 
Amdt. 25-51, 45 FR 7755, Feb. 4, 1980]



Sec. 25.789  Retention of items of mass in passenger and crew compartments and galleys.

    (a) Means must be provided to prevent each item of mass (that is 
part of the airplane type design) in a passenger or crew compartment or 
galley from becoming a hazard by shifting under the appropriate maximum 
load factors corresponding to the specified flight and ground load 
conditions, and to the emergency landing conditions of Sec. 25.561(b).
    (b) Each interphone restraint system must be designed so that when 
subjected to the load factors specified in Sec. 25.561(b)(3), the 
interphone will remain in its stowed position.

[Amdt. 25-32, 37 FR 3969, Feb. 24, 1972, as amended by Amdt. 25-46, 43 
FR 50596, Oct. 30, 1978]



Sec. 25.791  Passenger information signs and placards.

    (a) If smoking is to be prohibited, there must be at least one 
placard so stating that is legible to each person seated in the cabin. 
If smoking is to be allowed, and if the crew compartment is separated 
from the passenger compartment, there must be at least one sign 
notifying when smoking is prohibited. Signs which notify when smoking is 
prohibited must be operable by a member of the flightcrew and, when 
illuminated, must be legible under all probable conditions of cabin 
illumination to each person seated in the cabin.
    (b) Signs that notify when seat belts should be fastened and that 
are installed to comply with the operating rules of this chapter must be 
operable by a member of the flightcrew and, when illuminated, must be 
legible under all probable conditions of cabin illumination to each 
person seated in the cabin.
    (c) A placard must be located on or adjacent to the door of each 
receptacle used for the disposal of flammable waste materials to 
indicate that use of the receptacle for disposal of cigarettes, etc., is 
prohibited.
    (d) Lavatories must have ``No Smoking'' or ``No Smoking in 
Lavatory'' placards conspicuously located on or adjacent to each side of 
the entry door.
    (e) Symbols that clearly express the intent of the sign or placard 
may be used in lieu of letters.

[Amdt. 25-72, 55 FR 29780, July 20, 1990]

[[Page 412]]



Sec. 25.793  Floor surfaces.

    The floor surface of all areas which are likely to become wet in 
service must have slip resistant properties.

[Amdt. 25-51, 45 FR 7755, Feb. 4, 1980]

                          Emergency Provisions



Sec. 25.801  Ditching.

    (a) If certification with ditching provisions is requested, the 
airplane must meet the requirements of this section and Secs. 25.807(e), 
25.1411, and 25.1415(a).
    (b) Each practicable design measure, compatible with the general 
characteristics of the airplane, must be taken to minimize the 
probability that in an emergency landing on water, the behavior of the 
airplane would cause immediate injury to the occupants or would make it 
impossible for them to escape.
    (c) The probable behavior of the airplane in a water landing must be 
investigated by model tests or by comparison with airplanes of similar 
configuration for which the ditching characteristics are known. Scoops, 
flaps, projections, and any other factor likely to affect the 
hydrodynamic characteristics of the airplane, must be considered.
    (d) It must be shown that, under reasonably probable water 
conditions, the flotation time and trim of the airplane will allow the 
occupants to leave the airplane and enter the liferafts required by 
Sec. 25.1415. If compliance with this provision is shown by buoyancy and 
trim computations, appropriate allowances must be made for probable 
structural damage and leakage. If the airplane has fuel tanks (with fuel 
jettisoning provisions) that can reasonably be expected to withstand a 
ditching without leakage, the jettisonable volume of fuel may be 
considered as buoyancy volume.
    (e) Unless the effects of the collapse of external doors and windows 
are accounted for in the investigation of the probable behavior of the 
airplane in a water landing (as prescribed in paragraphs (c) and (d) of 
this section), the external doors and windows must be designed to 
withstand the probable maximum local pressures.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29781, July 20, 1990]



Sec. 25.803  Emergency evacuation.

    (a) Each crew and passenger area must have emergency means to allow 
rapid evacuation in crash landings, with the landing gear extended as 
well as with the landing gear retracted, considering the possibility of 
the airplane being on fire.
    (b) [Reserved]
    (c) For airplanes having a seating capacity of more than 44 
passengers, it must be shown that the maximum seating capacity, 
including the number of crewmembers required by the operating rules for 
which certification is requested, can be evacuated from the airplane to 
the ground under simulated emergency conditions within 90 seconds. 
Compliance with this requirement must be shown by actual demonstration 
using the test criteria outlined in appendix J of this part unless the 
Administrator finds that a combination of analysis and testing will 
provide data equivalent to that which would be obtained by actual 
demonstration.
    (d)-(e)  [Reserved]

[Doc. No. 24344, 55 FR 29781, July 20, 1990]



Sec. 25.807  Emergency exits.

    (a) Type. For the purpose of this part, the types of exits are 
defined as follows:
    (1) Type I. This type is a floor-level exit with a rectangular 
opening of not less than 24 inches wide by 48 inches high, with corner 
radii not greater than eight inches.
    (2) Type II. This type is a rectangular opening of not less than 20 
inches wide by 44 inches high, with corner radii not greater than seven 
inches. Type II exits must be floor-level exits unless located over the 
wing, in which case they must not have a step-up inside the airplane of 
more than 10 inches nor a step-down outside the airplane of more than 17 
inches.
    (3) Type III. This type is a rectangular opening of not less than 20 
inches

[[Page 413]]

wide by 36 inches high with corner radii not greater than seven inches, 
and with a step-up inside the airplane of not more than 20 inches. If 
the exit is located over the wing, the step-down outside the airplane 
may not exceed 27 inches.
    (4) Type IV. This type is a rectangular opening of not less than 19 
inches wide by 26 inches high, with corner radii not greater than 6.3 
inches, located over the wing, with a step-up inside the airplane of not 
more than 29 inches and a step-down outside the airplane of not more 
than 36 inches.
    (5) Ventral. This type is an exit from the passenger compartment 
through the pressure shell and the bottom fuselage skin. The dimensions 
and physical configuration of this type of exit must allow at least the 
same rate of egress as a Type I exit with the airplane in the normal 
ground attitude, with landing gear extended.
    (6) Tailcone. This type is an aft exit from the passenger 
compartment through the pressure shell and through an openable cone of 
the fuselage aft of the pressure shell. The means of opening the 
tailcone must be simple and obvious and must employ a single operation.
    (7) Type A. This type is a floor-level exit with a rectangular 
opening of not less than 42 inches wide by 72 inches high, with corner 
radii not greater than seven inches.
    (8) Type B. This type is a floor-level exit with a rectangular 
opening of not less than 32 inches wide by 72 inches high, with corner 
radii not greater than six inches.
    (9) Type C. This type is a floor-level exit with a rectangular 
opening of not less than 30 inches wide by 48 inches high, with corner 
radii not greater than 10 inches.
    (b) Step down distance. Step down distance, as used in this section, 
means the actual distance between the bottom of the required opening and 
a usable foot hold, extending out from the fuselage, that is large 
enough to be effective without searching by sight or feel.
    (c) Over-sized exits. Openings larger than those specified in this 
section, whether or not of rectangular shape, may be used if the 
specified rectangular opening can be inscribed within the opening and 
the base of the inscribed rectangular opening meets the specified step-
up and step-down heights.
    (d) Asymmetry. Exits of an exit pair need not be diametrically 
opposite each other nor of the same size; however, the number of 
passenger seats permitted under paragraph (g) of this section is based 
on the smaller of the two exits.
    (e) Uniformity. Exits must be distributed as uniformly as practical, 
taking into account passenger seat distribution.
    (f) Location. (1) Each required passenger emergency exit must be 
accessible to the passengers and located where it will afford the most 
effective means of passenger evacuation.
    (2) If only one floor-level exit per side is prescribed, and the 
airplane does not have a tailcone or ventral emergency exit, the floor-
level exits must be in the rearward part of the passenger compartment 
unless another location affords a more effective means of passenger 
evacuation.
    (3) If more than one floor-level exit per side is prescribed, and 
the airplane does not have a combination cargo and passenger 
configuration, at least one floor-level exit must be located in each 
side near each end of the cabin.
    (4) For an airplane that is required to have more than one passenger 
emergency exit for each side of the fuselage, no passenger emergency 
exit shall be more than 60 feet from any adjacent passenger emergency 
exit on the same side of the same deck of the fuselage, as measured 
parallel to the airplane's longitudinal axis between the nearest exit 
edges.
    (g) Type and number required. The maximum number of passenger seats 
permitted depends on the type and number of exits installed in each side 
of the fuselage. Except as further restricted in paragraphs (g)(1) 
through (g)(9) of this section, the maximum number of passenger seats 
permitted for each exit of a specific type installed in each side of the 
fuselage is as follows:

Type A                                                           110
Type B                                                            75
Type C                                                            55

[[Page 414]]

 
Type I                                                            45
Type II                                                           40
Type III                                                          35
Type IV                                                            9
 

    (1) For a passenger seating configuration of 1 to 9 seats, there 
must be at least one Type IV or larger overwing exit in each side of the 
fuselage or, if overwing exits are not provided, at least one exit in 
each side that meets the minimum dimensions of a Type III exit.
    (2) For a passenger seating configuration of more than 9 seats, each 
exit must be a Type III or larger exit.
    (3) For a passenger seating configuration of 10 to 19 seats, there 
must be at least one Type III or larger exit in each side of the 
fuselage.
    (4) For a passenger seating configuration of 20 to 40 seats, there 
must be at least two exits, one of which must be a Type II or larger 
exit, in each side of the fuselage.
    (5) For a passenger seating configuration of 41 to 110 seats, there 
must be at least two exits, one of which must be a Type I or larger 
exit, in each side of the fuselage.
    (6) For a passenger seating configuration of more than 110 seats, 
the emergency exits in each side of the fuselage must include at least 
two Type I or larger exits.
    (7) The combined maximum number of passenger seats permitted for all 
Type III exits is 70, and the combined maximum number of passenger seats 
permitted for two Type III exits in each side of the fuselage that are 
separated by fewer than three passenger seat rows is 65.
    (8) If a Type A, Type B, or Type C exit is installed, there must be 
at least two Type C or larger exits in each side of the fuselage.
    (9) If a passenger ventral or tailcone exit is installed and that 
exit provides at least the same rate of egress as a Type III exit with 
the airplane in the most adverse exit opening condition that would 
result from the collapse of one or more legs of the landing gear, an 
increase in the passenger seating configuration is permitted as follows:
    (i) For a ventral exit, 12 additional passenger seats.
    (ii) For a tailcone exit incorporating a floor level opening of not 
less than 20 inches wide by 60 inches high, with corner radii not 
greater than seven inches, in the pressure shell and incorporating an 
approved assist means in accordance with Sec. 25.810(a), 25 additional 
passenger seats.
    (iii) For a tailcone exit incorporating an opening in the pressure 
shell which is at least equivalent to a Type III emergency exit with 
respect to dimensions, step-up and step-down distance, and with the top 
of the opening not less than 56 inches from the passenger compartment 
floor, 15 additional passenger seats.
    (h) Excess exits. Each emergency exit in the passenger compartment 
in excess of the minimum number of required emergency exits must meet 
the applicable requirements of Sec. 25.809 through Sec. 25.812, and must 
be readily accessible.
    (i) Ditching emergency exits for passengers. Whether or not ditching 
certification is requested, ditching emergency exits must be provided in 
accordance with the following requirements, unless the emergency exits 
required by paragraph (g) of this section already meet them:
    (1) For airplanes that have a passenger seating configuration of 
nine or fewer seats, excluding pilot seats, one exit above the waterline 
in each side of the airplane, meeting at least the dimensions of a Type 
IV exit.
    (2) For airplanes that have a passenger seating configuration of 10 
of more seats, excluding pilot seats, one exit above the waterline in a 
side of the airplane, meeting at least the dimensions of a Type III exit 
for each unit (or part of a unit) of 35 passenger seats, but no less 
than two such exits in the passenger cabin, with one on each side of the 
airplane. The passenger seat/ exit ratio may be increased through the 
use of larger exits, or other means, provided it is shown that the 
evacuation capability during ditching has been improved accordingly.
    (3) If it is impractical to locate side exits above the waterline, 
the side exits must be replaced by an equal number of readily accessible 
overhead hatches of not less than the dimensions of a Type III exit, 
except that for airplanes with a passenger configuration of 35 or fewer 
seats, excluding pilot

[[Page 415]]

seats, the two required Type III side exits need be replaced by only one 
overhead hatch.
    (j) Flightcrew emergency exits. For airplanes in which the proximity 
of passenger emergency exits to the flightcrew area does not offer a 
convenient and readily accessible means of evacuation of the flightcrew, 
and for all airplanes having a passenger seating capacity greater than 
20, flightcrew exits shall be located in the flightcrew area. Such exits 
shall be of sufficient size and so located as to permit rapid evacuation 
by the crew. One exit shall be provided on each side of the airplane; 
or, alternatively, a top hatch shall be provided. Each exit must 
encompass an unobstructed rectangular opening of at least 19 by 20 
inches unless satisfactory exit utility can be demonstrated by a typical 
crewmember.

[Amdt. 25-72, 55 FR 29781, July 20, 1990, as amended by Amdt. 25-88, 61 
FR 57956, Nov. 8, 1996; 62 FR 1817, Jan. 13, 1997; Amdt. 25-94, 63 FR 
8848, Feb. 23, 1998; 63 FR 12862, Mar. 16, 1998]



Sec. 25.809  Emergency exit arrangement.

    (a) Each emergency exit, including a flight crew emergency exit, 
must be a movable door or hatch in the external walls of the fuselage, 
allowing unobstructed opening to the outside.
    (b) Each emergency exit must be openable from the inside and the 
outside except that sliding window emergency exits in the flight crew 
area need not be openable from the outside if other approved exits are 
convenient and readily accessible to the flight crew area. Each 
emergency exit must be capable of being opened, when there is no 
fuselage deformation--
    (1) With the airplane in the normal ground attitude and in each of 
the attitudes corresponding to collapse of one or more legs of the 
landing gear; and
    (2) Within 10 seconds measured from the time when the opening means 
is actuated to the time when the exit is fully opened.
    (c) The means of opening emergency exits must be simple and obvious 
and may not require exceptional effort. Internal exit-opening means 
involving sequence operations (such as operation of two handles or 
latches or the release of safety catches) may be used for flight crew 
emergency exits if it can be reasonably established that these means are 
simple and obvious to crewmembers trained in their use.
    (d) If a single power-boost or single power-operated system is the 
primary system for operating more than one exit in an emergency, each 
exit must be capable of meeting the requirements of paragraph (b) of 
this section in the event of failure of the primary system. Manual 
operation of the exit (after failure of the primary system) is 
acceptable.
    (e) Each emergency exit must be shown by tests, or by a combination 
of analysis and tests, to meet the requirements of paragraphs (b) and 
(c) of this section.
    (f) There must be a means to lock each emergency exit and to 
safeguard against its opening in flight, either inadvertently by persons 
or as a result of mechanical failure. In addition, there must be a means 
for direct visual inspection of the locking mechanism by crewmembers to 
determine that each emergency exit, for which the initial opening 
movement is outward, is fully locked.
    (g) There must be provisions to minimize the probability of jamming 
of the emergency exits resulting from fuselage deformation in a minor 
crash landing.
    (h) When required by the operating rules for any large passenger-
carrying turbojet-powered airplane, each ventral exit and tailcone exit 
must be--
    (1) Designed and constructed so that it cannot be opened during 
flight; and
    (2) Marked with a placard readable from a distance of 30 inches and 
installed at a conspicuous location near the means of opening the exit, 
stating that the exit has been designed and constructed so that it 
cannot be opened during flight.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-15, 
32 FR 13264, Sept. 20, 1967; Amdt. 25-32, 37 FR 3970, Feb. 24, 1972; 
Amdt. 25-34, 37 FR 25355, Nov. 30, 1972; Amdt. 25-46, 43 FR 50597, Oct. 
30, 1978; Amdt. 25-47, 44 FR 61325, Oct. 25, 1979; Amdt. 25-72, 55 FR 
29782, July 20, 1990]

[[Page 416]]



Sec. 25.810  Emergency egress assist means and escape routes.

    (a) Each non over-wing Type A, Type B or Type C exit, and any other 
non over-wing landplane emergency exit more than 6 feet from the ground 
with the airplane on the ground and the landing gear extended, must have 
an approved means to assist the occupants in descending to the ground.
    (1) The assisting means for each passenger emergency exit must be a 
self-supporting slide or equivalent; and, in the case of Type A or Type 
B exits, it must be capable of carrying simultaneously two parallel 
lines of evacuees. In addition, the assisting means must be designed to 
meet the following requirements--
    (i) It must be automatically deployed and deployment must begin 
during the interval between the time the exit opening means is actuated 
from inside the airplane and the time the exit is fully opened. However, 
each passenger emergency exit which is also a passenger entrance door or 
a service door must be provided with means to prevent deployment of the 
assisting means when it is opened from either the inside or the outside 
under nonemergency conditions for normal use.
    (ii) Except for assisting means installed at Type C exits, it must 
be automatically erected within 6 seconds after deployment is begun. 
Assisting means installed at Type C exits must be automatically erected 
within 10 seconds from the time the opening means of the exit is 
actuated.
    (iii) It must be of such length after full deployment that the lower 
end is self-supporting on the ground and provides safe evacuation of 
occupants to the ground after collapse of one or more legs of the 
landing gear.
    (iv) It must have the capability, in 25-knot winds directed from the 
most critical angle, to deploy and, with the assistance of only one 
person, to remain usable after full deployment to evacuate occupants 
safely to the ground.
    (v) For each system installation (mockup or airplane installed), 
five consecutive deployment and inflation tests must be conducted (per 
exit) without failure, and at least three tests of each such five-test 
series must be conducted using a single representative sample of the 
device. The sample devices must be deployed and inflated by the system's 
primary means after being subjected to the inertia forces specified in 
Sec. 25.561(b). If any part of the system fails or does not function 
properly during the required tests, the cause of the failure or 
malfunction must be corrected by positive means and after that, the full 
series of five consecutive deployment and inflation tests must be 
conducted without failure.
    (2) The assisting means for flightcrew emergency exits may be a rope 
or any other means demonstrated to be suitable for the purpose. If the 
assisting means is a rope, or an approved device equivalent to a rope, 
it must be--
    (i) Attached to the fuselage structure at or above the top of the 
emergency exit opening, or, for a device at a pilot's emergency exit 
window, at another approved location if the stowed device, or its 
attachment, would reduce the pilot's view in flight;
    (ii) Able (with its attachment) to withstand a 400-pound static 
load.
    (b) Assist means from the cabin to the wing are required for each 
type A or Type B exit located above the wing and having a stepdown 
unless the exit without an assist-means can be shown to have a rate of 
passenger egress at least equal to that of the same type of non over-
wing exit. If an assist means is required, it must be automatically 
deployed and automatically erected concurrent with the opening of the 
exit. In the case of assist means installed at Type C exits, it must be 
self-supporting within 10 seconds from the time the opening means of the 
exits is actuated. For all other exit types, it must be self-supporting 
6 seconds after deployment is begun.
    (c) An escape route must be established from each overwing emergency 
exit, and (except for flap surfaces suitable as slides) covered with a 
slip resistant surface. Except where a means for channeling the flow of 
evacuees is provided--
    (1) The escape route from each Type A or Type B passenger emergency 
exit, or any common escape route from two Type III passenger emergency 
exits, must be at least 42 inches wide; that

[[Page 417]]

from any other passenger emergency exit must be at least 24 inches wide; 
and
    (2) The escape route surface must have a reflectance of at least 80 
percent, and must be defined by markings with a surface-to-marking 
contrast ratio of at least 5:1.
    (d) Means must be provided to assist evacuees to reach the ground 
for all Type C exits located over the wing and, if the place on the 
airplane structure at which the escape route required in paragraph (c) 
of this section terminates is more than 6 feet from the ground with the 
airplane on the ground and the landing gear extended, for all other exit 
types.
    (1) If the escape route is over the flap, the height of the terminal 
edge must be measured with the flap in the takeoff or landing position, 
whichever is higher from the ground.
    (2) The assisting means must be usable and self-supporting with one 
or more landing gear legs collapsed and under a 25-knot wind directed 
from the most critical angle.
    (3) The assisting means provided for each escape route leading from 
a Type A or B emergency exit must be capable of carrying simultaneously 
two parallel lines of evacuees; and, the assisting means leading from 
any other exit type must be capable of carrying as many parallel lines 
of evacuees as there are required escape routes.
    (4) The assisting means provided for each escape route leading from 
a Type C exit must be automatically erected within 10 seconds from the 
time the opening means of the exit is actuated, and that provided for 
the escape route leading from any other exit type must be automatically 
erected within 10 seconds after actuation of the erection system.

[Amdt. 25-72, 55 FR 29782, July 20, 1990, as amended by Amdt. 25-88, 61 
FR 57958, Nov. 8, 1996; 62 FR 1817, Jan. 13, 1997]



Sec. 25.811  Emergency exit marking.

    (a) Each passenger emergency exit, its means of access, and its 
means of opening must be conspicuously marked.
    (b) The identity and location of each passenger emergency exit must 
be recognizable from a distance equal to the width of the cabin.
    (c) Means must be provided to assist the occupants in locating the 
exits in conditions of dense smoke.
    (d) The location of each passenger emergency exit must be indicated 
by a sign visible to occupants approaching along the main passenger 
aisle (or aisles). There must be--
    (1) A passenger emergency exit locator sign above the aisle (or 
aisles) near each passenger emergency exit, or at another overhead 
location if it is more practical because of low headroom, except that 
one sign may serve more than one exit if each exit can be seen readily 
from the sign;
    (2) A passenger emergency exit marking sign next to each passenger 
emergency exit, except that one sign may serve two such exits if they 
both can be seen readily from the sign; and
    (3) A sign on each bulkhead or divider that prevents fore and aft 
vision along the passenger cabin to indicate emergency exits beyond and 
obscured by the bulkhead or divider, except that if this is not possible 
the sign may be placed at another appropriate location.
    (e) The location of the operating handle and instructions for 
opening exits from the inside of the airplane must be shown in the 
following manner:
    (1) Each passenger emergency exit must have, on or near the exit, a 
marking that is readable from a distance of 30 inches.
    (2) Each Type A, Type B, Type C or Type I passenger emergency exit 
operating handle must--
    (i) Be self-illuminated with an initial brightness of at least 160 
microlamberts; or
    (ii) Be conspicuously located and well illuminated by the emergency 
lighting even in conditions of occupant crowding at the exit.
    (3) [Reserved]
    (4) Each Type A, Type B, Type C, Type I, or Type II passenger 
emergency exit with a locking mechanism released by rotary motion of the 
handle must be marked--
    (i) With a red arrow, with a shaft at least three-fourths of an inch 
wide and a head twice the width of the shaft, extending along at least 
70 degrees of arc

[[Page 418]]

at a radius approximately equal to three-fourths of the handle length.
    (ii) So that the centerline of the exit handle is within 
plus-minus1 inch of the projected point of the arrow when the 
handle has reached full travel and has released the locking mechanism, 
and
    (iii) With the word ``open'' in red letters 1 inch high, placed 
horizontally near the head of the arrow.
    (f) Each emergency exit that is required to be openable from the 
outside, and its means of opening, must be marked on the outside of the 
airplane. In addition, the following apply:
    (1) The outside marking for each passenger emergency exit in the 
side of the fuselage must include a 2-inch colored band outlining the 
exit.
    (2) Each outside marking including the band, must have color 
contrast to be readily distinguishable from the surrounding fuselage 
surface. The contrast must be such that if the reflectance of the darker 
color is 15 percent or less, the reflectance of the lighter color must 
be at least 45 percent. ``Reflectance'' is the ratio of the luminous 
flux reflected by a body to the luminous flux it receives. When the 
reflectance of the darker color is greater than 15 percent, at least a 
30-percent difference between its reflectance and the reflectance of the 
lighter color must be provided.
    (3) In the case of exists other than those in the side of the 
fuselage, such as ventral or tailcone exists, the external means of 
opening, including instructions if applicable, must be conspicuously 
marked in red, or bright chrome yellow if the background color is such 
that red is inconspicuous. When the opening means is located on only one 
side of the fuselage, a conspicuous marking to that effect must be 
provided on the other side.
    (g) Each sign required by paragraph (d) of this section may use the 
word ``exit'' in its legend in place of the term ``emergency exit''.

[Amdt. 25-15, 32 FR 13264, Sept. 20, 1967, as amended by Amdt. 25-32, 37 
FR 3970, Feb. 24, 1972; Amdt. 25-46, 43 FR 50597, Oct. 30, 1978; 43 FR 
52495, Nov. 13, 1978; Amdt. 25-79, 58 FR 45229, Aug. 26, 1993; Amdt. 25-
88, 61 FR 57958, Nov. 8, 1996]



Sec. 25.812  Emergency lighting.

    (a) An emergency lighting system, independent of the main lighting 
system, must be installed. However, the sources of general cabin 
illumination may be common to both the emergency and the main lighting 
systems if the power supply to the emergency lighting system is 
independent of the power supply to the main lighting system. The 
emergency lighting system must include:
    (1) Illuminated emergency exit marking and locating signs, sources 
of general cabin illumination, interior lighting in emergency exit 
areas, and floor proximity escape path marking.
    (2) Exterior emergency lighting.
    (b) Emergency exit signs--
    (1) For airplanes that have a passenger seating configuration, 
excluding pilot seats, of 10 seats or more must meet the following 
requirements:
    (i) Each passenger emergency exit locator sign required by 
Sec. 25.811(d)(1) and each passenger emergency exit marking sign 
required by Sec. 25.811(d)(2) must have red letters at least 1\1/2\ 
inches high on an illuminated white background, and must have an area of 
at least 21 square inches excluding the letters. The lighted background-
to-letter contrast must be at least 10 : 1. The letter height to stroke-
width ratio may not be more than 7 : 1 nor less than 6 : 1. These signs 
must be internally electrically illuminated with a background brightness 
of at least 25 foot-lamberts and a high-to-low background contrast no 
greater than 3 : 1.
    (ii) Each passenger emergency exit sign required by 
Sec. 25.811(d)(3) must have red letters at least 1\1/2\ inches high on a 
white background having an area of at least 21 square inches excluding 
the letters. These signs must be internally electrically illuminated or 
self-illuminated by other than electrical means and must have an initial 
brightness of at least 400 microlamberts. The colors may be reversed in 
the case of a sign that is self-illuminated by other than electrical 
means.
    (2) For airplanes that have a passenger seating configuration, 
excluding pilot seats, of nine seats or less, that are required by 
Sec. 25.811(d)(1), (2), and (3) must have red letters at least 1 inch 
high on a white background at least 2

[[Page 419]]

inches high. These signs may be internally electrically illuminated, or 
self-illuminated by other than electrical means, with an initial 
brightness of at least 160 microlamberts. The colors may be reversed in 
the case of a sign that is self-illuminated by other than electrical 
means.
    (c) General illumination in the passenger cabin must be provided so 
that when measured along the centerline of main passenger aisle(s), and 
cross aisle(s) between main aisles, at seat arm-rest height and at 40-
inch intervals, the average illumination is not less than 0.05 foot-
candle and the illumination at each 40-inch interval is not less than 
0.01 foot-candle. A main passenger aisle(s) is considered to extend 
along the fuselage from the most forward passenger emergency exit or 
cabin occupant seat, whichever is farther forward, to the most rearward 
passenger emergency exit or cabin occupant seat, whichever is farther 
aft.
    (d) The floor of the passageway leading to each floor-level 
passenger emergency exit, between the main aisles and the exit openings, 
must be provided with illumination that is not less than 0.02 foot-
candle measured along a line that is within 6 inches of and parallel to 
the floor and is centered on the passenger evacuation path.
    (e) Floor proximity emergency escape path marking must provide 
emergency evacuation guidance for passengers when all sources of 
illumination more than 4 feet above the cabin aisle floor are totally 
obscured. In the dark of the night, the floor proximity emergency escape 
path marking must enable each passenger to--
    (1) After leaving the passenger seat, visually identify the 
emergency escape path along the cabin aisle floor to the first exits or 
pair of exits forward and aft of the seat; and
    (2) Readily identify each exit from the emergency escape path by 
reference only to markings and visual features not more than 4 feet 
above the cabin floor.
    (f) Except for subsystems provided in accordance with paragraph (h) 
of this section that serve no more than one assist means, are 
independent of the airplane's main emergency lighting system, and are 
automatically activated when the assist means is erected, the emergency 
lighting system must be designed as follows.
    (1) The lights must be operable manually from the flight crew 
station and from a point in the passenger compartment that is readily 
accessible to a normal flight attendant seat.
    (2) There must be a flight crew warning light which illuminates when 
power is on in the airplane and the emergency lighting control device is 
not armed.
    (3) The cockpit control device must have an ``on,'' ``off,'' and 
``armed'' position so that when armed in the cockpit or turned on at 
either the cockpit or flight attendant station the lights will either 
light or remain lighted upon interruption (except an interruption caused 
by a transverse vertical separation of the fuselage during crash 
landing) of the airplane's normal electric power. There must be a means 
to safeguard against inadvertent operation of the control device from 
the ``armed'' or ``on'' positions.
    (g) Exterior emergency lighting must be provided as follows:
    (1) At each overwing emergency exit the illumination must be--
    (i) Not less than 0.03 foot-candle (measured normal to the direction 
of the incident light) on a 2-square-foot area where an evacuee is 
likely to make his first step outside the cabin;
    (ii) Not less than 0.05 foot-candle (measured normal to the 
direction of incident light) along the 30 percent of the slip-resistant 
portion of the escape route required in Sec. 25.810(c) that is farthest 
from the exit for the minimum required width of the escape route; and
    (iii) Not less than 0.03 foot-candle on the ground surface with the 
landing gear extended (measured normal to the direction of the incident 
light) where an evacuee using the established escape route would 
normally make first contact with the ground.
    (2) At each non-overwing emergency exit not required by 
Sec. 25.809(f) to have descent assist means the illumination must be not 
less than 0.03 foot-candle (measured normal to the direction of the 
incident light) on the ground surface with the landing gear extended 
where an evacuee is likely to make his first contact with the ground 
outside the cabin.

[[Page 420]]

    (h) The means required in Sec. 25.809 (f)(1) and (h) to assist the 
occupants in descending to the ground must be illuminated so that the 
erected assist means is visible from the airplane.
    (1) If the assist means is illuminated by exterior emergency 
lighting, it must provide illumination of not less than 0.03 foot-candle 
(measured normal to the direction of the incident light) at the ground 
end of the erected assist means where an evacuee using the established 
escape route would normally make first contact with the ground, with the 
airplane in each of the attitudes corresponding to the collapse of one 
or more legs of the landing gear.
    (2) If the emergency lighting subsystem illuminating the assist 
means serves no other assist means, is independent of the airplane's 
main emergency lighting system, and is automatically activated when the 
assist means is erected, the lighting provisions--
    (i) May not be adversely affected by stowage; and
    (ii) Must provide illumination of not less than 0.03 foot-candle 
(measured normal to the direction of incident light) at the ground and 
of the erected assist means where an evacuee would normally make first 
contact with the ground, with the airplane in each of the attitudes 
corresponding to the collapse of one or more legs of the landing gear.
    (i) The energy supply to each emergency lighting unit must provide 
the required level of illumination for at least 10 minutes at the 
critical ambient conditions after emergency landing.
    (j) If storage batteries are used as the energy supply for the 
emergency lighting system, they may be recharged from the airplane's 
main electric power system: Provided, That, the charging circuit is 
designed to preclude inadvertent battery discharge into charging circuit 
faults.
    (k) Components of the emergency lighting system, including 
batteries, wiring relays, lamps, and switches must be capable of normal 
operation after having been subjected to the inertia forces listed in 
Sec. 25.561(b).
    (l) The emergency lighting system must be designed so that after any 
single transverse vertical separation of the fuselage during crash 
landing--
    (1) Not more than 25 percent of all electrically illuminated 
emergency lights required by this section are rendered inoperative, in 
addition to the lights that are directly damaged by the separation;
    (2) Each electrically illuminated exit sign required under 
Sec. 25.811(d)(2) remains operative exclusive of those that are directly 
damaged by the separation; and
    (3) At least one required exterior emergency light for each side of 
the airplane remains operative exclusive of those that are directly 
damaged by the separation.

[Amdt. 25-15, 32 FR 13265, Sept. 20, 1967, as amended by Amdt. 25-28, 36 
FR 16899, Aug. 26, 1971; Amdt. 25-32, 37 FR 3971, Feb. 24, 1972; Amdt. 
25-46, 43 FR 50597, Oct. 30, 1978; Amdt. 25-58, 49 FR 43186, Oct. 26, 
1984; Amdt. 25-88, 61 FR 57958, Nov. 8, 1996]



Sec. 25.813  Emergency exit access.

    Each required emergency exit must be accessible to the passengers 
and located where it will afford an effective means of evacuation. 
Emergency exit distribution must be as uniform as practical, taking 
passenger distribution into account; however, the size and location of 
exits on both sides of the cabin need not be symmetrical. If only one 
floor level exit per side is prescribed, and the airplane does not have 
a tailcone or ventral emergency exit, the floor level exit must be in 
the rearward part of the passenger compartment, unless another location 
affords a more effective means of passenger evacuation. Where more than 
one floor level exit per side is prescribed, at least one floor level 
exit per side must be located near each end of the cabin, except that 
this provision does not apply to combination cargo/passenger 
configurations. In addition--
    (a) There must be a passageway leading from the nearest main aisle 
to each Type A, Type B, Type C, Type I, or Type II emergency exit and 
between individual passenger areas. Each passageway leading to a Type A 
or Type B exit must be unobstructed and at least 36

[[Page 421]]

inches wide. Passageways between individual passenger areas and those 
leading to Type I, Type II, or Type C emergency exits must be 
unobstructed and at least 20 inches wide. Unless there are two or more 
main aisles, each Type A or B exit must be located so that there is 
passenger flow along the main aisle to that exit from both the forward 
and aft directions. If two or more main aisles are provided, there must 
be unobstructed cross-aisles at least 20 inches wide between main 
aisles. There must be--
    (1) A cross-aisle which leads directly to each passageway between 
the nearest main aisle and a Type A or B exit; and
    (2) A cross-aisle which leads to the immediate vicinity of each 
passageway between the nearest main aisle and a Type 1, Type II, or Type 
III exit; except that when two Type III exits are located within three 
passenger rows of each other, a single cross-aisle may be used if it 
leads to the vicinity between the passageways from the nearest main 
aisle to each exit.
    (b) Adequate space to allow crewmember(s) to assist in the 
evacuation of passengers must be provided as follows:
    (1) The assist space must not reduce the unobstructed width of the 
passageway below that required for the exit.
    (2) For each Type A or Type B exit, assist space must be provided at 
each side of the exit regardless of whether a means is required by 
Sec. 25.810(a) to assist passengers in descending to the ground from 
that exit.
    (3) Assist space must be provided at one side of any other type exit 
required by Sec. 25.810(a) to have a means to assist passengers in 
descending to the ground from that exit.
    (c) The following must be provided for each Type III or Type IV 
exit--(1) There must be access from the nearest aisle to each exit. In 
addition, for each Type III exit in an airplane that has a passenger 
seating configuration of 60 or more--
    (i) Except as provided in paragraph (c)(1)(ii), the access must be 
provided by an unobstructed passageway that is at least 10 inches in 
width for interior arrangements in which the adjacent seat rows on the 
exit side of the aisle contain no more than two seats, or 20 inches in 
width for interior arrangements in which those rows contain three seats. 
The width of the passageway must be measured with adjacent seats 
adjusted to their most adverse position. The centerline of the required 
passageway width must not be displaced more than 5 inches horizontally 
from that of the exit.
    (ii) In lieu of one 10- or 20-inch passageway, there may be two 
passageways, between seat rows only, that must be at least 6 inches in 
width and lead to an unobstructed space adjacent to each exit. (Adjacent 
exits must not share a common passageway.) The width of the passageways 
must be measured with adjacent seats adjusted to their most adverse 
position. The unobstructed space adjacent to the exit must extend 
vertically from the floor to the ceiling (or bottom of sidewall stowage 
bins), inboard from the exit for a distance not less than the width of 
the narrowest passenger seat installed on the airplane, and from the 
forward edge of the forward passageway to the aft edge of the aft 
passageway. The exit opening must be totally within the fore and aft 
bounds of the unobstructed space.
    (2) In addition to the access--
    (i) For airplanes that have a passenger seating configuration of 20 
or more, the projected opening of the exit provided must not be 
obstructed and there must be no interference in opening the exit by 
seats, berths, or other protrusions (including any seatback in the most 
adverse position) for a distance from that exit not less than the width 
of the narrowest passenger seat installed on the airplane.
    (ii) For airplanes that have a passenger seating configuration of 19 
or fewer, there may be minor obstructions in this region, if there are 
compensating factors to maintain the effectiveness of the exit.
    (3) For each Type III exit, regardless of the passenger capacity of 
the airplane in which it is installed, there must be placards that--
    (i) Are readable by all persons seated adjacent to and facing a 
passageway to the exit;

[[Page 422]]

    (ii) Accurately state or illustrate the proper method of opening the 
exit, including the use of handholds; and
    (iii) If the exit is a removable hatch, state the weight of the 
hatch and indicate an appropriate location to place the hatch after 
removal.
    (d) If it is necessary to pass through a passageway between 
passenger compartments to reach any required emergency exit from any 
seat in the passenger cabin, the passageway must be unobstructed. 
However, curtains may be used if they allow free entry through the 
passageway.
    (e) No door may be installed in any partition between passenger 
compartments.
    (f) If it is necessary to pass through a doorway separating the 
passenger cabin from other areas to reach any required emergency exit 
from any passenger seat, the door must have a means to latch it in open 
position. The latching means must be able to withstand the loads imposed 
upon it when the door is subjected to the ultimate inertia forces, 
relative to the surrounding structure, listed in Sec. 25.561(b).

[Amdt. 25-1, 30 FR 3204, Mar. 9, 1965, as amended by Amdt. 25-15, 32 FR 
13265, Sept. 20, 1967; Amdt. 25-32, 37 FR 3971, Feb. 24, 1972; Amdt. 25-
46, 43 FR 50597, Oct. 30, 1978; Amdt. 25-72, 55 FR 29783, July 20, 1990; 
Amdt. 25-76, 57 FR 19244, May 4, 1992; Amdt. 25-76, 57 FR 29120, June 
30, 1992; Amdt. 25-88, 61 FR 57958, Nov. 8, 1996]



Sec. 25.815  Width of aisle.

    The passenger aisle width at any point between seats must equal or 
exceed the values in the following table:

------------------------------------------------------------------------
                                                     Minimum passenger
                                                   aisle width (inches)
                                                 -----------------------
           Passenger seating capacity              Less than  25 in. and
                                                    25 in.     more from
                                                  from floor     floor
------------------------------------------------------------------------
10 or less......................................      \1\ 12          15
11 through 19...................................          12          20
20 or more......................................          15          20
------------------------------------------------------------------------
\1\ A narrower width not less than 9 inches may be approved when
  substantiated by tests found necessary by the Administrator.


[Amdt. 25-15, 32 FR 13265, Sept. 20, 1967, as amended by Amdt. 25-38, 41 
FR 55466, Dec. 20, 1976]



Sec. 25.817  Maximum number of seats abreast.

    On airplanes having only one passenger aisle, no more than three 
seats abreast may be placed on each side of the aisle in any one row.

[Amdt. 25-15, 32 FR 13265, Sept. 20, 1967]



Sec. 25.819  Lower deck service compartments (including galleys).

    For airplanes with a service compartment located below the main 
deck, which may be occupied during taxi or flight but not during takeoff 
or landing, the following apply:
    (a) There must be at least two emergency evacuation routes, one at 
each end of each lower deck service compartment or two having sufficient 
separation within each compartment, which could be used by each occupant 
of the lower deck service compartment to rapidly evacuate to the main 
deck under normal and emergency lighting conditions. The routes must 
provide for the evacuation of incapacitated persons, with assistance. 
The use of the evacuation routes may not be dependent on any powered 
device. The routes must be designed to minimize the possibility of 
blockage which might result from fire, mechanical or structural failure, 
or persons standing on top of or against the escape routes. In the event 
the airplane's main power system or compartment main lighting system 
should fail, emergency illumination for each lower deck service 
compartment must be automatically provided.
    (b) There must be a means for two-way voice communication between 
the flight deck and each lower deck service compartment.
    (c) There must be an aural emergency alarm system, audible during 
normal and emergency conditions, to enable crewmembers on the flight 
deck and at each required floor level emergency exit to alert occupants 
of each lower deck service compartment of an emergency situation.
    (d) There must be a means, readily detectable by occupants of each 
lower deck service compartment, that indicates when seat belts should be 
fastened.
    (e) If a public address system is installed in the airplane, 
speakers must

[[Page 423]]

be provided in each lower deck service compartment.
    (f) For each occupant permitted in a lower deck service compartment, 
there must be a forward or aft facing seat which meets the requirements 
of Sec. 25.785(c) and must be able to withstand maximum flight loads 
when occupied.
    (g) For each powered lift system installed between a lower deck 
service compartment and the main deck for the carriage of persons or 
equipment, or both, the system must meet the following requirements:
    (1) Each lift control switch outside the lift, except emergency stop 
buttons, must be designed to prevent the activation of the life if the 
lift door, or the hatch required by paragraph (g)(3) of this section, or 
both are open.
    (2) An emergency stop button, that when activated will immediately 
stop the lift, must be installed within the lift and at each entrance to 
the lift.
    (3) There must be a hatch capable of being used for evacuating 
persons from the lift that is openable from inside and outside the lift 
without tools, with the lift in any position.

[Amdt. 25-53, 45 FR 41593, June 19, 1980; 45 FR 43154, June 26, 1980]

                         Ventilation and Heating



Sec. 25.831  Ventilation.

    (a) Under normal operating conditions and in the event of any 
probable failure conditions of any system which would adversely affect 
the ventilating air, the ventilation system must be designed to provide 
a sufficient amount of uncontaminated air to enable the crewmembers to 
perform their duties without undue discomfort or fatigue and to provide 
reasonable passenger comfort. For normal operating conditions, the 
ventilation system must be designed to provide each occupant with an 
airflow containing at least 0.55 pounds of fresh air per minute.
    (b) Crew and passenger compartment air must be free from harmful or 
hazardous concentrations of gases or vapors. In meeting this 
requirement, the following apply:
    (1) Carbon monoxide concentrations in excess of 1 part in 20,000 
parts of air are considered hazardous. For test purposes, any acceptable 
carbon monoxide detection method may be used.
    (2) Carbon dioxide concentration during flight must be shown not to 
exceed 0.5 percent by volume (sea level equivalent) in compartments 
normally occupied by passengers or crewmembers.
    (c) There must be provisions made to ensure that the conditions 
prescribed in paragraph (b) of this section are met after reasonably 
probable failures or malfunctioning of the ventilating, heating, 
pressurization, or other systems and equipment.
    (d) If accumulation of hazardous quantities of smoke in the cockpit 
area is reasonably probable, smoke evacuation must be readily 
accomplished, starting with full pressurization and without 
depressurizing beyond safe limits.
    (e) Except as provided in paragraph (f) of this section, means must 
be provided to enable the occupants of the following compartments and 
areas to control the temperature and quantity of ventilating air 
supplied to their compartment or area independently of the temperature 
and quantity of air supplied to other compartments and areas:
    (1) The flight crew compartment.
    (2) Crewmember compartments and areas other than the flight crew 
compartment unless the crewmember compartment or area is ventilated by 
air interchange with other compartments or areas under all operating 
conditions.
    (f) Means to enable the flight crew to control the temperature and 
quantity of ventilating air supplied to the flight crew compartment 
independently of the temperature and quantity of ventilating air 
supplied to other compartments are not required if all of the following 
conditions are met:
    (1) The total volume of the flight crew and passenger compartments 
is 800 cubic feet or less.
    (2) The air inlets and passages for air to flow between flight crew 
and passenger compartments are arranged to provide compartment 
temperatures within 5 degrees F. of each other and adequate ventilation 
to occupants in both compartments.
    (3) The temperature and ventilation controls are accessible to the 
flight crew.

[[Page 424]]

    (g) The exposure time at any given temperature must not exceed the 
values shown in the following graph after any improbable failure 
condition.
[GRAPHIC] [TIFF OMITTED] TR05JN96.007


[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-41, 
42 FR 36970, July 18, 1977; Amdt. 25-87, 61 FR 28695, June 5, 1996; 
Amdt. 25-89, 61 FR 63956, Dec. 2, 1996]



Sec. 25.832  Cabin ozone concentration.

    (a) The airplane cabin ozone concentration during flight must be 
shown not to exceed--
    (1) 0.25 parts per million by volume, sea level equivalent, at any 
time above flight level 320; and
    (2) 0.1 parts per million by volume, sea level equivalent, time-
weighted average during any 3-hour interval above flight level 270.
    (b) For the purpose of this section, ``sea level equivalent'' refers 
to conditions of 25 deg. C and 760 millimeters of mercury pressure.
    (c) Compliance with this section must be shown by analysis or tests 
based on airplane operational procedures and performance limitations, 
that demonstrate that either--
    (1) The airplane cannot be operated at an altitude which would 
result in cabin ozone concentrations exceeding the limits prescribed by 
paragraph (a) of this section; or
    (2) The airplane ventilation system, including any ozone control 
equipment, will maintain cabin ozone concentrations at or below the 
limits prescribed by paragraph (a) of this section.

[Amdt. 25-50, 45 FR 3883, Jan. 1, 1980, as amended by Amdt. 25-56, 47 FR 
58489, Dec. 30, 1982; Amdt. 25-94, 63 FR 8848, Feb. 23, 1998]



Sec. 25.833  Combustion heating systems.

    Combustion heaters must be approved.

[Amdt. 25-72, 55 FR 29783, July 20, 1990]

                             Pressurization



Sec. 25.841  Pressurized cabins.

    (a) Pressurized cabins and compartments to be occupied must be 
equipped to provide a cabin pressure altitude of not more than 8,000 
feet at the maximum operating altitude of the airplane under normal 
operating conditions.
    (1) If certification for operation above 25,000 feet is requested, 
the airplane must be designed so that occupants will not be exposed to 
cabin pressure altitudes in excess of 15,000 feet after any probable 
failure condition in the pressurization system.
    (2) The airplane must be designed so that occupants will not be 
exposed to a cabin pressure altitude that exceeds the following after 
decompression from

[[Page 425]]

any failure condition not shown to be extremely improbable:
    (i) Twenty-five thousand (25,000) feet for more than 2 minutes; or
    (ii) Forty thousand (40,000) feet for any duration.
    (3) Fuselage structure, engine and system failures are to be 
considered in evaluating the cabin decompression.
    (b) Pressurized cabins must have at least the following valves, 
controls, and indicators for controlling cabin pressure:
    (1) Two pressure relief valves to automatically limit the positive 
pressure differential to a predetermined value at the maximum rate of 
flow delivered by the pressure source. The combined capacity of the 
relief valves must be large enough so that the failure of any one valve 
would not cause an appreciable rise in the pressure differential. The 
pressure differential is positive when the internal pressure is greater 
than the external.
    (2) Two reverse pressure differential relief valves (or their 
equivalents) to automatically prevent a negative pressure differential 
that would damage the structure. One valve is enough, however, if it is 
of a design that reasonably precludes its malfunctioning.
    (3) A means by which the pressure differential can be rapidly 
equalized.
    (4) An automatic or manual regulator for controlling the intake or 
exhaust airflow, or both, for maintaining the required internal 
pressures and airflow rates.
    (5) Instruments at the pilot or flight engineer station to show the 
pressure differential, the cabin pressure altitude, and the rate of 
change of the cabin pressure altitude.
    (6) Warning indication at the pilot or flight engineer station to 
indicate when the safe or preset pressure differential and cabin 
pressure altitude limits are exceeded. Appropriate warning markings on 
the cabin pressure differential indicator meet the warning requirement 
for pressure differential limits and an aural or visual signal (in 
addition to cabin altitude indicating means) meets the warning 
requirement for cabin pressure altitude limits if it warns the flight 
crew when the cabin pressure altitude exceeds 10,000 feet.
    (7) A warning placard at the pilot or flight engineer station if the 
structure is not designed for pressure differentials up to the maximum 
relief valve setting in combination with landing loads.
    (8) The pressure sensors necessary to meet the requirements of 
paragraphs (b)(5) and (b)(6) of this section and Sec. 25.1447(c), must 
be located and the sensing system designed so that, in the event of loss 
of cabin pressure in any passenger or crew compartment (including upper 
and lower lobe galleys), the warning and automatic presentation devices, 
required by those provisions, will be actuated without any delay that 
would significantly increase the hazards resulting from decompression.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55466, Dec. 20, 1976; Amdt. 25-87, 61 FR 28696, June 5, 1996]



Sec. 25.843  Tests for pressurized cabins.

    (a) Strength test. The complete pressurized cabin, including doors, 
windows, and valves, must be tested as a pressure vessel for the 
pressure differential specified in Sec. 25.365(d).
    (b) Functional tests. The following functional tests must be 
performed:
    (1) Tests of the functioning and capacity of the positive and 
negative pressure differential valves, and of the emergency release 
valve, to stimulate the effects of closed regulator valves.
    (2) Tests of the pressurization system to show proper functioning 
under each possible condition of pressure, temperature, and moisture, up 
to the maximum altitude for which certification is requested.
    (3) Flight tests, to show the performance of the pressure supply, 
pressure and flow regulators, indicators, and warning signals, in steady 
and stepped climbs and descents at rates corresponding to the maximum 
attainable within the operating limitations of the airplane, up to the 
maximum altitude for which certification is requested.
    (4) Tests of each door and emergency exit, to show that they operate 
properly after being subjected to the flight tests prescribed in 
paragraph (b)(3) of this section.

[[Page 426]]

                             Fire Protection



Sec. 25.851  Fire extinguishers.

    (a) Hand fire extinguishers. (1) The following minimum number of 
hand fire extinguishers must be conveniently located and evenly 
distributed in passenger compartments:

------------------------------------------------------------------------
                                                              No. of
                   Passenger capacity                     extinguishers
------------------------------------------------------------------------
  7 through 30.........................................                1
 31 through 60.........................................                2
 61 through 200........................................                3
201 through 300........................................                4
301 through 400........................................                5
401 through 500........................................                6
501 through 600........................................                7
601 through 700........................................                8
------------------------------------------------------------------------

    (2) At least one hand fire extinguisher must be conveniently located 
in the pilot compartment.
    (3) At least one readily accessible hand fire extinguisher must be 
available for use in each Class A or Class B cargo or baggage 
compartment and in each Class E cargo or baggage compartment that is 
accessible to crewmembers in flight.
    (4) At least one hand fire extinguisher must be located in, or 
readily accessible for use in, each galley located above or below the 
passenger compartment.
    (5) Each hand fire extinguisher must be approved.
    (6) At least one of the required fire extinguishers located in the 
passenger compartment of an airplane with a passenger capacity of at 
least 31 and not more than 60, and at least two of the fire 
extinguishers located in the passenger compartment of an airplane with a 
passenger capacity of 61 or more must contain Halon 1211 
(bromochlorodifluoromethane CBrC1 F2), or 
equivalent, as the extinguishing agent. The type of extinguishing agent 
used in any other extinguisher required by this section must be 
appropriate for the kinds of fires likely to occur where used.
    (7) The quantity of extinguishing agent used in each extinguisher 
required by this section must be appropriate for the kinds of fires 
likely to occur where used.
    (8) Each extinguisher intended for use in a personnel compartment 
must be designed to minimize the hazard of toxic gas concentration.
    (b) Built-in fire extinguishers. If a built-in fire extinguisher is 
provided--
    (1) Each built-in fire extinguishing system must be installed so 
that--
    (i) No extinguishing agent likely to enter personnel compartments 
will be hazardous to the occupants; and
    (ii) No discharge of the extinguisher can cause structural damage.
    (2) The capacity of each required built-in fire extinguishing system 
must be adequate for any fire likely to occur in the compartment where 
used, considering the volume of the compartment and the ventilation 
rate.

[Amdt. 25-74, 56 FR 15456, Apr. 16, 1991]



Sec. 25.853  Compartment interiors.

    For each compartment occupied by the crew or passengers, the 
following apply:
    (a) Materials (including finishes or decorative surfaces applied to 
the materials) must meet the applicable test criteria prescribed in part 
I of appendix F of this part, or other approved equivalent methods, 
regardless of the passenger capacity of the airplane.
    (b)  [Reserved]
    (c) In addition to meeting the requirements of paragraph (a) of this 
section, seat cushions, except those on flight crewmember seats, must 
meet the test requirements of part II of appendix F of this part, or 
other equivalent methods, regardless of the passenger capacity of the 
airplane.
    (d) Except as provided in paragraph (e) of this section, the 
following interior components of airplanes with passenger capacities of 
20 or more must also meet the test requirements of parts IV and V of 
appendix F of this part, or other approved equivalent method, in 
addition to the flammability requirements prescribed in paragraph (a) of 
this section:
    (1) Interior ceiling and wall panels, other than lighting lenses and 
windows;
    (2) Partitions, other than transparent panels needed to enhance 
cabin safety;
    (3) Galley structure, including exposed surfaces of stowed carts and 
standard containers and the cavity

[[Page 427]]

walls that are exposed when a full complement of such carts or 
containers is not carried; and
    (4) Large cabinets and cabin stowage compartments, other than 
underseat stowage compartments for stowing small items such as magazines 
and maps.
    (e) The interiors of compartments, such as pilot compartments, 
galleys, lavatories, crew rest quarters, cabinets and stowage 
compartments, need not meet the standards of paragraph (d) of this 
section, provided the interiors of such compartments are isolated from 
the main passenger cabin by doors or equivalent means that would 
normally be closed during an emergency landing condition.
    (f) Smoking is not to be allowed in lavatories. If smoking is to be 
allowed in any other compartment occupied by the crew or passengers, an 
adequate number of self-contained, removable ashtrays must be provided 
for all seated occupants.
    (g) Regardless of whether smoking is allowed in any other part of 
the airplane, lavatories must have self-contained, removable ashtrays 
located conspicuously on or near the entry side of each lavatory door, 
except that one ashtray may serve more than one lavatory door if the 
ashtray can be seen readily from the cabin side of each lavatory served.
    (h) Each receptacle used for the disposal of flammable waste 
material must be fully enclosed, constructed of at least fire resistant 
materials, and must contain fires likely to occur in it under normal 
use. The capability of the receptacle to contain those fires under all 
probable conditions of wear, misalignment, and ventilation expected in 
service must be demonstrated by test.

[Amdt. 25-83, 60 FR 6623, Feb. 2, 1995]



Sec. 25.854  Lavatory fire protection.

    For airplanes with a passenger capacity of 20 or more:
    (a) Each lavatory must be equipped with a smoke detector system or 
equivalent that provides a warning light in the cockpit, or provides a 
warning light or audible warning in the passenger cabin that would be 
readily detected by a flight attendant; and
    (b) Each lavatory must be equipped with a built-in fire extinguisher 
for each disposal receptacle for towels, paper, or waste, located within 
the lavatory. The extinguisher must be designed to discharge 
automatically into each disposal receptacle upon occurrence of a fire in 
that receptacle.

[Amdt. 25-74, 56 FR 15456, Apr. 16, 1991]



Sec. 25.855  Cargo or baggage compartments.

    For each cargo and baggage compartment not occupied by crew or 
passengers, the following apply:
    (a) The compartment must meet one of the class requirements of 
Sec. 25.857.
    (b) Class B through Class E cargo or baggage compartments, as 
defined in Sec. 25.857, must have a liner, and the liner must be 
separate from (but may be attached to) the airplane structure.
    (c) Ceiling and sidewall liner panels of Class C compartments must 
meet the test requirements of part III of appendix F of this part or 
other approved equivalent methods.
    (d) All other materials used in the construction of the cargo or 
baggage compartment must meet the applicable test criteria prescribed in 
part I of appendix F of this part or other approved equivalent methods.
    (e) No compartment may contain any controls, wiring, lines, 
equipment, or accessories whose damage or failure would affect safe 
operation, unless those items are protected so that--
    (1) They cannot be damaged by the movement of cargo in the 
compartment, and
    (2) Their breakage or failure will not create a fire hazard.
    (f) There must be means to prevent cargo or baggage from interfering 
with the functioning of the fire protective features of the compartment.
    (g) Sources of heat within the compartment must be shielded and 
insulated to prevent igniting the cargo or baggage.
    (h) Flight tests must be conducted to show compliance with the 
provisions of Sec. 25.857 concerning--
    (1) Compartment accessibility,
    (2) The entries of hazardous quantities of smoke or extinguishing 
agent into compartments occupied by the crew or passengers, and

[[Page 428]]

    (3) The dissipation of the extinguishing agent in Class C 
compartments.
    (i) During the above tests, it must be shown that no inadvertent 
operation of smoke or fire detectors in any compartment would occur as a 
result of fire contained in any other compartment, either during or 
after extinguishment, unless the extinguishing system floods each such 
compartment simultaneously.

[Amdt. 25-72, 55 FR 29784, July 20, 1990, as amended by Amdt. 25-93, 63 
FR 8048, Feb. 17, 1998]



Sec. 25.857  Cargo compartment classification.

    (a) Class A; A Class A cargo or baggage compartment is one in 
which--
    (1) The presence of a fire would be easily discovered by a 
crewmember while at his station; and
    (2) Each part of the compartment is easily accessible in flight.
    (b) Class B. A Class B cargo or baggage compartment is one in 
which--
    (1) There is sufficient access in flight to enable a crewmember to 
effectively reach any part of the compartment with the contents of a 
hand fire extinguisher;
    (2) When the access provisions are being used, no hazardous quantity 
of smoke, flames, or extinguishing agent, will enter any compartment 
occupied by the crew or passengers;
    (3) There is a separate approved smoke detector or fire detector 
system to give warning at the pilot or flight engineer station.
    (c) Class C. A Class C cargo or baggage compartment is one not 
meeting the requirements for either a Class A or B compartment but in 
which--
    (1) There is a separate approved smoke detector or fire detector 
system to give warning at the pilot or flight engineer station;
    (2) There is an approved built-in fire extinguishing or suppression 
system controllable from the cockpit.
    (3) There are means to exclude hazardous quantities of smoke, 
flames, or extinguishing agent, from any compartment occupied by the 
crew or passengers;
    (4) There are means to control ventilation and drafts within the 
compartment so that the extinguishing agent used can control any fire 
that may start within the compartment.
    (d) [Reserved]
    (e) Class E. A Class E cargo compartment is one on airplanes used 
only for the carriage of cargo and in which--
    (1)  [Reserved]
    (2) There is a separate approved smoke or fire detector system to 
give warning at the pilot or flight engineer station;
    (3) There are means to shut off the ventilating airflow to, or 
within, the compartment, and the controls for these means are accessible 
to the flight crew in the crew compartment;
    (4) There are means to exclude hazardous quantities of smoke, 
flames, or noxious gases, from the flight crew compartment; and
    (5) The required crew emergency exits are accessible under any cargo 
loading condition.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-32, 
37 FR 3972, Feb. 24, 1972; Amdt. 25-60, 51 FR 18243, May 16, 1986; Amdt. 
25-93, 63 FR 8048, Feb. 17, 1998]



Sec. 25.858  Cargo or baggage compartment smoke or fire detection systems.

    If certification with cargo or baggage compartment smoke or fire 
detection provisions is requested, the following must be met for each 
cargo or baggage compartment with those provisions:
    (a) The detection system must provide a visual indication to the 
flight crew within one minute after the start of a fire.
    (b) The system must be capable of detecting a fire at a temperature 
significantly below that at which the structural integrity of the 
airplane is substantially decreased.
    (c) There must be means to allow the crew to check in flight, the 
functioning of each fire detector circuit.
    (d) The effectiveness of the detection system must be shown for all 
approved operating configurations and conditions.

[Amdt. 25-54, 45 FR 60173, Sept. 11, 1980, as amended by Amdt. 25-93, 63 
FR 8048, Feb. 17, 1998]

[[Page 429]]



Sec. 25.859  Combustion heater fire protection.

    (a) Combustion heater fire zones. The following combustion heater 
fire zones must be protected from fire in accordance with the applicable 
provisions of Secs. 25.1181 through 25.1191 and Secs. 25.1195 through 
25.1203;
    (1) The region surrounding the heater, if this region contains any 
flammable fluid system components (excluding the heater fuel system), 
that could--
    (i) Be damaged by heater malfunctioning; or
    (ii) Allow flammable fluids or vapors to reach the heater in case of 
leakage.
    (2) The region surrounding the heater, if the heater fuel system has 
fittings that, if they leaked, would allow fuel or vapors to enter this 
region.
    (3) The part of the ventilating air passage that surrounds the 
combustion chamber. However, no fire extinguishment is required in cabin 
ventilating air passages.
    (b) Ventilating air ducts. Each ventilating air duct passing through 
any fire zone must be fireproof. In addition--
    (1) Unless isolation is provided by fireproof valves or by equally 
effective means, the ventilating air duct downstream of each heater must 
be fireproof for a distance great enough to ensure that any fire 
originating in the heater can be contained in the duct; and
    (2) Each part of any ventilating duct passing through any region 
having a flammable fluid system must be constructed or isolated from 
that system so that the malfunctioning of any component of that system 
cannot introduce flammable fluids or vapors into the ventilating 
airstream.
    (c) Combustion air ducts. Each combustion air duct must be fireproof 
for a distance great enough to prevent damage from backfiring or reverse 
flame propagation. In addition--
    (1) No combustion air duct may have a common opening with the 
ventilating airstream unless flames from backfires or reverse burning 
cannot enter the ventilating airstream under any operating condition, 
including reverse flow or malfunctioning of the heater or its associated 
components; and
    (2) No combustion air duct may restrict the prompt relief of any 
backfire that, if so restricted, could cause heater failure.
    (d) Heater controls; general. Provision must be made to prevent the 
hazardous accumulation of water or ice on or in any heater control 
component, control system tubing, or safety control.
    (e) Heater safety controls. For each combustion heater there must be 
the following safety control means:
    (1) Means independent of the components provided for the normal 
continuous control of air temperature, airflow, and fuel flow must be 
provided, for each heater, to automatically shut off the ignition and 
fuel supply to that heater at a point remote from that heater when any 
of the following occurs:
    (i) The heat exchanger temperature exceeds safe limits.
    (ii) The ventilating air temperature exceeds safe limits.
    (iii) The combustion airflow becomes inadequate for safe operation.
    (iv) The ventilating airflow becomes inadequate for safe operation.
    (2) The means of complying with paragraph (e)(1) of this section for 
any individual heater must--
    (i) Be independent of components serving any other heater whose heat 
output is essential for safe operation; and
    (ii) Keep the heater off until restarted by the crew.
    (3) There must be means to warn the crew when any heater whose heat 
output is essential for safe operation has been shut off by the 
automatic means prescribed in paragraph (e)(1) of this section.
    (f) Air intakes. Each combustion and ventilating air intake must be 
located so that no flammable fluids or vapors can enter the heater 
system under any operating condition--
    (1) During normal operation; or
    (2) As a result of the malfunctioning of any other component.
    (g) Heater exhaust. Heater exhaust systems must meet the provisions 
of Secs. 25.1121 and 25.1123. In addition, there must be provisions in 
the design of the heater exhaust system to safely expel the products of 
combustion to prevent the occurrence of--

[[Page 430]]

    (1) Fuel leakage from the exhaust to surrounding compartments;
    (2) Exhaust gas impingement on surrounding equipment or structure;
    (3) Ignition of flammable fluids by the exhaust, if the exhaust is 
in a compartment containing flammable fluid lines; and
    (4) Restriction by the exhaust of the prompt relief of backfires 
that, if so restricted, could cause heater failure.
    (h) Heater fuel systems. Each heater fuel system must meet each 
powerplant fuel system requirement affecting safe heater operation. Each 
heater fuel system component within the ventilating airstream must be 
protected by shrouds so that no leakage from those components can enter 
the ventilating airstream.
    (i) Drains. There must be means to safely drain fuel that might 
accumulate within the combustion chamber or the heat exchanger. In 
addition--
    (1) Each part of any drain that operates at high temperatures must 
be protected in the same manner as heater exhausts; and
    (2) Each drain must be protected from hazardous ice accumulation 
under any operating condition.

[Doc. No. 5066, 29 FR 18291, Dec. 24 1964, as amended by Amdt. 25-11, 32 
FR 6912, May 5, 1967; Amdt. 25-23, 35 FR 5676, Apr. 8, 1970]



Sec. 25.863  Flammable fluid fire protection.

    (a) In each area where flammable fluids or vapors might escape by 
leakage of a fluid system, there must be means to minimize the 
probability of ignition of the fluids and vapors, and the resultant 
hazards if ignition does occur.
    (b) Compliance with paragraph (a) of this section must be shown by 
analysis or tests, and the following factors must be considered:
    (1) Possible sources and paths of fluid leakage, and means of 
detecting leakage.
    (2) Flammability characteristics of fluids, including effects of any 
combustible or absorbing materials.
    (3) Possible ignition sources, including electrical faults, 
overheating of equipment, and malfunctioning of protective devices.
    (4) Means available for controlling or extinguishing a fire, such as 
stopping flow of fluids, shutting down equipment, fireproof containment, 
or use of extinguishing agents.
    (5) Ability of airplane components that are critical to safety of 
flight to withstand fire and heat.
    (c) If action by the flight crew is required to prevent or 
counteract a fluid fire (e.g., equipment shutdown or actuation of a fire 
extinguisher) quick acting means must be provided to alert the crew.
    (d) Each area where flammable fluids or vapors might escape by 
leakage of a fluid system must be identified and defined.

[Amdt. 25-23, 35 FR 5676, Apr. 8, 1970, as amended by Amdt. 25-46, 43 FR 
50597, Oct. 30, 1978]



Sec. 25.865  Fire protection of flight controls, engine mounts, and other flight structure.

    Essential flight controls, engine mounts, and other flight 
structures located in designated fire zones or in adjacent areas which 
would be subjected to the effects of fire in the fire zone must be 
constructed of fireproof material or shielded so that they are capable 
of withstanding the effects of fire.

[Amdt. 25-23, 35 FR 5676, Apr. 8, 1970]



Sec. 25.867  Fire protection: other components.

    (a) Surfaces to the rear of the nacelles, within one nacelle 
diameter of the nacelle centerline, must be at least fire-resistant.
    (b) Paragraph (a) of this section does not apply to tail surfaces to 
the rear of the nacelles that could not be readily affected by heat, 
flames, or sparks coming from a designated fire zone or engine 
compartment of any nacelle.

[Amdt. 25-23, 35 FR 5676, Apr. 8, 1970]



Sec. 25.869  Fire protection: systems.

    (a) Electrical system components:
    (1) Components of the electrical system must meet the applicable 
fire and smoke protection requirements of Secs. 25.831(c) and 25.863.
    (2) Electrical cables, terminals, and equipment in designated fire 
zones,

[[Page 431]]

that are used during emergency procedures, must be at least fire 
resistant.
    (3) Main power cables (including generator cables) in the fuselage 
must be designed to allow a reasonable degree of deformation and 
stretching without failure and must be--
    (i) Isolated from flammable fluid lines; or
    (ii) Shrouded by means of electrically insulated, flexible conduit, 
or equivalent, which is in addition to the normal cable insulation.
    (4) Insulation on electrical wire and electrical cable installed in 
any area of the fuselage must be self-extinguishing when tested in 
accordance with the applicable portions of part I, appendix F of this 
part.
    (b) Each vacuum air system line and fitting on the discharge side of 
the pump that might contain flammable vapors or fluids must meet the 
requirements of Sec. 25.1183 if the line or fitting is in a designated 
fire zone. Other vacuum air systems components in designated fire zones 
must be at least fire resistant.
    (c) Oxygen equipment and lines must--
    (1) Not be located in any designated fire zone,
    (2) Be protected from heat that may be generated in, or escape from, 
any designated fire zone, and
    (3) Be installed so that escaping oxygen cannot cause ignition of 
grease, fluid, or vapor accumulations that are present in normal 
operation or as a result of failure or malfunction of any system.

[Amdt. 25-72, 55 FR 29784, July 20, 1990]

                              Miscellaneous



Sec. 25.871  Leveling means.

    There must be means for determining when the airplane is in a level 
position on the ground.

[Amdt. 25-23, 35 FR 5676, Apr. 8, 1970]



Sec. 25.875  Reinforcement near propellers.

    (a) Each part of the airplane near the propeller tips must be strong 
and stiff enough to withstand the effects of the induced vibration and 
of ice thrown from the propeller.
    (b) No window may be near the propeller tips unless it can withstand 
the most severe ice impact likely to occur.



                          Subpart E--Powerplant

                                 General



Sec. 25.901  Installation.

    (a) For the purpose of this part, the airplane powerplant 
installation includes each component that--
    (1) Is necessary for propulsion;
    (2) Affects the control of the major propulsive units; or
    (3) Affects the safety of the major propulsive units between normal 
inspections or overhauls.
    (b) For each powerplant--
    (1) The installation must comply with--
    (i) The installation instructions provided under Sec. 33.5 of this 
chapter; and
    (ii) The applicable provisions of this subpart;
    (2) The components of the installation must be constructed, 
arranged, and installed so as to ensure their continued safe operation 
between normal inspections or overhauls;
    (3) The installation must be accessible for necessary inspections 
and maintenance; and
    (4) The major components of the installation must be electrically 
bonded to the other parts of the airplane.
    (c) For each powerplant and auxiliary power unit installation, it 
must be established that no single failure or malfunction or probable 
combination of failures will jeopardize the safe operation of the 
airplane except that the failure of structural elements need not be 
considered if the probability of such failure is extremely remote.
    (d) Each auxiliary power unit installation must meet the applicable 
provisions of this subpart.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5676, Apr. 8, 1970; Amdt. 25-40, 42 FR 15042, Mar. 17, 1977; Amdt. 
25-46, 43 FR 50597, Oct. 30, 1978]



Sec. 25.903  Engines.

    (a) Engine type certificate. (1) Each engine must have a type 
certificate and must meet the applicable requirements of part 34 of this 
chapter.

[[Page 432]]

    (2) Each turbine engine must comply with one of the following:
    (i) Sections 33.76, 33.77 and 33.78 of this chapter in effect on 
December 13, 2000, or as subsequently amended; or
    (ii) Sections 33.77 and 33.78 of this chapter in effect on April 30, 
1998, or as subsequently amended before December 13, 2000; or
    (iii) Comply with Sec. 33.77 of this chapter in effect on October 
31, 1974, or as subsequently amended prior to April 30, 1998, unless 
that engine's foreign object ingestion service history has resulted in 
an unsafe condition; or
    (iv) Be shown to have a foreign object ingestion service history in 
similar installation locations which has not resulted in any unsafe 
condition.

    Note: Sec. 33.77 of this chapter in effect on October 31, 1974, was 
published in 14 CFR parts 1 to 59, Revised as of January 1, 1975. See 39 
FR 35467, October 1, 1974.

    (b) Engine isolation. The powerplants must be arranged and isolated 
from each other to allow operation, in at least one configuration, so 
that the failure or malfunction of any engine, or of any system that can 
affect the engine, will not--
    (1) Prevent the continued safe operation of the remaining engines; 
or
    (2) Require immediate action by any crewmember for continued safe 
operation.
    (c) Control of engine rotation. There must be means for stopping the 
rotation of any engine individually in flight, except that, for turbine 
engine installations, the means for stopping the rotation of any engine 
need be provided only where continued rotation could jeopardize the 
safety of the airplane. Each component of the stopping system on the 
engine side of the firewall that might be exposed to fire must be at 
least fire-resistant. If hydraulic propeller feathering systems are used 
for this purpose, the feathering lines must be at least fire resistant 
under the operating conditions that may be expected to exist during 
feathering.
    (d) Turbine engine installations. For turbine engine installations--
    (1) Design precautions must be taken to minimize the hazards to the 
airplane in the event of an engine rotor failure or of a fire 
originating within the engine which burns through the engine case.
    (2) The powerplant systems associated with engine control devices, 
systems, and instrumentation, must be designed to give reasonable 
assurance that those engine operating limitations that adversely affect 
turbine rotor structural integrity will not be exceeded in service.
    (e) Restart capability. (1) Means to restart any engine in flight 
must be provided.
    (2) An altitude and airspeed envelope must be established for in-
flight engine restarting, and each engine must have a restart capability 
within that envelope.
    (3) For turbine engine powered airplanes, if the minimum windmilling 
speed of the engines, following the inflight shutdown of all engines, is 
insufficient to provide the necessary electrical power for engine 
ignition, a power source independent of the engine-driven electrical 
power generating system must be provided to permit in-flight engine 
ignition for restarting.
    (f) Auxiliary Power Unit. Each auxiliary power unit must be approved 
or meet the requirements of the category for its intended use.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5676, Apr. 8, 1970; Amdt. 25-40, 42 FR 15042, Mar. 17, 1977; Amdt. 
25-57, 49 FR 6848, Feb. 23, 1984; Amdt. 25-72, 55 FR 29784, July 20, 
1990; Amdt. 25-73, 55 FR 32861, Aug. 10, 1990; Amdt. 25-94, 63 FR 8848, 
Feb. 23, 1998; Amdt. 25-95, 63 FR 14798, Mar. 26, 1998; Amdt. 25-100, 65 
FR 55854, Sept. 14, 2000]



Sec. 25.904  Automatic takeoff thrust control system (ATTCS).

    Each applicant seeking approval for installation of an engine power 
control system that automatically resets the power or thrust on the 
operating engine(s) when any engine fails during the takeoff must comply 
with the requirements of appendix I of this part.

[Amdt. 25-62, 52 FR 43156, Nov. 9, 1987]



Sec. 25.905  Propellers.

    (a) Each propeller must have a type certificate.
    (b) Engine power and propeller shaft rotational speed may not exceed 
the

[[Page 433]]

limits for which the propeller is certificated.
    (c) Each component of the propeller blade pitch control system must 
meet the requirements of Sec. 35.42 of this chapter.
    (d) Design precautions must be taken to minimize the hazards to the 
airplane in the event a propeller blade fails or is released by a hub 
failure. The hazards which must be considered include damage to 
structure and vital systems due to impact of a failed or released blade 
and the unbalance created by such failure or release.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-54, 
45 FR 60173, Sept. 11, 1980; Amdt. 25-57, 49 FR 6848, Feb. 23, 1984; 
Amdt. 25-72, 55 FR 29784, July 20, 1990]



Sec. 25.907  Propeller vibration.

    (a) The magnitude of the propeller blade vibration stresses under 
any normal condition of operation must be determined by actual 
measurement or by comparison with similar installations for which these 
measurements have been made.
    (b) The determined vibration stresses may not exceed values that 
have been shown to be safe for continuous operation.



Sec. 25.925  Propeller clearance.

    Unless smaller clearances are substantiated, propeller clearances 
with the airplane at maximum weight, with the most adverse center of 
gravity, and with the propeller in the most adverse pitch position, may 
not be less than the following:
    (a) Ground clearance. There must be a clearance of at least seven 
inches (for each airplane with nose wheel landing gear) or nine inches 
(for each airplane with tail wheel landing gear) between each propeller 
and the ground with the landing gear statically deflected and in the 
level takeoff, or taxiing attitude, whichever is most critical. In 
addition, there must be positive clearance between the propeller and the 
ground when in the level takeoff attitude with the critical tire(s) 
completely deflated and the corresponding landing gear strut bottomed.
    (b) Water clearance. There must be a clearance of at least 18 inches 
between each propeller and the water, unless compliance with 
Sec. 25.239(a) can be shown with a lesser clearance.
    (c) Structural clearance. There must be--
    (1) At least one inch radial clearance between the blade tips and 
the airplane structure, plus any additional radial clearance necessary 
to prevent harmful vibration;
    (2) At least one-half inch longitudinal clearance between the 
propeller blades or cuffs and stationary parts of the airplane; and
    (3) Positive clearance between other rotating parts of the propeller 
or spinner and stationary parts of the airplane.

Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 55 
FR 29784, July 20, 1990]



Sec. 25.929  Propeller deicing.

    (a) For airplanes intended for use where icing may be expected, 
there must be a means to prevent or remove hazardous ice accumulation on 
propellers or on accessories where ice accumulation would jeopardize 
engine performance.
    (b) If combustible fluid is used for propeller deicing, 
Secs. 25.1181 through 25.1185 and 25.1189 apply.



Sec. 25.933  Reversing systems.

    (a) For turbojet reversing systems--
    (1) Each system intended for ground operation only must be designed 
so that during any reversal in flight the engine will produce no more 
than flight idle thrust. In addition, it must be shown by analysis or 
test, or both, that--
    (i) Each operable reverser can be restored to the forward thrust 
position; and
    (ii) The airplane is capable of continued safe flight and landing 
under any possible position of the thrust reverser.
    (2) Each system intended for inflight use must be designed so that 
no unsafe condition will result during normal operation of the system, 
or from any failure (or reasonably likely combination of failures) of 
the reversing system, under any anticipated condition of operation of 
the airplane including ground operation. Failure of structural elements 
need not be considered if the

[[Page 434]]

probability of this kind of failure is extremely remote.
    (3) Each system must have means to prevent the engine from producing 
more than idle thrust when the reversing system malfunctions, except 
that it may produce any greater forward thrust that is shown to allow 
directional control to be maintained, with aerodynamic means alone, 
under the most critical reversing condition expected in operation.
    (b) For propeller reversing systems--
    (1) Each system intended for ground operation only must be designed 
so that no single failure (or reasonably likely combination of failures) 
or malfunction of the system will result in unwanted reverse thrust 
under any expected operating condition. Failure of structural elements 
need not be considered if this kind of failure is extremely remote.
    (2) Compliance with this section may be shown by failure analysis or 
testing, or both, for propeller systems that allow propeller blades to 
move from the flight low-pitch position to a position that is 
substantially less than that at the normal flight low-pitch position. 
The analysis may include or be supported by the analysis made to show 
compliance with the requirements of Sec. 35.21 of this chapter for the 
propeller and associated installation components.

[Amdt. 25-72, 55 FR 29784, July 20, 1990]



Sec. 25.934  Turbojet engine thrust reverser system tests.

    Thrust reversers installed on turbojet engines must meet the 
requirements of Sec. 33.97 of this chapter.

[Amdt. 25-23, 35 FR 5677, Apr. 8, 1970]



Sec. 25.937  Turbopropeller-drag limiting systems.

    Turbopropeller power airplane propeller-drag limiting systems must 
be designed so that no single failure or malfunction of any of the 
systems during normal or emergency operation results in propeller drag 
in excess of that for which the airplane was designed under Sec. 25.367. 
Failure of structural elements of the drag limiting systems need not be 
considered if the probability of this kind of failure is extremely 
remote.



Sec. 25.939  Turbine engine operating characteristics.

    (a) Turbine engine operating characteristics must be investigated in 
flight to determine that no adverse characteristics (such as stall, 
surge, or flameout) are present, to a hazardous degree, during normal 
and emergency operation within the range of operating limitations of the 
airplane and of the engine.
    (b) [Reserved]
    (c) The turbine engine air inlet system may not, as a result of air 
flow distortion during normal operation, cause vibration harmful to the 
engine.

[Amdt. 25-11, 32 FR 6912, May 5, 1967, as amended by Amdt. 25-40, 42 FR 
15043, Mar. 17, 1977]



Sec. 25.941  Inlet, engine, and exhaust compatibility.

    For airplanes using variable inlet or exhaust system geometry, or 
both--
    (a) The system comprised of the inlet, engine (including thrust 
augmentation systems, if incorporated), and exhaust must be shown to 
function properly under all operating conditions for which approval is 
sought, including all engine rotating speeds and power settings, and 
engine inlet and exhaust configurations;
    (b) The dynamic effects of the operation of these (including 
consideration of probable malfunctions) upon the aerodynamic control of 
the airplane may not result in any condition that would require 
exceptional skill, alertness, or strength on the part of the pilot to 
avoid exceeding an operational or structural limitation of the airplane; 
and
    (c) In showing compliance with paragraph (b) of this section, the 
pilot strength required may not exceed the limits set forth in 
Sec. 25.143(c), subject to the conditions set forth in paragraphs (d) 
and (e) of Sec. 25.143.

[Amdt. 25-38, 41 FR 55467, Dec. 20, 1976]



Sec. 25.943  Negative acceleration.

    No hazardous malfunction of an engine, an auxiliary power unit 
approved for use in flight, or any component or

[[Page 435]]

system associated with the powerplant or auxiliary power unit may occur 
when the airplane is operated at the negative accelerations within the 
flight envelopes prescribed in Sec. 25.333. This must be shown for the 
greatest duration expected for the acceleration.

[Amdt. 25-40, 42 FR 15043, Mar. 17, 1977]



Sec. 25.945  Thrust or power augmentation system.

    (a) General. Each fluid injection system must provide a flow of 
fluid at the rate and pressure established for proper engine functioning 
under each intended operating condition. If the fluid can freeze, fluid 
freezing may not damage the airplane or adversely affect airplane 
performance.
    (b) Fluid tanks. Each augmentation system fluid tank must meet the 
following requirements:
    (1) Each tank must be able to withstand without failure the 
vibration, inertia, fluid, and structural loads that it may be subject 
to in operation.
    (2) The tanks as mounted in the airplane must be able to withstand 
without failure or leakage an internal pressure 1.5 times the maximum 
operating pressure.
    (3) If a vent is provided, the venting must be effective under all 
normal flight conditions.
    (4)  [Reserved]
    (c) Augmentation system drains must be designed and located in 
accordance with Sec. 25.1455 if--
    (1) The augmentation system fluid is subject to freezing; and
    (2) The fluid may be drained in flight or during ground operation.
    (d) The augmentation liquid tank capacity available for the use of 
each engine must be large enough to allow operation of the airplane 
under the approved procedures for the use of liquid-augmented power. The 
computation of liquid consumption must be based on the maximum approved 
rate appropriate for the desired engine output and must include the 
effect of temperature on engine performance as well as any other factors 
that might vary the amount of liquid required.
    (e) This section does not apply to fuel injection systems.

[Amdt. 25-40, 42 FR 15043, Mar. 17, 1977, as amended by Amdt. 25-72, 55 
FR 29785, July 20, 1990]

                               Fuel System



Sec. 25.951  General.

    (a) Each fuel system must be constructed and arranged to ensure a 
flow of fuel at a rate and pressure established for proper engine and 
auxiliary power unit functioning under each likely operating condition, 
including any maneuver for which certification is requested and during 
which the engine or auxiliary power unit is permitted to be in 
operation.
    (b) Each fuel system must be arranged so that any air which is 
introduced into the system will not result in--
    (1) Power interruption for more than 20 seconds for reciprocating 
engines; or
    (2) Flameout for turbine engines.
    (c) Each fuel system for a turbine engine must be capable of 
sustained operation throughout its flow and pressure range with fuel 
initially saturated with water at 80 deg. F and having 0.75cc of free 
water per gallon added and cooled to the most critical condition for 
icing likely to be encountered in operation.
    (d) Each fuel system for a turbine engine powered airplane must meet 
the applicable fuel venting requirements of part 34 of this chapter.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5677, Apr. 8, 1970; Amdt. 25-36, 39 FR 35460, Oct. 1, 1974; Amdt. 
25-38, 41 FR 55467, Dec. 20, 1976; Amdt. 25-73, 55 FR 32861, Aug. 10, 
1990]



Sec. 25.952  Fuel system analysis and test.

    (a) Proper fuel system functioning under all probable operating 
conditions must be shown by analysis and those tests found necessary by 
the Administrator. Tests, if required, must be made using the airplane 
fuel system or a test article that reproduces the operating 
characteristics of the portion of the fuel system to be tested.
    (b) The likely failure of any heat exchanger using fuel as one of 
its fluids may not result in a hazardous condition.

[Amdt. 25-40, 42 FR 15043, Mar. 17, 1977]

[[Page 436]]



Sec. 25.953  Fuel system independence.

    Each fuel system must meet the requirements of Sec. 25.903(b) by--
    (a) Allowing the supply of fuel to each engine through a system 
independent of each part of the system supplying fuel to any other 
engine; or
    (b) Any other acceptable method.



Sec. 25.954  Fuel system lightning protection.

    The fuel system must be designed and arranged to prevent the 
ignition of fuel vapor within the system by--
    (a) Direct lightning strikes to areas having a high probability of 
stroke attachment;
    (b) Swept lightning strokes to areas where swept strokes are highly 
probable; and
    (c) Corona and streamering at fuel vent outlets.

[Amdt. 25-14, 32 FR 11629, Aug. 11, 1967]



Sec. 25.955  Fuel flow.

    (a) Each fuel system must provide at least 100 percent of the fuel 
flow required under each intended operating condition and maneuver. 
Compliance must be shown as follows:
    (1) Fuel must be delivered to each engine at a pressure within the 
limits specified in the engine type certificate.
    (2) The quantity of fuel in the tank may not exceed the amount 
established as the unusable fuel supply for that tank under the 
requirements of Sec. 25.959 plus that necessary to show compliance with 
this section.
    (3) Each main pump must be used that is necessary for each operating 
condition and attitude for which compliance with this section is shown, 
and the appropriate emergency pump must be substituted for each main 
pump so used.
    (4) If there is a fuel flowmeter, it must be blocked and the fuel 
must flow through the meter or its bypass.
    (b) If an engine can be supplied with fuel from more than one tank, 
the fuel system must--
    (1) For each reciprocating engine, supply the full fuel pressure to 
that engine in not more than 20 seconds after switching to any other 
fuel tank containing usable fuel when engine malfunctioning becomes 
apparent due to the depletion of the fuel supply in any tank from which 
the engine can be fed; and
    (2) For each turbine engine, in addition to having appropriate 
manual switching capability, be designed to prevent interruption of fuel 
flow to that engine, without attention by the flight crew, when any tank 
supplying fuel to that engine is depleted of usable fuel during normal 
operation, and any other tank, that normally supplies fuel to that 
engine alone, contains usable fuel.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-11, 
32 FR 6912, May 5, 1967]



Sec. 25.957  Flow between interconnected tanks.

    If fuel can be pumped from one tank to another in flight, the fuel 
tank vents and the fuel transfer system must be designed so that no 
structural damage to the tanks can occur because of overfilling.



Sec. 25.959  Unusable fuel supply.

    The unusable fuel quantity for each fuel tank and its fuel system 
components must be established at not less than the quantity at which 
the first evidence of engine malfunction occurs under the most adverse 
fuel feed condition for all intended operations and flight maneuvers 
involving fuel feeding from that tank. Fuel system component failures 
need not be considered.

[Amdt. 25-23, 35 FR 5677, Apr. 8, 1970, as amended by Amdt. 25-40, 42 FR 
15043, Mar. 17, 1977]



Sec. 25.961  Fuel system hot weather operation.

    (a) The fuel system must perform satisfactorily in hot weather 
operation. This must be shown by showing that the fuel system from the 
tank outlets to each engine is pressurized, under all intended 
operations, so as to prevent vapor formation, or must be shown by 
climbing from the altitude of the airport elected by the applicant to 
the maximum altitude established as an operating limitation under 
Sec. 25.1527. If a climb test is elected, there may be no evidence of 
vapor lock or other malfunctioning during the climb test conducted under 
the following conditions:

[[Page 437]]

    (1) For reciprocating engine powered airplanes, the engines must 
operate at maximum continuous power, except that takeoff power must be 
used for the altitudes from 1,000 feet below the critical altitude 
through the critical altitude. The time interval during which takeoff 
power is used may not be less than the takeoff time limitation.
    (2) For turbine engine powered airplanes, the engines must operate 
at takeoff power for the time interval selected for showing the takeoff 
flight path, and at maximum continuous power for the rest of the climb.
    (3) The weight of the airplane must be the weight with full fuel 
tanks, minimum crew, and the ballast necessary to maintain the center of 
gravity within allowable limits.
    (4) The climb airspeed may not exceed--
    (i) For reciprocating engine powered airplanes, the maximum airspeed 
established for climbing from takeoff to the maximum operating altitude 
with the airplane in the following configuration:
    (A) Landing gear retracted.
    (B) Wing flaps in the most favorable position.
    (C) Cowl flaps (or other means of controlling the engine cooling 
supply) in the position that provides adequate cooling in the hot-day 
condition.
    (D) Engine operating within the maximum continuous power 
limitations.
    (E) Maximum takeoff weight; and
    (ii) For turbine engine powered airplanes, the maximum airspeed 
established for climbing from takeoff to the maximum operating altitude.
    (5) The fuel temperature must be at least 110 deg. F.
    (b) The test prescribed in paragraph (a) of this section may be 
performed in flight or on the ground under closely simulated flight 
conditions. If a flight test is performed in weather cold enough to 
interfere with the proper conduct of the test, the fuel tank surfaces, 
fuel lines, and other fuel system parts subject to cold air must be 
insulated to simulate, insofar as practicable, flight in hot weather.

[Amdt. 25-11, 32 FR 6912, May 5, 1967, as amended by Amdt. 25-57, 49 FR 
6848, Feb. 23, 1984]



Sec. 25.963  Fuel tanks: general.

    (a) Each fuel tank must be able to withstand, without failure, the 
vibration, inertia, fluid, and structural loads that it may be subjected 
to in operation.
    (b) Flexible fuel tank liners must be approved or must be shown to 
be suitable for the particular application.
    (c) Integral fuel tanks must have facilities for interior inspection 
and repair.
    (d) Fuel tanks within the fuselage contour must be able to resist 
rupture and to retain fuel, under the inertia forces prescribed for the 
emergency landing conditions in Sec. 25.561. In addition, these tanks 
must be in a protected position so that exposure of the tanks to 
scraping action with the ground is unlikely.
    (e) Fuel tank access covers must comply with the following criteria 
in order to avoid loss of hazardous quantities of fuel:
    (1) All covers located in an area where experience or analysis 
indicates a strike is likely must be shown by analysis or tests to 
minimize penetration and deformation by tire fragments, low energy 
engine debris, or other likely debris.
    (2) All covers must be fire resistant as defined in part 1 of this 
chapter.
    (f) For pressurized fuel tanks, a means with fail-safe features must 
be provided to prevent the buildup of an excessive pressure difference 
between the inside and the outside of the tank.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-40, 
42 FR 15043, Mar. 17, 1977; Amdt. 25-69, 54 FR 40354, Sept. 29, 1989]



Sec. 25.965  Fuel tank tests.

    (a) It must be shown by tests that the fuel tanks, as mounted in the 
airplane, can withstand, without failure or leakage, the more critical 
of the pressures resulting from the conditions specified in paragraphs 
(a)(1) and (2) of this section. In addition, it must be shown by either 
analysis or tests, that tank surfaces subjected to more critical 
pressures resulting from the condition of paragraphs (a)(3) and (4) of 
this section, are able to withstand the following pressures:
    (1) An internal pressure of 3.5 psi.

[[Page 438]]

    (2) 125 percent of the maximum air pressure developed in the tank 
from ram effect.
    (3) Fluid pressures developed during maximum limit accelerations, 
and deflections, of the airplane with a full tank.
    (4) Fluid pressures developed during the most adverse combination of 
airplane roll and fuel load.
    (b) Each metallic tank with large unsupported or unstiffened flat 
surfaces, whose failure or deformation could cause fuel leakage, must be 
able to withstand the following test, or its equivalent, without leakage 
or excessive deformation of the tank walls:
    (1) Each complete tank assembly and its supports must be vibration 
tested while mounted to simulate the actual installation.
    (2) Except as specified in paragraph (b)(4) of this section, the 
tank assembly must be vibrated for 25 hours at an amplitude of not less 
than \1/32\ of an inch (unless another amplitude is substantiated) while 
\2/3\ filled with water or other suitable test fluid.
    (3) The test frequency of vibration must be as follows:
    (i) If no frequency of vibration resulting from any r.p.m. within 
the normal operating range of engine speeds is critical, the test 
frequency of vibration must be 2,000 cycles per minute.
    (ii) If only one frequency of vibration resulting from any r.p.m. 
within the normal operating range of engine speeds is critical, that 
frequency of vibration must be the test frequency.
    (iii) If more than one frequency of vibration resulting from any 
r.p.m. within the normal operating range of engine speeds is critical, 
the most critical of these frequencies must be the test frequency.
    (4) Under paragraphs (b)(3)(ii) and (iii) of this section, the time 
of test must be adjusted to accomplish the same number of vibration 
cycles that would be accomplished in 25 hours at the frequency specified 
in paragraph (b)(3)(i) of this section.
    (5) During the test, the tank assembly must be rocked at the rate of 
16 to 20 complete cycles per minute, through an angle of 15 deg. on both 
sides of the horizontal (30 deg. total), about the most critical axis, 
for 25 hours. If motion about more than one axis is likely to be 
critical, the tank must be rocked about each critical axis for 12\1/2\ 
hours.
    (c) Except where satisfactory operating experience with a similar 
tank in a similar installation is shown, nonmetallic tanks must 
withstand the test specified in paragraph (b)(5) of this section, with 
fuel at a temperature of 110 deg. F. During this test, a representative 
specimen of the tank must be installed in a supporting structure 
simulating the installation in the airplane.
    (d) For pressurized fuel tanks, it must be shown by analysis or 
tests that the fuel tanks can withstand the maximum pressure likely to 
occur on the ground or in flight.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-11, 
32 FR 6913, May 5, 1967; Amdt. 25-40, 42 FR 15043, Mar. 17, 1977]



Sec. 25.967  Fuel tank installations.

    (a) Each fuel tank must be supported so that tank loads (resulting 
from the weight of the fuel in the tanks) are not concentrated on 
unsupported tank surfaces. In addition--
    (1) There must be pads, if necessary, to prevent chafing between the 
tank and its supports;
    (2) Padding must be nonabsorbent or treated to prevent the 
absorption of fluids;
    (3) If a flexible tank liner is used, it must be supported so that 
it is not required to withstand fluid loads; and
    (4) Each interior surface of the tank compartment must be smooth and 
free of projections that could cause wear of the liner unless--
    (i) Provisions are made for protection of the liner at these points; 
or
    (ii) The construction of the liner itself provides that protection.
    (b) Spaces adjacent to tank surfaces must be ventilated to avoid 
fume accumulation due to minor leakage. If the tank is in a sealed 
compartment, ventilation may be limited to drain holes large enough to 
prevent excessive pressure resulting from altitude changes.
    (c) The location of each tank must meet the requirements of 
Sec. 25.1185(a).
    (d) No engine nacelle skin immediately behind a major air outlet 
from the engine compartment may act as the wall of an integral tank.

[[Page 439]]

    (e) Each fuel tank must be isolated from personnel compartments by a 
fumeproof and fuelproof enclosure.



Sec. 25.969  Fuel tank expansion space.

    Each fuel tank must have an expansion space of not less than 2 
percent of the tank capacity. It must be impossible to fill the 
expansion space inadvertently with the airplane in the normal ground 
attitude. For pressure fueling systems, compliance with this section may 
be shown with the means provided to comply with Sec. 25.979(b).

[Amdt. 25-11, 32 FR 6913, May 5, 1967]



Sec. 25.971  Fuel tank sump.

    (a) Each fuel tank must have a sump with an effective capacity, in 
the normal ground attitude, of not less than the greater of 0.10 percent 
of the tank capacity or one-sixteenth of a gallon unless operating 
limitations are established to ensure that the accumulation of water in 
service will not exceed the sump capacity.
    (b) Each fuel tank must allow drainage of any hazardous quantity of 
water from any part of the tank to its sump with the airplane in the 
ground attitude.
    (c) Each fuel tank sump must have an accessible drain that--
    (1) Allows complete drainage of the sump on the ground;
    (2) Discharges clear of each part of the airplane; and
    (3) Has manual or automatic means for positive locking in the closed 
position.



Sec. 25.973  Fuel tank filler connection.

    Each fuel tank filler connection must prevent the entrance of fuel 
into any part of the airplane other than the tank itself. In addition--
    (a)  [Reserved]
    (b) Each recessed filler connection that can retain any appreciable 
quantity of fuel must have a drain that discharges clear of each part of 
the airplane;
    (c) Each filler cap must provide a fuel-tight seal; and
    (d) Each fuel filling point, except pressure fueling connection 
points, must have a provision for electrically bonding the airplane to 
ground fueling equipment.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-40, 
42 FR 15043, Mar. 17, 1977; Amdt. 25-72, 55 FR 29785, July 20, 1990]



Sec. 25.975  Fuel tank vents and carburetor vapor vents.

    (a) Fuel tank vents. Each fuel tank must be vented from the top part 
of the expansion space so that venting is effective under any normal 
flight condition. In addition--
    (1) Each vent must be arranged to avoid stoppage by dirt or ice 
formation;
    (2) The vent arrangement must prevent siphoning of fuel during 
normal operation;
    (3) The venting capacity and vent pressure levels must maintain 
acceptable differences of pressure between the interior and exterior of 
the tank, during--
    (i) Normal flight operation;
    (ii) Maximum rate of ascent and descent; and
    (iii) Refueling and defueling (where applicable);
    (4) Airspaces of tanks with interconnected outlets must be 
interconnected;
    (5) There may be no point in any vent line where moisture can 
accumulate with the airplane in the ground attitude or the level flight 
attitude, unless drainage is provided; and
    (6) No vent or drainage provision may end at any point--
    (i) Where the discharge of fuel from the vent outlet would 
constitute a fire hazard; or
    (ii) From which fumes could enter personnel compartments.
    (b) Carburetor vapor vents. Each carburetor with vapor elimination 
connections must have a vent line to lead vapors back to one of the fuel 
tanks. In addition--
    (1) Each vent system must have means to avoid stoppage by ice; and
    (2) If there is more than one fuel tank, and it is necessary to use 
the tanks in a definite sequence, each vapor vent return line must lead 
back to the fuel tank used for takeoff and landing.

[[Page 440]]



Sec. 25.977  Fuel tank outlet.

    (a) There must be a fuel strainer for the fuel tank outlet or for 
the booster pump. This strainer must--
    (1) For reciprocating engine powered airplanes, have 8 to 16 meshes 
per inch; and
    (2) For turbine engine powered airplanes, prevent the passage of any 
object that could restrict fuel flow or damage any fuel system 
component.
    (b) [Reserved]
    (c) The clear area of each fuel tank outlet strainer must be at 
least five times the area of the outlet line.
    (d) The diameter of each strainer must be at least that of the fuel 
tank outlet.
    (e) Each finger strainer must be accessible for inspection and 
cleaning.

[Amdt. 25-11, 32 FR 6913, May 5, 1967, as amended by Amdt. 25-36, 39 FR 
35460, Oct. 1, 1974]



Sec. 25.979  Pressure fueling system.

    For pressure fueling systems, the following apply:
    (a) Each pressure fueling system fuel manifold connection must have 
means to prevent the escape of hazardous quantities of fuel from the 
system if the fuel entry valve fails.
    (b) An automatic shutoff means must be provided to prevent the 
quantity of fuel in each tank from exceeding the maximum quantity 
approved for that tank. This means must--
    (1) Allow checking for proper shutoff operation before each fueling 
of the tank; and
    (2) Provide indication at each fueling station of failure of the 
shutoff means to stop the fuel flow at the maximum quantity approved for 
that tank.
    (c) A means must be provided to prevent damage to the fuel system in 
the event of failure of the automatic shutoff means prescribed in 
paragraph (b) of this section.
    (d) The airplane pressure fueling system (not including fuel tanks 
and fuel tank vents) must withstand an ultimate load that is 2.0 times 
the load arising from the maximum pressures, including surge, that is 
likely to occur during fueling. The maximum surge pressure must be 
established with any combination of tank valves being either 
intentionally or inadvertently closed.
    (e) The airplane defueling system (not including fuel tanks and fuel 
tank vents) must withstand an ultimate load that is 2.0 times the load 
arising from the maximum permissible defueling pressure (positive or 
negative) at the airplane fueling connection.

[Amdt. 25-11, 32 FR 6913, May 5, 1967, as amended by Amdt. 25-38, 41 FR 
55467, Dec. 20, 1976; Amdt. 25-72, 55 FR 29785, July 20, 1990]



Sec. 25.981  Fuel tank ignition prevention.

    (a) No ignition source may be present at each point in the fuel tank 
or fuel tank system where catastrophic failure could occur due to 
ignition of fuel or vapors. This must be shown by:
    (1) Determining the highest temperature allowing a safe margin below 
the lowest expected autoignition temperature of the fuel in the fuel 
tanks.
    (2) Demonstrating that no temperature at each place inside each fuel 
tank where fuel ignition is possible will exceed the temperature 
determined under paragraph (a)(1) of this section. This must be verified 
under all probable operating, failure, and malfunction conditions of 
each component whose operation, failure, or malfunction could increase 
the temperature inside the tank.
    (3) Demonstrating that an ignition source could not result from each 
single failure, from each single failure in combination with each latent 
failure condition not shown to be extremely remote, and from all 
combinations of failures not shown to be extremely improbable. The 
effects of manufacturing variability, aging, wear, corrosion, and likely 
damage must be considered.
    (b) Based on the evaluations required by this section, critical 
design configuration control limitations, inspections, or other 
procedures must be established, as necessary, to prevent development of 
ignition sources within the fuel tank system and must be included in the 
Airworthiness Limitations section of the Instructions for Continued 
Airworthiness required by Sec. 25.1529. Visible means to identify 
critical features of the design must be placed in areas of the airplane 
where maintenance actions, repairs, or alterations

[[Page 441]]

may be apt to violate the critical design configuration limitations 
(e.g., color-coding of wire to identify separation limitation).
    (c) The fuel tank installation must include either--
    (1) Means to minimize the development of flammable vapors in the 
fuel tanks (in the context of this rule, ``minimize'' means to 
incorporate practicable design methods to reduce the likelihood of 
flammable vapors); or
    (2) Means to mitigate the effects of an ignition of fuel vapors 
within fuel tanks such that no damage caused by an ignition will prevent 
continued safe flight and landing.

[Doc. No. 1999-6411, 66 FR 23129, May 7, 2001]

                         Fuel System Components



Sec. 25.991  Fuel pumps.

    (a) Main pumps. Each fuel pump required for proper engine operation, 
or required to meet the fuel system requirements of this subpart (other 
than those in paragraph (b) of this section, is a main pump. For each 
main pump, provision must be made to allow the bypass of each positive 
displacement fuel pump other than a fuel injection pump (a pump that 
supplies the proper flow and pressure for fuel injection when the 
injection is not accomplished in a carburetor) approved as part of the 
engine.
    (b) Emergency pumps. There must be emergency pumps or another main 
pump to feed each engine immediately after failure of any main pump 
(other than a fuel injection pump approved as part of the engine).



Sec. 25.993  Fuel system lines and fittings.

    (a) Each fuel line must be installed and supported to prevent 
excessive vibration and to withstand loads due to fuel pressure and 
accelerated flight conditions.
    (b) Each fuel line connected to components of the airplane between 
which relative motion could exist must have provisions for flexibility.
    (c) Each flexible connection in fuel lines that may be under 
pressure and subjected to axial loading must use flexible hose 
assemblies.
    (d) Flexible hose must be approved or must be shown to be suitable 
for the particular application.
    (e) No flexible hose that might be adversely affected by exposure to 
high temperatures may be used where excessive temperatures will exist 
during operation or after engine shut-down.
    (f) Each fuel line within the fuselage must be designed and 
installed to allow a reasonable degree of deformation and stretching 
without leakage.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-15, 
32 FR 13266, Sept. 20, 1967]



Sec. 25.994  Fuel system components.

    Fuel system components in an engine nacelle or in the fuselage must 
be protected from damage which could result in spillage of enough fuel 
to constitute a fire hazard as a result of a wheels-up landing on a 
paved runway.

[Amdt. 25-57, 49 FR 6848, Feb. 23, 1984]



Sec. 25.995  Fuel valves.

    In addition to the requirements of Sec. 25.1189 for shutoff means, 
each fuel valve must--
    (a) [Reserved]
    (b) Be supported so that no loads resulting from their operation or 
from accelerated flight conditions are transmitted to the lines attached 
to the valve.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-40, 
42 FR 15043, Mar. 17, 1977]



Sec. 25.997  Fuel strainer or filter.

    There must be a fuel strainer or filter between the fuel tank outlet 
and the inlet of either the fuel metering device or an engine driven 
positive displacement pump, whichever is nearer the fuel tank outlet. 
This fuel strainer or filter must--
    (a) Be accessible for draining and cleaning and must incorporate a 
screen or element which is easily removable;
    (b) Have a sediment trap and drain except that it need not have a 
drain if the strainer or filter is easily removable for drain purposes;
    (c) Be mounted so that its weight is not supported by the connecting 
lines or by the inlet or outlet connections of

[[Page 442]]

the strainer or filter itself, unless adequate strength margins under 
all loading conditions are provided in the lines and connections; and
    (d) Have the capacity (with respect to operating limitations 
established for the engine) to ensure that engine fuel system 
functioning is not impaired, with the fuel contaminated to a degree 
(with respect to particle size and density) that is greater than that 
established for the engine in Part 33 of this chapter.

[Amdt. No. 25-36, 39 FR 35460, Oct. 1, 1974, as amended by Amdt. 25-57, 
49 FR 6848, Feb. 23, 1984]



Sec. 25.999  Fuel system drains.

    (a) Drainage of the fuel system must be accomplished by the use of 
fuel strainer and fuel tank sump drains.
    (b) Each drain required by paragraph (a) of this section must--
    (1) Discharge clear of all parts of the airplane;
    (2) Have manual or automatic means for positive locking in the 
closed position; and
    (3) Have a drain valve--
    (i) That is readily accessible and which can be easily opened and 
closed; and
    (ii) That is either located or protected to prevent fuel spillage in 
the event of a landing with landing gear retracted.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55467, Dec. 20, 1976]



Sec. 25.1001  Fuel jettisoning system.

    (a) A fuel jettisoning system must be installed on each airplane 
unless it is shown that the airplane meets the climb requirements of 
Secs. 25.119 and 25.121(d) at maximum takeoff weight, less the actual or 
computed weight of fuel necessary for a 15-minute flight comprised of a 
takeoff, go-around, and landing at the airport of departure with the 
airplane configuration, speed, power, and thrust the same as that used 
in meeting the applicable takeoff, approach, and landing climb 
performance requirements of this part.
    (b) If a fuel jettisoning system is required it must be capable of 
jettisoning enough fuel within 15 minutes, starting with the weight 
given in paragraph (a) of this section, to enable the airplane to meet 
the climb requirements of Secs. 25.119 and 25.121(d), assuming that the 
fuel is jettisoned under the conditions, except weight, found least 
favorable during the flight tests prescribed in paragraph (c) of this 
section.
    (c) Fuel jettisoning must be demonstrated beginning at maximum 
takeoff weight with flaps and landing gear up and in--
    (1) A power-off glide at 1.4 Vs1;
    (2) A climb at the one-engine inoperative best rate-of-climb speed, 
with the critical engine inoperative and the remaining engines at 
maximum continuous power; and
    (3) Level flight at 1.4 Vs1; if the results of the tests 
in the conditions specified in paragraphs (c)(1) and (2) of this section 
show that this condition could be critical.
    (d) During the flight tests prescribed in paragraph (c) of this 
section, it must be shown that--
    (1) The fuel jettisoning system and its operation are free from fire 
hazard;
    (2) The fuel discharges clear of any part of the airplane;
    (3) Fuel or fumes do not enter any parts of the airplane; and
    (4) The jettisoning operation does not adversely affect the 
controllability of the airplane.
    (e) For reciprocating engine powered airplanes, means must be 
provided to prevent jettisoning the fuel in the tanks used for takeoff 
and landing below the level allowing 45 minutes flight at 75 percent 
maximum continuous power. However, if there is an auxiliary control 
independent of the main jettisoning control, the system may be designed 
to jettison the remaining fuel by means of the auxiliary jettisoning 
control.
    (f) For turbine engine powered airplanes, means must be provided to 
prevent jettisoning the fuel in the tanks used for takeoff and landing 
below the level allowing climb from sea level to 10,000 feet and 
thereafter allowing 45 minutes cruise at a speed for maximum range. 
However, if there is an auxiliary control independent of the main 
jettisoning control, the system may be designed to jettison the 
remaining fuel by means of the auxiliary jettisoning control.

[[Page 443]]

    (g) The fuel jettisoning valve must be designed to allow flight 
personnel to close the valve during any part of the jettisoning 
operation.
    (h) Unless it is shown that using any means (including flaps, slots, 
and slats) for changing the airflow across or around the wings does not 
adversely affect fuel jettisoning, there must be a placard, adjacent to 
the jettisoning control, to warn flight crewmembers against jettisoning 
fuel while the means that change the airflow are being used.
    (i) The fuel jettisoning system must be designed so that any 
reasonably probable single malfunction in the system will not result in 
a hazardous condition due to unsymmetrical jettisoning of, or inability 
to jettison, fuel.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-18, 
33 FR 12226, Aug. 30, 1968; Amdt. 25-57, 49 FR 6848, Feb. 23, 1984]

                               Oil System



Sec. 25.1011  General.

    (a) Each engine must have an independent oil system that can supply 
it with an appropriate quantity of oil at a temperature not above that 
safe for continuous operation.
    (b) The usable oil capacity may not be less than the product of the 
endurance of the airplane under critical operating conditions and the 
approved maximum allowable oil consumption of the engine under the same 
conditions, plus a suitable margin to ensure system circulation. Instead 
of a rational analysis of airplane range for the purpose of computing 
oil requirements for reciprocating engine powered airplanes, the 
following fuel/oil ratios may be used:
    (1) For airplanes without a reserve oil or oil transfer system, a 
fuel/oil ratio of 30:1 by volume.
    (2) For airplanes with either a reserve oil or oil transfer system, 
a fuel/oil ratio of 40:1 by volume.
    (c) Fuel/oil ratios higher than those prescribed in paragraphs 
(b)(1) and (2) of this section may be used if substantiated by data on 
actual engine oil consumption.



Sec. 25.1013  Oil tanks.

    (a) Installation. Each oil tank installation must meet the 
requirements of Sec. 25.967.
    (b) Expansion space. Oil tank expansion space must be provided as 
follows:
    (1) Each oil tank used with a reciprocating engine must have an 
expansion space of not less than the greater of 10 percent of the tank 
capacity or 0.5 gallon, and each oil tank used with a turbine engine 
must have an expansion space of not less than 10 percent of the tank 
capacity.
    (2) Each reserve oil tank not directly connected to any engine may 
have an expansion space of not less than two percent of the tank 
capacity.
    (3) It must be impossible to fill the expansion space inadvertently 
with the airplane in the normal ground attitude.
    (c) Filler connection. Each recessed oil tank filler connection that 
can retain any appreciable quantity of oil must have a drain that 
discharges clear of each part of the airplane. In addition, each oil 
tank filler cap must provide an oil-tight seal.
    (d) Vent. Oil tanks must be vented as follows:
    (1) Each oil tank must be vented from the top part of the expansion 
space so that venting is effective under any normal flight condition.
    (2) Oil tank vents must be arranged so that condensed water vapor 
that might freeze and obstruct the line cannot accumulate at any point.
    (e) Outlet. There must be means to prevent entrance into the tank 
itself, or into the tank outlet, of any object that might obstruct the 
flow of oil through the system. No oil tank outlet may be enclosed by 
any screen or guard that would reduce the flow of oil below a safe value 
at any operating temperature. There must be a shutoff valve at the 
outlet of each oil tank used with a turbine engine, unless the external 
portion of the oil system (including the oil tank supports) is 
fireproof.
    (f) Flexible oil tank liners. Each flexible oil tank liner must be 
approved or

[[Page 444]]

must be shown to be suitable for the particular application.

[Doc. No. 5066, 29 FR 18291, Dec. 24, as amended by Amdt. 25-19, 33 FR 
15410, Oct. 17, 1968; Amdt. 25-23, 35 FR 5677, Apr. 8, 1970; Amdt. 25-
36, 39 FR 35460, Oct. 1, 1974; Amdt. 25-57, 49 FR 6848, Feb. 23, 1984; 
Amdt. 25-72, 55 FR 29785, July 20, 1990]



Sec. 25.1015  Oil tank tests.

    Each oil tank must be designed and installed so that--
    (a) It can withstand, without failure, each vibration, inertia, and 
fluid load that it may be subjected to in operation; and
    (b) It meets the provisions of Sec. 25.965, except--
    (1) The test pressure--
    (i) For pressurized tanks used with a turbine engine, may not be 
less than 5 p.s.i. plus the maximum operating pressure of the tank 
instead of the pressure specified in Sec. 25.965(a); and
    (ii) For all other tanks may not be less than 5 p.s.i. instead of 
the pressure specified in Sec. 25.965(a); and
    (2) The test fluid must be oil at 250 deg. F. instead of the fluid 
specified in Sec. 25.965(c).

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-36, 
39 FR 35461, Oct. 1, 1974]



Sec. 25.1017  Oil lines and fittings.

    (a) Each oil line must meet the requirements of Sec. 25.993 and each 
oil line and fitting in any designated fire zone must meet the 
requirements of Sec. 25.1183.
    (b) Breather lines must be arranged so that--
    (1) Condensed water vapor that might freeze and obstruct the line 
cannot accumulate at any point;
    (2) The breather discharge does not constitute a fire hazard if 
foaming occurs or causes emitted oil to strike the pilot's windshield; 
and
    (3) The breather does not discharge into the engine air induction 
system.



Sec. 25.1019  Oil strainer or filter.

    (a) Each turbine engine installation must incorporate an oil 
strainer or filter through which all of the engine oil flows and which 
meets the following requirements:
    (1) Each oil strainer or filter that has a bypass must be 
constructed and installed so that oil will flow at the normal rate 
through the rest of the system with the strainer or filter completely 
blocked.
    (2) The oil strainer or filter must have the capacity (with respect 
to operating limitations established for the engine) to ensure that 
engine oil system functioning is not impaired when the oil is 
contaminated to a degree (with respect to particle size and density) 
that is greater than that established for the engine under Part 33 of 
this chapter.
    (3) The oil strainer or filter, unless it is installed at an oil 
tank outlet, must incorporate an indicator that will indicate 
contamination before it reaches the capacity established in accordance 
with paragraph (a)(2) of this section.
    (4) The bypass of a strainer or filter must be constructed and 
installed so that the release of collected contaminants is minimized by 
appropriate location of the bypass to ensure that collected contaminants 
are not in the bypass flow path.
    (5) An oil strainer or filter that has no bypass, except one that is 
installed at an oil tank outlet, must have a means to connect it to the 
warning system required in Sec. 25.1305(c)(7).
    (b) Each oil strainer or filter in a powerplant installation using 
reciprocating engines must be constructed and installed so that oil will 
flow at the normal rate through the rest of the system with the strainer 
or filter element completely blocked.

[Amdt. 25-36, 39 FR 35461, Oct. 1, 1974, as amended by Amdt. 25-57, 49 
FR 6848, Feb. 23, 1984]



Sec. 25.1021  Oil system drains.

    A drain (or drains) must be provided to allow safe drainage of the 
oil system. Each drain must--
    (a) Be accessible; and
    (b) Have manual or automatic means for positive locking in the 
closed position.

[Amdt. 25-57, 49 FR 6848, Feb. 23, 1984]

[[Page 445]]



Sec. 25.1023  Oil radiators.

    (a) Each oil radiator must be able to withstand, without failure, 
any vibration, inertia, and oil pressure load to which it would be 
subjected in operation.
    (b) Each oil radiator air duct must be located so that, in case of 
fire, flames coming from normal openings of the engine nacelle cannot 
impinge directly upon the radiator.



Sec. 25.1025  Oil valves.

    (a) Each oil shutoff must meet the requirements of Sec. 25.1189.
    (b) The closing of oil shutoff means may not prevent propeller 
feathering.
    (c) Each oil valve must have positive stops or suitable index 
provisions in the ``on'' and ``off'' positions and must be supported so 
that no loads resulting from its operation or from accelerated flight 
conditions are transmitted to the lines attached to the valve.



Sec. 25.1027  Propeller feathering system.

    (a) If the propeller feathering system depends on engine oil, there 
must be means to trap an amount of oil in the tank if the supply becomes 
depleted due to failure of any part of the lubricating system other than 
the tank itself.
    (b) The amount of trapped oil must be enough to accomplish the 
feathering operation and must be available only to the feathering pump.
    (c) The ability of the system to accomplish feathering with the 
trapped oil must be shown. This may be done on the ground using an 
auxiliary source of oil for lubricating the engine during operation.
    (d) Provision must be made to prevent sludge or other foreign matter 
from affecting the safe operation of the propeller feathering system.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55467, Dec. 20, 1976]

                                 Cooling



Sec. 25.1041  General.

    The powerplant and auxiliary power unit cooling provisions must be 
able to maintain the temperatures of powerplant components, engine 
fluids, and auxiliary power unit components and fluids within the 
temperature limits established for these components and fluids, under 
ground, water, and flight operating conditions, and after normal engine 
or auxiliary power unit shutdown, or both.

[Amdt. 25-38, 41 FR 55467, Dec. 20, 1976]



Sec. 25.1043  Cooling tests.

    (a) General. Compliance with Sec. 25.1041 must be shown by tests, 
under critical ground, water, and flight operating conditions. For these 
tests, the following apply:
    (1) If the tests are conducted under conditions deviating from the 
maximum ambient atmospheric temperature, the recorded powerplant 
temperatures must be corrected under paragraphs (c) and (d) of this 
section.
    (2) No corrected temperatures determined under paragraph (a)(1) of 
this section may exceed established limits.
    (3) For reciprocating engines, the fuel used during the cooling 
tests must be the minimum grade approved for the engines, and the 
mixture settings must be those normally used in the flight stages for 
which the cooling tests are conducted. The test procedures must be as 
prescribed in Sec. 25.1045.
    (b) Maximum ambient atmospheric temperature. A maximum ambient 
atmospheric temperature corresponding to sea level conditions of at 
least 100 degrees F must be established. The assumed temperature lapse 
rate is 3.6 degrees F per thousand feet of altitude above sea level 
until a temperature of -69.7 degrees F is reached, above which altitude 
the temperature is considered constant at -69.7 degrees F. However, for 
winterization installations, the applicant may select a maximum ambient 
atmospheric temperature corresponding to sea level conditions of less 
than 100 degrees F.
    (c) Correction factor (except cylinder barrels). Unless a more 
rational correction applies, temperatures of engine fluids and 
powerplant components (except cylinder barrels) for which temperature 
limits are established, must be corrected by adding to them the 
difference between the maximum ambient atmospheric temperature and the 
temperature of the ambient air at the time of the first occurrence of 
the maximum

[[Page 446]]

component or fluid temperature recorded during the cooling test.
    (d) Correction factor for cylinder barrel temperatures. Unless a 
more rational correction applies, cylinder barrel temperatures must be 
corrected by adding to them 0.7 times the difference between the maximum 
ambient atmospheric temperature and the temperature of the ambient air 
at the time of the first occurrence of the maximum cylinder barrel 
temperature recorded during the cooling test.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-42, 
43 FR 2323, Jan. 16, 1978]



Sec. 25.1045  Cooling test procedures.

    (a) Compliance with Sec. 25.1041 must be shown for the takeoff, 
climb, en route, and landing stages of flight that correspond to the 
applicable performance requirements. The cooling tests must be conducted 
with the airplane in the configuration, and operating under the 
conditions, that are critical relative to cooling during each stage of 
flight. For the cooling tests, a temperature is ``stabilized'' when its 
rate of change is less than two degrees F. per minute.
    (b) Temperatures must be stabilized under the conditions from which 
entry is made into each stage of flight being investigated, unless the 
entry condition normally is not one during which component and the 
engine fluid temperatures would stabilize (in which case, operation 
through the full entry condition must be conducted before entry into the 
stage of flight being investigated in order to allow temperatures to 
reach their natural levels at the time of entry). The takeoff cooling 
test must be preceded by a period during which the powerplant component 
and engine fluid temperatures are stabilized with the engines at ground 
idle.
    (c) Cooling tests for each stage of flight must be continued until--
    (1) The component and engine fluid temperatures stabilize;
    (2) The stage of flight is completed; or
    (3) An operating limitation is reached.
    (d) For reciprocating engine powered airplanes, it may be assumed, 
for cooling test purposes, that the takeoff stage of flight is complete 
when the airplane reaches an altitude of 1,500 feet above the takeoff 
surface or reaches a point in the takeoff where the transition from the 
takeoff to the en route configuration is completed and a speed is 
reached at which compliance with Sec. 25.121(c) is shown, whichever 
point is at a higher altitude. The airplane must be in the following 
configuration:
    (1) Landing gear retracted.
    (2) Wing flaps in the most favorable position.
    (3) Cowl flaps (or other means of controlling the engine cooling 
supply) in the position that provides adequate cooling in the hot-day 
condition.
    (4) Critical engine inoperative and its propeller stopped.
    (5) Remaining engines at the maximum continuous power available for 
the altitude.
    (e) For hull seaplanes and amphibians, cooling must be shown during 
taxiing downwind for 10 minutes, at five knots above step speed.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-57, 
49 FR 6848, Feb. 23, 1984]

                            Induction System



Sec. 25.1091  Air induction.

    (a) The air induction system for each engine and auxiliary power 
unit must supply--
    (1) The air required by that engine and auxiliary power unit under 
each operating condition for which certification is requested; and
    (2) The air for proper fuel metering and mixture distribution with 
the induction system valves in any position.
    (b) Each reciprocating engine must have an alternate air source that 
prevents the entry of rain, ice, or any other foreign matter.
    (c) Air intakes may not open within the cowling, unless--
    (1) That part of the cowling is isolated from the engine accessory 
section by means of a fireproof diaphragm; or
    (2) For reciprocating engines, there are means to prevent the 
emergence of backfire flames.
    (d) For turbine engine powered airplanes and airplanes incorporating 
auxiliary power units--

[[Page 447]]

    (1) There must be means to prevent hazardous quantities of fuel 
leakage or overflow from drains, vents, or other components of flammable 
fluid systems from entering the engine or auxiliary power unit intake 
system; and
    (2) The airplane must be designed to prevent water or slush on the 
runway, taxiway, or other airport operating surfaces from being directed 
into the engine or auxiliary power unit air inlet ducts in hazardous 
quantities, and the air inlet ducts must be located or protected so as 
to minimize the ingestion of foreign matter during takeoff, landing, and 
taxiing.
    (e) If the engine induction system contains parts or components that 
could be damaged by foreign objects entering the air inlet, it must be 
shown by tests or, if appropriate, by analysis that the induction system 
design can withstand the foreign object ingestion test conditions of 
Secs. 33.76, 33.77 and 33.78(a)(1) of this chapter without failure of 
parts or components that could create a hazard.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55467, Dec. 20, 1976; Amdt. 25-40, 42 FR 15043, Mar. 17, 1977; 
Amdt. 25-57, 49 FR 6849, Feb. 23, 1984; Amdt. 25-100, 65 FR 55854, Sept. 
14, 2000]



Sec. 25.1093  Induction system icing protection.

    (a) Reciprocating engines. Each reciprocating engine air induction 
system must have means to prevent and eliminate icing. Unless this is 
done by other means, it must be shown that, in air free of visible 
moisture at a temperature of 30 F., each airplane with altitude engines 
using--
    (1) Conventional venturi carburetors have a preheater that can 
provide a heat rise of 120 F. with the engine at 60 percent of maximum 
continuous power; or
    (2) Carburetors tending to reduce the probability of ice formation 
has a preheater that can provide a heat rise of 100 deg. F. with the 
engine at 60 percent of maximum continuous power.
    (b) Turbine engines. (1) Each turbine engine must operate throughout 
the flight power range of the engine (including idling), without the 
accumulation of ice on the engine, inlet system components, or airframe 
components that would adversely affect engine operation or cause a 
serious loss of power or thrust--
    (i) Under the icing conditions specified in appendix C, and
    (ii) In falling and blowing snow within the limitations established 
for the airplane for such operation.
    (2) Each turbine engine must idle for 30 minutes on the ground, with 
the air bleed available for engine icing protection at its critical 
condition, without adverse effect, in an atmosphere that is at a 
temperature between 15 deg. and 30  deg.F (between -9 deg. and -1 
deg.C) and has a liquid water content not less than 0.3 grams per cubic 
meter in the form of drops having a mean effective diameter not less 
than 20 microns, followed by momentary operation at takeoff power or 
thrust. During the 30 minutes of idle operation, the engine may be run 
up periodically to a moderate power or thrust setting in a manner 
acceptable to the Administrator.
    (c) Supercharged reciprocating engines. For each engine having a 
supercharger to pressurize the air before it enters the carburetor, the 
heat rise in the air caused by that supercharging at any altitude may be 
utilized in determining compliance with paragraph (a) of this section if 
the heat rise utilized is that which will be available, automatically, 
for the applicable altitude and operating condition because of 
supercharging.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55467, Dec. 20, 1976; Amdt. 25-40, 42 FR 15043, Mar. 17, 1977; 
Amdt. 25-57, 49 FR 6849, Feb. 23, 1984; Amdt. 25-72, 55 FR 29785, July 
20, 1990]



Sec. 25.1101  Carburetor air preheater design.

    Each carburetor air preheater must be designed and constructed to--
    (a) Ensure ventilation of the preheater when the engine is operated 
in cold air;
    (b) Allow inspection of the exhaust manifold parts that it 
surrounds; and
    (c) Allow inspection of critical parts of the preheater itself.



Sec. 25.1103  Induction system ducts and air duct systems.

    (a) Each induction system duct upstream of the first stage of the 
engine

[[Page 448]]

supercharger and of the auxiliary power unit compressor must have a 
drain to prevent the hazardous accumulation of fuel and moisture in the 
ground attitude. No drain may discharge where it might cause a fire 
hazard.
    (b) Each induction system duct must be--
    (1) Strong enough to prevent induction system failures resulting 
from normal backfire conditions; and
    (2) Fire-resistant if it is in any fire zone for which a fire-
extinguishing system is required, except that ducts for auxiliary power 
units must be fireproof within the auxiliary power unit fire zone.
    (c) Each duct connected to components between which relative motion 
could exist must have means for flexibility.
    (d) For turbine engine and auxiliary power unit bleed air duct 
systems, no hazard may result if a duct failure occurs at any point 
between the air duct source and the airplane unit served by the air.
    (e) Each auxiliary power unit induction system duct must be 
fireproof for a sufficient distance upstream of the auxiliary power unit 
compartment to prevent hot gas reverse flow from burning through 
auxiliary power unit ducts and entering any other compartment or area of 
the airplane in which a hazard would be created resulting from the entry 
of hot gases. The materials used to form the remainder of the induction 
system duct and plenum chamber of the auxiliary power unit must be 
capable of resisting the maximum heat conditions likely to occur.
    (f) Each auxiliary power unit induction system duct must be 
constructed of materials that will not absorb or trap hazardous 
quantities of flammable fluids that could be ignited in the event of a 
surge or reverse flow condition.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-46, 
43 FR 50597, Oct. 30, 1978]



Sec. 25.1105  Induction system screens.

    If induction system screens are used--
    (a) Each screen must be upstream of the carburetor;
    (b) No screen may be in any part of the induction system that is the 
only passage through which air can reach the engine, unless it can be 
deiced by heated air;
    (c) No screen may be deiced by alcohol alone; and
    (d) It must be impossible for fuel to strike any screen.



Sec. 25.1107  Inter-coolers and after-coolers.

    Each inter-cooler and after-cooler must be able to withstand any 
vibration, inertia, and air pressure load to which it would be subjected 
in operation.

                             Exhaust System



Sec. 25.1121  General.

    For powerplant and auxiliary power unit installations the following 
apply:
    (a) Each exhaust system must ensure safe disposal of exhaust gases 
without fire hazard or carbon monoxide contamination in any personnel 
compartment. For test purposes, any acceptable carbon monoxide detection 
method may be used to show the absence of carbon monoxide.
    (b) Each exhaust system part with a surface hot enough to ignite 
flammable fluids or vapors must be located or shielded so that leakage 
from any system carrying flammable fluids or vapors will not result in a 
fire caused by impingement of the fluids or vapors on any part of the 
exhaust system including shields for the exhaust system.
    (c) Each component that hot exhaust gases could strike, or that 
could be subjected to high temperatures from exhaust system parts, must 
be fireproof. All exhaust system components must be separated by 
fireproof shields from adjacent parts of the airplane that are outside 
the engine and auxiliary power unit compartments.
    (d) No exhaust gases may discharge so as to cause a fire hazard with 
respect to any flammable fluid vent or drain.
    (e) No exhaust gases may discharge where they will cause a glare 
seriously affecting pilot vision at night.
    (f) Each exhaust system component must be ventilated to prevent 
points of excessively high temperature.

[[Page 449]]

    (g) Each exhaust shroud must be ventilated or insulated to avoid, 
during normal operation, a temperature high enough to ignite any 
flammable fluids or vapors external to the shroud.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-40, 
42 FR 15043, Mar. 17, 1977]



Sec. 25.1123  Exhaust piping.

    For powerplant and auxiliary power unit installations, the following 
apply:
    (a) Exhaust piping must be heat and corrosion resistant, and must 
have provisions to prevent failure due to expansion by operating 
temperatures.
    (b) Piping must be supported to withstand any vibration and inertia 
loads to which it would be subjected in operation; and
    (c) Piping connected to components between which relative motion 
could exist must have means for flexibility.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-40, 
42 FR 15044, Mar. 17, 1977]



Sec. 25.1125  Exhaust heat exchangers.

    For reciprocating engine powered airplanes, the following apply:
    (a) Each exhaust heat exchanger must be constructed and installed to 
withstand each vibration, inertia, and other load to which it would be 
subjected in operation. In addition--
    (1) Each exchanger must be suitable for continued operation at high 
temperatures and resistant to corrosion from exhaust gases;
    (2) There must be means for the inspection of the critical parts of 
each exchanger;
    (3) Each exchanger must have cooling provisions wherever it is 
subject to contact with exhaust gases; and
    (4) No exhaust heat exchanger or muff may have any stagnant areas or 
liquid traps that would increase the probability of ignition of 
flammable fluids or vapors that might be present in case of the failure 
or malfunction of components carrying flammable fluids.
    (b) If an exhaust heat exchanger is used for heating ventilating 
air--
    (1) There must be a secondary heat exchanger between the primary 
exhaust gas heat exchanger and the ventilating air system; or
    (2) Other means must be used to preclude the harmful contamination 
of the ventilating air.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55467, Dec. 20, 1976]



Sec. 25.1127  Exhaust driven turbo-superchargers.

    (a) Each exhaust driven turbo-supercharger must be approved or shown 
to be suitable for the particular application. It must be installed and 
supported to ensure safe operation between normal inspections and 
overhauls. In addition, there must be provisions for expansion and 
flexibility between exhaust conduits and the turbine.
    (b) There must be provisions for lubricating the turbine and for 
cooling turbine parts where temperatures are critical.
    (c) If the normal turbo-supercharger control system malfunctions, 
the turbine speed may not exceed its maximum allowable value. Except for 
the waste gate operating components, the components provided for meeting 
this requirement must be independent of the normal turbo-supercharger 
controls.

                   Powerplant Controls and Accessories



Sec. 25.1141  Powerplant controls: general.

    Each powerplant control must be located, arranged, and designed 
under Secs. 25.777 through 25.781 and marked under Sec. 25.1555. In 
addition, it must meet the following requirements:
    (a) Each control must be located so that it cannot be inadvertently 
operated by persons entering, leaving, or moving normally in, the 
cockpit.
    (b) Each flexible control must be approved or must be shown to be 
suitable for the particular application.
    (c) Each control must have sufficient strength and rigidity to 
withstand operating loads without failure and without excessive 
deflection.
    (d) Each control must be able to maintain any set position without 
constant attention by flight crewmembers and without creep due to 
control loads or vibration.

[[Page 450]]

    (e) The portion of each powerplant control located in a designated 
fire zone that is required to be operated in the event of fire must be 
at least fire resistant.
    (f) Powerplant valve controls located in the cockpit must have--
    (1) For manual valves, positive stops or in the case of fuel valves 
suitable index provisions, in the open and closed position; and
    (2) For power-assisted valves, a means to indicate to the flight 
crew when the valve--
    (i) Is in the fully open or fully closed position; or
    (ii) Is moving between the fully open and fully closed position.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-40, 
42 FR 15044, Mar. 17, 1977; Amdt. 25-72, 55 FR 29785, July 20, 1990]



Sec. 25.1142  Auxiliary power unit controls.

    Means must be provided on the flight deck for starting, stopping, 
and emergency shutdown of each installed auxiliary power unit.

[Amdt. 25-46, 43 FR 50598, Oct. 30, 1978]



Sec. 25.1143  Engine controls.

    (a) There must be a separate power or thrust control for each 
engine.
    (b) Power and thrust controls must be arranged to allow--
    (1) Separate control of each engine; and
    (2) Simultaneous control of all engines.
    (c) Each power and thrust control must provide a positive and 
immediately responsive means of controlling its engine.
    (d) For each fluid injection (other than fuel) system and its 
controls not provided and approved as part of the engine, the applicant 
must show that the flow of the injection fluid is adequately controlled.
    (e) If a power or thrust control incorporates a fuel shutoff 
feature, the control must have a means to prevent the inadvertent 
movement of the control into the shutoff position. The means must--
    (1) Have a positive lock or stop at the idle position; and
    (2) Require a separate and distinct operation to place the control 
in the shutoff position.

[Amdt. 25-23, 35 FR 5677, Apr. 8, 1970, as amended by Amdt. 25-38, 41 FR 
55467, Dec. 20, 1976; Amdt. 25-57, 49 FR 6849, Feb. 23, 1984]



Sec. 25.1145  Ignition switches.

    (a) Ignition switches must control each engine ignition circuit on 
each engine.
    (b) There must be means to quickly shut off all ignition by the 
grouping of switches or by a master ignition control.
    (c) Each group of ignition switches, except ignition switches for 
turbine engines for which continuous ignition is not required, and each 
master ignition control must have a means to prevent its inadvertent 
operation.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-40, 
42 FR 15044 Mar. 17, 1977]



Sec. 25.1147  Mixture controls.

    (a) If there are mixture controls, each engine must have a separate 
control. The controls must be grouped and arranged to allow--
    (1) Separate control of each engine; and
    (2) Simultaneous control of all engines.
    (b) Each intermediate position of the mixture controls that 
corresponds to a normal operating setting must be identifiable by feel 
and sight.
    (c) The mixture controls must be accessible to both pilots. However, 
if there is a separate flight engineer station with a control panel, the 
controls need be accessible only to the flight engineer.



Sec. 25.1149  Propeller speed and pitch controls.

    (a) There must be a separate propeller speed and pitch control for 
each propeller.
    (b) The controls must be grouped and arranged to allow--
    (1) Separate control of each propeller; and
    (2) Simultaneous control of all propellers.
    (c) The controls must allow synchronization of all propellers.

[[Page 451]]

    (d) The propeller speed and pitch controls must be to the right of, 
and at least one inch below, the pilot's throttle controls.



Sec. 25.1153  Propeller feathering controls.

    (a) There must be a separate propeller feathering control for each 
propeller. The control must have means to prevent its inadvertent 
operation.
    (b) If feathering is accomplished by movement of the propeller pitch 
or speed control lever, there must be means to prevent the inadvertent 
movement of this lever to the feathering position during normal 
operation.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-11, 
32 FR 6913, May 5, 1967]



Sec. 25.1155  Reverse thrust and propeller pitch settings below the flight regime.

    Each control for reverse thrust and for propeller pitch settings 
below the flight regime must have means to prevent its inadvertent 
operation. The means must have a positive lock or stop at the flight 
idle position and must require a separate and distinct operation by the 
crew to displace the control from the flight regime (forward thrust 
regime for turbojet powered airplanes).

[Amdt. 25-11, 32 FR 6913, May 5, 1967]



Sec. 25.1157  Carburetor air temperature controls.

    There must be a separate carburetor air temperature control for each 
engine.



Sec. 25.1159  Supercharger controls.

    Each supercharger control must be accessible to the pilots or, if 
there is a separate flight engineer station with a control panel, to the 
flight engineer.



Sec. 25.1161  Fuel jettisoning system controls.

    Each fuel jettisoning system control must have guards to prevent 
inadvertent operation. No control may be near any fire extinguisher 
control or other control used to combat fire.



Sec. 25.1163  Powerplant accessories.

    (a) Each engine mounted accessory must--
    (1) Be approved for mounting on the engine involved;
    (2) Use the provisions on the engine for mounting; and
    (3) Be sealed to prevent contamination of the engine oil system and 
the accessory system.
    (b) Electrical equipment subject to arcing or sparking must be 
installed to minimize the probability of contact with any flammable 
fluids or vapors that might be present in a free state.
    (c) If continued rotation of an engine-driven cabin supercharger or 
of any remote accessory driven by the engine is hazardous if 
malfunctioning occurs, there must be means to prevent rotation without 
interfering with the continued operation of the engine.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-57, 
49 FR 6849, Feb. 23, 1984]



Sec. 25.1165  Engine ignition systems.

    (a) Each battery ignition system must be supplemented by a generator 
that is automatically available as an alternate source of electrical 
energy to allow continued engine operation if any battery becomes 
depleted.
    (b) The capacity of batteries and generators must be large enough to 
meet the simultaneous demands of the engine ignition system and the 
greatest demands of any electrical system components that draw 
electrical energy from the same source.
    (c) The design of the engine ignition system must account for--
    (1) The condition of an inoperative generator;
    (2) The condition of a completely depleted battery with the 
generator running at its normal operating speed; and
    (3) The condition of a completely depleted battery with the 
generator operating at idling speed, if there is only one battery.
    (d) Magneto ground wiring (for separate ignition circuits) that lies 
on the engine side of the fire wall, must be installed, located, or 
protected, to minimize the probability of simultaneous failure of two or 
more wires as a result of mechanical damage, electrical faults, or other 
cause.

[[Page 452]]

    (e) No ground wire for any engine may be routed through a fire zone 
of another engine unless each part of that wire within that zone is 
fireproof.
    (f) Each ignition system must be independent of any electrical 
circuit, not used for assisting, controlling, or analyzing the operation 
of that system.
    (g) There must be means to warn appropriate flight crewmembers if 
the malfunctioning of any part of the electrical system is causing the 
continuous discharge of any battery necessary for engine ignition.
    (h) Each engine ignition system of a turbine powered airplane must 
be considered an essential electrical load.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5677, Apr. 8, 1970; Amdt. 25-72, 55 FR 29785, July 20, 1990]



Sec. 25.1167  Accessory gearboxes.

    For airplanes equipped with an accessory gearbox that is not 
certificated as part of an engine--
    (a) The engine with gearbox and connecting transmissions and shafts 
attached must be subjected to the tests specified in Sec. 33.49 or 
Sec. 33.87 of this chapter, as applicable;
    (b) The accessory gearbox must meet the requirements of Secs. 33.25 
and 33.53 or 33.91 of this chapter, as applicable; and
    (c) Possible misalignments and torsional loadings of the gearbox, 
transmission, and shaft system, expected to result under normal 
operating conditions must be evaluated.

[Amdt. 25-38, 41 FR 55467, Dec. 20, 1976]

                       Powerplant Fire Protection



Sec. 25.1181  Designated fire zones; regions included.

    (a) Designated fire zones are--
    (1) The engine power section;
    (2) The engine accessory section;
    (3) Except for reciprocating engines, any complete powerplant 
compartment in which no isolation is provided between the engine power 
section and the engine accessory section;
    (4) Any auxiliary power unit compartment;
    (5) Any fuel-burning heater and other combustion equipment 
installation described in Sec. 25.859;
    (6) The compressor and accessory sections of turbine engines; and
    (7) Combustor, turbine, and tailpipe sections of turbine engine 
installations that contain lines or components carrying flammable fluids 
or gases.
    (b) Each designated fire zone must meet the requirements of 
Secs. 25.867, and 25.1185 through 25.1203.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-11, 
32 FR 6913, May 5, 1967; Amdt. 25-23, 35 FR 5677, Apr. 8, 1970; Amdt. 
25-72, 55 FR 29785, July 20, 1990]



Sec. 25.1182  Nacelle areas behind firewalls, and engine pod attaching structures containing flammable fluid lines.

    (a) Each nacelle area immediately behind the firewall, and each 
portion of any engine pod attaching structure containing flammable fluid 
lines, must meet each requirement of Secs. 25.1103(b), 25.1165 (d) and 
(e), 25.1183, 25.1185(c), 25.1187, 25.1189, and 25.1195 through 25.1203, 
including those concerning designated fire zones. However, engine pod 
attaching structures need not contain fire detection or extinguishing 
means.
    (b) For each area covered by paragraph (a) of this section that 
contains a retractable landing gear, compliance with that paragraph need 
only be shown with the landing gear retracted.

[Amdt. 25-11, 32 FR 6913, May 5, 1967]



Sec. 25.1183  Flammable fluid-carrying components.

    (a) Except as provided in paragraph (b) of this section, each line, 
fitting, and other component carrying flammable fluid in any area 
subject to engine fire conditions, and each component which conveys or 
contains flammable fluid in a designated fire zone must be fire 
resistant, except that flammable fluid tanks and supports in a 
designated fire zone must be fireproof or be enclosed by a fireproof 
shield unless damage by fire to any non-fireproof part will not cause 
leakage or spillage of flammable fluid. Components must be shielded or 
located to safeguard against the ignition of leaking flammable fluid. An 
integral oil sump of less than 25-quart capacity on a reciprocating 
engine need not be fireproof nor be enclosed by a fireproof shield.
    (b) Paragraph (a) of this section does not apply to--

[[Page 453]]

    (1) Lines, fittings, and components which are already approved as 
part of a type certificated engine; and
    (2) Vent and drain lines, and their fittings, whose failure will not 
result in, or add to, a fire hazard.
    (c) All components, including ducts, within a designated fire zone 
must be fireproof if, when exposed to or damaged by fire, they could--
    (1) Result in fire spreading to other regions of the airplane; or
    (2) Cause unintentional operation of, or inability to operate, 
essential services or equipment.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-11, 
32 FR 6913, May 5, 1967; Amdt. 25-36, 39 FR 35461, Oct. 1, 1974; Amdt. 
25-57, 49 FR 6849, Feb. 23, 1984; Amdt. 25-101, 65 FR 79710, Dec. 19, 
2000]



Sec. 25.1185  Flammable fluids.

    (a) Except for the integral oil sumps specified in Sec. 25.1183(a), 
no tank or reservoir that is a part of a system containing flammable 
fluids or gases may be in a designated fire zone unless the fluid 
contained, the design of the system, the materials used in the tank, the 
shut-off means, and all connections, lines, and control provide a degree 
of safety equal to that which would exist if the tank or reservoir were 
outside such a zone.
    (b) There must be at least one-half inch of clear airspace between 
each tank or reservoir and each firewall or shroud isolating a 
designated fire zone.
    (c) Absorbent materials close to flammable fluid system components 
that might leak must be covered or treated to prevent the absorption of 
hazardous quantities of fluids.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964 as amended by Amdt. 25-19, 33 
FR 15410, Oct. 17, 1968; Amdt. 25-94, 63 FR 8848, Feb. 23, 1998]



Sec. 25.1187  Drainage and ventilation of fire zones.

    (a) There must be complete drainage of each part of each designated 
fire zone to minimize the hazards resulting from failure or 
malfunctioning of any component containing flammable fluids. The 
drainage means must be--
    (1) Effective under conditions expected to prevail when drainage is 
needed; and
    (2) Arranged so that no discharged fluid will cause an additional 
fire hazard.
    (b) Each designated fire zone must be ventilated to prevent the 
accumulation of flammable vapors.
    (c) No ventilation opening may be where it would allow the entry of 
flammable fluids, vapors, or flame from other zones.
    (d) Each ventilation means must be arranged so that no discharged 
vapors will cause an additional fire hazard.
    (e) Unless the extinguishing agent capacity and rate of discharge 
are based on maximum air flow through a zone, there must be means to 
allow the crew to shut off sources of forced ventilation to any fire 
zone except the engine power section of the nacelle and the combustion 
heater ventilating air ducts.



Sec. 25.1189  Shutoff means.

    (a) Each engine installation and each fire zone specified in 
Sec. 25.1181(a)(4) and (5) must have a means to shut off or otherwise 
prevent hazardous quantities of fuel, oil, deicer, and other flammable 
fluids, from flowing into, within, or through any designated fire zone, 
except that shutoff means are not required for--
    (1) Lines, fittings, and components forming an integral part of an 
engine; and
    (2) Oil systems for turbine engine installations in which all 
components of the system in a designated fire zone, including oil tanks, 
are fireproof or located in areas not subject to engine fire conditions.
    (b) The closing of any fuel shutoff valve for any engine may not 
make fuel unavailable to the remaining engines.
    (c) Operation of any shutoff may not interfere with the later 
emergency operation of other equipment, such as the means for feathering 
the propeller.
    (d) Each flammable fluid shutoff means and control must be fireproof 
or must be located and protected so that any fire in a fire zone will 
not affect its operation.
    (e) No hazardous quantity of flammable fluid may drain into any 
designated fire zone after shutoff.

[[Page 454]]

    (f) There must be means to guard against inadvertent operation of 
the shutoff means and to make it possible for the crew to reopen the 
shutoff means in flight after it has been closed.
    (g) Each tank-to-engine shutoff valve must be located so that the 
operation of the valve will not be affected by powerplant or engine 
mount structural failure.
    (h) Each shutoff valve must have a means to relieve excessive 
pressure accumulation unless a means for pressure relief is otherwise 
provided in the system.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5677, Apr. 8, 1970; Amdt. 25-57, 49 FR 6849, Feb. 23, 1984]



Sec. 25.1191  Firewalls.

    (a) Each engine, auxiliary power unit, fuel-burning heater, other 
combustion equipment intended for operation in flight, and the 
combustion, turbine, and tailpipe sections of turbine engines, must be 
isolated from the rest of the airplane by firewalls, shrouds, or 
equivalent means.
    (b) Each firewall and shroud must be--
    (1) Fireproof;
    (2) Constructed so that no hazardous quantity of air, fluid, or 
flame can pass from the compartment to other parts of the airplane;
    (3) Constructed so that each opening is sealed with close fitting 
fireproof grommets, bushings, or firewall fittings; and
    (4) Protected against corrosion.



Sec. 25.1192  Engine accessory section diaphragm.

    For reciprocating engines, the engine power section and all portions 
of the exhaust system must be isolated from the engine accessory 
compartment by a diaphragm that complies with the firewall requirements 
of Sec. 25.1191.

[Amdt. 25-23, 35 FR 5678, Apr. 8, 1970]



Sec. 25.1193  Cowling and nacelle skin.

    (a) Each cowling must be constructed and supported so that it 
canresist any vibration, inertia, and air load to which it may be 
subjected in operation.
    (b) Cowling must meet the drainage and ventilation requirements of 
Sec. 25.1187.
    (c) On airplanes with a diaphragm isolating the engine power section 
from the engine accessory section, each part of the accessory section 
cowling subject to flame in case of fire in the engine power section of 
the powerplant must--
    (1) Be fireproof; and
    (2) Meet the requirements of Sec. 25.1191.
    (d) Each part of the cowling subject to high temperatures due to its 
nearness to exhaust system parts or exhaust gas impingement must be 
fireproof.
    (e) Each airplane must--
    (1) Be designed and constructed so that no fire originating in any 
fire zone can enter, either through openings or by burning through 
external skin, any other zone or region where it would create additional 
hazards;
    (2) Meet paragraph (e)(1) of this section with the landing gear 
retracted (if applicable); and
    (3) Have fireproof skin in areas subject to flame if a fire starts 
in the engine power or accessory sections.



Sec. 25.1195  Fire extinguishing systems.

    (a) Except for combustor, turbine, and tail pipe sections of turbine 
engine installations that contain lines or components carrying flammable 
fluids or gases for which it is shown that a fire originating in these 
sections can be controlled, there must be a fire extinguisher system 
serving each designated fire zone.
    (b) The fire extinguishing system, the quantity of the extinguishing 
agent, the rate of discharge, and the discharge distribution must be 
adequate to extinguish fires. It must be shown by either actual or 
simulated flights tests that under critical airflow conditions in flight 
the discharge of the extinguishing agent in each designated fire zone 
specified in paragraph (a) of this section will provide an agent 
concentration capable of extinguishing fires in that zone and of 
minimizing the probability of reignition. An individual ``one-shot'' 
system may be used for auxiliary power units, fuel burning heaters, and 
other combustion equipment. For each other designated fire

[[Page 455]]

zone, two discharges must be provided each of which produces adequate 
agent concentration.
    (c) The fire extinguishing system for a nacelle must be able to 
simultaneously protect each zone of the nacelle for which protection is 
provided.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-46, 
43 FR 50598, Oct. 30, 1978]



Sec. 25.1197  Fire extinguishing agents.

    (a) Fire extinguishing agents must--
    (1) Be capable of extinguishing flames emanating from any burning of 
fluids or other combustible materials in the area protected by the fire 
extinguishing system; and
    (2) Have thermal stability over the temperature range likely to be 
experienced in the compartment in which they are stored.
    (b) If any toxic extinguishing agent is used, provisions must be 
made to prevent harmful concentrations of fluid or fluid vapors (from 
leakage during normal operation of the airplane or as a result of 
discharging the fire extinguisher on the ground or in flight) from 
entering any personnel compartment, even though a defect may exist in 
the extinguishing system. This must be shown by test except for built-in 
carbon dioxide fuselage compartment fire extinguishing systems for 
which--
    (1) Five pounds or less of carbon dioxide will be discharged, under 
established fire control procedures, into any fuselage compartment; or
    (2) There is protective breathing equipment for each flight 
crewmember on flight deck duty.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55467, Dec. 20, 1976; Amdt. 25-40, 42 FR 15044, Mar. 17, 1977]



Sec. 25.1199  Extinguishing agent containers.

    (a) Each extinguishing agent container must have a pressure relief 
to prevent bursting of the container by excessive internal pressures.
    (b) The discharge end of each discharge line from a pressure relief 
connection must be located so that discharge of the fire extinguishing 
agent would not damage the airplane. The line must also be located or 
protected to prevent clogging caused by ice or other foreign matter.
    (c) There must be a means for each fire extinguishing agent 
container to indicate that the container has discharged or that the 
charging pressure is below the established minimum necessary for proper 
functioning.
    (d) The temperature of each container must be maintained, under 
intended operating conditions, to prevent the pressure in the container 
from--
    (1) Falling below that necessary to provide an adequate rate of 
discharge; or
    (2) Rising high enough to cause premature discharge.
    (e) If a pyrotechnic capsule is used to discharge the extinguishing 
agent, each container must be installed so that temperature conditions 
will not cause hazardous deterioration of the pyrotechnic capsule.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5678, Apr. 8, 1970; Amdt. 25-40, 42 FR 15044, Mar. 17, 1977]



Sec. 25.1201  Fire extinguishing system materials.

    (a) No material in any fire extinguishing system may react 
chemically with any extinguishing agent so as to create a hazard.
    (b) Each system component in an engine compartment must be 
fireproof.



Sec. 25.1203  Fire detector system.

    (a) There must be approved, quick acting fire or overheat detectors 
in each designated fire zone, and in the combustion, turbine, and 
tailpipe sections of turbine engine installations, in numbers and 
locations ensuring prompt detection of fire in those zones.
    (b) Each fire detector system must be constructed and installed so 
that--
    (1) It will withstand the vibration, inertia, and other loads to 
which it may be subjected in operation;
    (2) There is a means to warn the crew in the event that the sensor 
or associated wiring within a designated fire zone is severed at one 
point, unless the system continues to function as a satisfactory 
detection system after the severing; and
    (3) There is a means to warn the crew in the event of a short 
circuit in the sensor or associated wiring within a

[[Page 456]]

designated fire zone, unless the system continues to function as a 
satisfactory detection system after the short circuit.
    (c) No fire or overheat detector may be affected by any oil, water, 
other fluids or fumes that might be present.
    (d) There must be means to allow the crew to check, in flight, the 
functioning of each fire or overheat detector electric circuit.
    (e) Wiring and other components of each fire or overheat detector 
system in a fire zone must be at least fire-resistant.
    (f) No fire or overheat detector system component for any fire zone 
may pass through another fire zone, unless--
    (1) It is protected against the possibility of false warnings 
resulting from fires in zones through which it passes; or
    (2) Each zone involved is simultaneously protected by the same 
detector and extinguishing system.
    (g) Each fire detector system must be constructed so that when it is 
in the configuration for installation it will not exceed the alarm 
activation time approved for the detectors using the response time 
criteria specified in the appropriate Technical Standard Order for the 
detector.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5678, Apr. 8, 1970; Amdt. 25-26, 36 FR 5493, Mar. 24, 1971]



Sec. 25.1207  Compliance.

    Unless otherwise specified, compliance with the requirements of 
Secs. 25.1181 through 25.1203 must be shown by a full scale fire test or 
by one or more of the following methods:
    (a) Tests of similar powerplant configurations;
    (b) Tests of components;
    (c) Service experience of aircraft with similar powerplant 
configurations;
    (d) Analysis.

[Amdt. 25-46, 43 FR 50598, Oct. 30, 1978]



                          Subpart F--Equipment

                                 General



Sec. 25.1301  Function and installation.

    Each item of installed equipment must--
    (a) Be of a kind and design appropriate to its intended function;
    (b) Be labeled as to its identification, function, or operating 
limitations, or any applicable combination of these factors;
    (c) Be installed according to limitations specified for that 
equipment; and
    (d) Function properly when installed.



Sec. 25.1303  Flight and navigation instruments.

    (a) The following flight and navigation instruments must be 
installed so that the instrument is visible from each pilot station:
    (1) A free air temperature indicator or an air-temperature indicator 
which provides indications that are convertible to free-air temperature.
    (2) A clock displaying hours, minutes, and seconds with a sweep-
second pointer or digital presentation.
    (3) A direction indicator (nonstabilized magnetic compass).
    (b) The following flight and navigation instruments must be 
installed at each pilot station:
    (1) An airspeed indicator. If airspeed limitations vary with 
altitude, the indicator must have a maximum allowable airspeed indicator 
showing the variation of VMO with altitude.
    (2) An altimeter (sensitive).
    (3) A rate-of-climb indicator (vertical speed).
    (4) A gyroscopic rate-of-turn indicator combined with an integral 
slip-skid indicator (turn-and-bank indicator) except that only a slip-
skid indicator is required on large airplanes with a third attitude 
instrument system useable through flight attitudes of 360 deg. of pitch 
and roll and installed in accordance with Sec. 121.305(k) of this title.
    (5) A bank and pitch indicator (gyroscopically stabilized).

[[Page 457]]

    (6) A direction indicator (gyroscopically stabilized, magnetic or 
nonmagnetic).
    (c) The following flight and navigation instruments are required as 
prescribed in this paragraph:
    (1) A speed warning device is required for turbine engine powered 
airplanes and for airplanes with VMO/MMO greater 
than 0.8 VDF/MDF or 0.8 V D/
MD. The speed warning device must give effective aural 
warning (differing distinctively from aural warnings used for other 
purposes) to the pilots, whenever the speed exceeds VMO plus 
6 knots or MMO +0.01. The upper limit of the production 
tolerance for the warning device may not exceed the prescribed warning 
speed.
    (2) A machmeter is required at each pilot station for airplanes with 
compressibility limitations not otherwise indicated to the pilot by the 
airspeed indicating system required under paragraph (b)(1) of this 
section.

[Amdt. 25-23, 35 FR 5678, Apr. 8, 1970, as amended by Amdt. 25-24, 35 FR 
7108, May 6, 1970; Amdt. 25-38, 41 FR 55467, Dec. 20, 1976; Amdt. 25-90, 
62 FR 13253, Mar. 19, 1997]



Sec. 25.1305  Powerplant instruments.

    The following are required powerplant instruments:
    (a) For all airplanes. (1) A fuel pressure warning means for each 
engine, or a master warning means for all engines with provision for 
isolating the individual warning means from the master warning means.
    (2) A fuel quantity indicator for each fuel tank.
    (3) An oil quantity indicator for each oil tank.
    (4) An oil pressure indicator for each independent pressure oil 
system of each engine.
    (5) An oil pressure warning means for each engine, or a master 
warning means for all engines with provision for isolating the 
individual warning means from the master warning means.
    (6) An oil temperature indicator for each engine.
    (7) Fire-warning indicators.
    (8) An augmentation liquid quantity indicator (appropriate for the 
manner in which the liquid is to be used in operation) for each tank.
    (b) For reciprocating engine-powered airplanes. In addition to the 
powerplant instruments required by paragraph (a) of this section, the 
following powerplant instruments are required:
    (1) A carburetor air temperature indicator for each engine.
    (2) A cylinder head temperature indicator for each air-cooled 
engine.
    (3) A manifold pressure indicator for each engine.
    (4) A fuel pressure indicator (to indicate the pressure at which the 
fuel is supplied) for each engine.
    (5) A fuel flowmeter, or fuel mixture indicator, for each engine 
without an automatic altitude mixture control.
    (6) A tachometer for each engine.
    (7) A device that indicates, to the flight crew (during flight), any 
change in the power output, for each engine with--
    (i) An automatic propeller feathering system, whose operation is 
initiated by a power output measuring system; or
    (ii) A total engine piston displacement of 2,000 cubic inches or 
more.
    (8) A means to indicate to the pilot when the propeller is in 
reverse pitch, for each reversing propeller.
    (c) For turbine engine-powered airplanes. In addition to the 
powerplant instruments required by paragraph (a) of this section, the 
following powerplant instruments are required:
    (1) A gas temperature indicator for each engine.
    (2) A fuel flowmeter indicator for each engine.
    (3) A tachometer (to indicate the speed of the rotors with 
established limiting speeds) for each engine.
    (4) A means to indicate, to the flight crew, the operation of each 
engine starter that can be operated continuously but that is neither 
designed for continuous operation nor designed to prevent hazard if it 
failed.
    (5) An indicator to indicate the functioning of the powerplant ice 
protection system for each engine.
    (6) An indicator for the fuel strainer or filter required by 
Sec. 25.997 to indicate the occurrence of contamination of the strainer 
or filter before it reaches the capacity established in accordance with 
Sec. 25.997(d).
    (7) A warning means for the oil strainer or filter required by 
Sec. 25.1019, if

[[Page 458]]

it has no bypass, to warn the pilot of the occurrence of contamination 
of the strainer or filter screen before it reaches the capacity 
established in accordance with Sec. 25.1019(a)(2).
    (8) An indicator to indicate the proper functioning of any heater 
used to prevent ice clogging of fuel system components.
    (d) For turbojet engine powered airplanes. In addition to the 
powerplant instruments required by paragraphs (a) and (c) of this 
section, the following powerplant instruments are required:
    (1) An indicator to indicate thrust, or a parameter that is directly 
related to thrust, to the pilot. The indication must be based on the 
direct measurement of thrust or of parameters that are directly related 
to thrust. The indicator must indicate a change in thrust resulting from 
any engine malfunction, damage, or deterioration.
    (2) A position indicating means to indicate to the flight crew when 
the thrust reversing device is in the reverse thrust position, for each 
engine using a thrust reversing device.
    (3) An indicator to indicate rotor system unbalance.
    (e) For turbopropeller-powered airplanes. In addition to the 
powerplant instruments required by paragraphs (a) and (c) of this 
section, the following powerplant instruments are required:
    (1) A torque indicator for each engine.
    (2) Position indicating means to indicate to the flight crew when 
the propeller blade angle is below the flight low pitch position, for 
each propeller.
    (f) For airplanes equipped with fluid systems (other than fuel) for 
thrust or power augmentation, an approved means must be provided to 
indicate the proper functioning of that system to the flight crew.

[Amdt. 25-23, 35 FR 5678, Apr. 8, 1970, as amended by Amdt. 25-35, 39 FR 
1831, Jan. 15, 1974; Amdt. 25-36, 39 FR 35461, Oct. 1, 1974; Amdt. 25-
38, 41 FR 55467, Dec. 20, 1976; Amdt. 25-54, 45 FR 60173, Sept. 11, 
1980; Amdt. 25-72, 55 FR 29785, July 20, 1990]



Sec. 25.1307  Miscellaneous equipment.

    The following is required miscellaneous equipment:
    (a)  [Reserved]
    (b) Two or more independent sources of electrical energy.
    (c) Electrical protective devices, as prescribed in this part.
    (d) Two systems for two-way radio communications, with controls for 
each accessible from each pilot station, designed and installed so that 
failure of one system will not preclude operation of the other system. 
The use of a common antenna system is acceptable if adequate reliability 
is shown.
    (e) Two systems for radio navigation, with controls for each 
accessible from each pilot station, designed and installed so that 
failure of one system will not preclude operation of the other system. 
The use of a common antenna system is acceptable if adequate reliability 
is shown.

[Amdt. 25-23, 35 FR 5678, Apr. 8, 1970, as amended by Amdt. 25-46, 43 FR 
50598, Oct. 30, 1978; Amdt. 25-54, 45 FR 60173, Sept. 11, 1980; Amdt. 
25-72, 55 FR 29785, July 20, 1990]



Sec. 25.1309  Equipment, systems, and installations.

    (a) The equipment, systems, and installations whose functioning is 
required by this subchapter, must be designed to ensure that they 
perform their intended functions under any foreseeable operating 
condition.
    (b) The airplane systems and associated components, considered 
separately and in relation to other systems, must be designed so that--
    (1) The occurrence of any failure condition which would prevent the 
continued safe flight and landing of the airplane is extremely 
improbable, and
    (2) The occurrence of any other failure conditions which would 
reduce the capability of the airplane or the ability of the crew to cope 
with adverse operating conditions is improbable.
    (c) Warning information must be provided to alert the crew to unsafe 
system operating conditions, and to enable them to take appropriate 
corrective action. Systems, controls, and associated monitoring and 
warning means must be designed to minimize crew errors which could 
create additional hazards.
    (d) Compliance with the requirements of paragraph (b) of this 
section must be shown by analysis, and where necessary, by appropriate 
ground,

[[Page 459]]

flight, or simulator tests. The analysis must consider--
    (1) Possible modes of failure, including malfunctions and damage 
from external sources.
    (2) The probability of multiple failures and undetected failures.
    (3) The resulting effects on the airplane and occupants, considering 
the stage of flight and operating conditions, and
    (4) The crew warning cues, corrective action required, and the 
capability of detecting faults.
    (e) Each installation whose functioning is required by this 
subchapter, and that requires a power supply, is an ``essential load'' 
on the power supply. The power sources and the system must be able to 
supply the following power loads in probable operating combinations and 
for probable durations:
    (1) Loads connected to the system with the system functioning 
normally.
    (2) Essential loads, after failure of any one prime mover, power 
converter, or energy storage device.
    (3) Essential loads after failure of--
    (i) Any one engine on two-engine airplanes; and
    (ii) Any two engines on three-or-more-engine airplanes.
    (4) Essential loads for which an alternate source of power is 
required by this chapter, after any failure or malfunction in any one 
power supply system, distribution system, or other utilization system.
    (f) In determining compliance with paragraphs (e)(2) and (3) of this 
section, the power loads may be assumed to be reduced under a monitoring 
procedure consistent with safety in the kinds of operation authorized. 
Loads not required in controlled flight need not be considered for the 
two-engine-inoperative condition on airplanes with three or more 
engines.
    (g) In showing compliance with paragraphs (a) and (b) of this 
section with regard to the electrical system and equipment design and 
installation, critical environmental conditions must be considered. For 
electrical generation, distribution, and utilization equipment required 
by or used in complying with this chapter, except equipment covered by 
Technical Standard Orders containing environmental test procedures, the 
ability to provide continuous, safe service under foreseeable 
environmental conditions may be shown by environmental tests, design 
analysis, or reference to previous comparable service experience on 
other aircraft.

[Amdt. 25-23, 35 FR 5679, Apr. 8, 1970, as amended by Amdt. 25-38, 41 FR 
55467, Dec. 20, 1976; Amdt. 25-41, 42 FR 36970, July 18, 1977]



Sec. 25.1316  System lightning protection.

    (a) For functions whose failure would contribute to or cause a 
condition that would prevent the continued safe flight and landing of 
the airplane, each electrical and electronic system that performs these 
functions must be designed and installed to ensure that the operation 
and operational capabilities of the systems to perform these functions 
are not adversely affected when the airplane is exposed to lightning.
    (b) For functions whose failure would contribute to or cause a 
condition that would reduce the capability of the airplane or the 
ability of the flightcrew to cope with adverse operating conditions, 
each electrical and electronic system that performs these functions must 
be designed and installed to ensure that these functions can be 
recovered in a timely manner after the airplane is exposed to lightning.
    (c) Compliance with the lightning protection criteria prescribed in 
paragraphs (a) and (b) of this section must be shown for exposure to a 
severe lightning environment. The applicant must design for and verify 
that aircraft electrical/electronic systems are protected against the 
effects of lightning by:
    (1) Determining the lightning strike zones for the airplane;
    (2) Establishing the external lightning environment for the zones;
    (3) Establishing the internal environment;
    (4) Identifying all the electrical and electronic systems that are 
subject to the requirements of this section, and their locations on or 
within the airplane;
    (5) Establishing the susceptibility of the systems to the internal 
and external lightning environment;
    (6) Designing protection; and

[[Page 460]]

    (7) Verifying that the protection is adequate.

[Doc. No. 25912, 59 FR 22116, Apr. 28, 1994]

                        Instruments: Installation



Sec. 25.1321  Arrangement and visibility.

    (a) Each flight, navigation, and powerplant instrument for use by 
any pilot must be plainly visible to him from his station with the 
minimum practicable deviation from his normal position and line of 
vision when he is looking forward along the flight path.
    (b) The flight instruments required by Sec. 25.1303 must be grouped 
on the instrument panel and centered as nearly as practicable about the 
vertical plane of the pilot's forward vision. In addition--
    (1) The instrument that most effectively indicates attitude must be 
on the panel in the top center position;
    (2) The instrument that most effectively indicates airspeed must be 
adjacent to and directly to the left of the instrument in the top center 
position:
    (3) The instrument that most effectively indicates altitude must be 
adjacent to and directly to the right of the instrument in the top 
center position; and
    (4) The instrument that most effectively indicates direction of 
flight must be adjacent to and directly below the instrument in the top 
center position.
    (c) Required powerplant instruments must be closely grouped on the 
instrument panel. In addition--
    (1) The location of identical powerplant instruments for the engines 
must prevent confusion as to which engine each instrument relates; and
    (2) Powerplant instruments vital to the safe operation of the 
airplane must be plainly visible to the appropriate crewmembers.
    (d) Instrument panel vibration may not damage or impair the accuracy 
of any instrument.
    (e) If a visual indicator is provided to indicate malfunction of an 
instrument, it must be effective under all probable cockpit lighting 
conditions.

[Amdt. 25-23, 35 FR 5679, Apr. 8, 1970, as amended by Amdt. 25-41, 42 FR 
36970, July 18, 1977]



Sec. 25.1322  Warning, caution, and advisory lights.

    If warning, caution or advisory lights are installed in the cockpit, 
they must, unless otherwise approved by the Administrator, be--
    (a) Red, for warning lights (lights indicating a hazard which may 
require immediate corrective action);
    (b) Amber, for caution lights (lights indicating the possible need 
for future corrective action);
    (c) Green, for safe operation lights; and
    (d) Any other color, including white, for lights not described in 
paragraphs (a) through (c) of this section, provided the color differs 
sufficiently from the colors prescribed in paragraphs (a) through (c) of 
this section to avoid possible confusion.

[Amdt. 25-38, 41 FR 55467, Dec. 20, 1976]



Sec. 25.1323  Airspeed indicating system.

    For each airspeed indicating system, the following apply:
    (a) Each airspeed indicating instrument must be approved and must be 
calibrated to indicate true airspeed (at sea level with a standard 
atmosphere) with a minimum practicable instrument calibration error when 
the corresponding pitot and static pressures are applied.
    (b) Each system must be calibrated to determine the system error 
(that is, the relation between IAS and CAS) in flight and during the 
accelerated takeoff ground run. The ground run calibration must be 
determined--
    (1) From 0.8 of the minimum value of V1 to the maximum 
value of V2, considering the approved ranges of altitude and 
weight; and
    (2) With the flaps and power settings corresponding to the values 
determined in the establishment of the takeoff path under Sec. 25.111 
assuming that the critical engine fails at the minimum value of 
V1.
    (c) The airspeed error of the installation, excluding the airspeed 
indicator instrument calibration error, may not exceed three percent or 
five knots, whichever is greater, throughout the speed range, from--
    (1) VMO to 1.3 VS1, with flaps retracted; and

[[Page 461]]

    (2) 1.3 VS0 to VFE with flaps in the landing 
position.
    (d) Each system must be arranged, so far as practicable, to prevent 
malfunction or serious error due to the entry of moisture, dirt, or 
other substances.
    (e) Each system must have a heated pitot tube or an equivalent means 
of preventing malfunction due to icing.
    (f) Where duplicate airspeed indicators are required, their 
respective pitot tubes must be far enough apart to avoid damage to both 
tubes in a collision with a bird.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-57, 
49 FR 6849, Feb. 23, 1984]



Sec. 25.1325  Static pressure systems.

    (a) Each instrument with static air case connections must be vented 
to the outside atmosphere through an appropriate piping system.
    (b) Each static port must be designed and located in such manner 
that the static pressure system performance is least affected by airflow 
variation, or by moisture or other foreign matter, and that the 
correlation between air pressure in the static pressure system and true 
ambient atmospheric static pressure is not changed when the airplane is 
exposed to the continuous and intermittent maximum icing conditions 
defined in appendix C of this part.
    (c) The design and installation of the static pressure system must 
be such that--
    (1) Positive drainage of moisture is provided; chafing of the tubing 
and excessive distortion or restriction at bends in the tubing is 
avoided; and the materials used are durable, suitable for the purpose 
intended, and protected against corrosion; and
    (2) It is airtight except for the port into the atmosphere. A proof 
test must be conducted to demonstrate the integrity of the static 
pressure system in the following manner:
    (i) Unpressurized airplanes. Evacuate the static pressure system to 
a pressure differential of approximately 1 inch of mercury or to a 
reading on the altimeter, 1,000 feet above the airplane elevation at the 
time of the test. Without additional pumping for a period of 1 minute, 
the loss of indicated altitude must not exceed 100 feet on the 
altimeter.
    (ii) Pressurized airplanes. Evacuate the static pressure system 
until a pressure differential equivalent to the maximum cabin pressure 
differential for which the airplane is type certificated is achieved. 
Without additional pumping for a period of 1 minute, the loss of 
indicated altitude must not exceed 2 percent of the equivalent altitude 
of the maximum cabin differential pressure or 100 feet, whichever is 
greater.
    (d) Each pressure altimeter must be approved and must be calibrated 
to indicate pressure altitude in a standard atmosphere, with a minimum 
practicable calibration error when the corresponding static pressures 
are applied.
    (e) Each system must be designed and installed so that the error in 
indicated pressure altitude, at sea level, with a standard atmosphere, 
excluding instrument calibration error, does not result in an error of 
more than plus-minus30 feet per 100 knots speed for the 
appropriate configuration in the speed range between 1.3 VS0 
with flaps extended and 1.8 VS1 with flaps retracted. 
However, the error need not be less than plus-minus30 feet.
    (f) If an altimeter system is fitted with a device that provides 
corrections to the altimeter indication, the device must be designed and 
installed in such manner that it can be bypassed when it malfunctions, 
unless an alternate altimeter system is provided. Each correction device 
must be fitted with a means for indicating the occurrence of reasonably 
probable malfunctions, including power failure, to the flight crew. The 
indicating means must be effective for any cockpit lighting condition 
likely to occur.
    (g) Except as provided in paragraph (h) of this section, if the 
static pressure system incorporates both a primary and an alternate 
static pressure source, the means for selecting one or the other source 
must be designed so that--
    (1) When either source is selected, the other is blocked off; and
    (2) Both sources cannot be blocked off simultaneously.
    (h) For unpressurized airplanes, paragraph (g)(1) of this section 
does not apply if it can be demonstrated that the static pressure system 
calibration,

[[Page 462]]

when either static pressure source is selected, is not changed by the 
other static pressure source being open or blocked.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-5, 30 
FR 8261, June 29, 1965; Amdt. 25-12, 32 FR 7587, May 24, 1967; Amdt. 25-
41, 42 FR 36970, July 18, 1977]



Sec. 25.1326  Pitot heat indication systems.

    If a flight instrument pitot heating system is installed, an 
indication system must be provided to indicate to the flight crew when 
that pitot heating system is not operating. The indication system must 
comply with the following requirements:
    (a) The indication provided must incorporate an amber light that is 
in clear view of a flight crewmember.
    (b) The indication provided must be designed to alert the flight 
crew if either of the following conditions exist:
    (1) The pitot heating system is switched ``off''.
    (2) The pitot heating system is switched ``on'' and any pitot tube 
heating element is inoperative.

[Amdt. 25-43, 43 FR 10339, Mar. 13, 1978]



Sec. 25.1327  Magnetic direction indicator.

    (a) Each magnetic direction indicator must be installed so that its 
accuracy is not excessively affected by the airplane's vibration or 
magnetic fields.
    (b) The compensated installation may not have a deviation, in level 
flight, greater than 10 degrees on any heading.



Sec. 25.1329  Automatic pilot system.

    (a) Each automatic pilot system must be approved and must be 
designed so that the automatic pilot can be quickly and positively 
disengaged by the pilots to prevent it from interfering with their 
control of the airplane.
    (b) Unless there is automatic synchronization, each system must have 
a means to readily indicate to the pilot the alignment of the actuating 
device in relation to the control system it operates.
    (c) Each manually operated control for the system must be readily 
accessible to the pilots.
    (d) Quick release (emergency) controls must be on both control 
wheels, on the side of each wheel opposite the throttles.
    (e) Attitude controls must operate in the plane and sense of motion 
specified in Secs. 25.777(b) and 25.779(a) for cockpit controls. The 
direction of motion must be plainly indicated on, or adjacent to, each 
control.
    (f) The system must be designed and adjusted so that, within the 
range of adjustment available to the human pilot, it cannot produce 
hazardous loads on the airplane, or create hazardous deviations in the 
flight path, under any condition of flight appropriate to its use, 
either during normal operation or in the event of a malfunction, 
assuming that corrective action begins within a reasonable period of 
time.
    (g) If the automatic pilot integrates signals from auxiliary 
controls or furnishes signals for operation of other equipment, there 
must be positive interlocks and sequencing of engagement to prevent 
improper operation. Protection against adverse interaction of integrated 
components, resulting from a malfunction, is also required.
    (h) If the automatic pilot system can be coupled to airborne 
navigation equipment, means must be provided to indicate to the flight 
crew the current mode of operation. Selector switch position is not 
acceptable as a means of indication.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-46, 
43 FR 50598, Oct. 30, 1978]



Sec. 25.1331  Instruments using a power supply.

    (a) For each instrument required by Sec. 25.1303(b) that uses a 
power supply, the following apply:
    (1) Each instrument must have a visual means integral with, the 
instrument, to indicate when power adequate to sustain proper instrument 
performance is not being supplied. The power must be measured at or near 
the point where it enters the instruments. For electric instruments, the 
power is considered to be adequate when the voltage is within approved 
limits.
    (2) Each instrument must, in the event of the failure of one power

[[Page 463]]

source, be supplied by another power source. This may be accomplished 
automatically or by manual means.
    (3) If an instrument presenting navigation data receives information 
from sources external to that instrument and loss of that information 
would render the presented data unreliable, the instrument must 
incorporate a visual means to warn the crew, when such loss of 
information occurs, that the presented data should not be relied upon.
    (b) As used in this section, ``instrument'' includes devices that 
are physically contained in one unit, and devices that are composed of 
two or more physically separate units or components connected together 
(such as a remote indicating gyroscopic direction indicator that 
includes a magnetic sensing element, a gyroscopic unit, an amplifier and 
an indicator connected together).

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-41, 
42 FR 36970, July 18, 1977]



Sec. 25.1333  Instrument systems.

    For systems that operate the instruments required by Sec. 25.1303(b) 
which are located at each pilot's station--
    (a) Means must be provided to connect the required instruments at 
the first pilot's station to operating systems which are independent of 
the operating systems at other flight crew stations, or other equipment;
    (b) The equipment, systems, and installations must be designed so 
that one display of the information essential to the safety of flight 
which is provided by the instruments, including attitude, direction, 
airspeed, and altitude will remain available to the pilots, without 
additional crewmember action, after any single failure or combination of 
failures that is not shown to be extremely improbable; and
    (c) Additional instruments, systems, or equipment may not be 
connected to the operating systems for the required instruments, unless 
provisions are made to ensure the continued normal functioning of the 
required instruments in the event of any malfunction of the additional 
instruments, systems, or equipment which is not shown to be extremely 
improbable.

[Amdt. 25-23, 35 FR 5679, Apr. 8, 1970, as amended by Amdt. 25-41, 42 FR 
36970, July 18, 1977]



Sec. 25.1335  Flight director systems.

    If a flight director system is installed, means must be provided to 
indicate to the flight crew its current mode of operation. Selector 
switch position is not acceptable as a means of indication.

[Amdt. 25-41, 42 FR 36970, July 18, 1977]



Sec. 25.1337  Powerplant instruments.

    (a) Instruments and instrument lines. (1) Each powerplant and 
auxiliary power unit instrument line must meet the requirements of 
Secs. 25.993 and 25.1183.
    (2) Each line carrying flammable fluids under pressure must--
    (i) Have restricting orifices or other safety devices at the source 
of pressure to prevent the escape of excessive fluid if the line fails; 
and
    (ii) Be installed and located so that the escape of fluids would not 
create a hazard.
    (3) Each powerplant and auxiliary power unit instrument that 
utilizes flammable fluids must be installed and located so that the 
escape of fluid would not create a hazard.
    (b) Fuel quantity indicator. There must be means to indicate to the 
flight crewmembers, the quantity, in gallons or equivalent units, of 
usable fuel in each tank during flight. In addition--
    (1) Each fuel quantity indicator must be calibrated to read ``zero'' 
during level flight when the quantity of fuel remaining in the tank is 
equal to the unusable fuel supply determined under Sec. 25.959;
    (2) Tanks with interconnected outlets and airspaces may be treated 
as one tank and need not have separate indicators; and
    (3) Each exposed sight gauge, used as a fuel quantity indicator, 
must be protected against damage.
    (c) Fuel flowmeter system. If a fuel flowmeter system is installed, 
each metering component must have a means for bypassing the fuel supply 
if malfunction of that component severely restricts fuel flow.

[[Page 464]]

    (d) Oil quantity indicator. There must be a stick gauge or 
equivalent means to indicate the quantity of oil in each tank. If an oil 
transfer or reserve oil supply system is installed, there must be a 
means to indicate to the flight crew, in flight, the quantity of oil in 
each tank.
    (e) Turbopropeller blade position indicator. Required turbopropeller 
blade position indicators must begin indicating before the blade moves 
more than eight degrees below the flight low pitch stop. The source of 
indication must directly sense the blade position.
    (f) Fuel pressure indicator. There must be means to measure fuel 
pressure, in each system supplying reciprocating engines, at a point 
downstream of any fuel pump except fuel injection pumps. In addition--
    (1) If necessary for the maintenance of proper fuel delivery 
pressure, there must be a connection to transmit the carburetor air 
intake static pressure to the proper pump relief valve connection; and
    (2) If a connection is required under paragraph (f)(1) of this 
section, the gauge balance lines must be independently connected to the 
carburetor inlet pressure to avoid erroneous readings.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-40, 
42 FR 15044, Mar. 17, 1977]

                    Electrical Systems and Equipment



Sec. 25.1351  General.

    (a) Electrical system capacity. The required generating capacity, 
and number and kinds of power sources must--
    (1) Be determined by an electrical load analysis; and
    (2) Meet the requirements of Sec. 25.1309.
    (b) Generating system. The generating system includes electrical 
power sources, main power busses, transmission cables, and associated 
control, regulation, and protective devices. It must be designed so 
that--
    (1) Power sources function properly when independent and when 
connected in combination;
    (2) No failure or malfunction of any power source can create a 
hazard or impair the ability of remaining sources to supply essential 
loads;
    (3) The system voltage and frequency (as applicable) at the 
terminals of all essential load equipment can be maintained within the 
limits for which the equipment is designed, during any probable 
operating condition; and
    (4) System transients due to switching, fault clearing, or other 
causes do not make essential loads inoperative, and do not cause a smoke 
or fire hazard.
    (5) There are means accessible, in flight, to appropriate 
crewmembers for the individual and collective disconnection of the 
electrical power sources from the system.
    (6) There are means to indicate to appropriate crewmembers the 
generating system quantities essential for the safe operation of the 
system, such as the voltage and current supplied by each generator.
    (c) External power. If provisions are made for connecting external 
power to the airplane, and that external power can be electrically 
connected to equipment other than that used for engine starting, means 
must be provided to ensure that no external power supply having a 
reverse polarity, or a reverse phase sequence, can supply power to the 
airplane's electrical system.
    (d) Operation without normal electrical power. It must be shown by 
analysis, tests, or both, that the airplane can be operated safely in 
VFR conditions, for a period of not less than five minutes, with the 
normal electrical power (electrical power sources excluding the battery) 
inoperative, with critical type fuel (from the standpoint of flameout 
and restart capability), and with the airplane initially at the maximum 
certificated altitude. Parts of the electrical system may remain on if--
    (1) A single malfunction, including a wire bundle or junction box 
fire, cannot result in loss of both the part turned off and the part 
turned on; and
    (2) The parts turned on are electrically and mechanically isolated 
from the parts turned off.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-41, 
42 FR 36970, July 18, 1977; Amdt. 25-72, 55 FR 29785, July 20, 1990]

[[Page 465]]



Sec. 25.1353  Electrical equipment and installations.

    (a) Electrical equipment, controls, and wiring must be installed so 
that operation of any one unit or system of units will not adversely 
affect the simultaneous operation of any other electrical unit or system 
essential to the safe operation.
    (b) Cables must be grouped, routed, and spaced so that damage to 
essential circuits will be minimized if there are faults in heavy 
current-carrying cables.
    (c) Storage batteries must be designed and installed as follows:
    (1) Safe cell temperatures and pressures must be maintained during 
any probable charging or discharging condition. No uncontrolled increase 
in cell temperature may result when the battery is recharged (after 
previous complete discharge)--
    (i) At maximum regulated voltage or power;
    (ii) During a flight of maximum duration; and
    (iii) Under the most adverse cooling condition likely to occur in 
service.
    (2) Compliance with paragraph (c)(1) of this section must be shown 
by test unless experience with similar batteries and installations has 
shown that maintaining safe cell temperatures and pressures presents no 
problem.
    (3) No explosive or toxic gases emitted by any battery in normal 
operation, or as the result of any probable malfunction in the charging 
system or battery installation, may accumulate in hazardous quantities 
within the airplane.
    (4) No corrosive fluids or gases that may escape from the battery 
may damage surrounding airplane structures or adjacent essential 
equipment.
    (5) Each nickel cadmium battery installation capable of being used 
to start an engine or auxiliary power unit must have provisions to 
prevent any hazardous effect on structure or essential systems that may 
be caused by the maximum amount of heat the battery can generate during 
a short circuit of the battery or of its individual cells.
    (6) Nickel cadmium battery installations capable of being used to 
start an engine or auxiliary power unit must have--
    (i) A system to control the charging rate of the battery 
automatically so as to prevent battery overheating;
    (ii) A battery temperature sensing and over-temperature warning 
system with a means for disconnecting the battery from its charging 
source in the event of an over-temperature condition; or
    (iii) A battery failure sensing and warning system with a means for 
disconnecting the battery from its charging source in the event of 
battery failure.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-41, 
42 FR 36970, July 18, 1977; Amdt. 25-42, 43 FR 2323, Jan. 16, 1978]



Sec. 25.1355  Distribution system.

    (a) The distribution system includes the distribution busses, their 
associated feeders, and each control and protective device.
    (b) [Reserved]
    (c) If two independent sources of electrical power for particular 
equipment or systems are required by this chapter, in the event of the 
failure of one power source for such equipment or system, another power 
source (including its separate feeder) must be automatically provided or 
be manually selectable to maintain equipment or system operation.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-23, 
35 FR 5679, Apr. 8, 1970; Amdt. 25-38, 41 FR 55468, Dec. 20, 1976]



Sec. 25.1357  Circuit protective devices.

    (a) Automatic protective devices must be used to minimize distress 
to the electrical system and hazard to the airplane in the event of 
wiring faults or serious malfunction of the system or connected 
equipment.
    (b) The protective and control devices in the generating system must 
be designed to de-energize and disconnect faulty power sources and power 
transmission equipment from their associated busses with sufficient 
rapidity to provide protection from hazardous over-voltage and other 
malfunctioning.
    (c) Each resettable circuit protective device must be designed so 
that, when an overload or circuit fault exists, it will open the circuit 
irrespective of the position of the operating control.

[[Page 466]]

    (d) If the ability to reset a circuit breaker or replace a fuse is 
essential to safety in flight, that circuit breaker or fuse must be 
located and identified so that it can be readily reset or replaced in 
flight.
    (e) Each circuit for essential loads must have individual circuit 
protection. However, individual protection for each circuit in an 
essential load system (such as each position light circuit in a system) 
is not required.
    (f) If fuses are used, there must be spare fuses for use in flight 
equal to at least 50 percent of the number of fuses of each rating 
required for complete circuit protection.
    (g) Automatic reset circuit breakers may be used as integral 
protectors for electrical equipment (such as thermal cut-outs) if there 
is circuit protection to protect the cable to the equipment.



Sec. 25.1363  Electrical system tests.

    (a) When laboratory tests of the electrical system are conducted--
    (1) The tests must be performed on a mock-up using the same 
generating equipment used in the airplane;
    (2) The equipment must simulate the electrical characteristics of 
the distribution wiring and connected loads to the extent necessary for 
valid test results; and
    (3) Laboratory generator drives must simulate the actual prime 
movers on the airplane with respect to their reaction to generator 
loading, including loading due to faults.
    (b) For each flight condition that cannot be simulated adequately in 
the laboratory or by ground tests on the airplane, flight tests must be 
made.

                                 Lights



Sec. 25.1381  Instrument lights.

    (a) The instrument lights must--
    (1) Provide sufficient illumination to make each instrument, switch 
and other device necessary for safe operation easily readable unless 
sufficient illumination is available from another source; and
    (2) Be installed so that--
    (i) Their direct rays are shielded from the pilot's eyes; and
    (ii) No objectionable reflections are visible to the pilot.
    (b) Unless undimmed instrument lights are satisfactory under each 
expected flight condition, there must be a means to control the 
intensity of illumination.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29785, July 20, 1990]



Sec. 25.1383  Landing lights.

    (a) Each landing light must be approved, and must be installed so 
that--
    (1) No objectionable glare is visible to the pilot;
    (2) The pilot is not adversely affected by halation; and
    (3) It provides enough light for night landing.
    (b) Except when one switch is used for the lights of a multiple 
light installation at one location, there must be a separate switch for 
each light.
    (c) There must be a means to indicate to the pilots when the landing 
lights are extended.



Sec. 25.1385  Position light system installation.

    (a) General. Each part of each position light system must meet the 
applicable requirements of this section and each system as a whole must 
meet the requirements of Secs. 25.1387 through 25.1397.
    (b) Forward position lights. Forward position lights must consist of 
a red and a green light spaced laterally as far apart as practicable and 
installed forward on the airplane so that, with the airplane in the 
normal flying position, the red light is on the left side and the green 
light is on the right side. Each light must be approved.
    (c) Rear position light. The rear position light must be a white 
light mounted as far aft as practicable on the tail or on each wing tip, 
and must be approved.
    (d) Light covers and color filters. Each light cover or color filter 
must be at least flame resistant and may not change color or shape or 
lose any appreciable light transmission during normal use.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55468, Dec. 20, 1976]

[[Page 467]]



Sec. 25.1387  Position light system dihedral angles.

    (a) Except as provided in paragraph (e) of this section, each 
forward and rear position light must, as installed, show unbroken light 
within the dihedral angles described in this section.
    (b) Dihedral angle L (left) is formed by two intersecting vertical 
planes, the first parallel to the longitudinal axis of the airplane, and 
the other at 110 degrees to the left of the first, as viewed when 
looking forward along the longitudinal axis.
    (c) Dihedral angle R (right) is formed by two intersecting vertical 
planes, the first parallel to the longitudinal axis of the airplane, and 
the other at 110 degrees to the right of the first, as viewed when 
looking forward along the longitudinal axis.
    (d) Dihedral angle A (aft) is formed by two intersecting vertical 
planes making angles of 70 degrees to the right and to the left, 
respectively, to a vertical plane passing through the longitudinal axis, 
as viewed when looking aft along the longitudinal axis.
    (e) If the rear position light, when mounted as far aft as 
practicable in accordance with Sec. 25.1385(c), cannot show unbroken 
light within dihedral angle A (as defined in paragraph (d) of this 
section), a solid angle or angles of obstructed visibility totaling not 
more than 0.04 steradians is allowable within that dihedral angle, if 
such solid angle is within a cone whose apex is at the rear position 
light and whose elements make an angle of 30 deg. with a vertical line 
passing through the rear position light.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-30, 
36 FR 21278, Nov. 5, 1971]



Sec. 25.1389  Position light distribution and intensities.

    (a) General. The intensities prescribed in this section must be 
provided by new equipment with light covers and color filters in place. 
Intensities must be determined with the light source operating at a 
steady value equal to the average luminous output of the source at the 
normal operating voltage of the airplane. The light distribution and 
intensity of each position light must meet the requirements of paragraph 
(b) of this section.
    (b) Forward and rear position lights. The light distribution and 
intensities of forward and rear position lights must be expressed in 
terms of minimum intensities in the horizontal plane, minimum 
intensities in any vertical plane, and maximum intensities in 
overlapping beams, within dihedral angles L, R, and A, and must meet the 
following requirements:
    (1) Intensities in the horizontal plane. Each intensity in the 
horizontal plane (the plane containing the longitudinal axis of the 
airplane and perpendicular to the plane of symmetry of the airplane) 
must equal or exceed the values in Sec. 25.1391.
    (2) Intensities in any vertical plane. Each intensity in any 
vertical plane (the plane perpendicular to the horizontal plane) must 
equal or exceed the appropriate value in Sec. 25.1393, where I is the 
minimum intensity prescribed in Sec. 25.1391 for the corresponding 
angles in the horizontal plane.
    (3) Intensities in overlaps between adjacent signals. No intensity 
in any overlap between adjacent signals may exceed the values given in 
Sec. 25.1395, except that higher intensities in overlaps may be used 
with main beam intensities substantially greater than the minima 
specified in Secs. 25.1391 and 25.1393 if the overlap intensities in 
relation to the main beam intensities do not adversely affect signal 
clarity. When the peak intensity of the forward position lights is more 
than 100 candles, the maximum overlap intensities between them may 
exceed the values given in Sec. 25.1395 if the overlap intensity in Area 
A is not more than 10 percent of peak position light intensity and the 
overlap intensity in Area B is not greater than 2.5 percent of peak 
position light intensity.



Sec. 25.1391  Minimum intensities in the horizontal plane of forward and rear position lights.

    Each position light intensity must equal or exceed the applicable 
values in the following table:

[[Page 468]]



------------------------------------------------------------------------
                                        Angle from right or
                                       left of longitudinal    Intensity
   Dihedral angle (light included)      axis, measured from    (candles)
                                            dead ahead
------------------------------------------------------------------------
L and R (forward red and green).....  0 deg. to 10 deg......          40
                                      10 deg. to 20 deg.....          30
                                      20 deg. to 110 deg....           5
A (rear white)......................  110 deg. to 180 deg...          20
------------------------------------------------------------------------



Sec. 25.1393  Minimum intensities in any vertical plane of forward and rear position lights.

    Each position light intensity must equal or exceed the applicable 
values in the following table:

------------------------------------------------------------------------
                                                              Intensity,
          Angle above or below the horizontal plane                l
------------------------------------------------------------------------
0 deg.......................................................        1.00
0 deg. to 5 deg.............................................        0.90
5 deg. to 10 deg............................................        0.80
10 deg. to 15 deg...........................................        0.70
15 deg. to 20 deg...........................................        0.50
20 deg. to 30 deg...........................................        0.30
30 deg. to 40 deg...........................................        0.10
40 deg. to 90 deg...........................................        0.05
------------------------------------------------------------------------



Sec. 25.1395  Maximum intensities in overlapping beams of forward and rear position lights.

    No position light intensity may exceed the applicable values in the 
following table, except as provided in Sec. 25.1389(b)(3).

------------------------------------------------------------------------
                                                     Maximum intensity
                                                 -----------------------
                    Overlaps                        Area A      Area B
                                                   (candles)   (candles)
------------------------------------------------------------------------
Green in dihedral angle L.......................          10           1
Red in dihedral angle R.........................          10           1
Green in dihedral angle A.......................           5           1
Red in dihedral angle A.........................           5           1
Rear white in dihedral angle L..................           5           1
Rear white in dihedral angle R..................           5           1
------------------------------------------------------------------------


Where--
    (a) Area A includes all directions in the adjacent dihedral angle 
that pass through the light source and intersect the common boundary 
plane at more than 10 degrees but less than 20 degrees; and
    (b) Area B includes all directions in the adjacent dihedral angle 
that pass through the light source and intersect the common boundary 
plane at more than 20 degrees.



Sec. 25.1397  Color specifications.

    Each position light color must have the applicable International 
Commission on Illumination chromaticity coordinates as follows:
    (a) Aviation red--

    ``y'' is not greater than 0.335; and
    ``z'' is not greater than 0.002.

    (b) Aviation green--

    ``x'' is not greater than 0.440-0.320 y ;
    ``x'' is not greater than y --0.170; and
    ``y'' is not less than 0.390-0.170 x.

    (c) Aviation white--

    ``x'' is not less than 0.300 and not greater than 0.540;
    ``y'' is not less than ``x --0.040'' or ``y0--0.010'', 
whichever is the smaller; and
    ``y'' is not greater than ``x+0.020'' nor ``0.636-0.400 x'';
    Where ``y0'' is the ``y'' coordinate of the Planckian 
radiator for the value of ``x'' considered.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-27, 
36 FR 12972, July 10, 1971]



Sec. 25.1399  Riding light.

    (a) Each riding (anchor) light required for a seaplane or amphibian 
must be installed so that it can--
    (1) Show a white light for at least 2 nautical miles at night under 
clear atmospheric conditions; and
    (2) Show the maximum unbroken light practicable when the airplane is 
moored or drifting on the water.
    (b) Externally hung lights may be used.



Sec. 25.1401  Anticollision light system.

    (a) General. The airplane must have an anticollision light system 
that--
    (1) Consists of one or more approved anticollision lights located so 
that their light will not impair the crew's vision or detract from the 
conspicuity of the position lights; and
    (2) Meets the requirements of paragraphs (b) through (f) of this 
section.
    (b) Field of coverage. The system must consist of enough lights to 
illuminate the vital areas around the airplane considering the physical 
configuration and flight characteristics of the airplane. The field of 
coverage must extend in each direction within at least 75 degrees above 
and 75 degrees below the horizontal plane of the airplane, except that a 
solid angle or angles of obstructed visibility totaling not more than 
0.03 steradians is allowable within

[[Page 469]]

a solid angle equal to 0.15 steradians centered about the longitudinal 
axis in the rearward direction.
    (c) Flashing characteristics. The arrangement of the system, that 
is, the number of light sources, beam width, speed of rotation, and 
other characteristics, must give an effective flash frequency of not 
less than 40, nor more than 100 cycles per minute. The effective flash 
frequency is the frequency at which the airplane's complete 
anticollision light system is observed from a distance, and applies to 
each sector of light including any overlaps that exist when the system 
consists of more than one light source. In overlaps, flash frequencies 
may exceed 100, but not 180 cycles per minute.
    (d) Color. Each anticollision light must be either aviation red or 
aviation white and must meet the applicable requirements of 
Sec. 25.1397.
    (e) Light intensity. The minimum light intensities in all vertical 
planes, measured with the red filter (if used) and expressed in terms of 
``effective'' intensities, must meet the requirements of paragraph (f) 
of this section. The following relation must be assumed:
[GRAPHIC] [TIFF OMITTED] TC28SE91.049

where:
Ie=effective intensity (candles).
I(t)=instantaneous intensity as a function of time.
t2--t1=flash time interval (seconds).


Normally, the maximum value of effective intensity is obtained when 
t2 and t1 are chosen so that the effective 
intensity is equal to the instantaneous intensity at t2 and 
t1.
    (f) Minimum effective intensities for anticollision lights. Each 
anticollision light effective intensity must equal or exceed the 
applicable values in the following table.

------------------------------------------------------------------------
                                                               Effective
          Angle above or below the horizontal plane            intensity
                                                               (candles)
------------------------------------------------------------------------
0 deg. to 5 deg.............................................         400
5 deg. to 10 deg............................................         240
10 deg. to 20 deg...........................................          80
20 deg. to 30 deg...........................................          40
30 deg. to 75 deg...........................................          20
------------------------------------------------------------------------


[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-27, 
36 FR 12972, July 10, 1971; Amdt. 25-41, 42 FR 36970, July 18, 1977]



Sec. 25.1403  Wing icing detection lights.

    Unless operations at night in known or forecast icing conditions are 
prohibited by an operating limitation, a means must be provided for 
illuminating or otherwise determining the formation of ice on the parts 
of the wings that are critical from the standpoint of ice accumulation. 
Any illumination that is used must be of a type that will not cause 
glare or reflection that would handicap crewmembers in the performance 
of their duties.

[Amdt. 25-38, 41 FR 55468, Dec. 20, 1976]

                            Safety Equipment



Sec. 25.1411  General.

    (a) Accessibility. Required safety equipment to be used by the crew 
in an emergency must be readily accessible.
    (b) Stowage provisions. Stowage provisions for required emergency 
equipment must be furnished and must--
    (1) Be arranged so that the equipment is directly accessible and its 
location is obvious; and
    (2) Protect the safety equipment from inadvertent damage.
    (c) Emergency exit descent device. The stowage provisions for the 
emergency exit descent device required by Sec. 25.809(f) must be at the 
exits for which they are intended.
    (d) Liferafts. (1) The stowage provisions for the liferafts 
described in Sec. 25.1415 must accommodate enough rafts for the maximum 
number of occupants for which certification for ditching is requested.
    (2) Liferafts must be stowed near exits through which the rafts can 
be launched during an unplanned ditching.
    (3) Rafts automatically or remotely released outside the airplane 
must be attached to the airplane by means of the static line prescribed 
in Sec. 25.1415.
    (4) The stowage provisions for each portable liferaft must allow 
rapid detachment and removal of the raft for use at other than the 
intended exits.
    (e) Long-range signaling device. The stowage provisions for the 
long-range signaling device required by Sec. 25.1415

[[Page 470]]

must be near an exit available during an unplanned ditching.
    (f) Life preserver stowage provisions. The stowage provisions for 
life preservers described in Sec. 25.1415 must accommodate one life 
preserver for each occupant for which certification for ditching is 
requested. Each life preserver must be within easy reach of each seated 
occupant.
    (g) Life line stowage provisions. If certification for ditching 
under Sec. 25.801 is requested, there must be provisions to store life 
lines. These provisions must--
    (1) Allow one life line to be attached to each side of the fuselage; 
and
    (2) Be arranged to allow the life lines to be used to enable the 
occupants to stay on the wing after ditching.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-32, 
37 FR 3972, Feb. 24, 1972; Amdt. 25-46, 43 FR 50598, Oct. 30, 1978; 
Amdt. 25-53, 45 FR 41593, June 19, 1980; Amdt. 25-70, 54 FR 43925, Oct. 
27, 1989; Amdt. 25-79, 58 FR 45229, Aug. 26, 1993]



Sec. 25.1415  Ditching equipment.

    (a) Ditching equipment used in airplanes to be certificated for 
ditching under Sec. 25.801, and required by the operating rules of this 
chapter, must meet the requirements of this section.
    (b) Each liferaft and each life preserver must be approved. In 
addition--
    (1) Unless excess rafts of enough capacity are provided, the 
buoyancy and seating capacity beyond the rated capacity of the rafts 
must accommodate all occupants of the airplane in the event of a loss of 
one raft of the largest rated capacity; and
    (2) Each raft must have a trailing line, and must have a static line 
designed to hold the raft near the airplane but to release it if the 
airplane becomes totally submerged.
    (c) Approved survival equipment must be attached to each liferaft.
    (d) There must be an approved survival type emergency locator 
transmitter for use in one life raft.
    (e) For airplanes not certificated for ditching under Sec. 25.801 
and not having approved life preservers, there must be an approved 
flotation means for each occupant. This means must be within easy reach 
of each seated occupant and must be readily removable from the airplane.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-29, 
36 FR 18722, Sept. 21, 1971; Amdt 25-50, 45 FR 38348, June 9, 1980; 
Amdt. 25-72, 55 FR 29785, July 20, 1990; Amdt. 25-82, 59 FR 32057, June 
21, 1994]



Sec. 25.1419  Ice protection.

    If certification with ice protection provisions is desired, the 
airplane must be able to safely operate in the continuous maximum and 
intermittent maximum icing conditions of appendix C. To establish that 
the airplane can operate within the continuous maximum and intermittent 
maximum conditions of appendix C:
    (a) An analysis must be performed to establish that the ice 
protection for the various components of the airplane is adequate, 
taking into account the various airplane operational configurations; and
    (b) To verify the ice protection analysis, to check for icing 
anomalies, and to demonstrate that the ice protection system and its 
components are effective, the airplane or its components must be flight 
tested in the various operational configurations, in measured natural 
atmospheric icing conditions and, as found necessary, by one or more of 
the following means:
    (1) Laboratory dry air or simulated icing tests, or a combination of 
both, of the components or models of the components.
    (2) Flight dry air tests of the ice protection system as a whole, or 
of its individual components.
    (3) Flight tests of the airplane or its components in measured 
simulated icing conditions.
    (c) Caution information, such as an amber caution light or 
equivalent, must be provided to alert the flightcrew when the anti-ice 
or de-ice system is not functioning normally.
    (d) For turbine engine powered airplanes, the ice protection 
provisions of this section are considered to be applicable primarily to 
the airframe. For the powerplant installation, certain additional 
provisions of subpart E of this part may be found applicable.

[Amdt. 25-72, 55 FR 29785, July 20, 1990]

[[Page 471]]



Sec. 25.1421  Megaphones.

    If a megaphone is installed, a restraining means must be provided 
that is capable of restraining the megaphone when it is subjected to the 
ultimate inertia forces specified in Sec. 25.561(b)(3).

[Amdt. 25-41, 42 FR 36970, July 18, 1977]



Sec. 25.1423  Public address system.

    A public address system required by this chapter must--
    (a) Be powerable when the aircraft is in flight or stopped on the 
ground, after the shutdown or failure of all engines and auxiliary power 
units, or the disconnection or failure of all power sources dependent on 
their continued operation, for--
    (1) A time duration of at least 10 minutes, including an aggregate 
time duration of at least 5 minutes of announcements made by flight and 
cabin crewmembers, considering all other loads which may remain powered 
by the same source when all other power sources are inoperative; and
    (2) An additional time duration in its standby state appropriate or 
required for any other loads that are powered by the same source and 
that are essential to safety of flight or required during emergency 
conditions.
    (b) Be capable of operation within 10 seconds by a flight attendant 
at those stations in the passenger compartment from which the system is 
accessible.
    (c) Be intelligible at all passenger seats, lavatories, and flight 
attendant seats and work stations.
    (d) Be designed so that no unused, unstowed microphone will render 
the system inoperative.
    (e) Be capable of functioning independently of any required 
crewmember interphone system.
    (f) Be accessible for immediate use from each of two flight 
crewmember stations in the pilot compartment.
    (g) For each required floor-level passenger emergency exit which has 
an adjacent flight attendant seat, have a microphone which is readily 
accessible to the seated flight attendant, except that one microphone 
may serve more than one exit, provided the proximity of the exits allows 
unassisted verbal communication between seated flight attendants.

[Doc. No. 26003, 58 FR 45229, Aug. 26, 1993]

                         Miscellaneous Equipment



Sec. 25.1431  Electronic equipment.

    (a) In showing compliance with Sec. 25.1309 (a) and (b) with respect 
to radio and electronic equipment and their installations, critical 
environmental conditions must be considered.
    (b) Radio and electronic equipment must be supplied with power under 
the requirements of Sec. 25.1355(c).
    (c) Radio and electronic equipment, controls, and wiring must be 
installed so that operation of any one unit or system of units will not 
adversely affect the simultaneous operation of any other radio or 
electronic unit, or system of units, required by this chapter.



Sec. 25.1433  Vacuum systems.

    There must be means, in addition to the normal pressure relief, to 
automatically relieve the pressure in the discharge lines from the 
vacuum air pump when the delivery temperature of the air becomes unsafe.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29785, July 20, 1990]



Sec. 25.1435  Hydraulic systems.

    (a) Element design. Each element of the hydraulic system must be 
designed to:
    (1) Withstand the proof pressure without permanent deformation that 
would prevent it from performing its intended functions, and the 
ultimate pressure without rupture. The proof and ultimate pressures are 
defined in terms of the design operating pressure (DOP) as follows:

------------------------------------------------------------------------
                                                      Proof     Ultimate
                      Element                         (xDOP)     (xDOP)
------------------------------------------------------------------------
1. Tubes and fittings.............................        1.5        3.0
2. Pressure vessels containing gas:
  High pressure (e.g., accumulators)..............        3.0        4.0
  Low pressure (e.g., reservoirs).................        1.5        3.0
3. Hoses..........................................        2.0        4.0
4. All other elements.............................        1.5        2.0
------------------------------------------------------------------------

    (2) Withstand, without deformation that would prevent it from 
performing its intended function, the design operating pressure in 
combination with

[[Page 472]]

limit structural loads that may be imposed;
    (3) Withstand, without rupture, the design operating pressure 
multiplied by a factor of 1.5 in combination with ultimate structural 
load that can reasonably occur simultaneously;
    (4) Withstand the fatigue effects of all cyclic pressures, including 
transients, and associated externally induced loads, taking into account 
the consequences of element failure; and
    (5) Perform as intended under all environmental conditions for which 
the airplane is certificated.
    (b) System design. Each hydraulic system must:
    (1) Have means located at a flightcrew station to indicate 
appropriate system parameters, if
    (i) It performs a function necessary for continued safe flight and 
landing; or
    (ii) In the event of hydraulic system malfunction, corrective action 
by the crew to ensure continued safe flight and landing is necessary;
    (2) Have means to ensure that system pressures, including transient 
pressures and pressures from fluid volumetric changes in elements that 
are likely to remain closed long enough for such changes to occur, are 
within the design capabilities of each element, such that they meet the 
requirements defined in Sec. 25.1435(a)(1) through (a)(5);
    (3) Have means to minimize the release of harmful or hazardous 
concentrations of hydraulic fluid or vapors into the crew and passenger 
compartments during flight;
    (4) Meet the applicable requirements of Secs. 25.863, 25.1183, 
25.1185, and 25.1189 if a flammable hydraulic fluid is used; and
    (5) Be designed to use any suitable hydraulic fluid specified by the 
airplane manufacturer, which must be identified by appropriate markings 
as required by Sec. 25.1541.
    (c) Tests. Tests must be conducted on the hydraulic system(s), and/
or subsystem(s) and elements, except that analysis may be used in place 
of or to supplement testing, where the analysis is shown to be reliable 
and appropriate. All internal and external influences must be taken into 
account to an extent necessary to evaluate their effects, and to assure 
reliable system and element functioning and integration. Failure or 
unacceptable deficiency of an element or system must be corrected and be 
sufficiently retested, where necessary.
    (1) The system(s), subsystem(s), or element(s) must be subjected to 
performance, fatigue, and endurance tests representative of airplane 
ground and flight operations.
    (2) The complete system must be tested to determine proper 
functional performance and relation to the other systems, including 
simulation of relevant failure conditions, and to support or validate 
element design.
    (3) The complete hydraulic system(s) must be functionally tested on 
the airplane in normal operation over the range of motion of all 
associated user systems. The test must be conducted at the system relief 
pressure or 1.25 times the DOP if a system pressure relief device is not 
part of the system design. Clearances between hydraulic system elements 
and other systems or structural elements must remain adequate and there 
must be no detrimental effects.

[Doc. No. 28617, 66 FR 27402, May 16, 2001]



Sec. 25.1438  Pressurization and pneumatic systems.

    (a) Pressurization system elements must be burst pressure tested to 
2.0 times, and proof pressure tested to 1.5 times, the maximum normal 
operating pressure.
    (b) Pneumatic system elements must be burst pressure tested to 3.0 
times, and proof pressure tested to 1.5 times, the maximum normal 
operating pressure.
    (c) An analysis, or a combination of analysis and test, may be 
substituted for any test required by paragraph (a) or (b) of this 
section if the Administrator finds it equivalent to the required test.

[Amdt. 25-41, 42 FR 36971, July 18, 1977]



Sec. 25.1439  Protective breathing equipment.

    (a) If there is a class A, B, or E cargo compartment, protective 
breathing equipment must be installed for the

[[Page 473]]

use of appropriate crewmembers. In addition, protective breathing 
equipment must be installed in each isolated separate compartment in the 
airplane, including upper and lower lobe galleys, in which crewmember 
occupancy is permitted during flight for the maximum number of 
crewmembers expected to be in the area during any operation.
    (b) For protective breathing equipment required by paragraph (a) of 
this section or by any operating rule of this chapter, the following 
apply:
    (1) The equipment must be designed to protect the flight crew from 
smoke, carbon dioxide, and other harmful gases while on flight deck duty 
and while combating fires in cargo compartments.
    (2) The equipment must include--
    (i) Masks covering the eyes, nose, and mouth; or
    (ii) Masks covering the nose and mouth, plus accessory equipment to 
cover the eyes.
    (3) The equipment, while in use, must allow the flight crew to use 
the radio equipment and to communicate with each other, while at their 
assigned duty stations.
    (4) The part of the equipment protecting the eyes may not cause any 
appreciable adverse effect on vision and must allow corrective glasses 
to be worn.
    (5) The equipment must supply protective oxygen of 15 minutes 
duration per crewmember at a pressure altitude of 8,000 feet with a 
respiratory minute volume of 30 liters per minute BTPD. If a demand 
oxygen system is used, a supply of 300 liters of free oxygen at 70 deg. 
F. and 760 mm. Hg. pressure is considered to be of 15-minute duration at 
the prescribed altitude and minute volume. If a continuous flow 
protective breathing system is used (including a mask with a standard 
rebreather bag) a flow rate of 60 liters per minute at 8,000 feet (45 
liters per minute at sea level) and a supply of 600 liters of free 
oxygen at 70 deg. F. and 760 mm. Hg. pressure is considered to be of 15-
minute duration at the prescribed altitude and minute volume. BTPD 
refers to body temperature conditions (that is, 37 deg. C., at ambient 
pressure, dry).
    (6) The equipment must meet the requirements of paragraphs (b) and 
(c) of Sec. 25.1441.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55468, Dec. 20, 1976]



Sec. 25.1441  Oxygen equipment and supply.

    (a) If certification with supplemental oxygen equipment is 
requested, the equipment must meet the requirements of this section and 
Secs. 25.1443 through 25.1453.
    (b) The oxygen system must be free from hazards in itself, in its 
method of operation, and in its effect upon other components.
    (c) There must be a means to allow the crew to readily determine, 
during flight, the quantity of oxygen available in each source of 
supply.
    (d) The oxygen flow rate and the oxygen equipment for airplanes for 
which certification for operation above 40,000 feet is requested must be 
approved.



Sec. 25.1443  Minimum mass flow of supplemental oxygen.

    (a) If continuous flow equipment is installed for use by flight 
crewmembers, the minimum mass flow of supplemental oxygen required for 
each crewmember may not be less than the flow required to maintain, 
during inspiration, a mean tracheal oxygen partial pressure of 149 mm. 
Hg. when breathing 15 liters per minute, BTPS, and with a maximum tidal 
volume of 700 cc. with a constant time interval between respirations.
    (b) If demand equipment is installed for use by flight crewmembers, 
the minimum mass flow of supplemental oxygen required for each 
crewmember may not be less than the flow required to maintain, during 
inspiration, a mean tracheal oxygen partial pressure of 122 mm. Hg., up 
to and including a cabin pressure altitude of 35,000 feet, and 95 
percent oxygen between cabin pressure altitudes of 35,000 and 40,000 
feet, when breathing 20 liters per minute BTPS. In addition, there must 
be means to allow the crew to use undiluted oxygen at their discretion.
    (c) For passengers and cabin attendants, the minimum mass flow of 
supplemental oxygen required for each

[[Page 474]]

person at various cabin pressure altitudes may not be less than the flow 
required to maintain, during inspiration and while using the oxygen 
equipment (including masks) provided, the following mean tracheal oxygen 
partial pressures:
    (1) At cabin pressure altitudes above 10,000 feet up to and 
including 18,500 feet, a mean tracheal oxygen partial pressure of 100 
mm. Hg. when breathing 15 liters per minute, BTPS, and with a tidal 
volume of 700 cc. with a constant time interval between respirations.
    (2) At cabin pressure altitudes above 18,500 feet up to and 
including 40,000 feet, a mean tracheal oxygen partial pressure of 83.8 
mm. Hg. when breathing 30 liters per minute, BTPS, and with a tidal 
volume of 1,100 cc. with a constant time interval between respirations.
    (d) If first-aid oxygen equipment is installed, the minimum mass 
flow of oxygen to each user may not be less than four liters per minute, 
STPD. However, there may be a means to decrease this flow to not less 
than two liters per minute, STPD, at any cabin altitude. The quantity of 
oxygen required is based upon an average flow rate of three liters per 
minute per person for whom first-aid oxygen is required.
    (e) If portable oxygen equipment is installed for use by 
crewmembers, the minimum mass flow of supplemental oxygen is the same as 
specified in paragraph (a) or (b) of this section, whichever is 
applicable.



Sec. 25.1445  Equipment standards for the oxygen distributing system.

    (a) When oxygen is supplied to both crew and passengers, the 
distribution system must be designed for either--
    (1) A source of supply for the flight crew on duty and a separate 
source for the passengers and other crewmembers; or
    (2) A common source of supply with means to separately reserve the 
minimum supply required by the flight crew on duty.
    (b) Portable walk-around oxygen units of the continuous flow, 
diluter-demand, and straight demand kinds may be used to meet the crew 
or passenger breathing requirements.



Sec. 25.1447  Equipment standards for oxygen dispensing units.

    If oxygen dispensing units are installed, the following apply:
    (a) There must be an individual dispensing unit for each occupant 
for whom supplemental oxygen is to be supplied. Units must be designed 
to cover the nose and mouth and must be equipped with a suitable means 
to retain the unit in position on the face. Flight crew masks for 
supplemental oxygen must have provisions for the use of communication 
equipment.
    (b) If certification for operation up to and including 25,000 feet 
is requested, an oxygen supply terminal and unit of oxygen dispensing 
equipment for the immediate use of oxygen by each crewmember must be 
within easy reach of that crewmember. For any other occupants, the 
supply terminals and dispensing equipment must be located to allow the 
use of oxygen as required by the operating rules in this chapter.
    (c) If certification for operation above 25,000 feet is requested, 
there must be oxygen dispensing equipment meeting the following 
requirements:
    (1) There must be an oxygen dispensing unit connected to oxygen 
supply terminals immediately available to each occupant, wherever 
seated, and at least two oxygen dispensing units connected to oxygen 
terminals in each lavatory. The total number of dispensing units and 
outlets in the cabin must exceed the number of seats by at least 10 
percent. The extra units must be as uniformly distributed throughout the 
cabin as practicable. If certification for operation above 30,000 feet 
is requested, the dispensing units providing the required oxygen flow 
must be automatically presented to the occupants before the cabin 
pressure altitude exceeds 15,000 feet. The crew must be provided with a 
manual means of making the dispensing units immediately available in the 
event of failure of the automatic system.
    (2) Each flight crewmember on flight deck duty must be provided with 
a quick-donning type oxygen dispensing unit connected to an oxygen 
supply terminal. This dispensing unit must be immediately available to 
the flight crewmember when seated at his station, and installed so that 
it:

[[Page 475]]

    (i) Can be placed on the face from its ready position, properly 
secured, sealed, and supplying oxygen upon demand, with one hand, within 
five seconds and without disturbing eyeglasses or causing delay in 
proceeding with emergency duties; and
    (ii) Allows, while in place, the performance of normal communication 
functions.
    (3) The oxygen dispensing equipment for the flight crewmembers must 
be:
    (i) The diluter demand or pressure demand (pressure demand mask with 
a diluter demand pressure breathing regulator) type, or other approved 
oxygen equipment shown to provide the same degree of protection, for 
airplanes to be operated above 25,000 feet.
    (ii) The pressure demand (pressure demand mask with a diluter demand 
pressure breathing regulator) type with mask-mounted regulator, or other 
approved oxygen equipment shown to provide the same degree of 
protection, for airplanes operated at altitudes where decompressions 
that are not extremely improbable may expose the flightcrew to cabin 
pressure altitudes in excess of 34,000 feet.
    (4) Portable oxygen equipment must be immediately available for each 
cabin attendant.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-41, 
42 FR 36971, July 18, 1977; Amdt. 25-87, 61 FR 28696, June 5, 1996]



Sec. 25.1449  Means for determining use of oxygen.

    There must be a means to allow the crew to determine whether oxygen 
is being delivered to the dispensing equipment.



Sec. 25.1450  Chemical oxygen generators.

    (a) For the purpose of this section, a chemical oxygen generator is 
defined as a device which produces oxygen by chemical reaction.
    (b) Each chemical oxygen generator must be designed and installed in 
accordance with the following requirements:
    (1) Surface temperature developed by the generator during operation 
may not create a hazard to the airplane or to its occupants.
    (2) Means must be provided to relieve any internal pressure that may 
be hazardous.
    (c) In addition to meeting the requirements in paragraph (b) of this 
section, each portable chemical oxygen generator that is capable of 
sustained operation by successive replacement of a generator element 
must be placarded to show--
    (1) The rate of oxygen flow, in liters per minute;
    (2) The duration of oxygen flow, in minutes, for the replaceable 
generator element; and
    (3) A warning that the replaceable generator element may be hot, 
unless the element construction is such that the surface temperature 
cannot exceed 100 degrees F.

[Amdt. 25-41, 42 FR 36971, July 18, 1977]



Sec. 25.1453  Protection of oxygen equipment from rupture.

    Oxygen pressure tanks, and lines between tanks and the shutoff 
means, must be--
    (a) Protected from unsafe temperatures; and
    (b) Located where the probability and hazards of rupture in a crash 
landing are minimized.



Sec. 25.1455  Draining of fluids subject to freezing.

    If fluids subject to freezing may be drained overboard in flight or 
during ground operation, the drains must be designed and located to 
prevent the formation of hazardous quantities of ice on the airplane as 
a result of the drainage.

[Amdt. 25-23, 35 FR 5680, Apr. 8, 1970]



Sec. 25.1457  Cockpit voice recorders.

    (a) Each cockpit voice recorder required by the operating rules of 
this chapter must be approved and must be installed so that it will 
record the following:
    (1) Voice communications transmitted from or received in the 
airplane by radio.
    (2) Voice communications of flight crewmembers on the flight deck.
    (3) Voice communications of flight crewmembers on the flight deck, 
using the airplane's interphone system.

[[Page 476]]

    (4) Voice or audio signals identifying navigation or approach aids 
introduced into a headset or speaker.
    (5) Voice communications of flight crewmembers using the passenger 
loudspeaker system, if there is such a system and if the fourth channel 
is available in accordance with the requirements of paragraph (c)(4)(ii) 
of this section.
    (b) The recording requirements of paragraph (a)(2) of this section 
must be met by installing a cockpit-mounted area microphone, located in 
the best position for recording voice communications originating at the 
first and second pilot stations and voice communications of other 
crewmembers on the flight deck when directed to those stations. The 
microphone must be so located and, if necessary, the preamplifiers and 
filters of the recorder must be so adjusted or supplemented, that the 
intelligibility of the recorded communications is as high as practicable 
when recorded under flight cockpit noise conditions and played back. 
Repeated aural or visual playback of the record may be used in 
evaluating intelligibility.
    (c) Each cockpit voice recorder must be installed so that the part 
of the communication or audio signals specified in paragraph (a) of this 
section obtained from each of the following sources is recorded on a 
separate channel:
    (1) For the first channel, from each boom, mask, or hand-held 
microphone, headset, or speaker used at the first pilot station.
    (2) For the second channel from each boom, mask, or hand-held 
microphone, headset, or speaker used at the second pilot station.
    (3) For the third channel--from the cockpit-mounted area microphone.
    (4) For the fourth channel, from--
    (i) Each boom, mask, or hand-held microphone, headset, or speaker 
used at the station for the third and fourth crew members; or
    (ii) If the stations specified in paragraph (c)(4)(i) of this 
section are not required or if the signal at such a station is picked up 
by another channel, each microphone on the flight deck that is used with 
the passenger loudspeaker system, if its signals are not picked up by 
another channel.
    (5) As far as is practicable all sounds received by the microphone 
listed in paragraphs (c)(1), (2), and (4) of this section must be 
recorded without interruption irrespective of the position of the 
interphone-transmitter key switch. The design shall ensure that sidetone 
for the flight crew is produced only when the interphone, public address 
system, or radio transmitters are in use.
    (d) Each cockpit voice recorder must be installed so that--
    (1) It receives its electric power from the bus that provides the 
maximum reliability for operation of the cockpit voice recorder without 
jeopardizing service to essential or emergency loads;
    (2) There is an automatic means to simultaneously stop the recorder 
and prevent each erasure feature from functioning, within 10 minutes 
after crash impact; and
    (3) There is an aural or visual means for preflight checking of the 
recorder for proper operation.
    (e) The record container must be located and mounted to minimize the 
probability of rupture of the container as a result of crash impact and 
consequent heat damage to the record from fire. In meeting this 
requirement, the record container must be as far aft as practicable, but 
may not be where aft mounted engines may crush the container during 
impact. However, it need not be outside of the pressurized compartment.
    (f) If the cockpit voice recorder has a bulk erasure device, the 
installation must be designed to minimize the probability of inadvertent 
operation and actuation of the device during crash impact.
    (g) Each recorder container must--
    (1) Be either bright orange or bright yellow;
    (2) Have reflective tape affixed to its external surface to 
facilitate its location under water; and
    (3) Have an underwater locating device, when required by the 
operating rules of this chapter, on or adjacent to the container which 
is secured in such

[[Page 477]]

manner that they are not likely to be separated during crash impact.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-2, 30 
FR 3932, Mar. 26, 1965; Amdt. 25-16, 32 FR 13914, Oct. 6, 1967; Amdt. 
25-41, 42 FR 36971, July 18, 1977; Amdt. 25-65, 53 FR 26143, July 11, 
1988]



Sec. 25.1459  Flight recorders.

    (a) Each flight recorder required by the operating rules of this 
chapter must be installed so that--
    (1) It is supplied with airspeed, altitude, and directional data 
obtained from sources that meet the accuracy requirements of 
Secs. 25.1323, 25.1325, and 25.1327, as appropriate;
    (2) The vertical acceleration sensor is rigidly attached, and 
located longitudinally either within the approved center of gravity 
limits of the airplane, or at a distance forward or aft of these limits 
that does not exceed 25 percent of the airplane's mean aerodynamic 
chord;
    (3) It receives its electrical power from the bus that provides the 
maximum reliability for operation of the flight recorder without 
jeopardizing service to essential or emergency loads;
    (4) There is an aural or visual means for preflight checking of the 
recorder for proper recording of data in the storage medium.
    (5) Except for recorders powered solely by the engine-driven 
electrical generator system, there is an automatic means to 
simultaneously stop a recorder that has a data erasure feature and 
prevent each erasure feature from functioning, within 10 minutes after 
crash impact; and
    (6) There is a means to record data from which the time of each 
radio transmission either to or from ATC can be determined.
    (b) Each nonejectable record container must be located and mounted 
so as to minimize the probability of container rupture resulting from 
crash impact and subsequent damage to the record from fire. In meeting 
this requirement the record container must be located as far aft as 
practicable, but need not be aft of the pressurized compartment, and may 
not be where aft-mounted engines may crush the container upon impact.
    (c) A correlation must be established between the flight recorder 
readings of airspeed, altitude, and heading and the corresponding 
readings (taking into account correction factors) of the first pilot's 
instruments. The correlation must cover the airspeed range over which 
the airplane is to be operated, the range of altitude to which the 
airplane is limited, and 360 degrees of heading. Correlation may be 
established on the ground as appropriate.
    (d) Each recorder container must--
    (1) Be either bright orange or bright yellow;
    (2) Have reflective tape affixed to its external surface to 
facilitate its location under water; and
    (3) Have an underwater locating device, when required by the 
operating rules of this chapter, on or adjacent to the container which 
is secured in such a manner that they are not likely to be separated 
during crash impact.
    (e) Any novel or unique design or operational characteristics of the 
aircraft shall be evaluated to determine if any dedicated parameters 
must be recorded on flight recorders in addition to or in place of 
existing requirements.

[Amdt. 25-8, 31 FR 127, Jan. 6, 1966, as amended by Amdt. 25-25, 35 FR 
13192, Aug. 19, 1970; Amdt. 25-37, 40 FR 2577, Jan. 14, 1975; Amdt. 25-
41, 42 FR 36971, July 18, 1977; Amdt. 25-65, 53 FR 26144, July 11, 1988]



Sec. 25.1461  Equipment containing high energy rotors.

    (a) Equipment containing high energy rotors must meet paragraph (b), 
(c), or (d) of this section.
    (b) High energy rotors contained in equipment must be able to 
withstand damage caused by malfunctions, vibration, abnormal speeds, and 
abnormal temperatures. In addition--
    (1) Auxiliary rotor cases must be able to contain damage caused by 
the failure of high energy rotor blades; and
    (2) Equipment control devices, systems, and instrumentation must 
reasonably ensure that no operating limitations affecting the integrity 
of high energy rotors will be exceeded in service.
    (c) It must be shown by test that equipment containing high energy 
rotors can contain any failure of a high energy rotor that occurs at the 
highest

[[Page 478]]

speed obtainable with the normal speed control devices inoperative.
    (d) Equipment containing high energy rotors must be located where 
rotor failure will neither endanger the occupants nor adversely affect 
continued safe flight.

[Amdt. 25-41, 42 FR 36971, July 18, 1977]



            Subpart G--Operating Limitations and Information



Sec. 25.1501  General.

    (a) Each operating limitation specified in Secs. 25.1503 through 
25.1533 and other limitations and information necessary for safe 
operation must be established.
    (b) The operating limitations and other information necessary for 
safe operation must be made available to the crewmembers as prescribed 
in Secs. 25.1541 through 25.1587.

[Amdt. 25-42, 43 FR 2323, Jan. 16, 1978]

                          Operating Limitations



Sec. 25.1503  Airspeed limitations: general.

    When airspeed limitations are a function of weight, weight 
distribution, altitude, or Mach number, limitations corresponding to 
each critical combination of these factors must be established.



Sec. 25.1505  Maximum operating limit speed.

    The maximum operating limit speed (VMO/MMO 
airspeed or Mach Number, whichever is critical at a particular altitude) 
is a speed that may not be deliberately exceeded in any regime of flight 
(climb, cruise, or descent), unless a higher speed is authorized for 
flight test or pilot training operations. VMO/MMO 
must be established so that it is not greater than the design cruising 
speed VC and so that it is sufficiently below VD/
MD or VDF/MDF, to make it highly 
improbable that the latter speeds will be inadvertently exceeded in 
operations. The speed margin between VMO/MMO and 
VD/MD or VDFM/DF may not be 
less than that determined under Sec. 25.335(b) or found necessary during 
the flight tests conducted under Sec. 25.253.

[Amdt. 25-23, 35 FR 5680, Apr. 8, 1970]



Sec. 25.1507  Maneuvering speed.

    The maneuvering speed must be established so that it does not exceed 
the design maneuvering speed VA determined under 
Sec. 25.335(c).



Sec. 25.1511  Flap extended speed.

    The established flap extended speed VFE must be 
established so that it does not exceed the design flap speed VF 
chosen under Secs. 25.335(e) and 25.345, for the corresponding flap 
positions and engine powers.



Sec. 25.1513  Minimum control speed.

    The minimum control speed VMC determined under 
Sec. 25.149 must be established as an operating limitation.



Sec. 25.1515  Landing gear speeds.

    (a) The established landing gear operating speed or speeds, 
VLO, may not exceed the speed at which it is safe both to 
extend and to retract the landing gear, as determined under Sec. 25.729 
or by flight characteristics. If the extension speed is not the same as 
the retraction speed, the two speeds must be designated as VLO(EXT) 
and VLO(RET), respectively.
    (b) The established landing gear extended speed VLE may 
not exceed the speed at which it is safe to fly with the landing gear 
secured in the fully extended position, and that determined under 
Sec. 25.729.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55468, Dec. 20, 1976]



Sec. 25.1516  Other speed limitations.

    Any other limitation associated with speed must be established.

[Doc. No. 2000-8511, 66 FR 34024, June 26, 2001]



Sec. 25.1517  Rough air speed, VRA.

    A rough air speed, VRA, for use as the recommended 
turbulence penetration airspeed in Sec. 25.1585(a)(8), must be 
established, which--
    (1) Is not greater than the design airspeed for maximum gust 
intensity, selected for VB; and
    (2) Is not less than the minimum value of VB specified in 
Sec. 25.335(d); and
    (3) Is sufficiently less than VMO to ensure that likely 
speed variation during rough air encounters will not cause the

[[Page 479]]

overspeed warning to operate too frequently. In the absence of a 
rational investigation substantiating the use of other values, 
VRA must be less than VMO--35 knots (TAS).

[Doc. No. 27902, 61 FR 5222, Feb. 9, 1996]



Sec. 25.1519  Weight, center of gravity, and weight distribution.

    The airplane weight, center of gravity, and weight distribution 
limitations determined under Secs. 25.23 through 25.27 must be 
established as operating limitations.



Sec. 25.1521  Powerplant limitations.

    (a) General. The powerplant limitations prescribed in this section 
must be established so that they do not exceed the corresponding limits 
for which the engines or propellers are type certificated and do not 
exceed the values on which compliance with any other requirement of this 
part is based.
    (b) Reciprocating engine installations. Operating limitations 
relating to the following must be established for reciprocating engine 
installations:
    (1) Horsepower or torque, r.p.m., manifold pressure, and time at 
critical pressure altitude and sea level pressure altitude for--
    (i) Maximum continuous power (relating to unsupercharged operation 
or to operation in each supercharger mode as applicable); and
    (ii) Takeoff power (relating to unsupercharged operation or to 
operation in each supercharger mode as applicable).
    (2) Fuel grade or specification.
    (3) Cylinder head and oil temperatures.
    (4) Any other parameter for which a limitation has been established 
as part of the engine type certificate except that a limitation need not 
be established for a parameter that cannot be exceeded during normal 
operation due to the design of the installation or to another 
established limitation.
    (c) Turbine engine installations. Operating limitations relating to 
the following must be established for turbine engine installations:
    (1) Horsepower, torque or thrust, r.p.m., gas temperature, and time 
for--
    (i) Maximum continuous power or thrust (relating to augmented or 
unaugmented operation as applicable).
    (ii) Takeoff power or thrust (relating to augmented or unaugmented 
operation as applicable).
    (2) Fuel designation or specification.
    (3) Any other parameter for which a limitation has been established 
as part of the engine type certificate except that a limitation need not 
be established for a parameter that cannot be exceeded during normal 
operation due to the design of the installation or to another 
established limitation.
    (d) Ambient temperature. An ambient temperature limitation 
(including limitations for winterization installations, if applicable) 
must be established as the maximum ambient atmospheric temperature 
established in accordance with Sec. 25.1043(b).

[Amdt. 25-72, 55 FR 29786, July 20, 1990]



Sec. 25.1522  Auxiliary power unit limitations.

    If an auxiliary power unit is installed in the airplane, limitations 
established for the auxiliary power unit, including categories of 
operation, must be specified as operating limitations for the airplane.

[Amdt. 25-72, 55 FR 29786, July 20, 1990]



Sec. 25.1523  Minimum flight crew.

    The minimum flight crew must be established so that it is sufficient 
for safe operation, considering--
    (a) The workload on individual crewmembers;
    (b) The accessibility and ease of operation of necessary controls by 
the appropriate crewmember; and
    (c) The kind of operation authorized under Sec. 25.1525.

The criteria used in making the determinations required by this section 
are set forth in appendix D.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-3, 30 
FR 6067, Apr. 29, 1965]



Sec. 25.1525  Kinds of operation.

    The kinds of operation to which the airplane is limited are 
established by the category in which it is eligible for certification 
and by the installed equipment.

[[Page 480]]



Sec. 25.1527  Ambient air temperature and operating altitude.

    The extremes of the ambient air temperature and operating altitude 
for which operation is allowed, as limited by flight, structural, 
powerplant, functional, or equipment characteristics, must be 
established.

[Doc. No. 2000-8511, 66 FR 34024, June 26, 2001]



Sec. 25.1529  Instructions for Continued Airworthiness.

    The applicant must prepare Instructions for Continued Airworthiness 
in accordance with appendix H to this part that are acceptable to the 
Administrator. The instructions may be incomplete at type certification 
if a program exists to ensure their completion prior to delivery of the 
first airplane or issuance of a standard certificate of airworthiness, 
whichever occurs later.

[Amdt. 25-54, 45 FR 60173, Sept. 11, 1980]



Sec. 25.1531  Maneuvering flight load factors.

    Load factor limitations, not exceeding the positive limit load 
factors determined from the maneuvering diagram in Sec. 25.333(b), must 
be established.



Sec. 25.1533  Additional operating limitations.

    (a) Additional operating limitations must be established as follows:
    (1) The maximum takeoff weights must be established as the weights 
at which compliance is shown with the applicable provisions of this part 
(including the takeoff climb provisions of Sec. 25.121(a) through (c), 
for altitudes and ambient temperatures).
    (2) The maximum landing weights must be established as the weights 
at which compliance is shown with the applicable provisions of this part 
(including the landing and approach climb provisions of Secs. 25.119 and 
25.121(d) for altitudes and ambient temperatures).
    (3) The minimum takeoff distances must be established as the 
distances at which compliance is shown with the applicable provisions of 
this part (including the provisions of Secs. 25.109 and 25.113, for 
weights, altitudes, temperatures, wind components, runway surface 
conditions (dry and wet), and runway gradients) for smooth, hard-
surfaced runways. Additionally, at the option of the applicant, wet 
runway takeoff distances may be established for runway surfaces that 
have been grooved or treated with a porous friction course, and may be 
approved for use on runways where such surfaces have been designed 
constructed, and maintained in a manner acceptable to the Administrator.
    (b) The extremes for variable factors (such as altitude, 
temperature, wind, and runway gradients) are those at which compliance 
with the applicable provisions of this part is shown.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-38, 
41 FR 55468, Dec. 20, 1976; Amdt. 25-72, 55 FR 29786, July 20, 1990; 
Amdt. 25-92, 63 FR 8321, Feb. 18, 1998]

                          Markings and Placards



Sec. 25.1541  General.

    (a) The airplane must contain--
    (1) The specified markings and placards; and
    (2) Any additional information, instrument markings, and placards 
required for the safe operation if there are unusual design, operating, 
or handling characteristics.
    (b) Each marking and placard prescribed in paragraph (a) of this 
section--
    (1) Must be displayed in a conspicuous place; and
    (2) May not be easily erased, disfigured, or obscured.



Sec. 25.1543  Instrument markings: general.

    For each instrument--
    (a) When markings are on the cover glass of the instrument, there 
must be means to maintain the correct alignment of the glass cover with 
the face of the dial; and
    (b) Each instrument marking must be clearly visible to the 
appropriate crewmember.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-72, 
55 FR 29786, July 20, 1990]



Sec. 25.1545  Airspeed limitation information.

    The airspeed limitations required by Sec. 25.1583 (a) must be easily 
read and understood by the flight crew.

[[Page 481]]



Sec. 25.1547  Magnetic direction indicator.

    (a) A placard meeting the requirements of this section must be 
installed on, or near, the magnetic direction indicator.
    (b) The placard must show the calibration of the instrument in level 
flight with the engines operating.
    (c) The placard must state whether the calibration was made with 
radio receivers on or off.
    (d) Each calibration reading must be in terms of magnetic heading in 
not more than 45 degree increments.



Sec. 25.1549  Powerplant and auxiliary power unit instruments.

    For each required powerplant and auxiliary power unit instrument, as 
appropriate to the type of instrument--
    (a) Each maximum and, if applicable, minimum safe operating limit 
must be marked with a red radial or a red line;
    (b) Each normal operating range must be marked with a green arc or 
green line, not extending beyond the maximum and minimum safe limits;
    (c) Each takeoff and precautionary range must be marked with a 
yellow arc or a yellow line; and
    (d) Each engine, auxiliary power unit, or propeller speed range that 
is restricted because of excessive vibration stresses must be marked 
with red arcs or red lines.

[Amdt. 25-40, 42 FR 15044, Mar. 17, 1977]



Sec. 25.1551  Oil quantity indication.

    Each oil quantity indicating means must be marked to indicate the 
quantity of oil readily and accurately.

[Amdt. 25-72, 55 FR 29786, July 20, 1990]



Sec. 25.1553  Fuel quantity indicator.

    If the unusable fuel supply for any tank exceeds one gallon, or five 
percent of the tank capacity, whichever is greater, a red arc must be 
marked on its indicator extending from the calibrated zero reading to 
the lowest reading obtainable in level flight.



Sec. 25.1555  Control markings.

    (a) Each cockpit control, other than primary flight controls and 
controls whose function is obvious, must be plainly marked as to its 
function and method of operation.
    (b) Each aerodynamic control must be marked under the requirements 
of Secs. 25.677 and 25.699.
    (c) For powerplant fuel controls--
    (1) Each fuel tank selector control must be marked to indicate the 
position corresponding to each tank and to each existing cross feed 
position;
    (2) If safe operation requires the use of any tanks in a specific 
sequence, that sequence must be marked on, or adjacent to, the selector 
for those tanks; and
    (3) Each valve control for each engine must be marked to indicate 
the position corresponding to each engine controlled.
    (d) For accessory, auxiliary, and emergency controls--
    (1) Each emergency control (including each fuel jettisoning and 
fluid shutoff must be colored red; and
    (2) Each visual indicator required by Sec. 25.729(e) must be marked 
so that the pilot can determine at any time when the wheels are locked 
in either extreme position, if retractable landing gear is used.



Sec. 25.1557  Miscellaneous markings and placards.

    (a) Baggage and cargo compartments and ballast location. Each 
baggage and cargo compartment, and each ballast location must have a 
placard stating any limitations on contents, including weight, that are 
necessary under the loading requirements. However, underseat 
compartments designed for the storage of carry-on articles weighing not 
more than 20 pounds need not have a loading limitation placard.
    (b) Powerplant fluid filler openings. The following qpply:
    (1) Fuel filler openings must be marked at or near the filler cover 
with--
    (i) The word ``fuel'';
    (ii) For reciprocating engine powered airplanes, the minimum fuel 
grade;
    (iii) For turbine engine powered airplanes, the permissible fuel 
designations; and
    (iv) For pressure fueling systems, the maximum permissible fueling 
supply pressure and the maximum permissible defueling pressure.

[[Page 482]]

    (2) Oil filler openings must be marked at or near the filler cover 
with the word ``oil''.
    (3) Augmentation fluid filler openings must be marked at or near the 
filler cover to identify the required fluid.
    (c) Emergency exit placards. Each emergency exit placard must meet 
the requirements of Sec. 25.811.
    (d) Doors. Each door that must be used in order to reach any 
required emergency exit must have a suitable placard stating that the 
door is to be latched in the open position during takeoff and landing.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-32, 
37 FR 3972, Feb. 24, 1972; Amdt. 25-38, 41 FR 55468, Dec. 20, 1976; 
Amdt. 25-72, 55 FR 29786, July 20, 1990]



Sec. 25.1561  Safety equipment.

    (a) Each safety equipment control to be operated by the crew in 
emergency, such as controls for automatic liferaft releases, must be 
plainly marked as to its method of operation.
    (b) Each location, such as a locker or compartment, that carries any 
fire extinguishing, signaling, or other life saving equipment must be 
marked accordingly.
    (c) Stowage provisions for required emergency equipment must be 
conspicuously marked to identify the contents and facilitate the easy 
removal of the equipment.
    (d) Each liferaft must have obviously marked operating instructions.
    (e) Approved survival equipment must be marked for identification 
and method of operation.

[Doc. No. 5066, 29 FR 18291, Dec. 24, 1964, as amended by Amdt. 25-46, 
43 FR 50598, Oct. 30, 1978]



Sec. 25.1563  Airspeed placard.

    A placard showing the maximum airspeeds for flap extension for the 
takeoff, approach, and landing positions must be installed in clear view 
of each pilot.

                         Airplane Flight Manual



Sec. 25.1581  General.

    (a) Furnishing information. An Airplane Flight Manual must be 
furnished with each airplane, and it must contain the following:
    (1) Information required by Secs. 25.1583 through 25.1587.
    (2) Other information that is necessary for safe operation because 
of design, operating, or handling characteristics.
    (3) Any limitation, procedure, or other information established as a 
condition of compliance with the applicable noise standards of part 36 
of this chapter.
    (b) Approved information. Each part of the manual listed in 
Secs. 25.1583 through 25.1587, that is appropriate to the airplane, must 
be furnished, verified, and approved, and must be segregated, 
identified, and clearly distinguished from each unapproved part of that 
manual.
    (c) [Reserved]
    (d) Each Airplane Flight Manual must include a table of contents if 
the complexity of the manual indicates a need for it.

[Amdt. 25-42, 43 FR 2323, Jan. 16, 1978, as amended by Amdt. 25-72, 55 
FR 29786, July 20, 1990]



Sec. 25.1583  Operating limitations.

    (a) Airspeed limitations. The following airspeed limitations and any 
other airspeed limitations necessary for safe operation must be 
furnished:
    (1) The maximum operating limit speed VMO/MMO 
and a statement that this speed limit may not be deliberately exceeded 
in any regime of flight (climb, cruise, or descent) unless a higher 
speed is authorized for flight test or pilot training.
    (2) If an airspeed limitation is based upon compressibility effects, 
a statement to this effect and information as to any symptoms, the 
probable behavior of the airplane, and the recommended recovery 
procedures.
    (3) The maneuvering speed VA and a statement that full 
application of rudder and aileron controls, as well as maneuvers that 
involve angles of attack near the stall, should be confined to speeds 
below this value.
    (4) The flap extended speed VFE and the pertinent flap 
positions and engine powers.

[[Page 483]]

    (5) The landing gear operating speed or speeds, and a statement 
explaining the speeds as defined in Sec. 25.1515(a).
    (6) The landing gear extended speed VLE, if greater than 
VLO, and a statement that this is the maximum speed at which 
the airplane can be safely flown with the landing gear extended.
    (b) Powerplant limitations. The following information must be 
furnished:
    (1) Limitations required by Sec. 25.1521 and Sec. 25.1522.
    (2) Explanation of the limitations, when appropriate.
    (3) Information necessary for marking the instruments required by 
Secs. 25.1549 through 25.1553.
    (c) Weight and loading distribution. The weight and center of 
gravity limitations established under Sec. 25.1519 must be furnished in 
the Airplane Flight Manual. All of the following information, including 
the weight distribution limitations established under Sec. 25.1519, must 
be presented either in the Airplane Flight Manual or in a separate 
weight and balance control and loading document that is incorporated by 
reference in the Airplane Flight Manual:
    (1) The condition of the airplane and the items included in the 
empty weight as defined in accordance with Sec. 25.29.
    (2) Loading instructions necessary to ensure loading of the airplane 
within the weight and center of gravity limits, and to maintain the 
loading within these limits in flight.
    (3) If certification for more than one center of gravity range is 
requested, the appropriate limitations, with regard to weight and 
loading procedures, for each separate center of gravity range.
    (d) Flight crew. The number and functions of the minimum flight crew 
determined under Sec. 25.1523 must be furnished.
    (e) Kinds of operation. The kinds of operation approved under 
Sec. 25.1525 must be furnished.
    (f) Ambient air temperatures and operating altitudes. The extremes 
of the ambient air temperatures and operating altitudes established 
under Sec. 25.1527 must be furnished.
    (g) [Reserved]
    (h) Additional operating limitations. The operating limitations 
established under Sec. 25.1533 must be furnished.
    (i) Maneuvering flight load factors. The positive maneuvering limit 
load factors for which the structure is proven, described in terms of 
accelerations, must be furnished.

[Doc. No. 5066, 29 FR 1891, Dec. 24, 1964, as amended by Amdt. 25-38, 41 
FR 55468, Dec, 20, 1976; Amdt. 25-42, 43 FR 2323, Jan. 16, 1978; Amdt. 
25-46, 43 FR 50598, Oct. 30, 1978; Amdt. 25-72, 55 FR 29787, July 20, 
1990; Amdt. 25-105, 66 FR 34024, June 26, 2001]



Sec. 25.1585  Operating procedures.

    (a) Operating procedures must be furnished for--
    (1) Normal procedures peculiar to the particular type or model 
encountered in connection with routine operations;
    (2) Non-normal procedures for malfunction cases and failure 
conditions involving the use of special systems or the alternative use 
of regular systems; and
    (3) Emergency procedures for foreseeable but unusual situations in 
which immediate and precise action by the crew may be expected to 
substantially reduce the risk of catastrophe.
    (b) Information or procedures not directly related to airworthiness 
or not under the control of the crew, must not be included, nor must any 
procedure that is accepted as basic airmanship.
    (c) Information identifying each operating condition in which the 
fuel system independence prescribed in Sec. 25.953 is necessary for 
safety must be furnished, together with instructions for placing the 
fuel system in a configuration used to show compliance with that 
section.
    (d) The buffet onset envelopes, determined under Sec. 25.251 must be 
furnished. The buffet onset envelopes presented may reflect the center 
of gravity at which the airplane is normally loaded during cruise if 
corrections for the effect of different center of gravity locations are 
furnished.
    (e) Information must be furnished that indicates that when the fuel 
quantity indicator reads ``zero'' in level flight, any fuel remaining in 
the fuel tank cannot be used safely in flight.
    (f) Information on the total quantity of usable fuel for each fuel 
tank must be furnished.

[Doc. No. 2000-8511, 66 FR 34024, June 26, 2001]

[[Page 484]]



Sec. 25.1587  Performance information.

    (a) Each Airplane Flight Manual must contain information to permit 
conversion of the indicated temperature to free air temperature if other 
than a free air temperature indicator is used to comply with the 
requirements of Sec. 25.1303(a)(1).
    (b) Each Airplane Flight Manual must contain the performance 
information computed under the applicable provisions of this part 
(including Secs. 25.115, 25.123, and 25.125 for the weights, altitudes, 
temperatures, wind components, and runway gradients, as applicable) 
within the operational limits of the airplane, and must contain the 
following:
    (1) In each case, the conditions of power, configuration, and 
speeds, and the procedures for handling the airplane and any system 
having a significant effect on the performance information.
    (2) VS determined in accordance with Sec. 25.103.
    (3) The following performance information (determined by 
extrapolation and computed for the range of weights between the maximum 
landing weight and the maximum takeoff weight):
    (i) Climb in the landing configuration.
    (ii) Climb in the approach configuration.
    (iii) Landing distance.
    (4) Procedures established under Sec. 25.101(f) and (g) that are 
related to the limitations and information required by Sec. 25.1533 and 
by this paragraph (b) in the form of guidance material, including any 
relevant limitations or information.
    (5) An explanation of significant or unusual flight or ground 
handling characteristics of the airplane.
    (6) Corrections to indicated values of airspeed, altitude, and 
outside air temperature.
    (7) An explanation of operational landing runway length factors 
included in the presentation of the landing distance, if appropriate.

[Doc. No. 2000-8511, 66 FR 34024, June 26, 2001]
                          Appendix A to Part 25

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                          Appendix B to Part 25

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                          Appendix C to Part 25

    (a) Continuous maximum icing. The maximum continuous intensity of 
atmospheric icing conditions (continuous maximum icing) is defined by 
the variables of the cloud liquid water content, the mean effective 
diameter of the cloud droplets, the ambient air temperature, and the 
interrelationship of these three variables as shown in figure 1 of this 
appendix. The limiting icing envelope in terms of altitude and 
temperature is given in figure 2 of this appendix. The inter-
relationship of cloud liquid water content with drop diameter and 
altitude is determined from figures 1 and 2. The cloud liquid water 
content for continuous maximum icing conditions of a horizontal extent, 
other than 17.4 nautical miles, is determined by the value of liquid 
water content of figure 1, multiplied by the appropriate factor from 
figure 3 of this appendix.
    (b) Intermittent maximum icing. The intermittent maximum intensity 
of atmospheric icing conditions (intermittent maximum icing) is defined 
by the variables of the cloud liquid water content, the mean effective 
diameter of the cloud droplets, the ambient air temperature, and the 
interrelationship of these three variables as shown in figure 4 of this 
appendix. The limiting icing envelope in terms of altitude and 
temperature is given in figure 5 of this appendix. The inter-
relationship of cloud liquid water content with drop diameter and 
altitude is determined from figures 4 and 5. The cloud liquid water 
content for intermittent maximum icing conditions of a horizontal 
extent, other than 2.6 nautical miles, is determined by the value of 
cloud liquid water content of figure 4 multiplied by the appropriate 
factor in figure 6 of this appendix.

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                          Appendix D to Part 25

    Criteria for determining minimum flight crew. The following are 
considered by the Agency in determining the minimum flight crew under 
Sec. 25.1523:
    (a) Basic workload functions. The following basic workload functions 
are considered:
    (1) Flight path control.
    (2) Collision avoidance.
    (3) Navigation.
    (4) Communications.

[[Page 499]]

    (5) Operation and monitoring of aircraft engines and systems.
    (6) Command decisions.
    (b) Workload factors. The following workload factors are considered 
significant when analyzing and demonstrating workload for minimum flight 
crew determination:
    (1) The accessibility, ease, and simplicity of operation of all 
necessary flight, power, and equipment controls, including emergency 
fuel shutoff valves, electrical controls, electronic controls, 
pressurization system controls, and engine controls.
    (2) The accessibility and conspicuity of all necessary instruments 
and failure warning devices such as fire warning, electrical system 
malfunction, and other failure or caution indicators. The extent to 
which such instruments or devices direct the proper corrective action is 
also considered.
    (3) The number, urgency, and complexity of operating procedures with 
particular consideration given to the specific fuel management schedule 
imposed by center of gravity, structural or other considerations of an 
airworthiness nature, and to the ability of each engine to operate at 
all times from a single tank or source which is automatically 
replenished if fuel is also stored in other tanks.
    (4) The degree and duration of concentrated mental and physical 
effort involved in normal operation and in diagnosing and coping with 
malfunctions and emergencies.
    (5) The extent of required monitoring of the fuel, hydraulic, 
pressurization, electrical, electronic, deicing, and other systems while 
en route.
    (6) The actions requiring a crewmember to be unavailable at his 
assigned duty station, including: observation of systems, emergency 
operation of any control, and emergencies in any compartment.
    (7) The degree of automation provided in the aircraft systems to 
afford (after failures or malfunctions) automatic crossover or isolation 
of difficulties to minimize the need for flight crew action to guard 
against loss of hydraulic or electric power to flight controls or to 
other essential systems.
    (8) The communications and navigation workload.
    (9) The possibility of increased workload associated with any 
emergency that may lead to other emergencies.
    (10) Incapacitation of a flight crewmember whenever the applicable 
operating rule requires a minimum flight crew of at least two pilots.
    (c) Kind of operation authorized. The determination of the kind of 
operation authorized requires consideration of the operating rules under 
which the airplane will be operated. Unless an applicant desires 
approval for a more limited kind of operation. It is assumed that each 
airplane certificated under this Part will operate under IFR conditions.

[Amdt. 25-3, 30 FR 6067, Apr. 29, 1965]

                          Appendix E to Part 25

   I--Limited Weight Credit For Airplanes Equipped With Standby Power

    (a) Each applicant for an increase in the maximum certificated 
takeoff and landing weights of an airplane equipped with a type-
certificated standby power rocket engine may obtain an increase as 
specified in paragraph (b) if--
    (1) The installation of the rocket engine has been approved and it 
has been established by flight test that the rocket engine and its 
controls can be operated safely and reliably at the increase in maximum 
weight; and
    (2) The Airplane Flight Manual, or the placard, markings or manuals 
required in place thereof, set forth in addition to any other operating 
limitations the Administrator may require, the increased weight approved 
under this regulation and a prohibition against the operation of the 
airplane at the approved increased weight when--
    (i) The installed standby power rocket engines have been stored or 
installed in excess of the time limit established by the manufacturer of 
the rocket engine (usually stenciled on the engine casing); or
    (ii) The rocket engine fuel has been expended or discharged.
    (b) The currently approved maximum takeoff and landing weights at 
which an airplane is certificated without a standby power rocket engine 
installation may be increased by an amount that does not exceed any of 
the following:
    (1) An amount equal in pounds to 0.014 IN, where I is the maximum 
usable impulse in pounds-seconds available from each standby power 
rocket engine and N is the number of rocket engines installed.
    (2) An amount equal to 5 percent of the maximum certificated weight 
approved in accordance with the applicable airworthiness regulations 
without standby power rocket engines installed.
    (3) An amount equal to the weight of the rocket engine installation.
    (4) An amount that, together with the currently approved maximum 
weight, would equal the maximum structural weight established for the 
airplane without standby rocket engines installed.

 II--Performance Credit for Transport Category Airplanes Equipped With 
                              Standby Power

    The Administrator may grant performance credit for the use of 
standby power on transport category airplanes. However, the performance 
credit applies only to the maximum certificated takeoff and landing

[[Page 500]]

weights, the takeoff distance, and the takeoff paths, and may not exceed 
that found by the Administrator to result in an overall level of safety 
in the takeoff, approach, and landing regimes of flight equivalent to 
that prescribed in the regulations under which the airplane was 
originally certificated without standby power. For the purposes of this 
appendix, ``standby power'' is power or thrust, or both, obtained from 
rocket engines for a relatively short period and actuated only in cases 
of emergency. The following provisions apply:
    (1) Takeoff; general. The takeoff data prescribed in paragraphs (2) 
and (3) of this appendix must be determined at all weights and 
altitudes, and at ambient temperatures if applicable, at which 
performance credit is to be applied.
    (2) Takeoff path.
    (a) The one-engine-inoperative takeoff path with standby power in 
use must be determined in accordance with the performance requirements 
of the applicable airworthiness regulations.
    (b) The one-engine-inoperative takeoff path (excluding that part 
where the airplane is on or just above the takeoff surface) determined 
in accordance with paragraph (a) of this section must lie above the one-
engine-inoperative takeoff path without standby power at the maximum 
takeoff weight at which all of the applicable air-worthiness 
requirements are met. For the purpose of this comparison, the flight 
path is considered to extend to at least a height of 400 feet above the 
takeoff surface.
    (c) The takeoff path with all engines operating, but without the use 
of standby power, must reflect a conservatively greater overall level of 
performance than the one-engine-inoperative takeoff path established in 
accordance with paragraph (a) of this section. The margin must be 
established by the Administrator to insure safe day-to-day operations, 
but in no case may it be less than 15 percent. The all-engines-operating 
takeoff path must be determined by a procedure consistent with that 
established in complying with paragraph (a) of this section.
    (d) For reciprocating-engine-powered airplanes, the takeoff path to 
be scheduled in the Airplane Flight Manual must represent the one-
engine-operative takeoff path determined in accordance with paragraph 
(a) of this section and modified to reflect the procedure (see paragraph 
(6)) established by the applicant for flap retraction and attainment of 
the en route speed. The scheduled takeoff path must have a positive 
slope at all points of the airborne portion and at no point must it lie 
above the takeoff path specified in paragraph (a) of this section.
    (3) Takeoff distance. The takeoff distance must be the horizontal 
distance along the one-engine-inoperative take off path determined in 
accordance with paragraph (2)(a) from the start of the takeoff to the 
point where the airplane attains a height of 50 feet above the takeoff 
surface for reciprocating-engine-powered airplanes and a height of 35 
feet above the takeoff surface for turbine-powered airplanes.
    (4) Maximum certificated takeoff weights. The maximum certificated 
takeoff weights must be determined at all altitudes, and at ambient 
temperatures, if applicable, at which performance credit is to be 
applied and may not exceed the weights established in compliance with 
paragraphs (a) and (b) of this section.
    (a) The conditions of paragraphs (2)(b) through (d) must be met at 
the maximum certificated takeoff weight.
    (b) Without the use of standby power, the airplane must meet all of 
the en route requirements of the applicable airworthiness regulations 
under which the airplane was originally certificated. In addition, 
turbine-powered airplanes without the use of standby power must meet the 
final takeoff climb requirements prescribed in the applicable 
airworthiness regulations.
    (5) Maximum certificated landing weights.
    (a) The maximum certificated landing weights (one-engine-inoperative 
approach and all-engine-operating landing climb) must be determined at 
all altitudes, and at ambient temperatures if applicable, at which 
performance credit is to be applied and must not exceed that established 
in compliance with paragraph (b) of this section.
    (b) The flight path, with the engines operating at the power or 
thrust, or both, appropriate to the airplane configuration and with 
standby power in use, must lie above the flight path without standby 
power in use at the maximum weight at which all of the applicable 
airworthiness requirements are met. In addition, the flight paths must 
comply with subparagraphs (i) and (ii) of this paragraph.
    (i) The flight paths must be established without changing the 
appropriate airplane configuration.
    (ii) The flight paths must be carried out for a minimum height of 
400 feet above the point where standby power is actuated.
    (6) Airplane configuration, speed, and power and thrust; general. 
Any change in the airplane's configuration, speed, and power or thrust, 
or both, must be made in accordance with the procedures established by 
the applicant for the operation of the airplane in service and must 
comply with paragraphs (a) through (c) of this section. In addition, 
procedures must be established for the execution of balked landings and 
missed approaches.
    (a) The Administrator must find that the procedure can be 
consistently executed in service by crews of average skill.
    (b) The procedure may not involve methods or the use of devices 
which have not been proven to be safe and reliable.

[[Page 501]]

    (c) Allowances must be made for such time delays in the execution of 
the procedures as may be reasonably expected to occur during service.
    (7) Installation and operation; standby power. The standby power 
unit and its installation must comply with paragraphs (a) and (b) of 
this section.
    (a) The standby power unit and its installation must not adversely 
affect the safety of the airplane.
    (b) The operation of the standby power unit and its control must 
have proven to be safe and reliable.

[Amdt. 25-6, 30 FR 8468, July 2, 1965]

                          Appendix F to Part 25

    Part I--Test Criteria and Procedures for Showing Compliance with 
                      Sec. 25.853, or Sec. 25.855.

    (a) Material test criteria--(1) Interior compartments occupied by 
crew or passengers. (i) Interior ceiling panels, interior wall panels, 
partitions, galley structure, large cabinet walls, structural flooring, 
and materials used in the construction of stowage compartments (other 
than underseat stowage compartments and compartments for stowing small 
items such as magazines and maps) must be self-extinguishing when tested 
vertically in accordance with the applicable portions of part I of this 
appendix. The average burn length may not exceed 6 inches and the 
average flame time after removal of the flame source may not exceed 15 
seconds. Drippings from the test specimen may not continue to flame for 
more than an average of 3 seconds after falling.
    (ii) Floor covering, textiles (including draperies and upholstery), 
seat cushions, padding, decorative and nondecorative coated fabrics, 
leather, trays and galley furnishings, electrical conduit, thermal and 
acoustical insulation and insulation covering, air ducting, joint and 
edge covering, liners of Class B and E cargo or baggage compartments, 
floor panels of Class B, C, D, or E cargo or baggage compartments, 
insulation blankets, cargo covers and transparencies, molded and 
thermoformed parts, air ducting joints, and trim strips (decorative and 
chafing), that are constructed of materials not covered in subparagraph 
(iv) below, must be self-extinguishing when tested vertically in 
accordance with the applicable portions of part I of this appendix or 
other approved equivalent means. The average burn length may not exceed 
8 inches, and the average flame time after removal of the flame source 
may not exceed 15 seconds. Drippings from the test specimen may not 
continue to flame for more than an average of 5 seconds after falling.
    (iii) Motion picture film must be safety film meeting the Standard 
Specifications for Safety Photographic Film PHI.25 (available from the 
American National Standards Institute, 1430 Broadway, New York, NY 
10018). If the film travels through ducts, the ducts must meet the 
requirements of subparagraph (ii) of this paragraph.
    (iv) Clear plastic windows and signs, parts constructed in whole or 
in part of elastomeric materials, edge lighted instrument assemblies 
consisting of two or more instruments in a common housing, seat belts, 
shoulder harnesses, and cargo and baggage tiedown equipment, including 
containers, bins, pallets, etc., used in passenger or crew compartments, 
may not have an average burn rate greater than 2.5 inches per minute 
when tested horizontally in accordance with the applicable portions of 
this appendix.
    (v) Except for small parts (such as knobs, handles, rollers, 
fasteners, clips, grommets, rub strips, pulleys, and small electrical 
parts) that would not contribute significantly to the propagation of a 
fire and for electrical wire and cable insulation, materials in items 
not specified in paragraphs (a)(1)(i), (ii), (iii), or (iv) of part I of 
this appendix may not have a burn rate greater than 4.0 inches per 
minute when tested horizontally in accordance with the applicable 
portions of this appendix.
    (2) Cargo and baggage compartments not occupied by crew or 
passengers.
    (i) Thermal and acoustic insulation (including coverings) used in 
each cargo and baggage compartment must be constructed of materials that 
meet the requirements set forth in paragraph (a)(1)(ii) of part I of 
this appendix.
    (ii) A cargo or baggage compartment defined in Sec. 25.857 as Class 
B or E must have a liner constructed of materials that meet the 
requirements of paragraph (a)(1)(ii) of part I of this appendix and 
separated from the airplane structure (except for attachments). In 
addition, such liners must be subjected to the 45 degree angle test. The 
flame may not penetrate (pass through) the material during application 
of the flame or subsequent to its removal. The average flame time after 
removal of the flame source may not exceed 15 seconds, and the average 
glow time may not exceed 10 seconds.
    (iii) A cargo or baggage compartment defined in Sec. 25.857 as Class 
B, C, D, or E must have floor panels constructed of materials which meet 
the requirements of paragraph (a)(1)(ii) of part I of this appendix and 
which are separated from the airplane structure (except for 
attachments). Such panels must be subjected to the 45 degree angle test. 
The flame may not penetrate (pass through) the material during 
application of the flame or subsequent to its removal. The average flame 
time after removal of the flame source may not exceed 15 seconds, and 
the average glow time may not exceed 10 seconds.

[[Page 502]]

    (iv) Insulation blankets and covers used to protect cargo must be 
constructed of materials that meet the requirements of paragraph 
(a)(1)(ii) of part I of this appendix. Tiedown equipment (including 
containers, bins, and pallets) used in each cargo and baggage 
compartment must be constructed of materials that meet the requirements 
of paragraph (a)(1)(v) of part I of this appendix.
    (3) Electrical system components. Insulation on electrical wire or 
cable installed in any area of the fuselage must be self-extinguishing 
when subjected to the 60 degree test specified in part I of this 
appendix. The average burn length may not exceed 3 inches, and the 
average flame time after removal of the flame source may not exceed 30 
seconds. Drippings from the test specimen may not continue to flame for 
more than an average of 3 seconds after falling.
    (b) Test Procedures--(1) Conditioning. Specimens must be conditioned 
to 705 F., and at 50 percent 5 percent relative 
humidity until moisture equilibrium is reached or for 24 hours. Each 
specimen must remain in the conditioning environment until it is 
subjected to the flame.
    (2) Specimen configuration. Except for small parts and electrical 
wire and cable insulation, materials must be tested either as section 
cut from a fabricated part as installed in the airplane or as a specimen 
simulating a cut section, such as a specimen cut from a flat sheet of 
the material or a model of the fabricated part. The specimen may be cut 
from any location in a fabricated part; however, fabricated units, such 
as sandwich panels, may not be separated for test. Except as noted 
below, the specimen thickness must be no thicker than the minimum 
thickness to be qualified for use in the airplane. Test specimens of 
thick foam parts, such as seat cushions, must be \1/2\-inch in 
thickness. Test specimens of materials that must meet the requirements 
of paragraph (a)(1)(v) of part I of this appendix must be no more than 
\1/8\-inch in thickness. Electrical wire and cable specimens must be the 
same size as used in the airplane. In the case of fabrics, both the warp 
and fill direction of the weave must be tested to determine the most 
critical flammability condition. Specimens must be mounted in a metal 
frame so that the two long edges and the upper edge are held securely 
during the vertical test prescribed in subparagraph (4) of this 
paragraph and the two long edges and the edge away from the flame are 
held securely during the horizontal test prescribed in subparagraph (5) 
of this paragraph. The exposed area of the specimen must be at least 2 
inches wide and 12 inches long, unless the actual size used in the 
airplane is smaller. The edge to which the burner flame is applied must 
not consist of the finished or protected edge of the specimen but must 
be representative of the actual cross-section of the material or part as 
installed in the airplane. The specimen must be mounted in a metal frame 
so that all four edges are held securely and the exposed area of the 
specimen is at least 8 inches by 8 inches during the 45 deg. test 
prescribed in subparagraph (6) of this paragraph.
    (3) Apparatus. Except as provided in subparagraph (7) of this 
paragraph, tests must be conducted in a draft-free cabinet in accordance 
with Federal Test Method Standard 191 Model 5903 (revised Method 5902) 
for the vertical test, or Method 5906 for horizontal test (available 
from the General Services Administration, Business Service Center, 
Region 3, Seventh & D Streets SW., Washington, DC 20407). Specimens 
which are too large for the cabinet must be tested in similar draft-free 
conditions.
    (4) Vertical test. A minimum of three specimens must be tested and 
results averaged. For fabrics, the direction of weave corresponding to 
the most critical flammability conditions must be parallel to the 
longest dimension. Each specimen must be supported vertically. The 
specimen must be exposed to a Bunsen or Tirrill burner with a nominal 
\3/8\-inch I.D. tube adjusted to give a flame of 1\1/2\ inches in 
height. The minimum flame temperature measured by a calibrated 
thermocouple pyrometer in the center of the flame must be 1550  deg.F. 
The lower edge of the specimen must be \3/4\-inch above the top edge of 
the burner. The flame must be applied to the center line of the lower 
edge of the specimen. For materials covered by paragraph (a)(1)(i) of 
part I of this appendix, the flame must be applied for 60 seconds and 
then removed. For materials covered by paragraph (a)(1)(ii) of part I of 
this appendix, the flame must be applied for 12 seconds and then 
removed. Flame time, burn length, and flaming time of drippings, if any, 
may be recorded. The burn length determined in accordance with 
subparagraph (7) of this paragraph must be measured to the nearest tenth 
of an inch.
    (5) Horizontal test. A minimum of three specimens must be tested and 
the results averaged. Each specimen must be supported horizontally. The 
exposed surface, when installed in the aircraft, must be face down for 
the test. The specimen must be exposed to a Bunsen or Tirrill burner 
with a nominal \3/8\-inch I.D. tube adjusted to give a flame of 1\1/2\ 
inches in height. The minimum flame temperature measured by a calibrated 
thermocouple pyrometer in the center of the flame must be 1550  deg.F. 
The specimen must be positioned so that the edge being tested is 
centered \3/4\-inch above the top of the burner. The flame must be 
applied for 15 seconds and then removed. A minimum of 10 inches of 
specimen must be used for timing purposes, approximately 1\1/2\ inches 
must burn before the burning front reaches the timing zone, and the 
average burn rate must be recorded.

[[Page 503]]

    (6) Forty-five degree test. A minimum of three specimens must be 
tested and the results averaged. The specimens must be supported at an 
angle of 45 deg. to a horizontal surface. The exposed surface when 
installed in the aircraft must be face down for the test. The specimens 
must be exposed to a Bunsen or Tirrill burner with a nominal \3/8\-inch 
I.D. tube adjusted to give a flame of 1\1/2\ inches in height. The 
minimum flame temperature measured by a calibrated thermocouple 
pyrometer in the center of the flame must be 1550  deg.F. Suitable 
precautions must be taken to avoid drafts. The flame must be applied for 
30 seconds with one-third contacting the material at the center of the 
specimen and then removed. Flame time, glow time, and whether the flame 
penetrates (passes through) the specimen must be recorded.
    (7) Sixty degree test. A minimum of three specimens of each wire 
specification (make and size) must be tested. The specimen of wire or 
cable (including insulation) must be placed at an angle of 60 deg. with 
the horizontal in the cabinet specified in subparagraph (3) of this 
paragraph with the cabinet door open during the test, or must be placed 
within a chamber approximately 2 feet high by 1 foot by 1 foot, open at 
the top and at one vertical side (front), and which allows sufficient 
flow of air for complete combustion, but which is free from drafts. The 
specimen must be parallel to and approximately 6 inches from the front 
of the chamber. The lower end of the specimen must be held rigidly 
clamped. The upper end of the specimen must pass over a pulley or rod 
and must have an appropriate weight attached to it so that the specimen 
is held tautly throughout the flammability test. The test specimen span 
between lower clamp and upper pulley or rod must be 24 inches and must 
be marked 8 inches from the lower end to indicate the central point for 
flame application. A flame from a Bunsen or Tirrill burner must be 
applied for 30 seconds at the test mark. The burner must be mounted 
underneath the test mark on the specimen, perpendicular to the specimen 
and at an angle of 30 deg. to the vertical plane of the specimen. The 
burner must have a nominal bore of \3/8\-inch and be adjusted to provide 
a 3-inch high flame with an inner cone approximately one-third of the 
flame height. The minimum temperature of the hottest portion of the 
flame, as measured with a calibrated thermocouple pyrometer, may not be 
less than 1750  deg.F. The burner must be positioned so that the hottest 
portion of the flame is applied to the test mark on the wire. Flame 
time, burn length, and flaming time of drippings, if any, must be 
recorded. The burn length determined in accordance with paragraph (8) of 
this paragraph must be measured to the nearest tenth of an inch. 
Breaking of the wire specimens is not considered a failure.
    (8) Burn length. Burn length is the distance from the original edge 
to the farthest evidence of damage to the test specimen due to flame 
impingement, including areas of partial or complete consumption, 
charring, or embrittlement, but not including areas sooted, stained, 
warped, or discolored, nor areas where material has shrunk or melted 
away from the heat source.

                 Part II--Flammability of Seat Cushions

    (a) Criteria for Acceptance. Each seat cushion must meet the 
following criteria:
    (1) At least three sets of seat bottom and seat back cushion 
specimens must be tested.
    (2) If the cushion is constructed with a fire blocking material, the 
fire blocking material must completely enclose the cushion foam core 
material.
    (3) Each specimen tested must be fabricated using the principal 
components (i.e., foam core, flotation material, fire blocking material, 
if used, and dress covering) and assembly processes (representative 
seams and closures) intended for use in the production articles. If a 
different material combination is used for the back cushion than for the 
bottom cushion, both material combinations must be tested as complete 
specimen sets, each set consisting of a back cushion specimen and a 
bottom cushion specimen. If a cushion, including outer dress covering, 
is demonstrated to meet the requirements of this appendix using the oil 
burner test, the dress covering of that cushion may be replaced with a 
similar dress covering provided the burn length of the replacement 
covering, as determined by the test specified in Sec. 25.853(c), does 
not exceed the corresponding burn length of the dress covering used on 
the cushion subjected to the oil burner test.
    (4) For at least two-thirds of the total number of specimen sets 
tested, the burn length from the burner must not reach the side of the 
cushion opposite the burner. The burn length must not exceed 17 inches. 
Burn length is the perpendicular distance from the inside edge of the 
seat frame closest to the burner to the farthest evidence of damage to 
the test specimen due to flame impingement, including areas of partial 
or complete consumption, charring, or embrittlement, but not including 
areas sooted, stained, warped, or discolored, or areas where material 
has shrunk or melted away from the heat source.
    (5) The average percentage weight loss must not exceed 10 percent. 
Also, at least two-thirds of the total number of specimen sets tested 
must not exceed 10 percent weight loss. All droppings falling from the 
cushions and mounting stand are to be discarded before the after-test 
weight is determined. The percentage weight loss for a specimen set is 
the weight of the specimen set before testing less the weight of the 
specimen set after testing expressed as the percentage of the weight 
before testing.

[[Page 504]]

    (b) Test Conditions. Vertical air velocity should average 25 
fpm10 fpm at the top of the back seat cushion. Horizontal 
air velocity should be below 10 fpm just above the bottom seat cushion. 
Air velocities should be measured with the ventilation hood operating 
and the burner motor off.
    (c) Test Specimens. (1) For each test, one set of cushion specimens 
representing a seat bottom and seat back cushion must be used.
    (2) The seat bottom cushion specimen must be 18\1/8\ 
inches (4573 mm) wide by 20\1/8\ inches 
(5083 mm) deep by 4\1/8\ inches 
(1023 mm) thick, exclusive of fabric closures and seam 
overlap.
    (3) The seat back cushion specimen must be 18\1/8\ 
inches (4323 mm) wide by 25\1/8\ inches 
(6353 mm) high by 2\1/8\ inches (513 
mm) thick, exclusive of fabric closures and seam overlap.
    (4) The specimens must be conditioned at 705  deg.F 
(212  deg.C) 55%10% relative humidity for at 
least 24 hours before testing.
    (d) Test Apparatus. The arrangement of the test apparatus is shown 
in Figures 1 through 5 and must include the components described in this 
section. Minor details of the apparatus may vary, depending on the model 
burner used.
    (1) Specimen Mounting Stand. The mounting stand for the test 
specimens consists of steel angles, as shown in Figure 1. The length of 
the mounting stand legs is 12\1/8\ inches (3053 
mm). The mounting stand must be used for mounting the test specimen seat 
bottom and seat back, as shown in Figure 2. The mounting stand should 
also include a suitable drip pan lined with aluminum foil, dull side up.
    (2) Test Burner. The burner to be used in testing must--
    (i) Be a modified gun type;
    (ii) Have an 80-degree spray angle nozzle nominally rated for 2.25 
gallons/hour at 100 psi;
    (iii) Have a 12-inch (305 mm) burner cone installed at the end of 
the draft tube, with an opening 6 inches (152 mm) high and 11 inches 
(280 mm) wide, as shown in Figure 3; and
    (iv) Have a burner fuel pressure regulator that is adjusted to 
deliver a nominal 2.0 gallon/hour of  2 Grade kerosene or equivalent 
required for the test.

Burner models which have been used successfully in testing are the 
Lennox Model OB-32, Carlin Model 200 CRD, and Park Model DPL 3400. FAA 
published reports pertinent to this type of burner are: (1) Powerplant 
Enginering Report No. 3A, Standard Fire Test Apparatus and Procedure for 
Flexible Hose Assemblies, dated March 1978; and (2) Report No. DOT/FAA/
RD/76/213, Reevaluation of Burner Characteristics for Fire Resistance 
Tests, dated January 1977.
    (3) Calorimeter.
    (i) The calorimeter to be used in testing must be a (0-15.0 BTU/
ft2-sec. 0-17.0 W/cm2) calorimeter, accurate 
3%, mounted in a 6-inch by 12-inch (152 by 305 mm) by \3/4\-
inch (19 mm) thick calcium silicate insulating board which is attached 
to a steel angle bracket for placement in the test stand during burner 
calibration, as shown in Figure 4.
    (ii) Because crumbling of the insulating board with service can 
result in misalignment of the calorimeter, the calorimeter must be 
monitored and the mounting shimmed, as necessary, to ensure that the 
calorimeter face is flush with the exposed plane of the insulating board 
in a plane parallel to the exit of the test burner cone.
    (4) Thermocouples. The seven thermocouples to be used for testing 
must be \1/16\- to \1/8\-inch metal sheathed, ceramic packed, type K, 
grounded thermocouples with a nominal 22 to 30 American wire gage (AWG)-
size conductor. The seven thermocouples must be attached to a steel 
angle bracket to form a thermocouple rake for placement in the test 
stand during burner calibration, as shown in Figure 5.
    (5) Apparatus Arrangement. The test burner must be mounted on a 
suitable stand to position the exit of the burner cone a distance of 
4\1/8\ inches (1023 mm) from one side of the 
specimen mounting stand. The burner stand should have the capability of 
allowing the burner to be swung away from the specimen mounting stand 
during warmup periods.
    (6) Data Recording. A recording potentiometer or other suitable 
calibrated instrument with an appropriate range must be used to measure 
and record the outputs of the calorimeter and the thermocouples.
    (7) Weight Scale. Weighing Device--A device must be used that with 
proper procedures may determine the before and after test weights of 
each set of seat cushion specimens within 0.02 pound (9 grams). A 
continuous weighing system is preferred.
    (8) Timing Device. A stopwatch or other device (calibrated to 
1 second) must be used to measure the time of application of 
the burner flame and self-extinguishing time or test duration.
    (e) Preparation of Apparatus. Before calibration, all equipment must 
be turned on and the burner fuel must be adjusted as specified in 
paragraph (d)(2).
    (f) Calibration. To ensure the proper thermal output of the burner, 
the following test must be made:
    (1) Place the calorimeter on the test stand as shown in Figure 4 at 
a distance of 4\1/8\ inches (1023 mm) from the 
exit of the burner cone.
    (2) Turn on the burner, allow it to run for 2 minutes for warmup, 
and adjust the burner air intake damper to produce a reading of 
10.50.5 BTU/ft2-sec. (11.90.6 w/
cm2) on the calorimeter to ensure steady state conditions 
have been achieved. Turn off the burner.

[[Page 505]]

    (3) Replace the calorimeter with the thermocouple rake (Figure 5).
    (4) Turn on the burner and ensure that the thermocouples are reading 
1900100  deg.F (103838  deg.C) to ensure steady 
state conditions have been achieved.
    (5) If the calorimeter and thermocouples do not read within range, 
repeat steps in paragraphs 1 through 4 and adjust the burner air intake 
damper until the proper readings are obtained. The thermocouple rake and 
the calorimeter should be used frequently to maintain and record 
calibrated test parameters. Until the specific apparatus has 
demonstrated consistency, each test should be calibrated. After 
consistency has been confirmed, several tests may be conducted with the 
pre-test calibration before and a calibration check after the series.
    (g) Test Procedure. The flammability of each set of specimens must 
be tested as follows:
    (1) Record the weight of each set of seat bottom and seat back 
cushion specimens to be tested to the nearest 0.02 pound (9 grams).
    (2) Mount the seat bottom and seat back cushion test specimens on 
the test stand as shown in Figure 2, securing the seat back cushion 
specimen to the test stand at the top.
    (3) Swing the burner into position and ensure that the distance from 
the exit of the burner cone to the side of the seat bottom cushion 
specimen is 4\1/8\ inches (1023 mm).
    (4) Swing the burner away from the test position. Turn on the burner 
and allow it to run for 2 minutes to provide adequate warmup of the 
burner cone and flame stabilization.
    (5) To begin the test, swing the burner into the test position and 
simultaneously start the timing device.
    (6) Expose the seat bottom cushion specimen to the burner flame for 
2 minutes and then turn off the burner. Immediately swing the burner 
away from the test position. Terminate test 7 minutes after initiating 
cushion exposure to the flame by use of a gaseous extinguishing agent 
(i.e., Halon or CO2).
    (7) Determine the weight of the remains of the seat cushion specimen 
set left on the mounting stand to the nearest 0.02 pound (9 grams) 
excluding all droppings.
    (h) Test Report. With respect to all specimen sets tested for a 
particular seat cushion for which testing of compliance is performed, 
the following information must be recorded:
    (1) An identification and description of the specimens being tested.
    (2) The number of specimen sets tested.
    (3) The initial weight and residual weight of each set, the 
calculated percentage weight loss of each set, and the calculated 
average percentage weight loss for the total number of sets tested.
    (4) The burn length for each set tested.

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Part III--Test Method to Determine Flame Penetration Resistance of Cargo 
                           Compartment Liners.

    (a) Criteria for Acceptance. (1) At least three specimens of cargo 
compartment sidewall or ceiling liner panels must be tested.
    (2) Each specimen tested must simulate the cargo compartment 
sidewall or ceiling liner panel, including any design features, such as 
joints, lamp assemblies, etc., the failure of which would affect the 
capability of the liner to safely contain a fire.
    (3) There must be no flame penetration of any specimen within 5 
minutes after application of the flame source, and the peak temperature 
measured at 4 inches above the upper surface of the horizontal test 
sample must not exceed 400  deg.F.

[[Page 511]]

    (b) Summary of Method. This method provides a laboratory test 
procedure for measuring the capability of cargo compartment lining 
materials to resist flame penetration with a 2 gallon per hour (GPH) 2 
Grade kerosene or equivalent burner fire source. Ceiling and sidewall 
liner panels may be tested individually provided a baffle is used to 
simulate the missing panel. Any specimen that passes the test as a 
ceiling liner panel may be used as a sidewall liner panel.
    (c) Test Specimens. (1) The specimen to be tested must measure 
16\1/8\ inches (4063 mm) by 24+\1/8\ inches 
(6103 mm).
    (2) The specimens must be conditioned at 70  deg.F.5 
deg.F. (21  deg.C. 2  deg.C.) and 55%5% humidity 
for at least 24 hours before testing.
    (d) Test Apparatus. The arrangement of the test apparatus, which is 
shown in Figure 3 of Part II and Figures 1 through 3 of this part of 
appendix F, must include the components described in this section. Minor 
details of the apparatus may vary, depending on the model of the burner 
used.
    (1) Specimen Mounting Stand. The mounting stand for the test 
specimens consists of steel angles as shown in Figure 1.
    (2) Test Burner. The burner to be used in tesing must--
    (i) Be a modified gun type.
    (ii) Use a suitable nozzle and maintain fuel pressure to yield a 2 
GPH fuel flow. For example: an 80 degree nozzle nominally rated at 2.25 
GPH and operated at 85 pounds per square inch (PSI) gage to deliver 2.03 
GPH.
    (iii) Have a 12 inch (305 mm) burner extension installed at the end 
of the draft tube with an opening 6 inches (152 mm) high and 11 inches 
(280 mm) wide as shown in Figure 3 of Part II of this appendix.
    (iv) Have a burner fuel pressure regulator that is adjusted to 
deliver a nominal 2.0 GPH of 2 Grade kerosene or equivalent.

Burner models which have been used successfully in testing are the Lenox 
Model OB-32, Carlin Model 200 CRD and Park Model DPL. The basic burner 
is described in FAA Powerplant Engineering Report No. 3A, Standard Fire 
Test Apparatus and Procedure for Flexible Hose Assemblies, dated March 
1978; however, the test settings specified in this appendix differ in 
some instances from those specified in the report.
    (3) Calorimeter. (i) The calorimeter to be used in testing must be a 
total heat flux Foil Type Gardon Gage of an appropriate range 
(approximately 0 to 15.0 British thermal unit (BTU) per ft.2 
sec., 0-17.0 watts/cm2). The calorimeter must be mounted in a 
6 inch by 12 inch (152 by 305 mm) by \3/4\ inch (19 mm) thick insulating 
block which is attached to a steel angle bracket for placement in the 
test stand during burner calibration as shown in Figure 2 of this part 
of this appendix.
    (ii) The insulating block must be monitored for deterioration and 
the mounting shimmed as necessary to ensure that the calorimeter face is 
parallel to the exit plane of the test burner cone.
    (4) Thermocouples. The seven thermocouples to be used for testing 
must be \1/16\ inch ceramic sheathed, type K, grounded thermocouples 
with a nominal 30 American wire gage (AWG) size conductor. The seven 
thermocouples must be attached to a steel angle bracket to form a 
thermocouple rake for placement in the test stand during burner 
calibration as shown in Figure 3 of this part of this appendix.
    (5) Apparatus Arrangement. The test burner must be mounted on a 
suitable stand to position the exit of the burner cone a distance of 8 
inches from the ceiling liner panel and 2 inches from the sidewall liner 
panel. The burner stand should have the capability of allowing the 
burner to be swung away from the test specimen during warm-up periods.
    (6) Instrumentation. A recording potentiometer or other suitable 
instrument with an appropriate range must be used to measure and record 
the outputs of the calorimeter and the thermocouples.
    (7) Timing Device. A stopwatch or other device must be used to 
measure the time of flame application and the time of flame penetration, 
if it occurs.
    (e) Preparation of Apparatus. Before calibration, all equipment must 
be turned on and allowed to stabilize, and the burner fuel flow must be 
adjusted as specified in paragraph (d)(2).
    (f) Calibration. To ensure the proper thermal output of the burner 
the following test must be made:
    (1) Remove the burner extension from the end of the draft tube. Turn 
on the blower portion of the burner without turning the fuel or igniters 
on. Measure the air velocity using a hot wire anemometer in the center 
of the draft tube across the face of the opening. Adjust the damper such 
that the air velocity is in the range of 1550 to 1800 ft./min. If tabs 
are being used at the exit of the draft tube, they must be removed prior 
to this measurement. Reinstall the draft tube extension cone.
    (2) Place the calorimeter on the test stand as shown in Figure 2 at 
a distance of 8 inches (203 mm) from the exit of the burner cone to 
simulate the position of the horizontal test specimen.
    (3) Turn on the burner, allow it to run for 2 minutes for warm-up, 
and adjust the damper to produce a calorimeter reading of 
8.00.5 BTU per ft.2 sec. (9.10.6 
Watts/cm2).
    (4) Replace the calorimeter with the thermocouple rake (see Figure 
3).
    (5) Turn on the burner and ensure that each of the seven 
thermocouples reads 1700  deg.F. 100  deg.F. (927  deg.C. 
38  deg.C.) to ensure steady state conditions have been 
achieved. If the temperature is out of this range, repeat steps 2 
through 5 until proper readings are obtained.

[[Page 512]]

    (6) Turn off the burner and remove the thermocouple rake.
    (7) Repeat (1) to ensure that the burner is in the correct range.
    (g) Test Procedure. (1) Mount a thermocouple of the same type as 
that used for calibration at a distance of 4 inches (102 mm) above the 
horizontal (ceiling) test specimen. The thermocouple should be centered 
over the burner cone.
    (2) Mount the test specimen on the test stand shown in Figure 1 in 
either the horizontal or vertical position. Mount the insulating 
material in the other position.
    (3) Position the burner so that flames will not impinge on the 
specimen, turn the burner on, and allow it to run for 2 minutes. Rotate 
the burner to apply the flame to the specimen and simultaneously start 
the timing device.
    (4) Expose the test specimen to the flame for 5 minutes and then 
turn off the burner. The test may be terminated earlier if flame 
penetration is observed.
    (5) When testing ceiling liner panels, record the peak temperature 
measured 4 inches above the sample.
    (6) Record the time at which flame penetration occurs if applicable.
    (h) Test Report. The test report must include the following:
    (1) A complete description of the materials tested including type, 
manufacturer, thickness, and other appropriate data.
    (2) Observations of the behavior of the test specimens during flame 
exposure such as delamination, resin ignition, smoke, ect., including 
the time of such occurrence.
    (3) The time at which flame penetration occurs, if applicable, for 
each of the three specimens tested.
    (4) Panel orientation (ceiling or sidewall).

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   Part IV--Test Method to Determine the Heat Release Rate From Cabin 
                   Materials Exposed to Radiant Heat.

    (a) Summary of Method. Three or more specimens representing the 
completed aircraft component are tested. Each test specimen is injected 
into an environmental chamber through which a constant flow of air 
passes. The specimen's exposure is determined by a radiant heat source 
adjusted to produce, on the specimen, the desired total heat flux of 3.5 
W/cm2. The specimen is tested with the exposed surface 
vertical. Combustion is initiated by piloted ignition. The combustion 
products leaving the chamber are monitored in order to calculate the 
release rate of heat.
    (b) Apparatus. The Ohio State University (OSU) rate of heat release 
apparatus, as described below, is used. This is a modified version of 
the rate of heat release apparatus standardized by the American Society 
of Testing and Materials (ASTM), ASTM E-906.
    (1) This apparatus is shown in Figures 1A and 1B of this part IV. 
All exterior surfaces of the apparatus, except the holding chamber, must 
be insulated with 1 inch (25 mm) thick, low density, high temperature, 
fiberglass board insulation. A gasketed door, through which the sample 
injection rod slides, must be used to form an airtight closure on the 
specimen hold chamber.
    (2) Thermopile. The temperature difference between the air entering 
the environmental chamber and that leaving must be monitored by a 
thermopile having five hot, and five cold, 24-guage Chromel-Alumel 
junctions. The hot junctions must be spaced across the top of the 
exhaust stack, .38 inches (10 mm) below the top of the chimney. The 
thermocouples must have a .050  .010 inch (1.3  
.3mm) diameter, ball-type, welded tip. One thermocouple must be located 
in the geometric center, with the other four located 1.18 inch (30 mm) 
from the center along the diagonal toward each of the corners (Figure 5 
of this part IV). The cold junctions must be located in the pan below 
the lower air distribution plate (see paragraph (b)(4) of this part IV). 
Thermopile hot junctions must be cleared of soot deposits as needed to 
maintain the calibrated sensitivity.
    (3) Radiation Source. A radiant heat source incorporating four Type 
LL silicon carbide elements, 20 inches (508 mm) long by .63 inch (16 mm) 
O.D., must be used, as shown in Figures 2A and 2B of this part IV. The 
heat source must have a nominal resistance of 1.4 ohms and be capable of 
generating a flux up to 100 kW/m\2\. The silicone carbide elements must 
be mounted in the stainless steel panel box by inserting them through 
.63 inch (16 mm) holes in .03 inch (1 mm) thick ceramic fiber or 
calcium-silicate millboard. Locations of the holes in the pads and 
stainless steel cover plates are shown in Figure 2B of this part IV. The 
truncated diamond-shaped mask of .042  .002 inch (1.07 
 .05mm) stainless steel must be added to provide uniform 
heat flux density over the area occupied by the vertical sample.
    (4) Air Distribution System. The air entering the environmental 
chamber must be distributed by a .25 inch (6.3 mm) thick aluminum plate 
having eight No. 4 drill-holes, located 2 inches (51 mm) from sides on 4 
inch (102 mm) centers, mounted at the base of the environmental chamber. 
A second plate of 18 guage stainless steel having 120, evenly spaced, 
No. 28 drill holes must be mounted 6 inches (152 mm) above the aluminum 
plate. A well-regulated air supply is required. The air-supply manifold 
at the base of the pyramidal section must have 48, evenly spaced, No. 26 
drill holes located .38 inch (10 mm) from the inner edge of the 
manifold, resulting in an airflow split of approximately three to one 
within the apparatus.
    (5) Exhaust Stack. An exhaust stack, 5.25  x 2.75 inches (133  x 70 
mm) in cross section, and 10 inches (254 mm) long, fabricated from 28 
guage stainless steel must be mounted on the outlet of the pyramidal 
section. A. 1.0  x 3.0 inch (25  x 76 mm) baffle plate of .018 
 .002 inch (.50  .05 mm) stainless steel must be 
centered inside the stack, perpendicular to the air flow, 3 inches (76 
mm) above the base of the stack.
    (6) Specimen Holders. (i) The specimen must be tested in a vertical 
orientation. The specimen holder (Figure 3 of this part IV) must 
incorporate a frame that touches the specimen (which is wrapped with 
aluminum foil as required by paragraph (d)(3) of this Part) along only 
the .25 inch (6 mm) perimeter. A ``V'' shaped spring is used to hold the 
assembly together. A detachable .50  x .50  x 5.91 inch (12  x 12  x 150 
mm) drip pan and two .020 inch (.5 mm) stainless steel wires (as shown 
in Figure 3 of this part IV) must be used for testing materials prone to 
melting and dripping. The positioning of the spring and frame may be 
changed to accommodate different specimen thicknesses by inserting the 
retaining rod in different holes on the specimen holder.
    (ii) Since the radiation shield described in ASTM E-906 is not used, 
a guide pin must be added to the injection mechanism. This fits into a 
slotted metal plate on the injection mechanism outside of the holding 
chamber. It can be used to provide accurate positioning of the specimen 
face after injection. The front surface of the specimen must be 3.9 
inches (100 mm) from the closed radiation doors after injection.
    (iii) The specimen holder clips onto the mounted bracket (Figure 3 
of this part IV). The mounting bracket must be attached to the injection 
rod by three screws that pass through a wide-area washer welded onto a 
\1/2\-inch (13 mm) nut. The end of the injection rod must be threaded to 
screw into the nut, and a .020 inch (5.1 mm) thick wide area

[[Page 517]]

washer must be held between two \1/2\-inch (13 mm) nuts that are 
adjusted to tightly cover the hole in the radiation doors through which 
the injection rod or calibration calorimeter pass.
    (7) Calorimeter. A total-flux type calorimeter must be mounted in 
the center of a \1/2\-inch Kaowool ``M'' board inserted in the sample 
holder to measure the total heat flux. The calorimeter must have a view 
angle of 180 degrees and be calibrated for incident flux. The 
calorimeter calibration must be acceptable to the Administrator.
    (8) Pilot-Flame Positions. Pilot ignition of the specimen must be 
accomplished by simultaneously exposing the specimen to a lower pilot 
burner and an upper pilot burner, as described in paragraph (b)(8)(i) 
and (b)(8)(ii) or (b)(8)(iii) of this part IV, respectively. Since 
intermittent pilot flame extinguishment for more than 3 seconds would 
invalidate the test results, a spark ignitor may be installed to ensure 
that the lower pilot burner remains lighted.
    (i) Lower Pilot Burner. The pilot-flame tubing must be .25 inch (6.3 
mm) O.D., .03 inch (0.8mm) wall, stainless steel tubing. A mixture of 
120 cm3/min. of methane and 850 cm3/min. of air 
must be fed to the lower pilot flame burner. The normal position of the 
end of the pilot burner tubing is .40 inch (10 mm) from and 
perpendicular to the exposed vertical surface of the specimen. The 
centerline at the outlet of the burner tubing must intersect the 
vertical centerline of the sample at a point .20 inch (5 mm) above the 
lower exposed edge of the specimen.
    (ii) Standard Three-Hole Upper Pilot Burner. The pilot burner must 
be a straight length of .25 inch (6.3 mm) O.D., .03 inch (0.8 mm) wall, 
stainless steel tubing that is 14 inches (360 mm) long. One end of the 
tubing must be closed, and three No. 40 drill holes must be drilled into 
the tubing, 2.38 inch (60 mm) apart, for gas ports, all radiating in the 
same direction. The first hole must be .19 inch (5 mm) from the closed 
end of the tubing. The tube must be positioned .75 inch (19 mm) above 
and .75 inch (19 mm) behind the exposed upper edge of the specimen. The 
middle hole must be in the vertical plane perpendicular to the exposed 
surface of the specimen which passes through its vertical centerline and 
must be pointed toward the radiation source. The gas supplied to the 
burner must be methane and must be adjusted to produce flame lengths of 
1 inch (25 mm).
    (iii) Optional Fourteen-Hole Upper Pilot Burner. This burner may be 
used in lieu of the standard three-hole burner described in paragraph 
(b)(8)(ii) of this part IV. The pilot burner must be a straight length 
of .25 inch (6.3 mm) O.D., .03 inch (0.8 mm) wall, stainless steel 
tubing that is 15.75 inches (400 mm) long. One end of the tubing must be 
closed, and 14 No. 59 drill holes must be drilled into the tubing, .50 
inch (13 mm) apart, for gas ports, all radiating in the same direction. 
The first hole must be .50 inch (13 mm) from the closed end of the 
tubing. The tube must be positioned above the specimen holder so that 
the holes are placed above the specimen as shown in Figure 1B of this 
part IV. The fuel supplied to the burner must be methane mixed with air 
in a ratio of approximately 50/50 by volume. The total gas flow must be 
adjusted to produce flame lengths of 1 inch (25 mm). When the gas/air 
ratio and the flow rate are properly adjusted, approximately .25 inch (6 
mm) of the flame length appears yellow in color.
    (c) Calibration of Equipment. (1) Heat Release Rate. A calibration 
burner, as shown in Figure 4, must be placed over the end of the lower 
pilot flame tubing using a gas tight connection. The flow of gas to the 
pilot flame must be at least 99 percent methane and must be accurately 
metered. Prior to usage, the wet test meter must be properly leveled and 
filled with distilled water to the tip of the internal pointer while no 
gas is flowing. Ambient temperature and pressure of the water are based 
on the internal wet test meter temperature. A baseline flow rate of 
approximately 1 liter/min. must be set and increased to higher preset 
flows of 4, 6, 8, 6 and 4 liters/min. Immediately prior to recording 
methane flow rates, a flow rate of 8 liters/min. must be used for 2 
minutes to precondition the chamber. This is not recorded as part of 
calibration. The rate must be determined by using a stopwatch to time a 
complete revolution of the wet test meter for both the baseline and 
higher flow, with the flow returned to baseline before changing to the 
next higher flow. The thermopile baseline voltage must be measured. The 
gas flow to the burner must be increased to the higher preset flow and 
allowed to burn for 2.0 minutes, and the thermopile voltage must be 
measured. The sequence must be repeated until all five values have been 
determined. The average of the five values must be used as the 
calibration factor. The procedure must be repeated if the percent 
relative standard deviation is greater than 5 percent. Calculations are 
shown in paragraph (f) of this part IV.
    (2) Flux Uniformity. Uniformity of flux over the specimen must be 
checked periodically and after each heating element change to determine 
if it is within acceptable limits of plus or minus 5 percent.
    (3) As noted in paragraph (b)(2) of this part IV, thermopile hot 
junctions must be cleared of soot deposits as needed to maintain the 
calibrated sensitivity.
    (d) Preparation of Test Specimens. (1) The test specimens must be 
representative of the aircraft component in regard to materials and 
construction methods. The standard size for the test specimens is 5.91 
 .03  x  5.91 .03 inches (149 1  x  
149 1 mm). The thickness of the specimen must be the same as 
that of the

[[Page 518]]

aircraft component it represents up to a maximum thickness of 1.75 
inches (45 mm). Test specimens representing thicker components must be 
1.75 inches (45 mm).
    (2) Conditioning. Specimens must be conditioned as described in Part 
1 of this appendix.
    (3) Mounting. Each test specimen must be wrapped tightly on all 
sides of the specimen, except for the one surface that is exposed with a 
single layer of .001 inch (.025 mm) aluminum foil.
    (e) Procedure. (1) The power supply to the radiant panel must be set 
to produce a radiant flux of 3.5 .05 W/cm2, as 
measured at the point the center of the specimen surface will occupy 
when positioned for the test. The radiant flux must be measured after 
the air flow through the equipment is adjusted to the desired rate.
    (2) After the pilot flames are lighted, their position must be 
checked as described in paragraph (b)(8) of this part IV.
    (3) Air flow through the apparatus must be controlled by a circular 
plate orifice located in a 1.5 inch (38.1 mm) I.D. pipe with two 
pressure measuring points, located 1.5 inches (38 mm) upstream and .75 
inches (19 mm) downstream of the orifice plate. The pipe must be 
connected to a manometer set at a pressure differential of 7.87 inches 
(200 mm) of Hg. (See Figure 1B of this part IV.) The total air flow to 
the equipment is approximately .04 m3/seconds. The stop on 
the vertical specimen holder rod must be adjusted so that the exposed 
surface of the specimen is positioned 3.9 inches (100 mm) from the 
entrance when injected into the environmental chamber.
    (4) The specimen must be placed in the hold chamber with the 
radiation doors closed. The airtight outer door must be secured, and the 
recording devices must be started. The specimen must be retained in the 
hold chamber for 60 seconds, plus or minus 10 seconds, before injection. 
The thermopile ``zero'' value must be determined during the last 20 
seconds of the hold period. The sample must not be injected before 
completion of the ``zero'' value determination.
    (5) When the specimen is to be injected, the radiation doors must be 
opened. After the specimen is injected into the environmental chamber, 
the radiation doors must be closed behind the specimen.
    (6)  [Reserved]
    (7) Injection of the specimen and closure of the inner door marks 
time zero. A record of the thermopile output with at least one data 
point per second must be made during the time the specimen is in the 
environmental chamber.
    (8) The test duration is five minutes. The lower pilot burner and 
the upper pilot burner must remain lighted for the entire duration of 
the test, except that there may be intermittent flame extinguishment for 
periods that do not exceed 3 seconds. Furthermore, if the optional 
three-hole upper burner is used, at least two flamelets must remain 
lighted for the entire duration of the test, except that there may be 
intermittent flame extinguishment of all three flamelets for periods 
that do not exceed 3 seconds.
    (9) A minimum of three specimens must be tested.
    (f) Calculations. (1) The calibration factor is calculated as 
follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.072

F0=flow of methane at baseline (1pm)
F1=higher preset flow of methane (1pm)
V0=thermopile voltage at baseline (mv)
V1=thermopile voltage at higher flow (mv)
Ta=Ambient temperature (K)
P=Ambient pressure (mm Hg)
Pv=Water vapor pressure (mm Hg)

    (2) Heat release rates may be calculated from the reading of the 
thermopile output voltage at any instant of time as:
[GRAPHIC] [TIFF OMITTED] TR02FE95.006

HRR=heat release rate (kw/m\2\)
Vb=baseline voltage (mv)
Vm=measured thermopile voltage (mv)
Kh=calibration factor (kw/mv)
    (3) The integral of the heat release rate is the total heat release 
as a function of time and is calculated by multiplying the rate by the 
data sampling frequency in minutes and summing the time from zero to two 
minutes.
    (g) Criteria. The total positive heat release over the first two 
minutes of exposure for each of the three or more samples tested must be 
averaged, and the peak heat release rate for each of the samples must be 
averaged. The average total heat release must not exceed 65 kilowatt-
minutes per square meter, and the average peak heat release rate must 
not exceed 65 kilowatts per square meter.
    (h) Report. The test report must include the following for each 
specimen tested:

[[Page 519]]

    (1) Description of the specimen.
    (2) Radiant heat flux to the specimen, expressed in W/
cm2.
    (3) Data giving release rates of heat (in kW/m2 ) as a 
function of time, either graphically or tabulated at intervals no 
greater than 10 seconds. The calibration factor (kn) must be 
recorded.
    (4) If melting, sagging, delaminating, or other behavior that 
affects the exposed surface area or the mode of burning occurs, these 
behaviors must be reported, together with the time at which such 
behaviors were observed.
    (5) The peak heat release and the 2-minute integrated heat release 
rate must be reported.

                    Figures to Part IV of Appendix F

[[Page 520]]

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[[Page 521]]


[GRAPHIC] [TIFF OMITTED] TR02FE95.005


[[Page 522]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.073


[[Page 523]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.074


[[Page 524]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.075


[[Page 525]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.076


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[GRAPHIC] [TIFF OMITTED] TC28SE91.077

 Part V. Test Method to Determine the Smoke Emission Characteristics of 
                             Cabin Materials

    (a) Summary of Method. The specimens must be constructed, 
conditioned, and tested in the flaming mode in accordance with American 
Society of Testing and Materials (ASTM) Standard Test Method ASTM F814-
83.
    (b) Acceptance Criteria. The specific optical smoke density 
(Ds), which is obtained by averaging the reading obtained 
after 4 minutes with each of the three specimens, shall not exceed 200.

[Amdt. 25-32, 37 FR 3972, Feb. 24, 1972]

    Editorial Note: For Federal Register citations affecting Appendix F 
to Part 25, see the List of CFR Sections Affected, which appears in the 
Finding Aids section of the printed volume and on GPO Access.

         Appendix G to Part 25--Continuous Gust Design Criteria

    The continuous gust design criteria in this appendix must be used in 
establishing the dynamic response of the airplane to vertical and 
lateral continuous turbulence unless a more rational criteria is used. 
The following gust load requirements apply to mission analysis and 
design envelope analysis:
    (a) The limit gust loads utilizing the continuous turbulence concept 
must be determined in accordance with the provisions of either paragraph 
(b) or paragraphs (c) and (d) of this appendix.

[[Page 527]]

    (b) Design envelope analysis. The limit loads must be determined in 
accordance with the following:
    (1) All critical altitudes, weights, and weight distributions, as 
specified in Sec. 25.321(b), and all critical speeds within the ranges 
indicated in paragraph (b)(3) of this appendix must be considered.
    (2) Values of A (ratio of root-mean-square incremental load root-
mean-square gust velocity) must be determined by dynamic analysis. The 
power spectral density of the atmospheric turbulence must be as given by 
the equation--
[GRAPHIC] [TIFF OMITTED] TC28SE91.078

where:
=power-spectral density (ft./sec.) 2/rad./ft.
=root-mean-square gust velocity, ft./sec.
omega=reduced frequency, radians per foot.
L=2,500 ft.

    (3) The limit loads must be obtained by multiplying the A values 
determined by the dynamic analysis by the following values of the gust 
velocity U:
    (i) At speed Vc: U=85 fps true gust 
velocity in the interval 0 to 30,000 ft. altitude and is linearly 
decreased to 30 fps true gust velocity at 80,000 ft. altitude. Where the 
Administrator finds that a design is comparable to a similar design with 
extensive satisfactory service experience, it will be acceptable to 
select U at Vc less than 85 fps, but not less than 
75 fps, with linear decrease from that value at 20,000 feet to 30 fps at 
80,000 feet. The following factors will be taken into account when 
assessing comparability to a similar design:
    (1) The transfer function of the new design should exhibit no 
unusual characteristics as compared to the similar design which will 
significantly affect response to turbulence; e.g., coalescence of modal 
response in the frequency regime which can result in a significant 
increase of loads.
    (2) The typical mission of the new airplane is substantially 
equivalent to that of the similar design.
    (3) The similar design should demonstrate the adequacy of the 
U selected.
    (ii) At speed VB: U is equal to 1.32 times the 
values obtained under paragraph (b)(3)(i) of this appendix.
    (iii) At speed VD: U is equal to \1/2\ the 
values obtained under paragraph (b)(3)(i) of this appendix.
    (iv) At speeds between VB and Vc and between 
Vc and VD: U is equal to a value obtained 
by linear interpolation.
    (4) When a stability augmentation system is included in the 
analysis, the effect of system nonlinearities on loads at the limit load 
level must be realistically or conservatively accounted for.
    (c) Mission analysis. Limit loads must be determined in accordance 
with the following:
    (1) The expected utilization of the airplane must be represented by 
one or more flight profiles in which the load distribution and the 
variation with time of speed, altitude, gross weight, and center of 
gravity position are defined. These profiles must be divided into 
mission segments or blocks, for analysis, and average or effective 
values of the pertinent parameters defined for each segment.
    (2) For each of the mission segments defined under paragraph (c)(1) 
of this appendix, values of A and No must be determined by 
analysis. A is defined as the ratio of root-mean-square incremental load 
to root-mean-square gust velocity and No is the radius of 
gyration of the load power spectral density function about zero 
frequency. The power spectral density of the atmospheric turbulence must 
be given by the equation set forth in paragraph (b)(2) of this appendix.
    (3) For each of the load and stress quantities selected, the 
frequency of exceedance must be determined as a function of load level 
by means of the equation--
[GRAPHIC] [TIFF OMITTED] TC28SE91.079

where--

t=selected time interval.
y=net value of the load or stress.
Yone=g=value of the load or stress in one-g level flight.
N(y)=average number of exceedances of the indicated value of the load or 
          stress in unit time.
=symbol denoting summation over all mission segments.
No, A=parameters determined by dynamic analysis as defined in 
          paragraph (c)(2) of this appendix.
P1, P2, b1, b2=parameters 
          defining the probability distributions of root-mean-square

[[Page 528]]

          gust velocity, to be read from Figures 1 and 2 of this 
          appendix.G6734
The limit gust loads must be read from the frequency of exceedance 
curves at a frequency of exceedance of 2 x 10-5 exceedances 
per hour. Both positive and negative load directions must be considered 
in determining the limit loads.
    (4) If a stability augmentation system is utilized to reduce the 
gust loads, consideration must be given to the fraction of flight time 
that the system may be inoperative. The flight profiles of paragraph 
(c)(1) of this appendix must include flight with the system inoperative 
for this fraction of the flight time. When a stability augmentation 
system is included in the analysis, the effect of system nonlinearities 
on loads at the limit load level must be conservatively accounted for.
    (d) Supplementary design envelope analysis. In addition to the limit 
loads defined by paragraph (c) of this appendix, limit loads must also 
be determined in accordance with paragraph (b) of this appendix, except 
that--
    (1) In paragraph (b)(3)(i) of this appendix, the value of 
U=85 fps true gust velocity is replaced by U=60 fps 
true gust velocity on the interval 0 to 30,000 ft. altitude, and is 
linearly decreased to 25 fps true gust velocity at 80,000 ft. altitude; 
and
    (2) In paragraph (b) of this appendix, the reference to paragraphs 
(b)(3)(i) through (b)(3)(iii) of this appendix is to be understood as 
referring to the paragraph as modified by paragraph (d)(1).

[[Page 529]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.080


[[Page 530]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.081


[Amdt. 25-54, 45 FR 60173, Sept. 11, 1980]

     Appendix H to Part 25--Instructions for Continued Airworthiness

H25.1  General.
    (a) This appendix specifies requirements for the preparation of 
Instructions for Continued Airworthiness as required by Sec. 25.1529.
    (b) The Instructions for Continued Airworthiness for each airplane 
must include the Instructions for Continued Airworthiness for each 
engine and propeller (hereinafter designated ``products''), for each 
appliance required by this chapter, and any required information 
relating to the interface of those appliances and products with the 
airplane. If Instructions for Continued Airworthiness are not supplied 
by the manufacturer of an appliance or product installed in the 
airplane, the Instructions for Continued Airworthiness for the airplane 
must include the information essential to the continued airworthiness of 
the airplane.

[[Page 531]]

    (c) The applicant must submit to the FAA a program to show how 
changes to the Instructions for Continued Airworthiness made by the 
applicant or by the manufacturers or products and appliances installed 
in the airplane will be distributed.

H25.2  Format.
    (a) The Instructions for Continued Airworthiness must be in the form 
of a manual or manuals as appropriate for the quantity of data to be 
provided.
    (b) The format of the manual or manuals must provide for a practical 
arrangement.

H25.3  Content.
    The contents of the manual or manuals must be prepared in the 
English language. The Instructions for Continued Airworthiness must 
contain the following manuals or sections, as appropriate, and 
information:
    (a) Airplane maintenance manual or section. (1) Introduction 
information that includes an explanation of the airplane's features and 
data to the extent necessary for maintenance or preventive maintenance.
    (2) A description of the airplane and its systems and installations 
including its engines, propellers, and appliances.
    (3) Basic control and operation information describing how the 
airplane components and systems are controlled and how they operate, 
including any special procedures and limitations that apply.
    (4) Servicing information that covers details regarding servicing 
points, capacities of tanks, reservoirs, types of fluids to be used, 
pressures applicable to the various systems, location of access panels 
for inspection and servicing, locations of lubrication points, 
lubricants to be used, equipment required for servicing, tow 
instructions and limitations, mooring, jacking, and leveling 
information.
    (b) Maintenance instructions. (1) Scheduling information for each 
part of the airplane and its engines, auxiliary power units, propellers, 
accessories, instruments, and equipment that provides the recommended 
periods at which they should be cleaned, inspected, adjusted, tested, 
and lubricated, and the degree of inspection, the applicable wear 
tolerances, and work recommended at these periods. However, the 
applicant may refer to an accessory, instrument, or equipment 
manufacturer as the source of this information if the applicant shows 
that the item has an exceptionally high degree of complexity requiring 
specialized maintenance techniques, test equipment, or expertise. The 
recommended overhaul periods and necessary cross references to the 
Airworthiness Limitations section of the manual must also be included. 
In addition, the applicant must include an inspection program that 
includes the frequency and extent of the inspections necessary to 
provide for the continued airworthiness of the airplane.
    (2) Troubleshooting information describing probable malfunctions, 
how to recognize those malfunctions, and the remedial action for those 
malfunctions.
    (3) Information describing the order and method of removing and 
replacing products and parts with any necessary precautions to be taken.
    (4) Other general procedural instructions including procedures for 
system testing during ground running, symmetry checks, weighing and 
determining the center of gravity, lifting and shoring, and storage 
limitations.
    (c) Diagrams of structural access plates and information needed to 
gain access for inspections when access plates are not provided.
    (d) Details for the application of special inspection techniques 
including radiographic and ultrasonic testing where such processes are 
specified.
    (e) Information needed to apply protective treatments to the 
structure after inspection.
    (f) All data relative to structural fasteners such as 
identification, discard recommendations, and torque values.
    (g) A list of special tools needed.

H25.4  Airworthiness Limitations section.

    (a) The Instructions for Continued Airworthiness must contain a 
section titled Airworthiness Limitations that is segregated and clearly 
distinguishable from the rest of the document. This section must set 
forth--
    (1) Each mandatory replacement time, structural inspection interval, 
and related structural inspection procedures approved under Sec. 25.571; 
and
    (2) Each mandatory replacement time, inspection interval, related 
inspection procedure, and all critical design configuration control 
limitations approved under Sec. 25.981 for the fuel tank system.
    (b) If the Instructions for Continued Airworthiness consist of 
multiple documents, the section required by this paragraph must be 
included in the principal manual. This section must contain a legible 
statement in a prominent location that reads: ``The Airworthiness 
Limitations section is FAA-approved and specifies maintenance required 
under Sec. Sec. 43.16 and 91.403 of the Federal Aviation Regulations, 
unless an alternative program has been FAA approved.''

[Amdt. 25-54, 45 FR 60177, Sept. 11, 1980, as amended by Amdt. 25-68, 54 
FR 34329, Aug. 18, 1989; Amdt. 25-102, 66 FR 23130, May 7, 2001]

   Appendix I to Part 25--Installation of an Automatic Takeoff Thrust 
                         Control System (ATTCS)

                             I25.1  General.

    (a) This appendix specifies additional requirements for installation 
of an engine

[[Page 532]]

power control system that automatically resets thrust or power on 
operating engine(s) in the event of any one engine failure during 
takeoff.
    (b) With the ATTCS and associated systems functioning normally as 
designed, all applicable requirements of Part 25, except as provided in 
this appendix, must be met without requiring any action by the crew to 
increase thrust or power.

                           I25.2  Definitions.

    (a) Automatic Takeoff Thrust Control System (ATTCS). An ATTCS is 
defined as the entire automatic system used on takeoff, including all 
devices, both mechanical and electrical, that sense engine failure, 
transmit signals, actuate fuel controls or power levers or increase 
engine power by other means on operating engines to achieve scheduled 
thrust or power increases, and furnish cockpit information on system 
operation.
    (b) Critical Time Interval. When conducting an ATTCS takeoff, the 
critical time interval is between V1 minus 1 second and a 
point on the minimum performance, all-engine flight path where, assuming 
a simultaneous occurrence of an engine and ATTCS failure, the resulting 
minimum flight path thereafter intersects the Part 25 required actual 
flight path at no less than 400 feet above the takeoff surface. This 
time interval is shown in the following illustration:
[GRAPHIC] [TIFF OMITTED] TC28SE91.082


[[Page 533]]



         I25.3  Performance and System Reliability Requirements.

    The applicant must comply with the performance and ATTCS reliability 
requirements as follows:
    (a) An ATTCS failure or a combination of failures in the ATTCS 
during the critical time interval:
    (1) Shall not prevent the insertion of the maximum approved takeoff 
thrust or power, or must be shown to be an improbable event.
    (2) Shall not result in a significant loss or reduction in thrust or 
power, or must be shown to be an extremely improbable event.
    (b) The concurrent existence of an ATTCS failure and an engine 
failure during the critical time interval must be shown to be extremely 
improbable.
    (c) All applicable performance requirements of Part 25 must be met 
with an engine failure occurring at the most critical point during 
takeoff with the ATTCS system functioning.

                         I25.4  Thrust Setting.

    The initial takeoff thrust or power setting on each engine at the 
beginning of the takeoff roll may not be less than any of the following:
    (a) Ninety (90) percent of the thrust or power set by the ATTCS (the 
maximum takeoff thrust or power approved for the airplane under existing 
ambient conditions);
    (b) That required to permit normal operation of all safety-related 
systems and equipment dependent upon engine thrust or power lever 
position; or
    (c) That shown to be free of hazardous engine response 
characteristics when thrust or power is advanced from the initial 
takeoff thrust or power to the maximum approved takeoff thrust or power.

                       I25.5  Powerplant Controls.

    (a) In addition to the requirements of Sec. 25.1141, no single 
failure or malfunction, or probable combination thereof, of the ATTCS, 
including associated systems, may cause the failure of any powerplant 
function necessary for safety.
    (b) The ATTCS must be designed to:
    (1) Apply thrust or power on the operating engine(s), following any 
one engine failure during takeoff, to achieve the maximum approved 
takeoff thrust or power without exceeding engine operating limits;
    (2) Permit manual decrease or increase in thrust or power up to the 
maximum takeoff thrust or power approved for the airplane under existing 
conditions through the use of the power lever. For airplanes equipped 
with limiters that automatically prevent engine operating limits from 
being exceeded under existing ambient conditions, other means may be 
used to increase the thrust or power in the event of an ATTCS failure 
provided the means is located on or forward of the power levers; is 
easily identified and operated under all operating conditions by a 
single action of either pilot with the hand that is normally used to 
actuate the power levers; and meets the requirements of Sec. 25.777 (a), 
(b), and (c);
    (3) Provide a means to verify to the flightcrew before takeoff that 
the ATTCS is in a condition to operate; and
    (4) Provide a means for the flightcrew to deactivate the automatic 
function. This means must be designed to prevent inadvertent 
deactivation.

                     I25.6  Powerplant Instruments.

    In addition to the requirements of Sec. 25.1305:
    (a) A means must be provided to indicate when the ATTCS is in the 
armed or ready condition; and
    (b) If the inherent flight characteristics of the airplane do not 
provide adequate warning that an engine has failed, a warning system 
that is independent of the ATTCS must be provided to give the pilot a 
clear warning of any engine failure during takeoff.

[Amdt. 25-62, 52 FR 43156, Nov. 9, 1987]

               Appendix J to Part 25--Emergency Evacuation

    The following test criteria and procedures must be used for showing 
compliance with Sec. 25.803:
    (a) The emergency evacuation must be conducted either during the 
dark of the night or during daylight with the dark of night simulated. 
If the demonstration is conducted indoors during daylight hours, it must 
be conducted with each window covered and each door closed to minimize 
the daylight effect. Illumination on the floor or ground may be used, 
but it must be kept low and shielded against shining into the airplane's 
windows or doors.
    (b) The airplane must be in a normal attitude with landing gear 
extended.
    (c) Unless the airplane is equipped with an off-wing descent means, 
stands or ramps may be used for descent from the wing to the ground. 
Safety equipment such as mats or inverted life rafts may be placed on 
the floor or ground to protect participants. No other equipment that is 
not part of the emergency evacuation equipment of the airplane may be 
used to aid the participants in reaching the ground.
    (d) Except as provided in paragraph (a) of this appendix, only the 
airplane's emergency lighting system may provide illumination.
    (e) All emergency equipment required for the planned operation of 
the airplane must be installed.
    (f) Each external door and exit, and each internal door or curtain, 
must be in the takeoff configuration.

[[Page 534]]

    (g) Each crewmember must be seated in the normally assigned seat for 
takeoff and must remain in the seat until receiving the signal for 
commencement of the demonstration. Each crewmember must be a person 
having knowledge of the operation of exits and emergency equipment and, 
if compliance with Sec. 121.291 is also being demonstrated, each flight 
attendant must be a member of a regularly scheduled line crew.
    (h) A representative passenger load of persons in normal health must 
be used as follows:
    (1) At least 40 percent of the passenger load must be female.
    (2) At least 35 percent of the passenger load must be over 50 years 
of age.
    (3) At least 15 percent of the passenger load must be female and 
over 50 years of age.
    (4) Three life-size dolls, not included as part of the total 
passenger load, must be carried by passengers to simulate live infants 2 
years old or younger.
    (5) Crewmembers, mechanics, and training personnel, who maintain or 
operate the airplane in the normal course of their duties, may not be 
used as passengers.
    (i) No passenger may be assigned a specific seat except as the 
Administrator may require. Except as required by subparagraph (g) of 
this paragraph, no employee of the applicant may be seated next to an 
emergency exit.
    (j) Seat belts and shoulder harnesses (as required) must be 
fastened.
    (k) Before the start of the demonstration, approximately one-half of 
the total average amount of carry-on baggage, blankets, pillows, and 
other similar articles must be distributed at several locations in 
aisles and emergency exit access ways to create minor obstructions.
    (l) No prior indication may be given to any crewmember or passenger 
of the particular exits to be used in the demonstration.
    (m) The applicant may not practice, rehearse, or describe the 
demonstration for the participants nor may any participant have taken 
part in this type of demonstration within the preceding 6 months.
    (n) The pretakeoff passenger briefing required by Sec. 121.571 may 
be given. The passengers may also be advised to follow directions of 
crewmembers but not be instructed on the procedures to be followed in 
the demonstration.
    (o) If safety equipment as allowed by paragraph (c) of this appendix 
is provided, either all passenger and cockpit windows must be blacked 
out or all of the emergency exits must have safety equipment in order to 
prevent disclosure of the available emergency exits.
    (p) Not more than 50 percent of the emergency exits in the sides of 
the fuselage of an airplane that meets all of the requirements 
applicable to the required emergency exits for that airplane may be used 
for the demonstration. Exits that are not to be used in the 
demonstration must have the exit handle deactivated or must be indicated 
by red lights, red tape, or other acceptable means placed outside the 
exits to indicate fire or other reason why they are unusable. The exits 
to be used must be representative of all of the emergency exits on the 
airplane and must be designated by the applicant, subject to approval by 
the Administrator. At least one floor level exit must be used.
    (q) Except as provided in paragraph (c) of this section, all 
evacuees must leave the airplane by a means provided as part of the 
airplane's equipment.
    (r) The applicant's approved procedures must be fully utilized, 
except the flightcrew must take no active role in assisting others 
inside the cabin during the demonstration.
    (s) The evacuation time period is completed when the last occupant 
has evacuated the airplane and is on the ground. Provided that the 
acceptance rate of the stand or ramp is no greater than the acceptance 
rate of the means available on the airplane for descent from the wing 
during an actual crash situation, evacuees using stands or ramps allowed 
by paragraph (c) of this appendix are considered to be on the ground 
when they are on the stand or ramp.

[Amdt. 25-72, 55 FR 29788, July 20, 1990, as amended by Amdt. 25-79, 
Aug. 26, 1993]



PART 27--AIRWORTHINESS STANDARDS: NORMAL CATEGORY ROTORCRAFT--Table of Contents




                           Subpart A--General

Sec.
27.1  Applicability.
27.2  Special retroactive requirements.

                            Subpart B--Flight

                                 General

27.21  Proof of compliance.
27.25  Weight limits.
27.27  Center of gravity limits.
27.29  Empty weight and corresponding center of gravity.
27.31  Removable ballast.
27.33  Main rotor speed and pitch limits.

                               Performance

27.45  General.
27.51  Takeoff.
27.65  Climb: all engines operating.
27.67  Climb: one engine inoperative.
27.71  Glide performance.
27.73  Performance at minimum operating speed.
27.75  Landing.
27.79  Limiting height--speed envelope.

[[Page 535]]

                         Flight Characteristics

27.141  General.
27.143  Controllability and maneuverability.
27.151  Flight controls.
27.161  Trim control.
27.171  Stability: general.
27.173  Static longitudinal stability.
27.175  Demonstration of static longitudinal stability.
27.177  Static directional stability.

                Ground and Water Handling Characteristics

27.231  General.
27.235  Taxiing condition.
27.239  Spray characteristics.
27.241  Ground resonance.

                    Miscellaneous Flight Requirements

27.251  Vibration.

                    Subpart C--Strength Requirements

                                 General

27.301  Loads.
27.303  Factor of safety.
27.305  Strength and deformation.
27.307  Proof of structure.
27.309  Design limitations.

                              Flight Loads

27.321  General.
27.337  Limit maneuvering load factor.
27.339  Resultant limit maneuvering loads.
27.341  Gust loads.
27.351  Yawing conditions.
27.361  Engine torque.

                    Control Surface and System Loads

27.391  General.
27.395  Control system.
27.397  Limit pilot forces and torques.
27.399  Dual control system.
27.411  Ground clearance: tail rotor guard.
27.427  Unsymmetrical loads.

                              Ground Loads

27.471  General.
27.473  Ground loading conditions and assumptions.
27.475  Tires and shock absorbers.
27.477  Landing gear arrangement.
27.479  Level landing conditions.
27.481  Tail-down landing conditions.
27.483  One-wheel landing conditions.
27.485  Lateral drift landing conditions.
27.493  Braked roll conditions.
27.497  Ground loading conditions: landing gear with tail wheels.
27.501  Ground loading conditions: landing gear with skids.
27.505  Ski landing conditions.

                               Water Loads

27.521  Float landing conditions.

                       Main Component Requirements

27.547  Main rotor structure.
27.549  Fuselage, landing gear, and rotor pylon structures.

                      Emergency Landing Conditions

27.561  General.
27.562  Emergency landing dynamic conditions.
27.563  Structural ditching provisions.

                           Fatigue Evaluation

27.571  Fatigue evaluation of flight structure.

                   Subpart D--Design and Construction

                                 General

27.601  Design.
27.602  Critical parts.
27.603  Materials.
27.605  Fabrication methods.
27.607  Fasteners.
27.609  Protection of structure.
27.610  Lightning and static electricity protection.
27.611  Inspection provisions.
27.613  Material strength properties and design values.
27.619  Special factors.
27.621  Casting factors.
27.623  Bearing factors.
27.625  Fitting factors.
27.629  Flutter.

                                 Rotors

27.653  Pressure venting and drainage of rotor blades.
27.659  Mass balance.
27.661  Rotor blade clearance.
27.663  Ground resonance prevention means.

                             Control Systems

27.671  General.
27.672  Stability augmentation, automatic, and power-operated systems.
27.673  Primary flight control.
27.674  Interconnected controls.
27.675  Stops.
27.679  Control system locks.
27.681  Limit load static tests.
27.683  Operation tests.
27.685  Control system details.
27.687  Spring devices.
27.691  Autorotation control mechanism.
27.695  Power boost and power-operated control system.

                              Landing Gear

27.723  Shock absorption tests.
27.725  Limit drop test.
27.727  Reserve energy absorption drop test.
27.729  Retracting mechanism.
27.731  Wheels.
27.733  Tires.

[[Page 536]]

27.735  Brakes.
27.737  Skis.

                            Floats and Hulls

27.751  Main float buoyancy.
27.753  Main float design.
27.755  Hulls.

                   Personnel and Cargo Accommodations

27.771  Pilot compartment.
27.773  Pilot compartment view.
27.775  Windshields and windows.
27.777  Cockpit controls.
27.779  Motion and effect of cockpit controls.
27.783  Doors.
27.785  Seats, berths, litters, safety belts, and harnesses.
27.787  Cargo and baggage compartments.
27.801  Ditching.
27.805  Flight crew emergency exits.
27.807  Emergency exits.
27.831  Ventilation.
27.833  Heaters.

                             Fire Protection

27.853  Compartment interiors.
27.855  Cargo and baggage compartments.
27.859  Heating systems.
27.861  Fire protection of structure, controls, and other parts.
27.863  Flammable fluid fire protection.

                             External Loads

27.865  External loads.

                              Miscellaneous

27.871  Leveling marks.
27.873  Ballast provisions.

                          Subpart E--Powerplant

                                 General

27.901  Installation.
27.903  Engines.
27.907  Engine vibration.

                           Rotor Drive System

27.917  Design.
27.921  Rotor brake.
27.923  Rotor drive system and control mechanism tests.
27.927  Additional tests.
27.931  Shafting critical speed.
27.935  Shafting joints.
27.939  Turbine engine operating characteristics.

                               Fuel System

27.951  General.
27.952  Fuel system crash resistance.
27.953  Fuel system independence.
27.954  Fuel system lightning protection.
27.955  Fuel flow.
27.959  Unusable fuel supply.
27.961  Fuel system hot weather operation.
27.963  Fuel tanks: general.
27.965  Fuel tank tests.
27.967  Fuel tank installation.
27.969  Fuel tank expansion space.
27.971  Fuel tank sump.
27.973  Fuel tank filler connection.
27.975  Fuel tank vents.
27.977  Fuel tank outlet.

                         Fuel System Components

27.991  Fuel pumps.
27.993  Fuel system lines and fittings.
27.995  Fuel valves.
27.997  Fuel strainer or filter.
27.999  Fuel system drains.

                               Oil System

27.1011  Engines: General.
27.1013  Oil tanks.
27.1015  Oil tank tests.
27.1017  Oil lines and fittings.
27.1019  Oil strainer or filter.
27.1021  Oil system drains.
27.1027  Transmissions and gearboxes: General.

                                 Cooling

27.1041  General.
27.1043  Cooling tests.
27.1045  Cooling test procedures.

                            Induction System

27.1091  Air induction.
27.1093  Induction system icing protection.

                             Exhaust System

27.1121  General.
27.1123  Exhaust piping.

                   Powerplant Controls and Accessories

27.1141  Powerplant controls: general.
27.1143  Engine controls.
27.1145  Ignition switches.
27.1147  Mixture controls.
27.1151  Rotor brake controls.
27.1163  Powerplant accessories.

                       Powerplant Fire Protection

27.1183  Lines, fittings, and components.
27.1185  Flammable fluids.
27.1187  Ventilation and drainage.
27.1189  Shutoff means.
27.1191  Firewalls.
27.1193  Cowling and engine compartment covering.
27.1194  Other surfaces.
27.1195  Fire detector systems.

                          Subpart F--Equipment

                                 General

27.1301  Function and installation.
27.1303  Flight and navigation instruments.
27.1305  Powerplant instruments.
27.1307  Miscellaneous equipment.

[[Page 537]]

27.1309  Equipment, systems, and installations.

                        Instruments: Installation

27.1321  Arrangement and visibility.
27.1322  Warning, caution, and advisory lights.
27.1323  Airspeed indicating system.
27.1325  Static pressure systems.
27.1327  Magnetic direction indicator.
27.1329  Automatic pilot system.
27.1335  Flight director systems.
27.1337  Powerplant instruments.

                    Electrical Systems and Equipment

27.1351  General.
27.1353  Storage battery design and installation.
27.1357  Circuit protective devices.
27.1361  Master switch.
27.1365  Electric cables.
27.1367  Switches.

                                 Lights

27.1381  Instrument lights.
27.1383  Landing lights.
27.1385  Position light system installation.
27.1387  Position light system dihedral angles.
27.1389  Position light distribution and intensities.
27.1391  Minimum intensities in the horizontal plane of forward and rear 
          position lights.
27.1393  Minimum intensities in any vertical plane of forward and rear 
          position lights.
27.1395  Maximum intensities in overlapping beams of forward and rear 
          position lights.
27.1397  Color specifications.
27.1399  Riding light.
27.1401  Anticollision light system.

                            Safety Equipment

27.1411  General.
27.1413  Safety belts.
27.1415  Ditching equipment.
27.1419  Ice protection.
27.1435  Hydraulic systems.
27.1457  Cockpit voice recorders.
27.1459  Flight recorders.
27.1461  Equipment containing high energy rotors.

            Subpart G--Operating Limitations and Information

27.1501  General.

                          Operating Limitations

27.1503  Airspeed limitations: general.
27.1505  Never-exceed speed.
27.1509  Rotor speed.
27.1519  Weight and center of gravity.
27.1521  Powerplant limitations.
27.1523  Minimum flight crew.
27.1525  Kinds of operations.
27.1527  Maximum operating altitude.
27.1529  Instructions for Continued Airworthiness.

                          Markings and Placards

27.1541  General.
27.1543  Instrument markings: general.
27.1545  Airspeed indicator.
27.1547  Magnetic direction indicator.
27.1549  Powerplant instruments.
27.1551  Oil quantity indicator.
27.1553  Fuel quantity indicator.
27.1555  Control markings.
27.1557  Miscellaneous markings and placards.
27.1559  Limitations placard.
27.1561  Safety equipment.
27.1565  Tail rotor.

          Rotorcraft Flight Manual and Approved Manual Material

27.1581  General.
27.1583  Operating limitations.
27.1585  Operating procedures.
27.1587  Performance information.
27.1589  Loading information.

Appendix A to Part 27--Instructions for Continued Airworthiness
Appendix B to Part 27--Airworthiness Criteria for Helicopter Instrument 
          Flight
Appendix C to Part 27--Criteria for Category A

    Authority: 49 U.S.C. 106(g), 40113, 44701-44702, 44704.

    Source: Docket No. 5074, 29 FR 15695, Nov. 24, 1964, unless 
otherwise noted.



                           Subpart A--General



Sec. 27.1  Applicability.

    (a) This part prescribes airworthiness standards for the issue of 
type certificates, and changes to those certificates, for normal 
category rotorcraft with maximum weights of 7,000 pounds or less and 
nine or less passenger seats.
    (b) Each person who applies under Part 21 for such a certificate or 
change must show compliance with the applicable requirements of this 
part.
    (c) Multiengine rotorcraft may be type certified as Category A 
provided the requirements referenced in appendix C of this part are met.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-33, 
61 FR 21906, May 10, 1996; Amdt. 27-37, 64 FR 45094, Aug. 18, 1999]

[[Page 538]]



Sec. 27.2  Special retroactive requirements.

    (a) For each rotorcraft manufactured after September 16, 1992, each 
applicant must show that each occupant's seat is equipped with a safety 
belt and shoulder harness that meets the requirements of paragraphs (a), 
(b), and (c) of this section.
    (1) Each occupant's seat must have a combined safety belt and 
shoulder harness with a single-point release. Each pilot's combined 
safety belt and shoulder harness must allow each pilot, when seated with 
safety belt and shoulder harness fastened, to perform all functions 
necessary for flight operations. There must be a means to secure belts 
and harnesses, when not in use, to prevent interference with the 
operation of the rotorcraft and with rapid egress in an emergency.
    (2) Each occupant must be protected from serious head injury by a 
safety belt plus a shoulder harness that will prevent the head from 
contacting any injurious object.
    (3) The safety belt and shoulder harness must meet the static and 
dynamic strength requirements, if applicable, specified by the 
rotorcraft type certification basis.
    (4) For purposes of this section, the date of manufacture is 
either--
    (i) The date the inspection acceptance records, or equivalent, 
reflect that the rotorcraft is complete and meets the FAA-Approved Type 
Design Data; or
    (ii) The date the foreign civil airworthiness authority certifies 
that the rotorcraft is complete and issues an original standard 
airworthiness certificate, or equivalent, in that country.
    (b) For rotorcraft with a certification basis established prior to 
October 18, 1999--
    (1) The maximum passenger seat capacity may be increased to eight or 
nine provided the applicant shows compliance with all the airworthiness 
requirements of this part in effect on October 18, 1999.
    (2) The maximum weight may be increased to greater than 6,000 pounds 
provided--
    (i) The number of passenger seats is not increased above the maximum 
number certificated on October 18, 1999, or
    (ii) The applicant shows compliance with all of the airworthiness 
requirements of this part in effect on October 18, 1999.

[Doc. No. 26078, 56 FR 41051, Aug. 16, 1991, as amended by Amdt. 27-37, 
64 FR 45094, Aug. 18, 1999]



                            Subpart B--Flight

                                 General



Sec. 27.21  Proof of compliance.

    Each requirement of this subpart must be met at each appropriate 
combination of weight and center of gravity within the range of loading 
conditions for which certification is requested. This must be shown--
    (a) By tests upon a rotorcraft of the type for which certification 
is requested, or by calculations based on, and equal in accuracy to, the 
results of testing; and
    (b) By systematic investigation of each required combination of 
weight and center of gravity if compliance cannot be reasonably inferred 
from combinations investigated.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-21, 
49 FR 44432, Nov. 6, 1984]



Sec. 27.25  Weight limits.

    (a) Maximum weight. The maximum weight (the highest weight at which 
compliance with each applicable requirement of this part is shown) must 
be established so that it is--
    (1) Not more than--
    (i) The highest weight selected by the applicant;
    (ii) The design maximum (the highest weight at which compliance with 
each applicable structural loading condition of this part is shown); or
    (iii) The highest weight at which compliance with each applicable 
flight requirement of this part is shown; and
    (2) Not less than the sum of--
    (i) The empty weight determined under Sec. 27.29; and
    (ii) The weight of usable fuel appropriate to the intended operation 
with full payload;
    (iii) The weight of full oil capacity; and

[[Page 539]]

    (iv) For each seat, an occupant weight of 170 pounds or any lower 
weight for which certification is requested.
    (b) Minimum weight. The minimum weight (the lowest weight at which 
compliance with each applicable requirement of this part is shown) must 
be established so that it is--
    (1) Not more than the sum of--
    (i) The empty weight determined under Sec. 27.29; and
    (ii) The weight of the minimum crew necessary to operate the 
rotorcraft, assuming for each crewmember a weight no more than 170 
pounds, or any lower weight selected by the applicant or included in the 
loading instructions; and
    (2) Not less than--
    (i) The lowest weight selected by the applicant;
    (ii) The design minimum weight (the lowest weight at which 
compliance with each applicable structural loading condition of this 
part is shown); or
    (iii) The lowest weight at which compliance with each applicable 
flight requirement of this part is shown.
    (c) Total weight with jettisonable external load. A total weight for 
the rotorcraft with a jettisonable external load attached that is 
greater than the maximum weight established under paragraph (a) of this 
section may be established for any rotorcraft-load combination if--
    (1) The rotorcraft-load combination does not include human external 
cargo,
    (2) Structural component approval for external load operations under 
either Sec. 27.865 or under equivalent operational standards is 
obtained,
    (3) The portion of the total weight that is greater than the maximum 
weight established under paragraph (a) of this section is made up only 
of the weight of all or part of the jettisonable external load,
    (4) Structural components of the rotorcraft are shown to comply with 
the applicable structural requirements of this part under the increased 
loads and stresses caused by the weight increase over that established 
under paragraph (a) of this section, and
    (5) Operation of the rotorcraft at a total weight greater than the 
maximum certificated weight established under paragraph (a) of this 
section is limited by appropriate operating limitations under 
Sec. 27.865(a) and (d) of this part.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 29, 1964, as amended by Amdt. 27-11, 
41 FR 55468, Dec. 20, 1976; Amdt. 25-42, 43 FR 2324, Jan. 16, 1978; 
Amdt. 27-36, 64 FR 43019, Aug. 6, 1999]



Sec. 27.27  Center of gravity limits.

    The extreme forward and aft centers of gravity and, where critical, 
the extreme lateral centers of gravity must be established for each 
weight established under Sec. 27.25. Such an extreme may not lie 
beyond--
    (a) The extremes selected by the applicant;
    (b) The extremes within which the structure is proven; or
    (c) The extremes within which compliance with the applicable flight 
requirements is shown.

[Amdt. 27-2, 33 FR 962, Jan. 26, 1968]



Sec. 27.29  Empty weight and corresponding center of gravity.

    (a) The empty weight and corresponding center of gravity must be 
determined by weighing the rotorcraft without the crew and payload, but 
with--
    (1) Fixed ballast;
    (2) Unusable fuel; and
    (3) Full operating fluids, including--
    (i) Oil;
    (ii) Hydraulic fluid; and
    (iii) Other fluids required for normal operation of roto-craft 
systems, except water intended for injection in the engines.
    (b) The condition of the rotorcraft at the time of determining empty 
weight must be one that is well defined and can be easily repeated, 
particularly with respect to the weights of fuel, oil, coolant, and 
installed equipment.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-14, 
43 FR 2324, Jan. 16, 1978]

[[Page 540]]



Sec. 27.31  Removable ballast.

    Removable ballast may be used in showing compliance with the flight 
requirements of this subpart.



Sec. 27.33  Main rotor speed and pitch limits.

    (a) Main rotor speed limits. A range of main rotor speeds must be 
established that--
    (1) With power on, provides adequate margin to accommodate the 
variations in rotor speed occurring in any appropriate maneuver, and is 
consistent with the kind of governor or synchronizer used; and
    (2) With power off, allows each appropriate autorotative maneuver to 
be performed throughout the ranges of airspeed and weight for which 
certification is requested.
    (b) Normal main rotor high pitch limits (power on). For rotocraft, 
except helicopters required to have a main rotor low speed warning under 
paragraph (e) of this section. It must be shown, with power on and 
without exceeding approved engine maximum limitations, that main rotor 
speeds substantially less than the minimum approved main rotor speed 
will not occur under any sustained flight condition. This must be met 
by--
    (1) Appropriate setting of the main rotor high pitch stop;
    (2) Inherent rotorcraft characteristics that make unsafe low main 
rotor speeds unlikely; or
    (3) Adequate means to warn the pilot of unsafe main rotor speeds.
    (c) Normal main rotor low pitch limits (power off). It must be 
shown, with power off, that--
    (1) The normal main rotor low pitch limit provides sufficient rotor 
speed, in any autorotative condition, under the most critical 
combinations of weight and airspeed; and
    (2) It is possible to prevent overspeeding of the rotor without 
exceptional piloting skill.
    (d) Emergency high pitch. If the main rotor high pitch stop is set 
to meet paragraph (b)(1) of this section, and if that stop cannot be 
exceeded inadvertently, additional pitch may be made available for 
emergency use.
    (e) Main rotor low speed warning for helicopters. For each single 
engine helicopter, and each multiengine helicopter that does not have an 
approved device that automatically increases power on the operating 
engines when one engine fails, there must be a main rotor low speed 
warning which meets the following requirements:
    (1) The warning must be furnished to the pilot in all flight 
conditions, including power-on and power-off flight, when the speed of a 
main rotor approaches a value that can jeopardize safe flight.
    (2) The warning may be furnished either through the inherent 
aerodynamic qualities of the helicopter or by a device.
    (3) The warning must be clear and distinct under all conditons, and 
must be clearly distinguishable from all other warnings. A visual device 
that requires the attention of the crew within the cockpit is not 
acceptable by itself.
    (4) If a warning device is used, the device must automatically 
deactivate and reset when the low-speed condition is corrected. If the 
device has an audible warning, it must also be equipped with a means for 
the pilot to manually silence the audible warning before the low-speed 
condition is corrected.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 962, Jan. 26, 1968; Amdt. 27-14, 43 FR 2324, Jan. 16, 1978]

                               Performance



Sec. 27.45  General.

    (a) Unless otherwise prescribed, the performance requirements of 
this subpart must be met for still air and a standard atmosphere.
    (b) The performance must correspond to the engine power available 
under the particular ambient atmospheric conditions, the particular 
flight condition, and the relative humidity specified in paragraphs (d) 
or (e) of this section, as appropriate.
    (c) The available power must correspond to engine power, not 
exceeding the approved power, less--
    (1) Installation losses; and

[[Page 541]]

    (2) The power absorbed by the accessories and services appropriate 
to the particular ambient atmopheric conditions and the particular 
flight condition.
    (d) For reciprocating engine-powered rotorcraft, the performance, as 
affected by engine power, must be based on a relative humidity of 80 
percent in a standard atmosphere.
    (e) For turbine engine-powered rotorcraft, the performance, as 
affected by engine power, must be based on a relative humidity of--
    (1) 80 percent, at and below standard temperature; and
    (2) 34 percent, at and above standard temperature plus 50 degrees F. 
Between these two temperatures, the relative humidity must vary 
linearly.
    (f) For turbine-engine-powered rotorcraft, a means must be provided 
to permit the pilot to determine prior to takeoff that each engine is 
capable of developing the power necessary to achieve the applicable 
rotorcraft performance prescribed in this subpart.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 27-14, 43 FR 2324, Jan. 16, 1978, as amended by Amdt. 27-21, 49 
FR 44432, Nov. 6, 1984]



Sec. 27.51  Takeoff.

    (a) The takeoff, with takeoff power and r.p.m., and with the extreme 
forward center of gravity--
    (1) May not require exceptional piloting skill or exceptionally 
favorable conditions; and
    (2) Must be made in such a manner that a landing can be made safely 
at any point along the flight path if an engine fails.
    (b) Paragraph (a) of this section must be met throughout the ranges 
of--
    (1) Altitude, from standard sea level conditions to the maximum 
altitude capability of the rotorcraft, or 7,000 feet, whichever is less; 
and
    (2) Weight, from the maximum weight (at sea level) to each lesser 
weight selected by the applicant for each altitude covered by paragraph 
(b)(1) of this section.



Sec. 27.65  Climb: all engines operating.

    (a) For rotorcraft other than helicopters--
    (1) The steady rate of climb, at VY, must be determined--
    (i) With maximum continuous power on each engine;
    (ii) With the landing gear retracted; and
    (iii) For the weights, altitudes, and temperatures for which 
certification is requested; and
    (2) The climb gradient, at the rate of climb determined in 
accordance with paragraph (a)(1) of this section, must be either--
    (i) At least 1:10 if the horizontal distance required to take off 
and climb over a 50-foot obstacle is determined for each weight, 
altitude, and temperature within the range for which certification is 
requested; or
    (ii) At least 1:6 under standard sea level conditions.
    (b) Each helicopter must meet the following requirements:
    (1) VY must be determined--
    (i) For standard sea level conditions;
    (ii) At maximum weight; and
    (iii) With maximum continuous power on each engine.
    (2) The steady rate of climb must be determined--
    (i) At the climb speed selected by the applicant at or below 
VNE;
    (ii) Within the range from sea level up to the maximum altitude for 
which certification is requested;
    (iii) For the weights and temperatures that correspond to the 
altitude range set forth in paragraph (b)(2)(ii) of this section and for 
which certification is requested; and
    (iv) With maximum continuous power on each engine.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-14, 
43 FR 2324, Jan. 16, 1978; Amdt. 27-33, 61 FR 21907, May 10, 1996]



Sec. 27.67  Climb: one engine inoperative.

    For multiengine helicopters, the steady rate of climb (or descent), 
at Vy (or at the speed for minimum rate of descent), must be 
determined with--

[[Page 542]]

    (a) Maximum weight;
    (b) The critical engine inoperative and the remaining engines at 
either--
    (1) Maximum continuous power and, for helicopters for which 
certification for the use of 30-minute OEI power is requested, at 30-
minute OEI power; or
    (2) Continuous OEI power for helicopters for which certification for 
the use of continuous OEI power is requested.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-23, 53 
FR 34210, Sept. 2, 1988]



Sec. 27.71  Glide performance.

    For single-engine helicopters and multiengine helicopters that do 
not meet the Category A engine isolation requirements of Part 29 of this 
chapter, the minimum rate of descent airspeed and the best angle-of-
glide airspeed must be determined in autorotation at--
    (a) Maximum weight; and
    (b) Rotor speed(s) selected by the applicant.

[Amdt. 27-21, 49 FR 44433, Nov. 6, 1984]



Sec. 27.73  Performance at minimum operating speed.

    (a) For helicopters--
    (1) The hovering ceiling must be determined over the ranges of 
weight, altitude, and temperature for which certification is requested, 
with--
    (i) Takeoff power;
    (ii) The landing gear extended; and
    (iii) The helicopter in ground effect at a height consistent with 
normal takeoff procedures; and
    (2) The hovering ceiling determined under paragraph (a)(1) of this 
section must be at least--
    (i) For reciprocating engine powered helicopters, 4,000 feet at 
maximum weight with a standard atmosphere; or
    (ii) For turbine engine powered helicopters, 2,500 feet pressure 
altitude at maximum weight at a temperature of standard +40 degrees F.
    (b) For rotorcraft other than helicopters, the steady rate of climb 
at the minimum operating speed must be determined, over the ranges of 
weight, altitude, and temperature for which certification is requested, 
with--
    (1) Takeoff power; and
    (2) The landing gear extended.



Sec. 27.75  Landing.

    (a) The rotorcraft must be able to be landed with no excessive 
vertical acceleration, no tendency to bounce, nose over, ground loop, 
porpoise, or water loop, and without exceptional piloting skill or 
exceptionally favorable conditions, with--
    (1) Approach or glide speeds appropriate to the type of rotorcraft 
and selected by the applicant;
    (2) The approach and landing made with--
    (i) Power off, for single-engine rotorcraft; and
    (ii) For multiengine rotocraft, one engine inoperative and with each 
operating engine within approved operating limitations; and
    (3) The approach and landing entered from steady autorotation.
    (b) Multiengine rotorcraft must be able to be landed safely after 
complete power failure under normal operating conditions.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-14, 
43 FR 2324, Jan. 16, 1978]



Sec. 27.79  Limiting height--speed envelope.

    (a) If there is any combination of height and forward speed 
(including hover) under which a safe landing cannot be made under the 
applicable power failure condition in paragraph (b) of this section, a 
limiting height-speed envelope must be established (including all 
pertinent information) for that condition, throughout the ranges of--
    (1) Altitude, from standard sea level conditions to the maximum 
altitude capability of the rotorcraft, or 7,000 feet, whichever is less; 
and
    (2) Weight, from the maximum weight (at sea level) to the lesser 
weight selected by the applicant for each altitude covered by paragraph 
(a)(1) of this section. For helicopters, the weight at altitudes above 
sea level may not be less than the maximum weight or the highest weight 
allowing

[[Page 543]]

hovering out of ground effect which is lower.
    (b) The applicable power failure conditions are--
    (1) For single-engine helicopters, full autorotation;
    (2) For multiengine helicopters, one engine inoperative (where 
engine isolation features insure continued operation of the remaining 
engines), and the remaining engines at the greatest power for which 
certification is requested, and
    (3) For other rotocraft, conditions appropriate to the type.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-14, 
43 FR 2324, Jan. 16, 1978; Amdt. 27-21, 49 FR 44433, Nov. 6, 1984]

                         Flight Characteristics



Sec. 27.141  General.

    The rotorcraft must--
    (a) Except as specifically required in the applicable section, meet 
the flight characteristics requirements of this subpart--
    (1) At the altitudes and temperatures expected in operation;
    (2) Under any critical loading condition within the range of weights 
and centers of gravity for which certification is requested;
    (3) For power-on operations, under any condition of speed, power, 
and rotor r.p.m. for which certification is requested; and
    (4) For power-off operations, under any condition of speed and rotor 
r.p.m. for which certification is requested that is attainable with the 
controls rigged in accordance with the approved rigging instructions and 
tolerances;
    (b) Be able to maintain any required flight condition and make a 
smooth transition from any flight condition to any other flight 
condition without exceptional piloting skill, alertness, or strength, 
and without danger of exceeding the limit load factor under any 
operating condition probable for the type, including--
    (1) Sudden failure of one engine, for multiengine rotorcraft meeting 
Transport Category A engine isolation requirements of Part 29 of this 
chapter;
    (2) Sudden, complete power failure for other rotorcraft; and
    (3) Sudden, complete control system failures specified in 
Sec. 27.695 of this part; and
    (c) Have any additional characteristic required for night or 
instrument operation, if certification for those kinds of operation is 
requested. Requirements for helicopter instrument flight are contained 
in appendix B of this part.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 962, Jan. 26, 1968; Amdt. 27-11, 41 FR 55468, Dec. 20, 1976; Amdt. 
27-19, 48 FR 4389, Jan. 31, 1983; Amdt. 27-21, 49 FR 44433, Nov. 6, 
1984]



Sec. 27.143  Controllability and maneuverability.

    (a) The rotorcraft must be safely controllable and maneuverable--
    (1) During steady flight; and
    (2) During any maneuver appropriate to the type, including--
    (i) Takeoff;
    (ii) Climb;
    (iii) Level flight;
    (iv) Turning flight;
    (v) Glide;
    (vi) Landing (power on and power off); and
    (vii) Recovery to power-on flight from a balked autorotative 
approach.
    (b) The margin of cyclic control must allow satisfactory roll and 
pitch control at VNE with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Critical rotor r.p.m.; and
    (4) Power off (except for helicopters demonstrating compliance with 
paragraph (e) of this section) and power on.
    (c) A wind velocity of not less than 17 knots must be established in 
which the rotorcraft can be operated without loss of control on or near 
the ground in any maneuver appropriate to the type (such as crosswind 
takeoffs, sideward flight, and rearward flight), with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Critical rotor r.p.m.; and
    (4) Altitude, from standard sea level conditions to the maximum 
altitude capability of the rotorcraft or 7,000 feet, whichever is less.

[[Page 544]]

    (d) The rotorcraft, after (1) failure of one engine in the case of 
multiengine rotorcraft that meet Transport Category A engine isolation 
requirements, or (2) complete engine failure in the case of other 
rotorcraft, must be controllable over the range of speeds and altitudes 
for which certification is requested when such power failure occurs with 
maximum continuous power and critical weight. No corrective action time 
delay for any condition following power failure may be less than--
    (i) For the cruise condition, one second, or normal pilot reaction 
time (whichever is greater); and
    (ii) For any other condition, normal pilot reaction time.
    (e) For helicopters for which a VNE (power-off) is 
established under Sec. 27.1505(c), compliance must be demonstrated with 
the following requirements with critical weight, critical center of 
gravity, and critical rotor r.p.m.:
    (1) The helicopter must be safely slowed to VNE (power-
off), without exceptional pilot skill, after the last operating engine 
is made inoperative at power-on VNE.
    (2) At a speed of 1.1 VNE (power-off), the margin of 
cyclic control must allow satisfactory roll and pitch control with power 
off.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 963, Jan. 26, 1968; Amdt. 27-14, 43 FR 2325, Jan. 16, 1978; Amdt. 27-
21, 49 FR 44433, Nov. 6, 1984]



Sec. 27.151  Flight controls.

    (a) Longitudinal, lateral, directional, and collective controls may 
not exhibit excessive breakout force, friction, or preload.
    (b) Control system forces and free play may not inhibit a smooth, 
direct rotorcraft response to control system input.

[Amdt. 27-21, 49 FR 44433, Nov. 6, 1984]



Sec. 27.161  Trim control.

    The trim control--
    (a) Must trim any steady longitudinal, lateral, and collective 
control forces to zero in level flight at any appropriate speed; and
    (b) May not introduce any undesirable discontinuities in control 
force gradients.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-21, 
49 FR 44433, Nov. 6, 1984]



Sec. 27.171  Stability: general.

    The rotorcraft must be able to be flown, without undue pilot fatigue 
or strain, in any normal maneuver for a period of time as long as that 
expected in normal operation. At least three landings and takeoffs must 
be made during this demonstration.



Sec. 27.173  Static longitudinal stability.

    (a) The longitudinal control must be designed so that a rearward 
movement of the control is necessary to obtain a speed less than the 
trim speed, and a forward movement of the control is necessary to obtain 
a speed more than the trim speed.
    (b) With the throttle and collective pitch held constant during the 
maneuvers specified in Sec. 27.175 (a) through (c), the slope of the 
control position versus speed curve must be positive throughout the full 
range of altitude for which certification is requested.
    (c) During the maneuver specified in Sec. 27.175(d), the 
longitudinal control position versus speed curve may have a negative 
slope within the specified speed range if the negative motion is not 
greater than 10 percent of total control travel.

[Amdt. 27-21, 49 FR 44433, Nov. 6, 1984]



Sec. 27.175  Demonstration of static longitudinal stability.

    (a) Climb. Static longitudinal stability must be shown in the climb 
condition at speeds from 0.85 VY to 1.2 VY, with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Maximum continuous power;
    (4) The landing gear retracted; and
    (5) The rotorcraft trimmed at VY.
    (b) Cruise. Static longitudinal stability must be shown in the 
cruise condition at speeds from 0.7 VH or 0.7 VNE, 
whichever is less, to 1.1 VH or 1.1 VNE, whichever 
is less, with--

[[Page 545]]

    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Power for level flight at 0.9 VH or 0.9 
VNE, whichever is less;
    (4) The landing gear retracted; and
    (5) The rotorcraft trimmed at 0.9 VH or 0.9 
VNE, whichever is less.
    (c) Autorotation. Static longitudinal stability must be shown in 
autorotation at airspeeds from 0.5 times the speed for minimum rate of 
descent to VNE, or to 1.1 VNE (power-off) if 
VNE (power-off) is established under Sec. 27.1505(c), and 
with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Power off;
    (4) The landing gear--
    (i) Retracted; and
    (ii) Extended; and
    (5) The rotorcraft trimmed at appropriate speeds found necessary by 
the Administrator to demonstrate stability throughout the prescribed 
speed range.
    (d) Hovering. For helicopters, the longitudinal cyclic control must 
operate with the sense and direction of motion prescribed in Sec. 27.173 
between the maximum approved rearward speed and a forward speed of 17 
knots with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Power required to maintain an approximate constant height in 
ground effect;
    (4) The landing gear extended; and
    (5) The helicopter trimmed for hovering.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 963, Jan. 26, 1968; Amdt. 27-11, 41 FR 55468, Dec. 20, 1976; Amdt. 
27-14, 43 FR 2325, Jan. 16, 1978; Amdt. 27-21, 49 FR 44433, Nov. 6, 
1984; Amdt. 27-34, 62 FR 46173, Aug. 29, 1997]



Sec. 27.177  Static directional stability.

    Static directional stability must be positive with throttle and 
collective controls held constant at the trim conditions specified in 
Sec. 27.175 (a) and (b). This must be shown by steadily increasing 
directional control deflection for sideslip angles up to 
10 deg. from trim. Sufficient cues must accompany sideslip 
to alert the pilot when approaching sideslip limits.

[Amdt. 27-21, 49 FR 44433, Nov. 6, 1984]

                Ground and Water Handling Characteristics



Sec. 27.231  General.

    The rotorcraft must have satisfactory ground and water handling 
characteristics, including freedom from uncontrollable tendencies in any 
condition expected in operation.



Sec. 27.235  Taxiing condition.

    The rotorcraft must be designed to withstand the loads that would 
occur when the rotorcraft is taxied over the roughest ground that may 
reasonably be expected in normal operation.



Sec. 27.239  Spray characteristics.

    If certification for water operation is requested, no spray 
characteristics during taxiing, takeoff, or landing may obscure the 
vision of the pilot or damage the rotors, propellers, or other parts of 
the rotorcraft.



Sec. 27.241  Ground resonance.

    The rotorcraft may have no dangerous tendency to oscillate on the 
ground with the rotor turning.

                    Miscellaneous Flight Requirements



Sec. 27.251  Vibration.

    Each part of the rotorcraft must be free from excessive vibration 
under each appropriate speed and power condition.



                    Subpart C--Strength Requirements

                                 General



Sec. 27.301  Loads.

    (a) Strength requirements are specified in terms of limit loads (the 
maximum loads to be expected in service) and ultimate loads (limit loads 
multiplied by prescribed factors of safety). Unless otherwise provided, 
prescribed loads are limit loads.
    (b) Unless otherwise provided, the specified air, ground, and water 
loads must be placed in equilibrium with inertia forces, considering 
each item of mass in the rotorcraft. These loads

[[Page 546]]

must be distributed to closely approximate or conservatively represent 
actual conditions.
    (c) If deflections under load would significantly change the 
distribution of external or internal loads, this redistribution must be 
taken into account.



Sec. 27.303  Factor of safety.

    Unless otherwise provided, a factor of safety of 1.5 must be used. 
This factor applies to external and inertia loads unless its application 
to the resulting internal stresses is more conservative.



Sec. 27.305  Strength and deformation.

    (a) The structure must be able to support limit loads without 
detrimental or permanent deformation. At any load up to limit loads, the 
deformation may not interfere with safe operation.
    (b) The structure must be able to support ultimate loads without 
failure. This must be shown by--
    (1) Applying ultimate loads to the structure in a static test for at 
least three seconds; or
    (2) Dynamic tests simulating actual load application.



Sec. 27.307  Proof of structure.

    (a) Compliance with the strength and deformation requirements of 
this subpart must be shown for each critical loading condition 
accounting for the environment to which the structure will be exposed in 
operation. Structural analysis (static or fatigue) may be used only if 
the structure conforms to those structures for which experience has 
shown this method to be reliable. In other cases, substantiating load 
tests must be made.
    (b) Proof of compliance with the strength requirements of this 
subpart must include--
    (1) Dynamic and endurance tests of rotors, rotor drives, and rotor 
controls;
    (2) Limit load tests of the control system, including control 
surfaces;
    (3) Operation tests of the control system;
    (4) Flight stress measurement tests;
    (5) Landing gear drop tests; and
    (6) Any additional test required for new or unusual design features.

(Secs. 604, 605, 72 Stat. 778, 49 U.S.C. 1424, 1425)

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-3, 33 
FR 14105, Sept. 18, 1968; Amdt. 27-26, 55 FR 7999, Mar. 6, 1990]



Sec. 27.309  Design limitations.

    The following values and limitations must be established to show 
compliance with the structural requirements of this subpart:
    (a) The design maximum weight.
    (b) The main rotor r.p.m. ranges power on and power off.
    (c) The maximum forward speeds for each main rotor r.p.m. within the 
ranges determined under paragraph (b) of this section.
    (d) The maximum rearward and sideward flight speeds.
    (e) The center of gravity limits corresponding to the limitations 
determined under paragraphs (b), (c), and (d) of this section.
    (f) The rotational speed ratios between each powerplant and each 
connected rotating component.
    (g) The positive and negative limit maneuvering load factors.

                              Flight Loads



Sec. 27.321  General.

    (a) The flight load factor must be assumed to act normal to the 
longitudinal axis of the rotorcraft, and to be equal in magnitude and 
opposite in direction to the rotorcraft inertia load factor at the 
center of gravity.
    (b) Compliance with the flight load requirements of this subpart 
must be shown--
    (1) At each weight from the design minimum weight to the design 
maximum weight; and
    (2) With any practical distribution of disposable load within the 
operating limitations in the Rotorcraft Flight Manual.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55468, Dec. 20, 1976]



Sec. 27.337  Limit maneuvering load factor.

    The rotorcraft must be designed for--

[[Page 547]]

    (a) A limit maneuvering load factor ranging from a positive limit of 
3.5 to a negative limit of -1.0; or
    (b) Any positive limit maneuvering load factor not less than 2.0 and 
any negative limit maneuvering load factor of not less than -0.5 for 
which--
    (1) The probability of being exceeded is shown by analysis and 
flight tests to be extremely remote; and
    (2) The selected values are appropriate to each weight condition 
between the design maximum and design minimum weights.

[Amdt. 27-26, 55 FR 7999, Mar. 6, 1990]



Sec. 27.339  Resultant limit maneuvering loads.

    The loads resulting from the application of limit maneuvering load 
factors are assumed to act at the center of each rotor hub and at each 
auxiliary lifting surface, and to act in directions, and with 
distributions of load among the rotors and auxiliary lifting surfaces, 
so as to represent each critical maneuvering condition, including power-
on and power-off flight with the maximum design rotor tip speed ratio. 
The rotor tip speed ratio is the ratio of the rotorcraft flight velocity 
component in the plane of the rotor disc to the rotational tip speed of 
the rotor blades, and is expressed as follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.083

where--

V= The airspeed along flight path (f.p.s.);
a= The angle between the projection, in the plane of symmetry, of the 
          axis of no feathering and a line perpendicular to the flight 
          path (radians, positive when axis is pointing aft);
omega= The angular velocity of rotor (radians per second); and
R= The rotor radius (ft).

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55469, Dec. 20, 1976]



Sec. 27.341  Gust loads.

    The rotorcraft must be designed to withstand, at each critical 
airspeed including hovering, the loads resulting from a vertical gust of 
30 feet per second.



Sec. 27.351  Yawing conditions.

    (a) Each rotorcraft must be designed for the loads resulting from 
the maneuvers specified in paragraphs (b) and (c) of this section with--
    (1) Unbalanced aerodynamic moments about the center of gravity which 
the aircraft reacts to in a rational or conservative manner considering 
the principal masses furnishing the reacting inertia forces; and
    (2) Maximum main rotor speed.
    (b) To produce the load required in paragraph (a) of this section, 
in unaccelerated flight with zero yaw, at forward speeds from zero up to 
0.6 VNE--
    (1) Displace the cockpit directional control suddenly to the maximum 
deflection limited by the control stops or by the maximum pilot force 
specified in Sec. 27.397(a);
    (2) Attain a resulting sideslip angle or 90 deg., whichever is less; 
and
    (3) Return the directional control suddenly to neutral.
    (c) To produce the load required in paragraph (a) of this section, 
in unaccelerated flight with zero yaw, at forward speeds from 0.6 
VNE up to VNE or VH, whichever is 
less--
    (1) Displace the cockpit directional control suddenly to the maximum 
deflection limited by the control stops or by the maximum pilot force 
specified in Sec. 27.397(a);
    (2) Attain a resulting sideslip angle or 15 deg., whichever is less, 
at the lesser speed of VNE or VH;
    (3) Vary the sideslip angles of paragraphs (b)(2) and (c)(2) of this 
section directly with speed; and
    (4) Return the directional control suddenly to neutral.

[Amdt. 27-26, 55 FR 7999, Mar. 6, 1990, as amended by Amdt. 27-34, 62 FR 
46173, Aug. 29, 1997]



Sec. 27.361  Engine torque.

    (a) For turbine engines, the limit torque may not be less than the 
highest of--
    (1) The mean torque for maximum continuous power multiplied by 1.25;
    (2) The torque required by Sec. 27.923;
    (3) The torque required by Sec. 27.927; or
    (4) The torque imposed by sudden engine stoppage due to malfunction 
or structural failure (such as compressor jamming).

[[Page 548]]

    (b) For reciprocating engines, the limit torque may not be less than 
the mean torque for maximum continuous power multiplied by--
    (1) 1.33, for engines with five or more cylinders; and
    (2) Two, three, and four, for engines with four, three, and two 
cylinders, respectively.

[Amdt. 27-23, 53 FR 34210, Sept. 2, 1988]

                    Control Surface and System Loads



Sec. 27.391  General.

    Each auxiliary rotor, each fixed or movable stabilizing or control 
surface, and each system operating any flight control must meet the 
requirements of Secs. 27.395, 27.397, 27.399, 27.411, and 27.427.

[Amdt. 27-26, 55 FR 7999, Mar. 6, 1990, as amended by Amdt. 27-34, 62 FR 
46173, Aug. 29, 1997]



Sec. 27.395  Control system.

    (a) The part of each control system from the pilot's controls to the 
control stops must be designed to withstand pilot forces of not less 
than--
    (1) The forces specified in Sec. 27.397; or
    (2) If the system prevents the pilot from applying the limit pilot 
forces to the system, the maximum forces that the system allows the 
pilot to apply, but not less than 0.60 times the forces specified in 
Sec. 27.397.
    (b) Each primary control system, including its supporting structure, 
must be designed as follows:
    (1) The system must withstand loads resulting from the limit pilot 
forces prescribed in Sec. 27.397.
    (2) Notwithstanding paragraph (b)(3) of this section, when power-
operated actuator controls or power boost controls are used, the system 
must also withstand the loads resulting from the force output of each 
normally energized power device, including any single power boost or 
actuator system failure.
    (3) If the system design or the normal operating loads are such that 
a part of the system cannot react to the limit pilot forces prescribed 
in Sec. 27.397, that part of the system must be designed to withstand 
the maximum loads that can be obtained in normal operation. The minimum 
design loads must, in any case, provide a rugged system for service use, 
including consideration of fatigue, jamming, ground gusts, control 
inertia, and friction loads. In the absence of rational analysis, the 
design loads resulting from 0.60 of the specified limit pilot forces are 
acceptable minimum design loads.
    (4) If operational loads may be exceeded through jamming, ground 
gusts, control inertia, or friction, the system must withstand the limit 
pilot forces specified in Sec. 27.397, without yielding.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-26, 
55 FR 7999, Mar. 6, 1990]



Sec. 27.397  Limit pilot forces and torques.

    (a) Except as provided in paragraph (b) of this section, the limit 
pilot forces are as follows:
    (1) For foot controls, 130 pounds.
    (2) For stick controls, 100 pounds fore and aft, and 67 pounds 
laterally.
    (b) For flap, tab, stabilizer, rotor brake, and landing gear 
operating controls, the follows apply (R=radius in inches):
    (1) Crank, wheel, and lever controls, [1+R]/3  x  50 pounds, but not 
less than 50 pounds nor more than 100 pounds for hand operated controls 
or 130 pounds for foot operated controls, applied at any angle within 20 
degrees of the plane of motion of the control.
    (2) Twist controls, 80R inch-pounds.

[Amdt. 27-11, 41 FR 55469, Dec. 20, 1976, as amended by Amdt. 27-40, 66 
FR 23538, May 9, 2001]



Sec. 27.399  Dual control system.

    Each dual primary flight control system must be designed to 
withstand the loads that result when pilot forces of 0.75 times those 
obtained under Sec. 27.395 are applied--
    (a) In opposition; and
    (b) In the same direction.



Sec. 27.411  Ground clearance: tail rotor guard.

    (a) It must be impossible for the tail rotor to contact the landing 
surface during a normal landing.
    (b) If a tail rotor guard is required to show compliance with 
paragraph (a) of this section--
    (1) Suitable design loads must be established for the guard; and

[[Page 549]]

    (2) The guard and its supporting structure must be designed to 
withstand those loads.



Sec. 27.427  Unsymmetrical loads.

    (a) Horizontal tail surfaces and their supporting structure must be 
designed for unsymmetrical loads arising from yawing and rotor wake 
effects in combination with the prescribed flight conditions.
    (b) To meet the design criteria of paragraph (a) of this section, in 
the absence of more rational data, both of the following must be met:
    (1) One hundred percent of the maximum loading from the symmetrical 
flight conditions acts on the surface on one side of the plane of 
symmetry, and no loading acts on the other side.
    (2) Fifty percent of the maximum loading from the symmetrical flight 
conditions acts on the surface on each side of the plane of symmetry but 
in opposite directions.
    (c) For empennage arrangements where the horizontal tail surfaces 
are supported by the vertical tail surfaces, the vertical tail surfaces 
and supporting structure must be designed for the combined vertical and 
horizontal surface loads resulting from each prescribed flight 
condition, considered separately. The flight conditions must be selected 
so the maximum design loads are obtained on each surface. In the absence 
of more rational data, the unsymmetrical horizontal tail surface loading 
distributions described in this section must be assumed.

[Admt. 27-26, 55 FR 7999, Mar. 6, 1990, as amended by Amdt. 27-27, 55 FR 
38966, Sept. 21, 1990]

                              Ground Loans



Sec. 27.471  General.

    (a) Loads and equilibrium. For limit ground loads--
    (1) The limit ground loads obtained in the landing conditions in 
this part must be considered to be external loads that would occur in 
the rotorcraft structure if it were acting as a rigid body; and
    (2) In each specified landing condition, the external loads must be 
placed in equilibrium with linear and angular inertia loads in a 
rational or conservative manner.
    (b) Critical centers of gravity. The critical centers of gravity 
within the range for which certification is requested must be selected 
so that the maximum design loads are obtained in each landing gear 
element.



Sec. 27.473  Ground loading conditions and assumptions.

    (a) For specified landing conditions, a design maximum weight must 
be used that is not less than the maximum weight. A rotor lift may be 
assumed to act through the center of gravity throughout the landing 
impact. This lift may not exceed two-thirds of the design maximum 
weight.
    (b) Unless otherwise prescribed, for each specified landing 
condition, the rotorcraft must be designed for a limit load factor of 
not less than the limit inertia load factor substantiated under 
Sec. 27.725.

[Amdt. 27-2, 33 FR 963, Jan. 26, 1968]



Sec. 27.475  Tires and shock absorbers.

    Unless otherwise prescribed, for each specified landing condition, 
the tires must be assumed to be in their static position and the shock 
absorbers to be in their most critical position.



Sec. 27.477  Landing gear arrangement.

    Sections 27.235, 27.479 through 27.485, and 27.493 apply to landing 
gear with two wheels aft, and one or more wheels forward, of the center 
of gravity.



Sec. 27.479  Level landing conditions.

    (a) Attitudes. Under each of the loading conditions prescribed in 
paragraph (b) of this section, the rotorcraft is assumed to be in each 
of the following level landing attitudes:
    (1) An attitude in which all wheels contact the ground 
simultaneously.
    (2) An attitude in which the aft wheels contact the ground with the 
forward wheels just clear of the ground.
    (b) Loading conditions. The rotorcraft must be designed for the 
following landing loading conditions:
    (1) Vertical loads applied under Sec. 27.471.
    (2) The loads resulting from a combination of the loads applied 
under paragraph (b)(1) of this section with

[[Page 550]]

drag loads at each wheel of not less than 25 percent of the vertical 
load at that wheel.
    (3) If there are two wheels forward, a distribution of the loads 
applied to those wheels under paragraphs (b)(1) and (2) of this section 
in a ratio of 40:60.
    (c) Pitching moments. Pitching moments are assumed to be resisted 
by--
    (1) In the case of the attitude in paragraph (a)(1) of this section, 
the forward landing gear; and
    (2) In the case of the attitude in paragraph (a)(2) of this section, 
the angular inertia forces.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964; 29 FR 17885, Dec. 17, 1964]



Sec. 27.481  Tail-down landing conditions.

    (a) The rotorcraft is assumed to be in the maximum nose-up attitude 
allowing ground clearance by each part of the rotorcraft.
    (b) In this attitude, ground loads are assumed to act perpendicular 
to the ground.



Sec. 27.483  One-wheel landing conditions.

    For the one-wheel landing condition, the rotorcraft is assumed to be 
in the level attitude and to contact the ground on one aft wheel. In 
this attitude--
    (a) The vertical load must be the same as that obtained on that side 
under Sec. 27.479(b)(1); and
    (b) The unbalanced external loads must be reacted by rotorcraft 
inertia.



Sec. 27.485  Lateral drift landing conditions.

    (a) The rotorcraft is assumed to be in the level landing attitude, 
with--
    (1) Side loads combined with one-half of the maximum ground 
reactions obtained in the level landing conditions of Sec. 27.479 
(b)(1); and
    (2) The loads obtained under paragraph (a)(1) of this section 
applied--
    (i) At the ground contact point; or
    (ii) For full-swiveling gear, at the center of the axle.
    (b) The rotorcraft must be designed to withstand, at ground 
contact--
    (1) When only the aft wheels contact the ground, side loads of 0.8 
times the vertical reaction acting inward on one side, and 0.6 times the 
vertical reaction acting outward on the other side, all combined with 
the vertical loads specified in paragraph (a) of this section; and
    (2) When all wheels contact the ground simultaneously--
    (i) For the aft wheels, the side loads specified in paragraph (b)(1) 
of this section; and
    (ii) For the forward wheels, a side load of 0.8 times the vertical 
reaction combined with the vertical load specified in paragraph (a) of 
this section.



Sec. 27.493  Braked roll conditions.

    Under braked roll conditions with the shock absorbers in their 
static positions--
    (a) The limit vertical load must be based on a load factor of at 
least--
    (1) 1.33, for the attitude specified in Sec. 27.479(a)(1); and
    (2) 1.0 for the attitude specified in Sec. 27.479(a)(2); and
    (b) The structure must be designed to withstand at the ground 
contact point of each wheel with brakes, a drag load at least the lesser 
of--
    (1) The vertical load multiplied by a coefficient of friction of 
0.8; and
    (2) The maximum value based on limiting brake torque.



Sec. 27.497  Ground loading conditions: landing gear with tail wheels.

    (a) General. Rotorcraft with landing gear with two wheels forward, 
and one wheel aft, of the center of gravity must be designed for loading 
conditions as prescribed in this section.
    (b) Level landing attitude with only the forward wheels contacting 
the ground. In this attitude--
    (1) The vertical loads must be applied under Secs. 27.471 through 
27.475;
    (2) The vertical load at each axle must be combined with a drag load 
at that axle of not less than 25 percent of that vertical load; and
    (3) Unbalanced pitching moments are assumed to be resisted by 
angular inertia forces.
    (c) Level landing attitude with all wheels contacting the ground 
simultaneously. In this attitude, the rotorcraft must be designed for 
landing loading conditions as prescribed in paragraph (b) of this 
section.

[[Page 551]]

    (d) Maximum nose-up attitude with only the rear wheel contacting the 
ground. The attitude for this condition must be the maximum nose-up 
attitude expected in normal operation, including autorotative landings. 
In this attitude--
    (1) The appropriate ground loads specified in paragraphs (b)(1) and 
(2) of this section must be determined and applied, using a rational 
method to account for the moment arm between the rear wheel ground 
reaction and the rotorcraft center of gravity; or
    (2) The probability of landing with initial contact on the rear 
wheel must be shown to be extremely remote.
    (e) Level landing attitude with only one forward wheel contacting 
the ground. In this attitude, the rotorcraft must be designed for ground 
loads as specified in paragraphs (b)(1) and (3) of this section.
    (f) Side loads in the level landing attitude. In the attitudes 
specified in paragraphs (b) and (c) of this section, the following 
apply:
    (1) The side loads must be combined at each wheel with one-half of 
the maximum vertical ground reactions obtained for that wheel under 
paragraphs (b) and (c) of this section. In this condition, the side 
loads must be--
    (i) For the forward wheels, 0.8 times the vertical reaction (on one 
side) acting inward, and 0.6 times the vertical reaction (on the other 
side) acting outward; and
    (ii) For the rear wheel, 0.8 times the vertical reaction.
    (2) The loads specified in paragraph (f)(1) of this section must be 
applied--
    (i) At the ground contact point with the wheel in the trailing 
position (for non-full swiveling landing gear or for full swiveling 
landing gear with a lock, steering device, or shimmy damper to keep the 
wheel in the trailing position); or
    (ii) At the center of the axle (for full swiveling landing gear 
without a lock, steering device, or shimmy damper).
    (g) Braked roll conditions in the level landing attitude. In the 
attitudes specified in paragraphs (b) and (c) of this section, and with 
the shock absorbers in their static positions, the rotorcraft must be 
designed for braked roll loads as follows:
    (1) The limit vertical load must be based on a limit vertical load 
factor of not less than--
    (i) 1.0, for the attitude specified in paragraph (b) of this 
section; and
    (ii) 1.33, for the attitude specified in paragraph (c) of this 
section.
    (2) For each wheel with brakes, a drag load must be applied, at the 
ground contact point, of not less than the lesser of--
    (i) 0.8 times the vertical load; and
    (ii) The maximum based on limiting brake torque.
    (h) Rear wheel turning loads in the static ground attitude. In the 
static ground attitude, and with the shock absorbers and tires in their 
static positions, the rotorcraft must be designed for rear wheel turning 
loads as follows:
    (1) A vertical ground reaction equal to the static load on the rear 
wheel must be combined with an equal sideload.
    (2) The load specified in paragraph (h)(1) of this section must be 
applied to the rear landing gear--
    (i) Through the axle, if there is a swivel (the rear wheel being 
assumed to be swiveled 90 degrees to the longitudinal axis of the 
rotorcraft); or
    (ii) At the ground contact point, if there is a lock, steering 
device or shimmy damper (the rear wheel being assumed to be in the 
trailing position).
    (i) Taxiing condition. The rotorcraft and its landing gear must be 
designed for loads that would occur when the rotorcraft is taxied over 
the roughest ground that may reasonably be expected in normal operation.



Sec. 27.501  Ground loading conditions: landing gear with skids.

    (a) General. Rotorcraft with landing gear with skids must be 
designed for the loading conditions specified in this section. In 
showing compliance with this section, the following apply:
    (1) The design maximum weight, center of gravity, and load factor 
must be determined under Secs. 27.471 through 27.475.
    (2) Structural yielding of elastic spring members under limit loads 
is acceptable.
    (3) Design ultimate loads for elastic spring members need not exceed 
those

[[Page 552]]

obtained in a drop test of the gear with--
    (i) A drop height of 1.5 times that specified in Sec. 27.725; and
    (ii) An assumed rotor lift of not more than 1.5 times that used in 
the limit drop tests prescribed in Sec. 27.725.
    (4) Compliance with paragraphs (b) through (e) of this section must 
be shown with--
    (i) The gear in its most critically deflected position for the 
landing condition being considered; and
    (ii) The ground reactions rationally distributed along the bottom of 
the skid tube.
    (b) Vertical reactions in the level landing attitude. In the level 
attitude, and with the rotorcraft contacting the ground along the bottom 
of both skids, the vertical reactions must be applied as prescribed in 
paragraph (a) of this section.
    (c) Drag reactions in the level landing attitude. In the level 
attitude, and with the rotorcraft contacting the ground along the bottom 
of both skids, the following apply:
    (1) The vertical reactions must be combined with horizontal drag 
reactions of 50 percent of the vertical reaction applied at the ground.
    (2) The resultant ground loads must equal the vertical load 
specified in paragraph (b) of this section.
    (d) Sideloads in the level landing attitude. In the level 
attitude,and with the rotorcraft contacting the ground along the bottom 
of both skids, the following apply:
    (1) The vertical ground reaction must be--
    (i) Equal to the vertical loads obtained in the condition specified 
in paragraph (b) of this section; and
    (ii) Divided equally among the skids.
    (2) The vertical ground reactions must be combined with a horizontal 
sideload of 25 percent of their value.
    (3) The total sideload must be applied equally between the skids and 
along the length of the skids.
    (4) The unbalanced moments are assumed to be resisted by angular 
inertia.
    (5) The skid gear must be investigated for--
    (i) Inward acting sideloads; and
    (ii) Outward acting sideloads.
    (e) One-skid landing loads in the level attitude. In the level 
attitude, and with the rotorcraft contacting the ground along the bottom 
of one skid only, the following apply:
    (1) The vertical load on the ground contact side must be the same as 
that obtained on that side in the condition specified in paragraph (b) 
of this section.
    (2) The unbalanced moments are assumed to be resisted by angular 
inertia.
    (f) Special conditions. In addition to the conditions specified in 
paragraphs (b) and (c) of this section, the rotorcraft must be designed 
for the following ground reactions:
    (1) A ground reaction load acting up and aft at an angle of 45 
degrees to the longitudinal axis of the rotorcraft. This load must be--
    (i) Equal to 1.33 times the maximum weight;
    (ii) Distributed symmetrically among the skids;
    (iii) Concentrated at the forward end of the straight part of the 
skid tube; and
    (iv) Applied only to the forward end of the skid tube and its 
attachment to the rotorcraft.
    (2) With the rotorcraft in the level landing attitude, a vertical 
ground reaction load equal to one-half of the vertical load determined 
under paragraph (b) of this section. This load must be--
    (i) Applied only to the skid tube and its attachment to the 
rotorcraft; and
    (ii) Distributed equally over 33.3 percent of the length between the 
skid tube attachments and centrally located midway between the skid tube 
attachments.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 963, Jan. 26, 1968; Amdt. 27-26, 55 FR 8000, Mar. 6, 1990]



Sec. 27.505  Ski landing conditions.

    If certification for ski operation is requested, the rotorcraft, 
with skis, must be designed to withstand the following loading 
conditions (where P is the maximum static weight on each ski with the 
rotorcraft at design maximum weight, and n is the limit load factor 
determined under Sec. 27.473(b).
    (a) Up-load conditions in which--

[[Page 553]]

    (1) A vertical load of Pn and a horizontal load of Pn/4 are 
simultaneously applied at the pedestal bearings; and
    (2) A vertical load of 1.33 P is applied at the pedestal bearings.
    (b) A side-load condition in which a side load of 0.35 Pn is applied 
at the pedestal bearings in a horizontal plane perpendicular to the 
centerline of the rotorcraft.
    (c) A torque-load condition in which a torque load of 1.33 P (in 
foot pounds) is applied to the ski about the vertical axis through the 
centerline of the pedestal bearings.

                               Water Loads



Sec. 27.521  Float landing conditions.

    If certification for float operation is requested, the rotorcraft, 
with floats, must be designed to withstand the following loading 
conditions (where the limit load factor is determined under 
Sec. 27.473(b) or assumed to be equal to that determined for wheel 
landing gear):
    (a) Up-load conditions in which--
    (1) A load is applied so that, with the rotorcraft in the static 
level attitude, the resultant water reaction passes vertically through 
the center of gravity; and
    (2) The vertical load prescribed in paragraph (a)(1) of this section 
is applied simultaneously with an aft component of 0.25 times the 
vertical component.
    (b) A side-load condition in which--
    (1) A vertical load of 0.75 times the total vertical load specified 
in paragraph (a)(1) of this section is divided equally among the floats; 
and
    (2) For each float, the load share determined under paragraph (b)(1) 
of this section, combined with a total side load of 0.25 times the total 
vertical load specified in paragraph (b)(1) of this section, is applied 
to that float only.

                       Main Component Requirements



Sec. 27.547  Main rotor structure.

    (a) Each main rotor assembly (including rotor hubs and blades) must 
be designed as prescribed in this section.
    (b) [Reserved]
    (c) The main rotor structure must be designed to withstand the 
following loads prescribed in Secs. 27.337 through 27.341:
    (1) Critical flight loads.
    (2) Limit loads occurring under normal conditions of autorotation. 
For this condition, the rotor r.p.m. must be selected to include the 
effects of altitude.
    (d) The main rotor structure must be designed to withstand loads 
simulating--
    (1) For the rotor blades, hubs, and flapping hinges, the impact 
force of each blade against its stop during ground operation; and
    (2) Any other critical condition expected in normal operation.
    (e) The main rotor structure must be designed to withstand the limit 
torque at any rotational speed, including zero. In addition:
    (1) The limit torque need not be greater than the torque defined by 
a torque limiting device (where provided), and may not be less than the 
greater of--
    (i) The maximum torque likely to be transmitted to the rotor 
structure in either direction; and
    (ii) The limit engine torque specified in Sec. 27.361.
    (2) The limit torque must be distributed to the rotor blades in a 
rational manner.

(Secs. 604, 605, 72 Stat. 778, 49 U.S.C. 1424, 1425)

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-3, 33 
FR 14105, Sept. 18, 1968]



Sec. 27.549  Fuselage, landing gear, and rotor pylon structures.

    (a) Each fuselage, landing gear, and rotor pylon structure must be 
designed as prescribed in this section. Resultant rotor forces may be 
represented as a single force applied at the rotor hub attachment point.
    (b) Each structure must be designed to withstand--
    (1) The critical loads prescribed in Secs. 27.337 through 27.341;
    (2) The applicable ground loads prescribed in Secs. 27.235, 27.471 
through 27.485, 27.493, 27.497, 27.501, 27.505, and 27.521; and
    (3) The loads prescribed in Sec. 27.547 (d)(2) and (e).

[[Page 554]]

    (c) Auxiliary rotor thrust, and the balancing air and inertia loads 
occurring under accelerated flight conditions, must be considered.
    (d) Each engine mount and adjacent fuselage structure must be 
designed to withstand the loads occurring under accelerated flight and 
landing conditions, including engine torque.

(Secs. 604, 605, 72 Stat. 778, 49 U.S.C. 1424, 1425)

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-3, 33 
FR 14105, Sept. 18, 1968]

                      Emergency Landing Conditions



Sec. 27.561  General.

    (a) The rotorcraft, although it may be damaged in emergency landing 
conditions on land or water, must be designed as prescribed in this 
section to protect the occupants under those conditions.
    (b) The structure must be designed to give each occupant every 
reasonable chance of escaping serious injury in a crash landing when--
    (1) Proper use is made of seats, belts, and other safety design 
provisions;
    (2) The wheels are retracted (where applicable); and
    (3) Each occupant and each item of mass inside the cabin that could 
injure an occupant is restrained when subjected to the following 
ultimate inertial load factors relative to the surrounding structure:
    (i) Upward--4g.
    (ii) Forward--16g.
    (iii) Sideward--8g.
    (iv) Downward--20g, after intended displacement of the seat device.
    (v) Rearward--1.5g.

    (c) The supporting structure must be designed to restrain, under any 
ultimate inertial load up to those specified in this paragraph, any item 
of mass above and/or behind the crew and passenger compartment that 
could injure an occupant if it came loose in an emergency landing. Items 
of mass to be considered include, but are not limited to, rotors, 
transmissions, and engines. The items of mass must be restrained for the 
following ultimate inertial load factors:
    (1) Upward--1.5g.
    (2) Forward--12g.
    (3) Sideward--6g.
    (4) Downward--12g.
    (5) Rearward--1.5g
    (d) Any fuselage structure in the area of internal fuel tanks below 
the passenger floor level must be designed to resist the following 
ultimate inertial factors and loads and to protect the fuel tanks from 
rupture when those loads are applied to that area:
    (i) Upward--1.5g.
    (ii) Forward--4.0g.
    (iii) Sideward--2.0g.
    (iv) Downward--4.0g.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-25, 
54 FR 47318, Nov. 13, 1989; Amdt. 27-30, 59 FR 50386, Oct. 3, 1994; 
Amdt. 27-32, 61 FR 10438, Mar. 13, 1996]



Sec. 27.562  Emergency landing dynamic conditions.

    (a) The rotorcraft, although it may be damaged in an emergency crash 
landing, must be designed to reasonably protect each occupant when--
    (1) The occupant properly uses the seats, safety belts, and shoulder 
harnesses provided in the design; and
    (2) The occupant is exposed to the loads resulting from the 
conditions prescribed in this section.
    (b) Each seat type design or other seating device approved for crew 
or passenger occupancy during takeoff and landing must successfully 
complete dynamic tests or be demonstrated by rational analysis based on 
dynamic tests of a similar type seat in accordance with the following 
criteria. The tests must be conducted with an occupant, simulated by a 
170-pound anthropomorphic test dummy (ATD), as defined by 49 CFR 572, 
subpart B, or its equivalent, sitting in the normal upright position.
    (1) A change in downward velocity of not less than 30 feet per 
second when the seat or other seating device is oriented in its nominal 
position with respect to the rotorcraft's reference system, the 
rotorcraft's longitudinal axis is canted upward 60 deg. with respect to 
the impact velocity vector, and the rotorcraft's lateral axis is 
perpendicular to a vertical plane containing the impact velocity vector 
and the rotorcraft's longitudinal axis. Peak floor deceleration must 
occur in not

[[Page 555]]

more than 0.031 seconds after impact and must reach a minimum of 30g's.
    (2) A change in forward velocity of not less than 42 feet per second 
when the seat or other seating device is oriented in its nominal 
position with respect to the rotorcraft's reference system, the 
rotorcraft's longitudinal axis is yawed 10 deg. either right or left of 
the impact velocity vector (whichever would cause the greatest load on 
the shoulder harness), the rotorcraft's lateral axis is contained in a 
horizontal plane containing the impact velocity vector, and the 
rotorcraft's vertical axis is perpendicular to a horizontal plane 
containing the impact velocity vector. Peak floor deceleration must 
occur in not more than 0.071 seconds after impact and must reach a 
minimum of 18.4g's.
    (3) Where floor rails or floor or sidewall attachment devices are 
used to attach the seating devices to the airframe structure for the 
conditions of this section, the rails or devices must be misaligned with 
respect to each other by at least 10 deg. vertically (i.e., pitch out of 
parallel) and by at least a 10 deg. lateral roll, with the directions 
optional, to account for possible floor warp.
    (c) Compliance with the following must be shown:
    (1) The seating device system must remain intact although it may 
experience separation intended as part of its design.
    (2) The attachment between the seating device and the airframe 
structure must remain intact, although the structure may have exceeded 
its limit load.
    (3) The ATD's shoulder harness strap or straps must remain on or in 
the immediate vicinity of the ATD's shoulder during the impact.
    (4) The safety belt must remain on the ATD's pelvis during the 
impact.
    (5) The ATD's head either does not contact any portion of the crew 
or passenger compartment, or if contact is made, the head impact does 
not exceed a head injury criteria (HIC) of 1,000 as determined by this 
equation.
[GRAPHIC] [TIFF OMITTED] TC28SE91.084

    Where: a(t) is the resultant acceleration at the center of gravity 
of the head form expressed as a multiple of g (the acceleration of 
gravity) and t2 - t1 is the time duration, in 
seconds, of major head impact, not to exceed 0.05 seconds.
    (6) Loads in individual upper torso harness straps must not exceed 
1,750 pounds. If dual straps are used for retaining the upper torso, the 
total harness strap loads must not exceed 2,000 pounds.
    (7) The maximum compressive load measured between the pelvis and the 
lumbar column of the ATD must not exceed 1,500 pounds.
    (d) An alternate approach that achieves an equivalent or greater 
level of occupant protection, as required by this section, must be 
substantiated on a rational basis.

[Amdt. 27-25, 54 FR 47318, Nov. 13, 1989]



Sec. 27.563  Structural ditching provisions.

    If certification with ditching provisions is requested, structural 
strength for ditching must meet the requirements of this section and 
Sec. 27.801(e).
    (a) Forward speed landing conditions. The rotorcraft must initially 
contact the most critical wave for reasonably probable water conditions 
at forward velocities from zero up to 30 knots in likely pitch, roll, 
and yaw attitudes. The rotorcraft limit vertical descent velocity may 
not be less than 5 feet per second relative to the mean water surface. 
Rotor lift may be used to act through the center of gravity throughout 
the landing impact. This lift may not exceed two-thirds of the design 
maximum weight. A maximum forward velocity of less than 30 knots may be 
used in design if it can be demonstrated that the forward velocity 
selected would not be exceeded in a normal one-engine-out touchdown.
    (b) Auxiliary or emergency float conditions--(1) Floats fixed or 
deployed before initial water contact. In addition to the landing loads 
in paragraph (a) of this

[[Page 556]]

section, each auxiliary or emergency float, of its support and attaching 
structure in the airframe or fuselage, must be designed for the load 
developed by a fully immersed float unless it can be shown that full 
immersion is unlikely. If full immersion is unlikely, the highest likely 
float buoyancy load must be applied. The highest likely buoyancy load 
must include consideration of a partially immersed float creating 
restoring moments to compensate the upsetting moments caused by side 
wind, unsymmetrical rotorcraft loading, water wave action, rotorcraft 
inertia, and probable structural damage and leakage considered under 
Sec. 27.801(d). Maximum roll and pitch angles determined from compliance 
with Sec. 27.801(d) may be used, if significant, to determine the extent 
of immersion of each float. If the floats are deployed in flight, 
appropriate air loads derived from the flight limitations with the 
floats deployed shall be used in substantiation of the floats and their 
attachment to the rotorcraft. For this purpose, the design airspeed for 
limit load is the float deployed airspeed operating limit multiplied by 
1.11.
    (2) Floats deployed after initial water contact. Each float must be 
designed for full or partial immersion perscribed in paragraph (b)(1) of 
this section. In addition, each float must be designed for combined 
vertical and drag loads using a relative limit speed of 20 knots between 
the rotorcraft and the water. The vertical load may not be less than the 
highest likely buoyancy load determined under paragraph (b)(1) of this 
section.

[Amdt. 27-26, 55 FR 8000, Mar. 6, 1990]

                           Fatigue Evaluation



Sec. 27.571  Fatigue evaluation of flight structure.

    (a) General. Each portion of the flight structure (the flight 
structure includes rotors, rotor drive systems between the engines and 
the rotor hubs, controls, fuselage, landing gear, and their related 
primary attachments), the failure of which could be catastrophic, must 
be identified and must be evaluated under paragraph (b), (c), (d), or 
(e) of this section. The following apply to each fatigue evaluation:
    (1) The procedure for the evaluation must be approved.
    (2) The locations of probable failure must be determined.
    (3) Inflight measurement must be included in determining the 
following:
    (i) Loads or stresses in all critical conditions throughout the 
range of limitations in Sec. 27.309, except that maneuvering load 
factors need not exceed the maximum values expected in operation.
    (ii) The effect of altitude upon these loads or stresses.
    (4) The loading spectra must be as severe as those expected in 
operation including, but not limited to, external cargo operations, if 
applicable, and ground-air-ground cycles. The loading spectra must be 
based on loads or stresses determined under paragraph (a)(3) of this 
section.
    (b) Fatigue tolerance evaluation. It must be shown that the fatigue 
tolerance of the structure ensures that the probability of catastrophic 
fatigue failure is extremely remote without establishing replacement 
times, inspection intervals or other procedures under section A27.4 of 
appendix A.
    (c) Replacement time evaluation. it must be shown that the 
probability of catastrophic fatigue failure is extremely remote within a 
replacement time furnished under section A27.4 of appendix A.
    (d) Fail-safe evaluation. The following apply to fail-safe 
evaluation:
    (1) It must be shown that all partial failures will become readily 
detectable under inspection procedures furnished under section A27.4 of 
appendix A.
    (2) The interval between the time when any partial failure becomes 
readily detectable under paragraph (d)(1) of this section, and the time 
when any such failure is expected to reduce the remaining strength of 
the structure to limit or maximum attainable loads (whichever is less), 
must be determined.
    (3) It must be shown that the interval determined under paragraph 
(d)(2) of this section is long enough, in relation to the inspection 
intervals and related procedures furnished under section

[[Page 557]]

A27.4 of appendix A, to provide a probability of detection great enough 
to ensure that the probability of catastrophic failure is extremely 
remote.
    (e) Combination of replacement time and failsafe evaluations. A 
component may be evaluated under a combination of paragraphs (c) and (d) 
of this section. For such component it must be shown that the 
probability of catastrophic failure is extremely remote with an approved 
combination of replacement time, inspection intervals, and related 
procedures furnished under section A27.4 of appendix A.


(Secs. 313(a), 601, 603, 604, and 605, 72 Stat. 752, 775, and 778, (49 
U.S.C. 1354(a), 1421, 1423, 1424, and 1425; sec. 6(c), 49 U.S.C. 
1655(c)))

[Amdt. 27-3, 33 FR 14106, Sept. 18, 1968, as amended by Amdt. 27-12, 42 
FR 15044, Mar. 17, 1977; Amdt. 27-18, 45 FR 60177, Sept. 11 1980; Amdt. 
27-26, 55 FR 8000, Mar. 6, 1990]



                   Subpart D--Design and Construction

                                 General



Sec. 27.601  Design.

    (a) The rotorcraft may have no design features or details that 
experience has shown to be hazardous or unreliable.
    (b) The suitability of each questionable design detail and part must 
be established by tests.



Sec. 27.602  Critical parts.

    (a) Critical part. A critical part is a part, the failure of which 
could have a catastrophic effect upon the rotocraft, and for which 
critical characteristics have been identified which must be controlled 
to ensure the required level of integrity.
    (b) If the type design includes crtical parts, a critical parts list 
shall be established. Procedures shall be established to define the 
critical design characteristics, identify processes that affect those 
characteristics, and identify the design change and process change 
controls necessary for showing compliance with the quality assurance 
requirements of part 21 of this chapter.

[Doc. No. 29311, 64 FR 46232, Aug. 24, 1999]



Sec. 27.603  Materials.

    The suitability and durability of materials used for parts, the 
failure of which could adversely affect safety, must--
    (a) Be established on the basis of experience or tests;
    (b) Meet approved specifications that ensure their having the 
strength and other properties assumed in the design data; and
    (c) Take into account the effects of environmental conditions, such 
as temperature and humidity, expected in service.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424); and sec. 6(c) of the Dept. of Transportation 
Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55469, Dec. 20, 1976; Amdt. 27-16, 43 FR 50599, Oct. 30, 1978]



Sec. 27.605  Fabrication methods.

    (a) The methods of fabrication used must produce consistently sound 
structures. If a fabrication process (such as gluing, spot welding, or 
heat-treating) requires close control to reach this objective, the 
process must be performed according to an approved process 
specification.
    (b) Each new aircraft fabrication method must be substantiated by a 
test program.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424 and 1425); sec. 6(c) of the 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-16, 
43 FR 50599, Oct. 30, 1978]



Sec. 27.607  Fasteners.

    (a) Each removable bolt, screw, nut, pin, or other fastener whose 
loss could jeopardize the safe operation of the rotorcraft must 
incorporate two separate locking devices. The fastener and its locking 
devices may not be adversely affected by the environmental conditions 
associated with the particular installation.

[[Page 558]]

    (b) No self-locking nut may be used on any bolt subject to rotation 
in operation unless a nonfriction locking device is used in addition to 
the self-locking device.

[Amdt. 27-4, 33 FR 14533, Sept. 27, 1968]



Sec. 27.609  Protection of structure.

    Each part of the structure must--
    (a) Be suitably protected against deterioration or loss of strength 
in service due to any cause, including--
    (1) Weathering;
    (2) Corrosion; and
    (3) Abrasion; and
    (b) Have provisions for ventilation and drainage where necessary to 
prevent the accumulation of corrosive, flammable, or noxious fluids.



Sec. 27.610  Lightning and static electricity protection.

    (a) The rotorcraft must be protected against catastrophic effects 
from lightning.
    (b) For metallic components, compliance with paragraph (a) of this 
section may be shown by--
    (1) Electrically bonding the components properly to the airframe; or
    (2) Designing the components so that a strike will not endanger the 
rotorcraft.
    (c) For nonmetallic components, compliance with paragraph (a) of 
this section may be shown by--
    (1) Designing the components to minimize the effect of a strike; or
    (2) Incorporating acceptable means of diverting the resulting 
electrical current so as not to endanger the rotorcraft.
    (d) The electrical bonding and protection against lightning and 
static electricity must--
    (1) Minimize the accumulation of electrostatic charge;
    (2) Minimize the risk of electric shock to crew, passengers, and 
service and maintenance personnel using normal precautions;
    (3) Provide an electrical return path, under both normal and fault 
conditions, on rotorcraft having grounded electrical systems; and
    (4) Reduce to an acceptable level the effects of lightning and 
static electricity on the functioning of essential electrical and 
electronic equipment.

[Amdt. 27-21, 49 FR 44433, Nov. 6, 1984, as amended by Amdt. 27-37, 64 
FR 45094, Aug. 18, 1999]



Sec. 27.611  Inspection provisions.

    There must be means to allow the close examination of each part that 
requires--
    (a) Recurring inspection;
    (b) Adjustment for proper alignment and functioning; or
    (c) Lubrication.



Sec. 27.613  Material strength properties and design values.

    (a) Material strength properties must be based on enough tests of 
material meeting specifications to establish design values on a 
statistical basis.
    (b) Design values must be chosen to minimize the probability of 
structural failure due to material variability. Except as provided in 
paragraphs (d) and (e) of this section, compliance with this paragraph 
must be shown by selecting design values that assure material strength 
with the following probability--
    (1) Where applied loads are eventually distributed through a single 
member within an assembly, the failure of which would result in loss of 
structural integrity of the component, 99 percent probability with 95 
percent confidence; and
    (2) For redundant structure, those in which the failure of 
individual elements would result in applied loads being safely 
distributed to other load-carrying members, 90 percent probability with 
95 percent confidence.
    (c) The strength, detail design, and fabrication of the structure 
must minimize the probability of disastrous fatigue failure, 
particularly at points of stress concentration.
    (d) Design values may be those contained in the following 
publications (available from the Naval Publications and Forms Center, 
5801 Tabor Avenue, Philadelphia, Pennsylvania 19120) or other values 
approved by the Administrator:
    (1) MIL-HDBK-5, ``Metallic Materials and Elements for Flight Vehicle 
Structure''.

[[Page 559]]

    (2) MIL-HDBK-17, ``Plastics for Flight Vehicles''.
    (3) ANC-18, ``Design of Wood Aircraft Structures''.
    (4) MIL-HDBK-23, ``Composite Construction for Flight Vehicles''.
    (e) Other design values may be used if a selection of the material 
is made in which a specimen of each individual item is tested before use 
and it is determined that the actual strength properties of that 
particular item will equal or exceed those used in design.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-16, 
43 FR 50599, Oct. 30, 1978; Amdt. 27-26, 55 FR 8000, Mar. 6, 1990]



Sec. 27.619  Special factors.

    (a) The special factors prescribed in Secs. 27.621 through 27.625 
apply to each part of the structure whose strength is--
    (1) Uncertain;
    (2) Likely to deteriorate in service before normal replacement; or
    (3) Subject to appreciable variability due to--
    (i) Uncertainties in manufacturing processes; or
    (ii) Uncertainties in inspection methods.
    (b) For each part to which Secs. 27.621 through 27.625 apply, the 
factor of safety prescribed in Sec. 27.303 must be multiplied by a 
special factor equal to--
    (1) The applicable special factors prescribed in Secs. 27.621 
through 27.625; or
    (2) Any other factor great enough to ensure that the probability of 
the part being understrength because of the uncertainties specified in 
paragraph (a) of this section is extremely remote.



Sec. 27.621  Casting factors.

    (a) General. The factors, tests, and inspections specified in 
paragraphs (b) and (c) of this section must be applied in addition to 
those necessary to establish foundry quality control. The inspections 
must meet approved specifications. Paragraphs (c) and (d) of this 
section apply to structural castings except castings that are pressure 
tested as parts of hydraulic or other fluid systems and do not support 
structural loads.
    (b) Bearing stresses and surfaces. The casting factors specified in 
paragraphs (c) and (d) of this section--
    (1) Need not exceed 1.25 with respect to bearing stresses regardless 
of the method of inspection used; and
    (2) Need not be used with respect to the bearing surfaces of a part 
whose bearing factor is larger than the applicable casting factor.
    (c) Critical castings. For each casting whose failure would preclude 
continued safe flight and landing of the rotorcraft or result in serious 
injury to any occupant, the following apply:
    (1) Each critical casting must--
    (i) Have a casting factor of not less than 1.25; and
    (ii) Receive 100 percent inspection by visual, radiographic, and 
magnetic particle (for ferromagnetic materials) or penetrant (for 
nonferromagnetic materials) inspection methods or approved equivalent 
inspection methods.
    (2) For each critical casting with a casting factor less than 1.50, 
three sample castings must be static tested and shown to meet--
    (i) The strength requirements of Sec. 27.305 at an ultimate load 
corresponding to a casting factor of 1.25; and
    (ii) The deformation requirements of Sec. 27.305 at a load of 1.15 
times the limit load.
    (d) Noncritical castings. For each casting other than those 
specified in paragraph (c) of this section, the following apply:
    (1) Except as provided in paragraphs (d)(2) and (3) of this section, 
the casting factors and corresponding inspections must meet the 
following table:

------------------------------------------------------------------------
              Casting factor                         Inspection
------------------------------------------------------------------------
2.0 or greater...........................  100 percent visual.
Less than 2.0, greater than 1.5..........  100 percent visual, and
                                            magnetic particle
                                            (ferromagnetic materials),
                                            penetrant (nonferromagnetic
                                            materials), or approved
                                            equivalent inspection
                                            methods.
1.25 through 1.50........................  100 percent visual, and
                                            magnetic particle
                                            (ferromagnetic materials).
                                            penetrant (nonferromagnetic
                                            materials), and radiographic
                                            or approved equivalent
                                            inspection methods.
------------------------------------------------------------------------

    (2) The percentage of castings inspected by nonvisual methods may be

[[Page 560]]

reduced below that specified in paragraph (d)(1) of this section when an 
approved quality control procedure is established.
    (3) For castings procured to a specification that guarantees the 
mechanical properties of the material in the casting and provides for 
demonstration of these properties by test of coupons cut from the 
castings on a sampling basis--
    (i) A casting factor of 1.0 may be used; and
    (ii) The castings must be inspected as provided in paragraph (d)(1) 
of this section for casting factors of ``1.25 through 1.50'' and tested 
under paragraph (c)(2) of this section.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-34, 
62 FR 46173, Aug. 29, 1997]



Sec. 27.623  Bearing factors.

    (a) Except as provided in paragraph (b) of this section, each part 
that has clearance (free fit), and that is subject to pounding or 
vibration, must have a bearing factor large enough to provide for the 
effects of normal relative motion.
    (b) No bearing factor need be used on a part for which any larger 
special factor is prescribed.



Sec. 27.625  Fitting factors.

    For each fitting (part or terminal used to join one structural 
member to another) the following apply:
    (a) For each fitting whose strength is not proven by limit and 
ultimate load tests in which actual stress conditions are simulated in 
the fitting and surrounding structures, a fitting factor of at least 
1.15 must be applied to each part of--
    (1) The fitting;
    (2) The means of attachment; and
    (3) The bearing on the joined members.
    (b) No fitting factor need be used--
    (1) For joints made under approved practices and based on 
comprehensive test data (such as continuous joints in metal plating, 
welded joints, and scarf joints in wood); and
    (2) With respect to any bearing surface for which a larger special 
factor is used.
    (c) For each integral fitting, the part must be treated as a fitting 
up to the point at which the section properties become typical of the 
member.
    (d) Each seat, berth, litter, safety belt, and harness attachment to 
the structure must be shown by analysis, tests, or both, to be able to 
withstand the inertia forces prescribed in Sec. 27.561(b)(3) multiplied 
by a fitting factor of 1.33.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-35, 
63 FR 43285, Aug. 12, 1998]



Sec. 27.629  Flutter.

    Each aerodynamic surface of the rotorcraft must be free from flutter 
under each appropriate speed and power condition.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-26, 
55 FR 8000, Mar. 6, 1990]

                                 Rotors



Sec. 27.653  Pressure venting and drainage of rotor blades.

    (a) For each rotor blade--
    (1) There must be means for venting the internal pressure of the 
blade;
    (2) Drainage holes must be provided for the blade; and
    (3) The blade must be designed to prevent water from becoming 
trapped in it.
    (b) Paragraphs (a)(1) and (2) of this section does not apply to 
sealed rotor blades capable of withstanding the maximum pressure 
differentials expected in service.

[Amdt. 27-2, 33 FR 963, Jan. 26, 1968]



Sec. 27.659  Mass balance.

    (a) The rotors and blades must be mass balanced as necessary to--
    (1) Prevent excessive vibration; and
    (2) Prevent flutter at any speed up to the maximum forward speed.
    (b) The structural integrity of the mass balance installation must 
be substantiated.

[Amdt. 27-2, 33 FR 963, Jan. 26, 1968]



Sec. 27.661  Rotor blade clearance.

    There must be enough clearance between the rotor blades and other 
parts of the structure to prevent the blades

[[Page 561]]

from striking any part of the structure during any operating condition.

[Amdt. 27-2, 33 FR 963, Jan. 26, 1968]



Sec. 27.663  Ground resonance prevention means.

    (a) The reliability of the means for preventing ground resonance 
must be shown either by analysis and tests, or reliable service 
experience, or by showing through analysis or tests that malfunction or 
failure of a single means will not cause ground resonance.
    (b) The probable range of variations, during service, of the damping 
action of the ground resonance prevention means must be established and 
must be investigated during the test required by Sec. 27.241.

[Amdt. 27-2, 33 FR 963, Jan. 26, 1968, as amended by Amdt. 27-26, 55 FR 
8000, Mar. 6, 1990]

                             Control Systems



Sec. 27.671  General.

    (a) Each control and control system must operate with the ease, 
smoothness, and positiveness appropriate to its function.
    (b) Each element of each flight control system must be designed, or 
distinctively and permanently marked, to minimize the probability of any 
incorrect assembly that could result in the malfunction of the system.



Sec. 27.672  Stability augmentation, automatic, and power-operated systems.

    If the functioning of stability augmentation or other automatic or 
power-operated systems is necessary to show compliance with the flight 
characteristics requirements of this part, such systems must comply with 
Sec. 27.671 of this part and the following:
    (a) A warning which is clearly distinguishable to the pilot under 
expected flight conditions without requiring the pilot's attention must 
be provided for any failure in the stability augmentation system or in 
any other automatic or power-operated system which could result in an 
unsafe condition if the pilot is unaware of the failure. Warning systems 
must not activate the control systems.
    (b) The design of the stability augmentation system or of any other 
automatic or power-operated system must allow initial counteraction of 
failures without requiring exceptional pilot skill or strength by 
overriding the failure by movement of the flight controls in the normal 
sense and deactivating the failed system.
    (c) It must be shown that after any single failure of the stability 
augmentation system or any other automatic or power-operated system--
    (1) The rotorcraft is safely controllable when the failure or 
malfunction occurs at any speed or altitude within the approved 
operating limitations;
    (2) The controllability and maneuverability requirements of this 
part are met within a practical operational flight envelope (for 
example, speed, altitude, normal acceleration, and rotorcraft 
configurations) which is described in the Rotorcraft Flight Manual; and
    (3) The trim and stability characteristics are not impaired below a 
level needed to permit continued safe flight and landing.

[Amdt. 27-21, 49 FR 44433, Nov. 6, 1984; 49 FR 47594, Dec. 6, 1984]



Sec. 27.673  Primary flight control.

    Primary flight controls are those used by the pilot for immediate 
control of pitch, roll, yaw, and vertical motion of the rotorcraft.

[Amdt. 27-21, 49 FR 44434, Nov. 6, 1984]



Sec. 27.674  Interconnected controls.

    Each primary flight control system must provide for safe flight and 
landing and operate independently after a malfunction, failure, or jam 
of any auxiliary interconnected control.

[Amdt. 27-26, 55 FR 8001, Mar. 6, 1990]



Sec. 27.675  Stops.

    (a) Each control system must have stops that positively limit the 
range of motion of the pilot's controls.
    (b) Each stop must be located in the system so that the range of 
travel of its control is not appreciably affected by--
    (1) Wear;
    (2) Slackness; or
    (3) Takeup adjustments.
    (c) Each stop must be able to withstand the loads corresponding to 
the design conditions for the system.

[[Page 562]]

    (d) For each main rotor blade--
    (1) Stops that are appropriate to the blade design must be provided 
to limit travel of the blade about its hinge points; and
    (2) There must be means to keep the blade from hitting the droop 
stops during any operation other than starting and stopping the rotor.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-16, 
43 FR 50599, Oct. 30, 1978]



Sec. 27.679  Control system locks.

    If there is a device to lock the control system with the rotorcraft 
on the ground or water, there must be means to--
    (a) Give unmistakable warning to the pilot when the lock is engaged; 
and
    (b) Prevent the lock from engaging in flight.



Sec. 27.681  Limit load static tests.

    (a) Compliance with the limit load requirements of this part must be 
shown by tests in which--
    (1) The direction of the test loads produces the most severe loading 
in the control system; and
    (2) Each fitting, pulley, and bracket used in attaching the system 
to the main structure is included.
    (b) Compliance must be shown (by analyses or individual load tests) 
with the special factor requirements for control system joints subject 
to angular motion.



Sec. 27.683  Operation tests.

    It must be shown by operation tests that, when the controls are 
operated from the pilot compartment with the control system loaded to 
correspond with loads specified for the system, the system is free 
from--
    (a) Jamming;
    (b) Excessive friction; and
    (c) Excessive deflection.



Sec. 27.685  Control system details.

    (a) Each detail of each control system must be designed to prevent 
jamming, chafing, and interference from cargo, passengers, loose objects 
or the freezing of moisture.
    (b) There must be means in the cockpit to prevent the entry of 
foreign objects into places where they would jam the system.
    (c) There must be means to prevent the slapping of cables or tubes 
against other parts.
    (d) Cable systems must be designed as follows:
    (1) Cables, cable fittings, turnbuckles, splices, and pulleys must 
be of an acceptable kind.
    (2) The design of the cable systems must prevent any hazardous 
change in cable tension throughout the range of travel under any 
operating conditions and temperature variations.
    (3) No cable smaller than three thirty-seconds of an inch diameter 
may be used in any primary control system.
    (4) Pulley kinds and sizes must correspond to the cables with which 
they are used. The pulley cable combinations and strength values which 
must be used are specified in Military Handbook MIL-HDBK-5C, Vol. 1 & 
Vol. 2, Metallic Materials and Elements for Flight Vehicle Structures, 
(Sept. 15, 1976, as amended through December 15, 1978). This 
incorporation by reference was approved by the Director of the Federal 
Register in accordance with 5 U.S.C. section 552(a) and 1 CFR part 51. 
Copies may be obtained from the Naval Publications and Forms Center, 
5801 Tabor Avenue, Philadelphia, Pennsylvania, 19120. Copies may be 
inspected at the FAA, Rotorcraft Standards Staff, 4400 Blue Mount Road, 
Fort Worth, Texas, or at the Office of the Federal Register, 800 North 
Capitol Street, NW., suite 700, Washington, DC.
    (5) Pulleys must have close fitting guards to prevent the cables 
from being displaced or fouled.
    (6) Pulleys must lie close enough to the plane passing through the 
cable to prevent the cable from rubbing against the pulley flange.
    (7) No fairlead may cause a change in cable direction of more than 
3 deg..
    (8) No clevis pin subject to load or motion and retained only by 
cotter pins may be used in the control system.

[[Page 563]]

    (9) Turnbuckles attached to parts having angular motion must be 
installed to prevent binding throughout the range of travel.
    (10) There must be means for visual inspection at each fairlead, 
pulley, terminal, and turnbuckle.
    (e) Control system joints subject to angular motion must incorporate 
the following special factors with respect to the ultimate bearing 
strength of the softest material used as a bearing:
    (1) 3.33 for push-pull systems other than ball and roller bearing 
systems.
    (2) 2.0 for cable systems.
    (f) For control system joints, the manufacturer's static, non-
Brinell rating of ball and roller bearings must not be exceeded.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55469, Dec. 20, 1976; Amdt. 27-26, 55 FR 8001, Mar. 6, 1990]



Sec. 27.687  Spring devices.

    (a) Each control system spring device whose failure could cause 
flutter or other unsafe characteristics must be reliable.
    (b) Compliance with paragraph (a) of this section must be shown by 
tests simulating service conditions.



Sec. 27.691  Autorotation control mechanism.

    Each main rotor blade pitch control mechanism must allow rapid entry 
into autorotation after power failure.



Sec. 27.695  Power boost and power-operated control system.

    (a) If a power boost or power-operated control system is used, an 
alternate system must be immediately available that allows continued 
safe flight and landing in the event of--
    (1) Any single failure in the power portion of the system; or
    (2) The failure of all engines.
    (b) Each alternate system may be a duplicate power portion or a 
manually operated mechanical system. The power portion includes the 
power source (such as hydraulic pumps), and such items as valves, lines, 
and actuators.
    (c) The failure of mechanical parts (such as piston rods and links), 
and the jamming of power cylinders, must be considered unless they are 
extremely improbable.

                              Landing Gear



Sec. 27.723  Shock absorption tests.

    The landing inertia load factor and the reserve energy absorption 
capacity of the landing gear must be substantiated by the tests 
prescribed in Secs. 27.725 and 27.727, respectively. These tests must be 
conducted on the complete rotorcraft or on units consisting of wheel, 
tire, and shock absorber in their proper relation.



Sec. 27.725  Limit drop test.

    The limit drop test must be conducted as follows:
    (a) The drop height must be--
    (1) 13 inches from the lowest point of the landing gear to the 
ground; or
    (2) Any lesser height, not less than eight inches, resulting in a 
drop contact velocity equal to the greatest probable sinking speed 
likely to occur at ground contact in normal power-off landings.
    (b) If considered, the rotor lift specified in Sec. 27.473(a) must 
be introduced into the drop test by appropriate energy absorbing devices 
or by the use of an effective mass.
    (c) Each landing gear unit must be tested in the attitude simulating 
the landing condition that is most critical from the standpoint of the 
energy to be absorbed by it.
    (d) When an effective mass is used in showing compliance with 
paragraph (b) of this section, the following formula may be used instead 
of more rational computations:
[GRAPHIC] [TIFF OMITTED] TC28SE91.085

where:

We= the effective weight to be used in the drop test (lbs.);
W=WM for main gear units (lbs.), equal to the static reaction 
          on the particular unit with the rotorcraft in the most 
          critical attitude. A rational method may be used

[[Page 564]]

          in computing a main gear static reaction, taking into 
          consideration the moment arm between the main wheel reaction 
          and the rotorcraft center of gravity.
W=WN for nose gear units (lbs.), equal to the vertical 
          component of the static reaction that would exist at the nose 
          wheel, assuming that the mass of the rotorcraft acts at the 
          center of gravity and exerts a force of 1.0g downward and 
          0.25g forward.
W=WT for tailwheel units (lbs.), equal to whichever of the 
          following is critical:

    (1) The static weight on the tailwheel with the rotorcraft resting 
on all wheels; or
    (2) The vertical component of the ground reaction that would occur 
at the tailwheel, assuming that the mass of the rotorcraft acts at the 
center of gravity and exerts a force of lg downward with the rotorcraft 
in the maximum nose-up attitude considered in the nose-up landing 
conditions.

h=specified free drop height (inches).
L=ration of assumed rotor lift to the rotorcraft weight.
d=deflection under impact of the tire (at the proper inflation pressure) 
          plus the vertical component of the axle travels (inches) 
          relative to the drop mass.
n=limit inertia load factor.
nj=the load factor developed, during impact, on the mass used 
          in the drop test (i.e., the acceleration dv/dt in g 's 
          recorded in the drop test plus 1.0).



Sec. 27.727  Reserve energy absorption drop test.

    The reserve energy absorption drop test must be conducted as 
follows:
    (a) The drop height must be 1.5 times that specified in 
Sec. 27.725(a).
    (b) Rotor lift, where considered in a manner similar to that 
prescribed in Sec. 27.725(b), may not exceed 1.5 times the lift allowed 
under that paragraph.
    (c) The landing gear must withstand this test without collapsing. 
Collapse of the landing gear occurs when a member of the nose, tail, or 
main gear will not support the rotorcraft in the proper attitude or 
allows the rotorcraft structure, other than the landing gear and 
external accessories, to impact the landing surface.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-26, 
55 FR 8001, Mar. 6, 1990]



Sec. 27.729  Retracting mechanism.

    For rotorcraft with retractable landing gear, the following apply:
    (a) Loads. The landing gear, retracting mechansim, wheel-well doors, 
and supporting structure must be designed for--
    (1) The loads occurring in any maneuvering condition with the gear 
retracted;
    (2) The combined friction, inertia, and air loads occurring during 
retraction and extension at any airspeed up to the design maximum 
landing gear operating speed; and
    (3) The flight loads, including those in yawed flight, occurring 
with the gear extended at any airspeed up to the design maximum landing 
gear extended speed.
    (b) Landing gear lock. A positive means must be provided to keep the 
gear extended.
    (c) Emergency operation. When other than manual power is used to 
operate the gear, emergency means must be provided for extending the 
gear in the event of--
    (1) Any reasonably probable failure in the normal retraction system; 
or
    (2) The failure of any single source of hydraulic, electric, or 
equivalent energy.
    (d) Operation tests. The proper functioning of the retracting 
mechanism must be shown by operation tests.
    (e) Position indicator. There must be a means to indicate to the 
pilot when the gear is secured in the extreme positions.
    (f) Control. The location and operation of the retraction control 
must meet the requirements of Secs. 27.777 and 27.779.
    (g) Landing gear warning. An aural or equally effective landing gear 
warning device must be provided that functions continuously when the 
rotorcraft is in a normal landing mode and the landing gear is not fully 
extended and locked. A manual shutoff capability must be provided for 
the warning device and the warning system must automatically reset when 
the rotorcraft is no longer in the landing mode.

[Amdt. 27-21, 49 FR 44434, Nov. 6, 1984]



Sec. 27.731  Wheels.

    (a) Each landing gear wheel must be approved.
    (b) The maximum static load rating of each wheel may not be less 
than the corresponding static ground reaction with--

[[Page 565]]

    (1) Maximum weight; and
    (2) Critical center of gravity.
    (c) The maximum limit load rating of each wheel must equal or exceed 
the maximum radial limit load determined under the applicable ground 
load requirements of this part.



Sec. 27.733  Tires.

    (a) Each landing gear wheel must have a tire--
    (1) That is a proper fit on the rim of the wheel; and
    (2) Of the proper rating.
    (b) The maximum static load rating of each tire must equal or exceed 
the static ground reaction obtained at its wheel, assuming--
    (1) The design maximum weight; and
    (2) The most unfavorable center of gravity.
    (c) Each tire installed on a retractable landing gear system must, 
at the maximum size of the tire type expected in service, have a 
clearance to surrounding structure and systems that is adequate to 
prevent contact between the tire and any part of the structure or 
systems.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55469, Dec. 20, 1976]



Sec. 27.735  Brakes.

    For rotorcraft with wheel-type landing gear, a braking device must 
be installed that is--
    (a) Controllable by the pilot;
    (b) Usable during power-off landings; and
    (c) Adequate to--
    (1) Counteract any normal unbalanced torque when starting or 
stopping the rotor; and
    (2) Hold the rotorcraft parked on a 10-degree slope on a dry, smooth 
pavement.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-21, 
49 FR 44434, Nov. 6, 1984]



Sec. 27.737  Skis.

    The maximum limit load rating of each ski must equal or exceed the 
maximum limit load determined under the applicable ground load 
requirements of this part.

                            Floats and Hulls



Sec. 27.751  Main float buoyancy.

    (a) For main floats, the buoyancy necessary to support the maximum 
weight of the rotorcraft in fresh water must be exceeded by--
    (1) 50 percent, for single floats; and
    (2) 60 percent, for multiple floats.
    (b) Each main float must have enough water-tight compartments so 
that, with any single main float compartment flooded, the main floats 
will provide a margin of positive stability great enough to minimize the 
probability of capsizing.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 963, Jan. 26, 1968]



Sec. 27.753  Main float design.

    (a) Bag floats. Each bag float must be designed to withstand--
    (1) The maximum pressure differential that might be developed at the 
maximum altitude for which certification with that float is requested; 
and
    (2) The vertical loads prescribed in Sec. 27.521(a), distributed 
along the length of the bag over three-quarters of its projected area.
    (b) Rigid floats. Each rigid float must be able to withstand the 
vertical, horizontal, and side loads prescribed in Sec. 27.521. These 
loads may be distributed along the length of the float.



Sec. 27.755  Hulls.

    For each rotorcraft, with a hull and auxiliary floats, that is to be 
approved for both taking off from and landing on water, the hull and 
auxiliary floats must have enough watertight compartments so that, with 
any single compartment flooded, the buoyancy of the hull and auxiliary 
floats (and wheel tires if used) provides a margin of positive stability 
great enough to minimize the probability of capsizing.

                   Personnel and Cargo Accommodations



Sec. 27.771  Pilot compartment.

    For each pilot compartment--
    (a) The compartment and its equipment must allow each pilot to 
perform his duties without unreasonable concentration or fatigue;

[[Page 566]]

    (b) If there is provision for a second pilot, the rotorcraft must be 
controllable with equal safety from either pilot seat; and
    (c) The vibration and noise characteristics of cockpit appurtenances 
may not interfere with safe operation.



Sec. 27.773  Pilot compartment view.

    (a) Each pilot compartment must be free from glare and reflections 
that could interfere with the pilot's view, and designed so that--
    (1) Each pilot's view is sufficiently extensive, clear, and 
undistorted for safe operation; and
    (2) Each pilot is protected from the elements so that moderate rain 
conditions do not unduly impair his view of the flight path in normal 
flight and while landing.
    (b) If certification for night operation is requested, compliance 
with paragraph (a) of this section must be shown in night flight tests.



Sec. 27.775  Windshields and windows.

    Windshields and windows must be made of material that will not break 
into dangerous fragments.

[Amdt. 27-27, 55 FR 38966, Sept. 21, 1990]



Sec. 27.777  Cockpit controls.

    Cockpit controls must be--
    (a) Located to provide convenient operation and to prevent confusion 
and inadvertent operation; and
    (b) Located and arranged with respect to the pilots' seats so that 
there is full and unrestricted movement of each control without 
interference from the cockpit structure or the pilot's clothing when 
pilots from 5'2" to 6'0" in height are seated.



Sec. 27.779  Motion and effect of cockpit controls.

    Cockpit controls must be designed so that they operate in accordance 
with the following movements and actuation:
    (a) Flight controls, including the collective pitch control, must 
operate with a sense of motion which corresponds to the effect on the 
rotorcraft.
    (b) Twist-grip engine power controls must be designed so that, for 
lefthand operation, the motion of the pilot's hand is clockwise to 
increase power when the hand is viewed from the edge containing the 
index finger. Other engine power controls, excluding the collective 
control, must operate with a forward motion to increase power.
    (c) Normal landing gear controls must operate downward to extend the 
landing gear.

[Amdt. 27-21, 49 FR 44434, Nov. 6, 1984]



Sec. 27.783  Doors.

    (a) Each closed cabin must have at least one adequate and easily 
accessible external door.
    (b) Each external door must be located where persons using it will 
not be endangered by the rotors, propellers, engine intakes, and 
exhausts when appropriate operating procedures are used. If opening 
procedures are required, they must be marked inside, on or adjacent to 
the door opening device.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-26, 
55 FR 8001, Mar. 6, 1990]



Sec. 27.785  Seats, berths, litters, safety belts, and harnesses.

    (a) Each seat, safety belt, harness, and adjacent part of the 
rotorcraft at each station designated for occupancy during takeoff and 
landing must be free of potentially injurious objects, sharp edges, 
protuberances, and hard surfaces and must be designed so that a person 
making proper use of these facilities will not suffer serious injury in 
an emergency landing as a result of the static inertial load factors 
specified in Sec. 27.561(b) and dynamic conditions specified in 
Sec. 27.562.
    (b) Each occupant must be protected from serious head injury by a 
safety belt plus a shoulder harness that will prevent the head from 
contacting any injurious object except as provided for in 
Sec. 27.562(c)(5). A shoulder harness (upper torso restraint), in 
combination with the safety belt, constitutes a torso restraint system 
as described in TSO-C114.
    (c) Each occupant's seat must have a combined safety belt and 
shoulder harness with a single-point release. Each pilot's combined 
safety belt and shoulder harness must allow each pilot when seated with 
safety belt and shoulder

[[Page 567]]

harness fastened to perform all functions necessary for flight 
operations. There must be a means to secure belts and harnesses, when 
not in use, to prevent interference with the operation of the rotorcraft 
and with rapid egress in an emergency.
    (d) If seat backs do not have a firm handhold, there must be hand 
grips or rails along each aisle to enable the occupants to steady 
themselves while using the aisle in moderately rough air.
    (e) Each projecting object that could injure persons seated or 
moving about in the rotorcraft in normal flight must be padded.
    (f) Each seat and its supporting structure must be designed for an 
occupant weight of at least 170 pounds considering the maximum load 
factors, inertial forces, and reactions between occupant, seat, and 
safety belt or harness corresponding with the applicable flight and 
ground load conditions, including the emergency landing conditions of 
Sec. 27.561(b). In addition--
    (1) Each pilot seat must be designed for the reactions resulting 
from the application of the pilot forces prescribed in Sec. 27.397; and
    (2) The inertial forces prescribed in Sec. 27.561(b) must be 
multiplied by a factor of 1.33 in determining the strength of the 
attachment of--
    (i) Each seat to the structure; and
    (ii) Each safety belt or harness to the seat or structure.
    (g) When the safety belt and shoulder harness are combined, the 
rated strength of the safety belt and shoulder harness may not be less 
than that corresponding to the inertial forces specified in 
Sec. 27.561(b), considering the occupant weight of at least 170 pounds, 
considering the dimensional characteristics of the restraint system 
installation, and using a distribution of at least a 60-percent load to 
the safety belt and at least a 40-percent load to the shoulder harness. 
If the safety belt is capable of being used without the shoulder 
harness, the inertial forces specified must be met by the safety belt 
alone.
    (h) When a headrest is used, the headrest and its supporting 
structure must be designed to resist the inertia forces specified in 
Sec. 27.561, with a 1.33 fitting factor and a head weight of at least 13 
pounds.
    (i) Each seating device system includes the device such as the seat, 
the cushions, the occupant restraint system, and attachment devices.
    (j) Each seating device system may use design features such as 
crushing or separation of certain parts of the seats to reduce occupant 
loads for the emergency landing dynamic conditions of Sec. 27.562; 
otherwise, the system must remain intact and must not interfere with 
rapid evacuation of the rotorcraft.
    (k) For the purposes of this section, a litter is defined as a 
device designed to carry a nonambulatory person, primarily in a 
recumbent position, into and on the rotorcraft. Each berth or litter 
must be designed to withstand the load reaction of an occupant weight of 
at least 170 pounds when the occupant is subjected to the forward 
inertial factors specified in Sec. 27.561(b). A berth or litter 
installed within 15 deg. or less of the longitudinal axis of the 
rotorcraft must be provided with a padded end-board, cloth diaphram, or 
equivalent means that can withstand the forward load reaction. A berth 
or litter oriented greater than 15 deg. with the longitudinal axis of 
the rotorcraft must be equipped with appropriate restraints, such as 
straps or safety belts, to withstand the forward load reaction. In 
addition--
    (1) The berth or litter must have a restraint system and must not 
have corners or other protuberances likely to cause serious injury to a 
person occupying it during emergency landing conditions; and
    (2) The berth or litter attachment and the occupant restraint system 
attachments to the structure must be designed to withstand the critical 
loads resulting from flight and ground load conditions and from the 
conditions prescribed in Sec. 27.561(b). The fitting factor required by 
Sec. 27.625(d) shall be applied.

[Amdt. 27-21, 49 FR 44434, Nov. 6, 1984, as amended by Amdt. 27-25, 54 
FR 47319, Nov. 13, 1989; Amdt. 27-35, 63 FR 43285, Aug. 12, 1998]



Sec. 27.787  Cargo and baggage compartments.

    (a) Each cargo and baggage compartment must be designed for its 
placarded maximum weight of contents and

[[Page 568]]

for the critical load distributions at the appropriate maximum load 
factors corresponding to the specified flight and ground load 
conditions, except the emergency landing conditions of Sec. 27.561.
    (b) There must be means to prevent the contents of any compartment 
from becoming a hazard by shifting under the loads specified in 
paragraph (a) of this section.
    (c) Under the emergency landing conditions of Sec. 27.561, cargo and 
baggage compartments must--
    (1) Be positioned so that if the contents break loose they are 
unlikely to cause injury to the occupants or restrict any of the escape 
facilities provided for use after an emergency landing; or
    (2) Have sufficient strength to withstand the conditions specified 
in Sec. 27.561 including the means of restraint, and their attachments, 
required by paragraph (b) of this section. Sufficient strength must be 
provided for the maximum authorized weight of cargo and baggage at the 
critical loading distribution.
    (d) If cargo compartment lamps are installed, each lamp must be 
installed so as to prevent contact between lamp bulb and cargo.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55469, Dec. 20, 1976; Amdt. 27-27, 55 FR 38966, Sept. 21, 1990]



Sec. 27.801  Ditching.

    (a) If certification with ditching provisions is requested, the 
rotorcraft must meet the requirements of this section and 
Secs. 27.807(d), 27.1411 and 27.1415.
    (b) Each practicable design measure, compatible with the general 
characteristics of the rotorcraft, must be taken to minimize the 
probability that in an emergency landing on water, the behavior of the 
rotorcraft would cause immediate injury to the occupants or would make 
it impossible for them to escape.
    (c) The probable behavior of the rotorcraft in a water landing must 
be investigated by model tests or by comparison with rotorcraft of 
similar configuration for which the ditching characteristics are known. 
Scoops, flaps, projections, and any other factor likely to affect the 
hydrodynamic characteristics of the rotorcraft must be considered.
    (d) It must be shown that, under reasonably probable water 
conditions, the flotation time and trim of the rotorcraft will allow the 
occupants to leave the rotorcraft and enter the life rafts required by 
Sec. 27.1415. If compliance with this provision is shown by buoyancy and 
trim computations, appropriate allowances must be made for probable 
structural damage and leakage. If the rotorcraft has fuel tanks (with 
fuel jettisoning provisions) that can reasonably be expected to 
withstand a ditching without leakage, the jettisonable volume of fuel 
may be considered as buoyancy volume.
    (e) Unless the effects of the collapse of external doors and windows 
are accounted for in the investigation of the probable behavior of the 
rotorcraft in a water landing (as prescribed in paragraphs (c) and (d) 
of this section), the external doors and windows must be designed to 
withstand the probable maximum local pressures.

[Amdt. 27-11, 41 FR 55469, Dec. 20, 1976]



Sec. 27.805  Flight crew emergency exits.

    (a) For rotorcraft with passenger emergency exits that are not 
convenient to the flight crew, there must be flight crew emergency 
exits, on both sides of the rotorcraft or as a top hatch in the flight 
crew area.
    (b) Each flight crew emergency exit must be of sufficient size and 
must be located so as to allow rapid evacuation of the flight crew. This 
must be shown by test.
    (c) Each flight crew emergency exit must not be obstructed by water 
or flotation devices after an emergency landing on water. This must be 
shown by test, demonstration, or analysis.

[Doc. No. 29247, 64 FR 45094, Aug. 18, 1999]



Sec. 27.807  Emergency exits.

    (a) Number and location. (1) There must be at least one emergency 
exit on each side of the cabin readily accessible to each passenger. One 
of these exits must be usable in any probable attitude that may result 
from a crash;

[[Page 569]]

    (2) Doors intended for normal use may also serve as emergency exits, 
provided that they meet the requirements of this section; and
    (3) If emergency flotation devices are installed, there must be an 
emergency exit accessible to each passenger on each side of the cabin 
that is shown by test, demonstration, or analysis to;
    (i) Be above the waterline; and
    (ii) Open without interference from flotation devices, whether 
stowed or deployed.
    (b) Type and operation. Each emergency exit prescribed by paragraph 
(a) of this section must--
    (1) Consist of a movable window or panel, or additional external 
door, providing an unobstructed opening that will admit a 19-by 26-inch 
ellipse;
    (2) Have simple and obvious methods of opening, from the inside and 
from the outside, which do not require exceptional effort;
    (3) Be arranged and marked so as to be readily located and opened 
even in darkness; and
    (4) Be reasonably protected from jamming by fuselage deformation.
    (c) Tests. The proper functioning of each emergency exit must be 
shown by test.
    (d) Ditching emergency exits for passengers. If certification with 
ditching provisions is requested, the markings required by paragraph 
(b)(3) of this section must be designed to remain visible if the 
rotorcraft is capsized and the cabin is submerged.

[Doc. No. 29247, 64 FR 45094, Aug. 18, 1999]



Sec. 27.831  Ventilation.

    (a) The ventilating system for the pilot and passenger compartments 
must be designed to prevent the presence of excessive quantities of fuel 
fumes and carbon monoxide.
    (b) The concentration of carbon monoxide may not exceed one part in 
20,000 parts of air during forward flight or hovering in still air. If 
the concentration exceeds this value under other conditions, there must 
be suitable operating restrictions.



Sec. 27.833  Heaters.

    Each combustion heater must be approved.

[Amdt. 27-23, 53 FR 34210, Sept. 2, 1988]

                             Fire Protection



Sec. 27.853  Compartment interiors.

    For each compartment to be used by the crew or passengers--
    (a) The materials must be at least flame-resistant;
    (b) [Reserved]
    (c) If smoking is to be prohibited, there must be a placard so 
stating, and if smoking is to be allowed--
    (1) There must be an adequate number of self-contained, removable 
ashtrays; and
    (2) Where the crew compartment is separated from the passenger 
compartment, there must be at least one illuminated sign (using either 
letters or symbols) notifying all passengers when smoking is prohibited. 
Signs which notify when smoking is prohibited must--
    (i) When illuminated, be legible to each passenger seated in the 
passenger cabin under all probable lighting conditions; and
    (ii) Be so constructed that the crew can turn the illumination on 
and off.

[Amdt. 27-17, 45 FR 7755, Feb. 4, 1980, as amended by Amdt. 27-37, 64 FR 
45095, Aug. 18, 1999]



Sec. 27.855  Cargo and baggage compartments.

    (a) Each cargo and baggage compartment must be constructed of, or 
lined with, materials that are at least--
    (1) Flame resistant, in the case of compartments that are readily 
accessible to a crewmember in flight; and
    (2) Fire resistant, in the case of other compartments.
    (b) No compartment may contain any controls, wiring, lines, 
equipment, or accessories whose damage or failure would affect safe 
operation, unless those items are protected so that--
    (1) They cannot be damaged by the movement of cargo in the 
compartment; and
    (2) Their breakage or failure will not create a fire hazard.

[[Page 570]]



Sec. 27.859  Heating systems.

    (a) General. For each heating system that involves the passage of 
cabin air over, or close to, the exhaust manifold, there must be means 
to prevent carbon monoxide from entering any cabin or pilot compartment.
    (b) Heat exchangers. Each heat exchanger must be--
    (1) Of suitable materials;
    (2) Adequately cooled under all conditions; and
    (3) Easily disassembled for inspection.
    (c) Combustion heater fire protection. Except for heaters which 
incorporate designs to prevent hazards in the event of fuel leakage in 
the heater fuel system, fire within the ventilating air passage, or any 
other heater malfunction, each heater zone must incorporate the fire 
protection features of the applicable requirements of Secs. 27.1183, 
27.1185, 27.1189, 27.1191, and be provided with--
    (1) Approved, quick-acting fire detectors in numbers and locations 
ensuring prompt detection of fire in the heater region.
    (2) Fire extinguisher systems that provide at least one adequate 
discharge to all areas of the heater region.
    (3) Complete drainage of each part of each zone to minimize the 
hazards resulting from failure or malfunction of any component 
containing flammable fluids. The drainage means must be--
    (i) Effective under conditions expected to prevail when drainage is 
needed; and
    (ii) Arranged so that no discharged fluid will cause an additional 
fire hazard.
    (4) Ventilation, arranged so that no discharged vapors will cause an 
additional fire hazard.
    (d) Ventilating air ducts. Each ventilating air duct passing through 
any heater region must be fireproof.
    (1) Unless isolation is provided by fireproof valves or by equally 
effective means, the ventilating air duct downstream of each heater must 
be fireproof for a distance great enough to ensure that any fire 
originating in the heater can be contained in the duct.
    (2) Each part of any ventilating duct passing through any region 
having a flammable fluid system must be so constructed or isolated from 
that system that the malfunctioning of any component of that system 
cannot introduce flammable fluids or vapors into the ventilating 
airstream.
    (e) Combustion air ducts. Each combustion air duct must be fireproof 
for a distance great enough to prevent damage from backfiring or reverse 
flame propagation.
    (1) No combustion air duct may connect with the ventilating 
airstream unless flames from backfires or reverse burning cannot enter 
the ventilating airstream under any operating condition, including 
reverse flow or malfunction of the heater or its associated components.
    (2) No combustion air duct may restrict the prompt relief of any 
backfire that, if so restricted, could cause heater failure.
    (f) Heater control: General. There must be means to prevent the 
hazardous accumulation of water or ice on or in any heater control 
component, control system tubing, or safety control.
    (g) Heater safety controls. For each combustion heater, safety 
control means must be provided as follows:
    (1) Means independent of the components provided for the normal 
continuous control of air temperature, airflow, and fuel flow must be 
provided for each heater to automatically shut off the ignition and fuel 
supply of that heater at a point remote from that heater when any of the 
following occurs:
    (i) The heat exchanger temperature exceeds safe limits.
    (ii) The ventilating air temperature exceeds safe limits.
    (iii) The combustion airflow becomes inadequate for safe operation.
    (iv) The ventilating airflow becomes inadequate for safe operation.
    (2) The means of complying with paragraph (g)(1) of this section for 
any individual heater must--
    (i) Be independent of components serving any other heater, the heat 
output of which is essential for safe operation; and
    (ii) Keep the heater off until restarted by the crew.
    (3) There must be means to warn the crew when any heater, the heat 
output of which is essential for safe operation, has been shut off by 
the automatic

[[Page 571]]

means prescribed in paragraph (g)(1) of this section.
    (h) Air intakes. Each combustion and ventilating air intake must be 
located so that no flammable fluids or vapors can enter the heater 
system--
    (1) During normal operation; or
    (2) As a result of the malfunction of any other component.
    (i) Heater exhaust. Each heater exhaust system must meet the 
requirements of Secs. 27.1121 and 27.1123.
    (1) Each exhaust shroud must be sealed so that no flammable fluids 
or hazardous quantities of vapors can reach the exhaust system through 
joints.
    (2) No exhaust system may restrict the prompt relief of any backfire 
that, if so restricted, could cause heater failure.
    (j) Heater fuel systems. Each heater fuel system must meet the 
powerplant fuel system requirements affecting safe heater operation. 
Each heater fuel system component in the ventilating airstream must be 
protected by shrouds so that no leakage from those components can enter 
the ventilating airstream.
    (k) Drains. There must be means for safe drainage of any fuel that 
might accumulate in the combustion chamber or the heat exchanger.
    (1) Each part of any drain that operates at high temperatures must 
be protected in the same manner as heater exhausts.
    (2) Each drain must be protected against hazardous ice accumulation 
under any operating condition.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-23, 
53 FR 34211, Sept. 2, 1988]



Sec. 27.861  Fire protection of structure, controls, and other parts.

    Each part of the structure, controls, rotor mechanism, and other 
parts essential to a controlled landing that would be affected by 
powerplant fires must be fireproof or protected so they can perform 
their essential functions for at least 5 minutes under any foreseeable 
powerplant fire conditions.

[Amdt. 27-26, 55 FR 8001, Mar. 6, 1990]



Sec. 27.863  Flammable fluid fire protection.

    (a) In each area where flammable fluids or vapors might escape by 
leakage of a fluid system, there must be means to minimize the 
probability of ignition of the fluids and vapors, and the resultant 
hazards if ignition does occur.
    (b) Compliance with paragraph (a) of this section must be shown by 
analysis or tests, and the following factors must be considered:
    (1) Possible sources and paths of fluid leakage, and means of 
detecting leakage.
    (2) Flammability characteristics of fluids, including effects of any 
combustible or absorbing materials.
    (3) Possible ignition sources, including electrical faults, 
overheating of equipment, and malfunctioning of protective devices.
    (4) Means available for controlling or extinguishing a fire, such as 
stopping flow of fluids, shutting down equipment, fireproof containment, 
or use of extinguishing agents.
    (5) Ability of rotorcraft components that are critical to safety of 
flight to withstand fire and heat.
    (c) If action by the flight crew is required to prevent or 
counteract a fluid fire (e.g. equipment shutdown or actuation of a fire 
extinguisher) quick acting means must be provided to alert the crew.
    (d) Each area where flammable fluids or vapors might escape by 
leakage of a fluid system must be identified and defined.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Amdt. 27-16, 43 FR 50599, Oct. 30, 1978]

                             External Loads



Sec. 27.865  External loads.

    (a) It must be shown by analysis, test, or both, that the rotorcraft 
external load attaching means for rotorcraft-load combinations to be 
used for nonhuman external cargo applications can withstand a limit 
static load equal to 2.5, or some lower load factor approved under 
Secs. 27.337 through 27.341, multiplied by the maximum external

[[Page 572]]

load for which authorization is requested. It must be shown by analysis, 
test, or both that the rotorcraft external load attaching means and 
corresponding personnel carrying device system for rotorcraft-load 
combinations to be used for human external cargo applications can 
withstand a limit static load equal to 3.5 or some lower load factor, 
not less than 2.5, approved under Secs. 27.337 through 27.341, 
multiplied by the maximum external load for which authorization is 
requested. The load for any rotorcraft-load combination class, for any 
external cargo type, must be applied in the vertical direction. For 
jettisonable external loads of any applicable external cargo type, the 
load must also be applied in any direction making the maximum angle with 
the vertical that can be achieved in service but not less than 30 deg.. 
However, the 30 deg. angle may be reduced to a lesser angle if--
    (1) An operating limitation is established limiting external load 
operations to such angles for which compliance with this paragraph has 
been shown; or
    (2) It is shown that the lesser angle can not be exceeded in 
service.
    (b) The external load attaching means, for jettisonable rotorcraft-
load combinations, must include a quick-release system to enable the 
pilot to release the external load quickly during flight. The quick-
release system must consist of a primary quick release subsystem and a 
backup quick release subsystem that are isolated from one another. The 
quick-release system, and the means by which it is controlled, must 
comply with the following:
    (1) A control for the primary quick release subsystem must be 
installed either on one of the pilot's primary controls or in an 
equivalently accessible location and must be designed and located so 
that it may be operated by either the pilot or a crewmember without 
hazardously limiting the ability to control the rotorcraft during an 
emergency situation.
    (2) A control for the backup quick release subsystem, readily 
accessible to either the pilot or another crewmember, must be provided.
    (3) Both the primary and backup quick release subsystems must--
    (i) Be reliable, durable, and function properly with all external 
loads up to and including the maximum external limit load for which 
authorization is requested.
    (ii) Be protected against electromagnetic interference (EMI) from 
external and internal sources and against lightning to prevent 
inadvertent load release.
    (A) The minimum level of protection required for jettisonable 
rotorcraft-load combinations used for nonhuman external cargo is a radio 
frequency field strength of 20 volts per meter.
    (B) The minimum level of protection required for jettisonable 
rotorcraft-load combinations used for human external cargo is a radio 
frequency field strength of 200 volts per meter.
    (iii) Be protected against any failure that could be induced by a 
failure mode of any other electrical or mechanical rotorcraft system.
    (c) For rotorcraft-load combinations to be used for human external 
cargo applications, the rotorcraft must--
    (1) For jettisonable external loads, have a quick-release system 
that meets the requirements of paragraph (b) of this section and that--
    (i) Provides a dual actuation device for the primary quick release 
subsystem, and
    (ii) Provides a separate dual actuation device for the backup quick 
release subsystem;
    (2) Have a reliable, approved personnel carrying device system that 
has the structural capability and personnel safety features essential 
for external occupant safety;
    (3) Have placards and markings at all appropriate locations that 
clearly state the essential system operating instructions and, for the 
personnel carrying device system, the ingress and egress instructions;
    (4) Have equipment to allow direct intercommunication among required 
crewmembers and external occupants; and
    (5) Have the appropriate limitations and procedures incorporated in 
the flight manual for conducting human external cargo operations.
    (d) The critically configured jettisonable external loads must be 
shown by a combination of analysis, ground tests,

[[Page 573]]

and flight tests to be both transportable and releasable throughout the 
approved operational envelope without hazard to the rotorcraft during 
normal flight conditions. In addition, these external loads must be 
shown to be releasable without hazard to the rotorcraft during emergency 
flight conditions.
    (e) A placard or marking must be installed next to the external-load 
attaching means clearly stating any operational limitations and the 
maximum authorized external load as demonstrated under Sec. 27.25 and 
this section.
    (f) The fatigue evaluation of Sec. 27.571 of this part does not 
apply to rotorcraft-load combinations to be used for nonhuman external 
cargo except for the failure of critical structural elements that would 
result in a hazard to the rotorcraft. For rotorcraft-load combinations 
to be used for human external cargo, the fatigue evaluation of 
Sec. 27.571 of this part applies to the entire quick release and 
personnel carrying device structural systems and their attachments.

[Amdt. 27-11, 41 FR 55469, Dec. 20, 1976; as amended by Amdt. 27-26, 55 
FR 8001, Mar. 6, 1990; Amdt. 27-36, 64 FR 43019, Aug. 6, 1999]

                              Miscellaneous



Sec. 27.871  Leveling marks.

    There must be reference marks for leveling the rotorcraft on the 
ground.



Sec. 27.873  Ballast provisions.

    Ballast provisions must be designed and constructed to prevent 
inadvertent shifting of ballast in flight.



                          Subpart E--Powerplant

                                 General



Sec. 27.901  Installation.

    (a) For the purpose of this part, the powerplant installation 
includes each part of the rotorcraft (other than the main and auxiliary 
rotor structures) that--
    (1) Is necessary for propulsion;
    (2) Affects the control of the major propulsive units; or
    (3) Affects the safety of the major propulsive units between normal 
inspections or overhauls.
    (b) For each powerplant installation--
    (1) Each component of the installation must be constructed, 
arranged, and installed to ensure its continued safe operation between 
normal inspections or overhauls for the range of temperature and 
altitude for which approval is requested;
    (2) Accessibility must be provided to allow any inspection and 
maintenance necessary for continued airworthiness;
    (3) Electrical interconnections must be provided to prevent 
differences of potential between major components of the installation 
and the rest of the rotorcraft;
    (4) Axial and radial expansion of turbine engines may not affect the 
safety of the installation; and
    (5) Design precautions must be taken to minimize the possibility of 
incorrect assembly of components and equipment essential to safe 
operation of the rotorcraft, except where operation with the incorrect 
assembly can be shown to be extremely improbable.
    (c) The installation must comply with--
    (1) The installation instructions provided under Sec. 33.5 of this 
chapter; and
    (2) The applicable provisions of this subpart.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 963, Jan. 26, 1968; Amdt. 27-12, 42 FR 15044, Mar. 17, 1977; Amdt. 
27-23, 53 FR 34211, Sept. 2, 1988]



Sec. 27.903  Engines.

    (a) Engine type certification. Each engine must have an approved 
type certificate. Reciprocating engines for use in helicopters must be 
qualified in accordance with Sec. 33.49(d) of this chapter or be 
otherwise approved for the intended usage.
    (b) Engine or drive system cooling fan blade protection. (1) If an 
engine or rotor drive system cooling fan is installed, there must be a 
means to protect the rotorcraft and allow a safe landing if a fan blade 
fails. This must be shown by showing that--
    (i) The fan blades are contained in case of failure;

[[Page 574]]

    (ii) Each fan is located so that a failure will not jeopardize 
safety; or
    (iii) Each fan blade can withstand an ultimate load of 1.5 times the 
centrifugal force resulting from operation limited by the following:
    (A) For fans driven directly by the engine--
    (1) The terminal engine r.p.m. under uncontrolled conditions; or
    (2) An overspeed limiting device.
    (B) For fans driven by the rotor drive system, the maximum rotor 
drive system rotational speed to be expected in service, including 
transients.
    (2) Unless a fatigue evaluation under Sec. 27.571 is conducted, it 
must be shown that cooling fan blades are not operating at resonant 
conditions within the operating limits of the rotorcraft.
    (c) Turbine engine installation. For turbine engine installations, 
the powerplant systems associated with engine control devices, systems, 
and instrumentation must be designed to give reasonable assurance that 
those engine operating limitations that adversely affect turbine rotor 
structural integrity will not be exceeded in service.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55469, Dec. 20, 1976; Amdt. 27-23, 53 FR 34211, Sept. 2, 1988]



Sec. 27.907  Engine vibration.

    (a) Each engine must be installed to prevent the harmful vibration 
of any part of the engine or rotorcraft.
    (b) The addition of the rotor and the rotor drive system to the 
engine may not subject the principal rotating parts of the engine to 
excessive vibration stresses. This must be shown by a vibration 
investigation.
    (c) No part of the rotor drive system may be subjected to excessive 
vibration stresses.

                           Rotor Drive System



Sec. 27.917  Design.

    (a) Each rotor drive system must incorporate a unit for each engine 
to automatically disengage that engine from the main and auxiliary 
rotors if that engine fails.
    (b) Each rotor drive system must be arranged so that each rotor 
necessary for control in autorotation will continue to be driven by the 
main rotors after disengagement of the engine from the main and 
auxiliary rotors.
    (c) If a torque limiting device is used in the rotor drive system, 
it must be located so as to allow continued control of the rotorcraft 
when the device is operating.
    (d) The rotor drive system includes any part necessary to transmit 
power from the engines to the rotor hubs. This includes gear boxes, 
shafting, universal joints, couplings, rotor brake assemblies, clutches, 
supporting bearings for shafting, any attendant accessory pads or 
drives, and any cooling fans that are a part of, attached to, or mounted 
on the rotor drive system.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55469, Dec. 20, 1976]



Sec. 27.921  Rotor brake.

    If there is a means to control the rotation of the rotor drive 
system independently of the engine, any limitations on the use of that 
means must be specified, and the control for that means must be guarded 
to prevent inadvertent operation.



Sec. 27.923  Rotor drive system and control mechanism tests.

    (a) Each part tested as prescribed in this section must be in a 
serviceable condition at the end of the tests. No intervening 
disassembly which might affect test results may be conducted.
    (b) Each rotor drive system and control mechanism must be tested for 
not less than 100 hours. The test must be conducted on the rotorcraft, 
and the torque must be absorbed by the rotors to be installed, except 
that other ground or flight test facilities with other appropriate 
methods of torque absorption may be used if the conditions of support 
and vibration closely simulate the conditions that would exist during a 
test on the rotorcraft.
    (c) A 60-hour part of the test prescribed in paragraph (b) of this 
section must be run at not less than maximum continuous torque and the 
maximum speed for use with maximum continuous torque. In this test, the 
main rotor controls must be set in the position that will give maximum 
longitudinal cyclic pitch change to simulate

[[Page 575]]

forward flight. The auxiliary rotor controls must be in the position for 
normal operation under the conditions of the test.
    (d) A 30-hour or, for rotorcraft for which the use of either 30-
minute OEI power or continuous OEI power is requested, a 25-hour part of 
the test prescribed in paragraph (b) of this section must be run at not 
less than 75 percent of maximum continuous torque and the minimum speed 
for use with 75 percent of maximum continuous torque. The main and 
auxiliary rotor controls must be in the position for normal operation 
under the conditions of the test.
    (e) A 10-hour part of the test prescribed in paragraph (b) of this 
section must be run at not less than takeoff torque and the maximum 
speed for use with takeoff torque. The main and auxiliary rotor controls 
must be in the normal position for vertical ascent.
    (1) For multiengine rotorcraft for which the use of 2\1/2\ minute 
OEI power is requested, 12 runs during the 10-hour test must be 
conducted as follows:
    (i) Each run must consist of at least one period of 2\1/2\ minutes 
with takeoff torque and the maximum speed for use with takeoff torque on 
all engines.
    (ii) Each run must consist of at least one period for each engine in 
sequence, during which that engine simulates a power failure and the 
remaining engines are run at 2\1/2\ minute OEI torque and the maximum 
speed for use with 2\1/2\ minute OEI torque for 2\1/2\ minutes.
    (2) For multiengine turbine-powered rotorcraft for which the use of 
30-second and 2-minute OEI power is requested, 10 runs must be conducted 
as follows:
    (i) Immediately following a takeoff run of at least 5 minutes, each 
power source must simulate a failure, in turn, and apply the maximum 
torque and the maximum speed for use with 30-second OEI power to the 
remaining affected drive system power inputs for not less than 30 
seconds, followed by application of the maximum torque and the maximum 
speed for use with 2-minute OEI power for not less than 2 minutes. At 
least one run sequence must be conducted from a simulated ``flight 
idle'' condition. When conducted on a bench test, the test sequence must 
be conducted following stabilization at takeoff power.
    (ii) For the purpose of this paragraph, an affected power input 
includes all parts of the rotor drive system which can be adversely 
affected by the application of higher or asymmetric torque and speed 
prescribed by the test.
    (iii) This test may be conducted on a representative bench test 
facility when engine limitations either preclude repeated use of this 
power or would result in premature engine removal during the test. The 
loads, the vibration frequency, and the methods of application to the 
affected rotor drive system components must be representative of 
rotorcraft conditions. Test components must be those used to show 
compliance with the remainder of this section.
    (f) The parts of the test prescribed in paragraphs (c) and (d) of 
this section must be conducted in intervals of not less than 30 minutes 
and may be accomplished either on the ground or in flight. The part of 
the test prescribed in paragraph (e) of this section must be conducted 
in intervals of not less than five minutes.
    (g) At intervals of not more than five hours during the tests 
prescribed in paragraphs (c), (d), and (e) of this section, the engine 
must be stopped rapidly enough to allow the engine and rotor drive to be 
automatically disengaged from the rotors.
    (h) Under the operating conditions specified in paragraph (c) of 
this section, 500 complete cycles of lateral control, 500 complete 
cycles of longitudinal control of the main rotors, and 500 complete 
cycles of control of each auxiliary rotor must be accomplished. A 
``complete cycle'' involves movement of the controls from the neutral 
position, through both extreme positions, and back to the neutral 
position, except that control movements need not produce loads or 
flapping motions exceeding the maximum loads or motions encountered in 
flight. The cycling may be accomplished during the testing prescribed in 
paragraph (c) of this section.
    (i) At least 200 start-up clutch engagements must be accomplished--
    (1) So that the shaft on the driven side of the clutch is 
accelerated; and

[[Page 576]]

    (2) Using a speed and method selected by the applicant.
    (j) For multiengine rotorcraft for which the use of 30-minute OEI 
power is requested, five runs must be made at 30-minute OEI torque and 
the maximum speed for use with 30-minute OEI torque, in which each 
engine, in sequence, is made inoperative and the remaining engine(s) is 
run for a 30-minute period.
    (k) For multiengine rotorcraft for which the use of continuous OEI 
power is requested, five runs must be made at continuous OEI torque and 
the maximum speed for use with continuous OEI torque, in which each 
engine, in sequence, is made inoperative and the remaining engine(s) is 
run for a 1-hour period.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 963, Jan. 26, 1968; Amdt. 27-12, 42 FR 15044, Mar. 17, 1977; Amdt. 
27-23, 53 FR 34212, Sept. 2, 1988; Amdt. 27-29, 59 FR 47767, Sept. 16, 
1994]



Sec. 27.927  Additional tests.

    (a) Any additional dynamic, endurance, and operational tests, and 
vibratory investigations necessary to determine that the rotor drive 
mechanism is safe, must be performed.
    (b) If turbine engine torque output to the transmission can exceed 
the highest engine or transmission torque rating limit, and that output 
is not directly controlled by the pilot under normal operating 
conditions (such as where the primary engine power control is 
accomplished through the flight control), the following test must be 
made:
    (1) Under conditions associated with all engines operating, make 200 
applications, for 10 seconds each, or torque that is at least equal to 
the lesser of--
    (i) The maximum torque used in meeting Sec. 27.923 plus 10 percent; 
or
    (ii) The maximum attainable torque output of the engines, assuming 
that torque limiting devices, if any, function properly.
    (2) For multiengine rotorcraft under conditions associated with each 
engine, in turn, becoming inoperative, apply to the remaining 
transmission torque inputs the maximum torque attainable under probable 
operating conditions, assuming that torque limiting devices, if any, 
function properly. Each transmission input must be tested at this 
maximum torque for at least 15 minutes.
    (3) The tests prescribed in this paragraph must be conducted on the 
rotorcraft at the maximum rotational speed intended for the power 
condition of the test and the torque must be absorbed by the rotors to 
be installed, except that other ground or flight test facilities with 
other appropriate methods of torque absorption may be used if the 
conditions of support and vibration closely simulate the conditions that 
would exist during a test on the rotorcraft.
    (c) It must be shown by tests that the rotor drive system is capable 
of operating under autorotative conditions for 15 minutes after the loss 
of pressure in the rotor drive primary oil system.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Amdt. 27-2, 33 FR 963, Jan. 26, 1968, as amended by Amdt. 27-12, 42 FR 
15045, Mar. 17, 1977; Amdt. 27-23, 53 FR 34212, Sept. 2, 1988]



Sec. 27.931  Shafting critical speed.

    (a) The critical speeds of any shafting must be determined by 
demonstration except that analytical methods may be used if reliable 
methods of analysis are available for the particular design.
    (b) If any critical speed lies within, or close to, the operating 
ranges for idling, power on, and autorotative conditions, the stresses 
occurring at that speed must be within safe limits. This must be shown 
by tests.
    (c) If analytical methods are used and show that no critical speed 
lies within the permissible operating ranges, the margins between the 
calculated critical speeds and the limits of the allowable operating 
ranges must be adequate to allow for possible variations between the 
computed and actual values.



Sec. 27.935  Shafting joints.

    Each universal joint, slip joint, and other shafting joints whose 
lubrication is necessary for operation must have provision for 
lubrication.

[[Page 577]]



Sec. 27.939  Turbine engine operating characteristics.

    (a) Turbine engine operating characteristics must be investigated in 
flight to determine that no adverse characteristics (such as stall, 
surge, or flameout) are present, to a hazardous degree, during normal 
and emergency operation within the range of operating limitations of the 
rotorcraft and of the engine.
    (b) The turbine engine air inlet system may not, as a result of 
airflow distortion during normal operation, cause vibration harmful to 
the engine.
    (c) For governor-controlled engines, it must be shown that there 
exists no hazardous torsional instability of the drive system associated 
with critical combinations of power, rotational speed, and control 
displacement.

[Amdt. 27-1, 32 FR 6914, May 5, 1967, as amended by Amdt. 27-11, 41 FR 
55469, Dec. 20, 1976]

                               Fuel System



Sec. 27.951  General.

    (a) Each fuel system must be constructed and arranged to ensure a 
flow of fuel at a rate and pressure established for proper engine 
functioning under any likely operating condition, including the 
maneuvers for which certification is requested.
    (b) Each fuel system must be arranged so that--
    (1) No fuel pump can draw fuel from more than one tank at a time; or
    (2) There are means to prevent introducing air into the system.
    (c) Each fuel system for a turbine engine must be capable of 
sustained operation throughout its flow and pressure range with fuel 
initially saturated with water at 80 deg. F. and having 0.75cc of free 
water per gallon added and cooled to the most critical condition for 
icing likely to be encountered in operation.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-9, 39 
FR 35461, Oct. 1, 1974]



Sec. 27.952  Fuel system crash resistance.

    Unless other means acceptable to the Administrator are employed to 
minimize the hazard of fuel fires to occupants following an otherwise 
survivable impact (crash landing), the fuel systems must incorporate the 
design features of this section. These systems must be shown to be 
capable of sustaining the static and dynamic deceleration loads of this 
section, considered as ultimate loads acting alone, measured at the 
system component's center of gravity, without structural damage to 
system components, fuel tanks, or their attachments that would leak fuel 
to an ignition source.
    (a) Drop test requirements. Each tank, or the most critical tank, 
must be drop-tested as follows:
    (1) The drop height must be at least 50 feet.
    (2) The drop impact surface must be nondeforming.
    (3) The tank must be filled with water to 80 percent of the normal, 
full capacity.
    (4) The tank must be enclosed in a surrounding structure 
representative of the installation unless it can be established that the 
surrounding structure is free of projections or other design features 
likely to contribute to rupture of the tank.
    (5) The tank must drop freely and impact in a horizontal position 
10 deg..
    (6) After the drop test, there must be no leakage.
    (b) Fuel tank load factors. Except for fuel tanks located so that 
tank rupture with fuel release to either significant ignition sources, 
such as engines, heaters, and auxiliary power units, or occupants is 
extremely remote, each fuel tank must be designed and installed to 
retain its contents under the following ultimate inertial load factors, 
acting alone.
    (1) For fuel tanks in the cabin:
    (i) Upward--4g.
    (ii) Forward--16g.
    (iii) Sideward--8g.
    (iv) Downward--20g.
    (2) For fuel tanks located above or behind the crew or passenger 
compartment that, if loosened, could injure an occupant in an emergency 
landing:
    (i) Upward--1.5g.
    (ii) Forward--8g.
    (iii) Sideward--2g.
    (iv) Downward--4g.
    (3) For fuel tanks in other areas:
    (i) Upward--1.5g.
    (ii) Forward--4g.

[[Page 578]]

    (iii) Sideward--2g.
    (iv) Downward--4g.
    (c) Fuel line self-sealing breakaway couplings. Self-sealing 
breakaway couplings must be installed unless hazardous relative motion 
of fuel system components to each other or to local rotorcraft structure 
is demonstrated to be extremely improbable or unless other means are 
provided. The couplings or equivalent devices must be installed at all 
fuel tank-to-fuel line connections, tank-to-tank interconnects, and at 
other points in the fuel system where local structural deformation could 
lead to the release of fuel.
    (1) The design and construction of self-sealing breakaway couplings 
must incorporate the following design features:
    (i) The load necessary to separate a breakaway coupling must be 
between 25 to 50 percent of the minimum ultimate failure load (ultimate 
strength) of the weakest component in the fluid-carrying line. The 
separation load must in no case be less than 300 pounds, regardless of 
the size of the fluid line.
    (ii) A breakaway coupling must separate whenever its ultimate load 
(as defined in paragraph (c)(1)(i) of this section) is applied in the 
failure modes most likely to occur.
    (iii) All breakaway couplings must incorporate design provisions to 
visually ascertain that the coupling is locked together (leak-free) and 
is open during normal installation and service.
    (iv) All breakaway couplings must incorporate design provisions to 
prevent uncoupling or unintended closing due to operational shocks, 
vibrations, or accelerations.
    (v) No breakaway coupling design may allow the release of fuel once 
the coupling has performed its intended function.
    (2) All individual breakaway couplings, coupling fuel feed systems, 
or equivalent means must be designed, tested, installed, and maintained 
so that inadvertent fuel shutoff in flight is improbable in accordance 
with Sec. 27.955(a) and must comply with the fatigue evaluation 
requirements of Sec. 27.571 without leaking.
    (3) Alternate, equivalent means to the use of breakaway couplings 
must not create a survivable impact-induced load on the fuel line to 
which it is installed greater than 25 to 50 percent of the ultimate load 
(strength) of the weakest component in the line and must comply with the 
fatigue requirements of Sec. 27.571 without leaking.
    (d) Frangible or deformable structural attachments. Unless hazardous 
relative motion of fuel tanks and fuel system components to local 
rotorcraft structure is demonstrated to be extremely improbable in an 
otherwise survivable impact, frangible or locally deformable attachments 
of fuel tanks and fuel system components to local rotorcraft structure 
must be used. The attachment of fuel tanks and fuel system components to 
local rotorcraft structure, whether frangible or locally deformable, 
must be designed such that its separation or relative local deformation 
will occur without rupture or local tear-out of the fuel tank or fuel 
system components that will cause fuel leakage. The ultimate strength of 
frangible or deformable attachments must be as follows:
    (1) The load required to separate a frangible attachment from its 
support structure, or deform a locally deformable attachment relative to 
its support structure, must be between 25 and 50 percent of the minimum 
ultimate load (ultimate strength) of the weakest component in the 
attached system. In no case may the load be less than 300 pounds.
    (2) A frangible or locally deformable attachment must separate or 
locally deform as intended whenever its ultimate load (as defined in 
paragraph (d)(1) of this section) is applied in the modes most likely to 
occur.
    (3) All frangible or locally deformable attachments must comply with 
the fatigue requirements of Sec. 27.571.
    (e) Separation of fuel and ignition sources. To provide maximum 
crash resistance, fuel must be located as far as practicable from all 
occupiable areas and from all potential ignition sources.
    (f) Other basic mechanical design criteria. Fuel tanks, fuel lines, 
electrical wires, and electrical devices must be designed, constructed, 
and installed, as far as practicable, to be crash resistant.

[[Page 579]]

    (g) Rigid or semirigid fuel tanks. Rigid or semirigid fuel tank or 
bladder walls must be impact and tear resistant.

[Doc. No. 26352, 59 FR 50386, Oct. 3, 1994]



Sec. 27.953  Fuel system independence.

    (a) Each fuel system for multiengine rotorcraft must allow fuel to 
be supplied to each engine through a system independent of those parts 
of each system supplying fuel to other engines. However, separate fuel 
tanks need not be provided for each engine.
    (b) If a single fuel tank is used on a multiengine rotorcraft, the 
following must be provided:
    (1) Independent tank outlets for each engine, each incorporating a 
shutoff valve at the tank. This shutoff valve may also serve as the 
firewall shutoff valve required by Sec. 27.995 if the line between the 
valve and the engine compartment does not contain a hazardous amount of 
fuel that can drain into the engine compartment.
    (2) At least two vents arranged to minimize the probability of both 
vents becoming obstructed simultaneously.
    (3) Filler caps designed to minimize the probability of incorrect 
installation or inflight loss.
    (4) A fuel system in which those parts of the system from each tank 
outlet to any engine are independent of each part of each system 
supplying fuel to other engines.



Sec. 27.954  Fuel system lightning protection.

    The fuel system must be designed and arranged to prevent the 
ignition of fuel vapor within the system by--
    (a) Direct lightning strikes to areas having a high probability of 
stroke attachment;
    (b) Swept lightning strokes to areas where swept strokes are highly 
probable; or
    (c) Corona and streamering at fuel vent outlets.

[Amdt. 27-23, 53 FR 34212, Sept. 2, 1988]



Sec. 27.955  Fuel flow.

    (a) General. The fuel system for each engine must be shown to 
provide the engine with at least 100 percent of the fuel required under 
each operating and maneuvering condition to be approved for the 
rotorcraft including, as applicable, the fuel required to operate the 
engine(s) under the test conditions required by Sec. 27.927. Unless 
equivalent methods are used, compliance must be shown by test during 
which the following provisions are met except that combinations of 
conditions which are shown to be improbable need not be considered.
    (1) The fuel pressure, corrected for critical accelerations, must be 
within the limits specified by the engine type certificate data sheet.
    (2) The fuel level in the tank may not exceed that established as 
the unusable fuel supply for that tank under Sec. 27.959, plus the 
minimum additional fuel necessary to conduct the test.
    (3) The fuel head between the tank outlet and the engine inlet must 
be critical with respect to rotorcraft flight attitudes.
    (4) The critical fuel pump (for pump-fed systems) is installed to 
produce (by actual or simulated failure) the critical restriction to 
fuel flow to be expected from pump failure.
    (5) Critical values of engine rotation speed, electrical power, or 
other sources of fuel pump motive power must be applied.
    (6) Critical values of fuel properties which adversely affect fuel 
flow must be applied.
    (7) The fuel filter required by Sec. 27.997 must be blocked to the 
degree necessary to simulate the accumulation of fuel contamination 
required to activate the indicator required by Sec. 27.1305(q).
    (b) Fuel transfer systems. If normal operation of the fuel system 
requires fuel to be transferred to an engine feed tank, the transfer 
must occur automatically via a system which has been shown to maintain 
the fuel level in the engine feed tank within acceptable limits during 
flight or surface operation of the rotorcraft.
    (c) Multiple fuel tanks. If an engine can be supplied with fuel from 
more than one tank, the fuel systems must, in addition to having 
appropriate manual switching capability, be designed to prevent 
interruption of fuel flow to that engine, without attention by the 
flightcrew, when any tank supplying fuel to that engine is depleted of 
usable

[[Page 580]]

fuel during normal operation, and any other tank that normally supplies 
fuel to the engine alone contains usable fuel.

[Amdt. 27-23, 53 FR 34212, Sept. 2, 1988]



Sec. 27.959  Unusable fuel supply.

    The unusable fuel supply for each tank must be established as not 
less than the quantity at which the first evidence of malfunction occurs 
under the most adverse fuel feed condition occurring under any intended 
operations and flight maneuvers involving that tank.



Sec. 27.961  Fuel system hot weather operation.

    Each suction lift fuel system and other fuel systems with features 
conducive to vapor formation must be shown by test to operate 
satisfactorily (within certification limits) when using fuel at a 
temperature of 110  deg.F under critical operating conditions including, 
if applicable, the engine operating conditions defined by Sec. 27.927 
(b)(1) and (b)(2).

[Amdt. 27-23, 53 FR 34212, Sept. 2, 1988]



Sec. 27.963  Fuel tanks: general.

    (a) Each fuel tank must be able to withstand, without failure, the 
vibration, inertia, fluid, and structural loads to which it may be 
subjected in operation.
    (b) Each fuel tank of 10 gallons or greater capacity must have 
internal baffles, or must have external support to resist surging.
    (c) Each fuel tank must be separated from the engine compartment by 
a firewall. At least one-half inch of clear airspace must be provided 
between the tank and the firewall.
    (d) Spaces adjacent to the surfaces of fuel tanks must be ventilated 
so that fumes cannot accumulate in the tank compartment in case of 
leakage. If two or more tanks have interconnected outlets, they must be 
considered as one tank, and the airspaces in those tanks must be 
interconnected to prevent the flow of fuel from one tank to another as a 
result of a difference in pressure between those airspaces.
    (e) The maximum exposed surface temperature of any component in the 
fuel tank must be less, by a safe margin as determined by the 
Administrator, than the lowest expected autoignition temperature of the 
fuel or fuel vapor in the tank. Compliance with this requirement must be 
shown under all operating conditions and under all failure or 
malfunction conditions of all components inside the tank.
    (f) Each fuel tank installed in personnel compartments must be 
isolated by fume-proof and fuel-proof enclosures that are drained and 
vented to the exterior of the rotorcraft. The design and construction of 
the enclosures must provide necessary protection for the tank, must be 
crash resistant during a survivable impact in accordance with 
Sec. 27.952, and must be adequate to withstand loads and abrasions to be 
expected in personnel compartments.
    (g) Each flexible fuel tank bladder or liner must be approved or 
shown to be suitable for the particular application and must be puncture 
resistant. Puncture resistance must be shown by meeting the TSO-C80, 
paragraph 16.0, requirements using a minimum puncture force of 370 
pounds.
    (h) Each integral fuel tank must have provisions for inspection and 
repair of its interior.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-23, 
53 FR 34213, Sept. 2, 1988; Amdt. 27-30, 59 FR 50387, Oct. 3, 1994]



Sec. 27.965  Fuel tank tests.

    (a) Each fuel tank must be able to withstand the applicable pressure 
tests in this section without failure or leakage. If practicable, test 
pressures may be applied in a manner simulating the pressure 
distribution in service.
    (b) Each conventional metal tank, nonmetallic tank with walls that 
are not supported by the rotorcraft structure, and integral tank must be 
subjected to a pressure of 3.5 p.s.i. unless the pressure developed 
during maximum limit acceleration or emergency deceleration with a full 
tank exceeds this value, in which case a hydrostatic head, or equivalent 
test, must be applied to duplicate the acceleration loads as far as 
possible. However, the pressure need not exceed 3.5 p.s.i. on surfaces 
not exposed to the acceleration loading.

[[Page 581]]

    (c) Each nonmetallic tank with walls supported by the rotorcraft 
structure must be subjected to the following tests:
    (1) A pressure test of at least 2.0 p.s.i. This test may be 
conducted on the tank alone in conjunction with the test specified in 
paragraph (c)(2) of this section.
    (2) A pressure test, with the tank mounted in the rotorcraft 
structure, equal to the load developed by the reaction of the contents, 
with the tank full, during maximum limit acceleration or emergency 
deceleration. However, the pressure need not exceed 2.0 p.s.i. on 
surfaces not exposed to the acceleration loading.
    (d) Each tank with large unsupported or unstiffened flat areas, or 
with other features whose failure or deformation could cause leakage, 
must be subjected to the following test or its equivalent:
    (1) Each complete tank assembly and its support must be vibration 
tested while mounted to simulate the actual installation.
    (2) The tank assembly must be vibrated for 25 hours while two-thirds 
full of any suitable fluid. The amplitude of vibration may not be less 
than one thirty-second of an inch, unless otherwise substantiated.
    (3) The test frequency of vibration must be as follows:
    (i) If no frequency of vibration resulting from any r.p.m. within 
the normal operating range of engine or rotor system speeds is critical, 
the test frequency of vibration, in number of cycles per minute must, 
unless a frequency based on a more rational calculation is used, be the 
number obtained by averaging the maximum and minimum power-on engine 
speeds (r.p.m.) for reciprocating engine powered rotorcraft or 2,000 
c.p.m. for turbine engine powered rotorcraft.
    (ii) If only one frequency of vibration resulting from any r.p.m. 
within the normal operating range of engine or rotor system speeds is 
critical, that frequency of vibration must be the test frequency.
    (iii) If more than one frequency of vibration resulting from any 
r.p.m. within the normal operating range of engine or rotor system 
speeds is critical, the most critical of these frequencies must be the 
test frequency.
    (4) Under paragraphs (d)(3)(ii) and (iii) of this section, the time 
of test must be adjusted to accomplish the same number of vibration 
cycles as would be accomplished in 25 hours at the frequency specified 
in paragraph (d)(3)(i) of this section.
    (5) During the test, the tank assembly must be rocked at the rate of 
16 to 20 complete cycles per minute through an angle of 15 degrees on 
both sides of the horizontal (30 degrees total), about the most critical 
axis, for 25 hours. If motion about more than one axis is likely to be 
critical, the tank must be rocked about each critical axis for 12\1/2\ 
hours.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Amdt. 27-12, 42 FR 15045, Mar. 17, 1977]



Sec. 27.967  Fuel tank installation.

    (a) Each fuel tank must be supported so that tank loads are not 
concentrated on unsupported tank surfaces. In addition--
    (1) There must be pads, if necessary, to prevent chafing between 
each tank and its supports;
    (2) The padding must be nonabsorbent or treated to prevent the 
absorption of fuel;
    (3) If flexible tank liners are used, they must be supported so that 
it is not necessary for them to withstand fluid loads; and
    (4) Each interior surface of tank compartments must be smooth and 
free of projections that could cause wear of the liner unless--
    (i) There are means for protection of the liner at those points; or
    (ii) The construction of the liner itself provides such protection.
    (b) Any spaces adjacent to tank surfaces must be adequately 
ventilated to avoid accumulation of fuel or fumes in those spaces due to 
minor leakage. If the tank is in a sealed compartment, ventilation may 
be limited to drain holes that prevent clogging and excessive pressure 
resulting from altitude changes. If flexible tank liners are installed, 
the venting arrangement for the spaces between the liner and its

[[Page 582]]

container must maintain the proper relationship to tank vent pressures 
for any expected flight condition.
    (c) The location of each tank must meet the requirements of 
Sec. 27.1185 (a) and (c).
    (d) No rotorcraft skin immediately adjacent to a major air outlet 
from the engine compartment may act as the wall of the integral tank.

[Doc. No. 26352, 59 FR 50387, Oct. 3, 1994]



Sec. 27.969  Fuel tank expansion space.

    Each fuel tank or each group of fuel tanks with interconnected vent 
systems must have an expansion space of not less than 2 percent of the 
tank capacity. It must be impossible to fill the fuel tank expansion 
space inadvertently with the rotorcraft in the normal ground attitude.

[Amdt. 27-23, 53 FR 34213, Sept. 2, 1988]



Sec. 27.971  Fuel tank sump.

    (a) Each fuel tank must have a drainable sump with an effective 
capacity in any ground attitude to be expected in service of 0.25 
percent of the tank capacity or 1/16 gallon, whichever is greater, 
unless--
    (1) The fuel system has a sediment bowl or chamber that is 
accessible for preflight drainage and has a minimum capacity of 1 ounce 
for every 20 gallons of fuel tank capacity; and
    (2) Each fuel tank drain is located so that in any ground attitude 
to be expected in service, water will drain from all parts of the tank 
to the sediment bowl or chamber.
    (b) Each sump, sediment bowl, and sediment chamber drain required by 
this section must comply with the drain provisions of Sec. 27.999(b).

[Amdt. 27-23, 53 FR 34213, Sept. 2, 1988]



Sec. 27.973  Fuel tank filler connection.

    (a) Each fuel tank filler connection must prevent the entrance of 
fuel into any part of the rotorcraft other than the tank itself during 
normal operations and must be crash resistant during a survivable impact 
in accordance with Sec. 27.952(c). In addition--
    (1) Each filler must be marked as prescribed in Sec. 27.1557(c)(1);
    (2) Each recessed filler connection that can retain any appreciable 
quantity of fuel must have a drain that discharges clear of the entire 
rotorcraft; and
    (3) Each filler cap must provide a fuel-tight seal under the fluid 
pressure expected in normal operation and in a survivable impact.
    (b) Each filler cap or filler cap cover must warn when the cap is 
not fully locked or seated on the filler connection.

[Doc. No. 26352, 59 FR 50387, Oct. 3, 1994]



Sec. 27.975  Fuel tank vents.

    (a) Each fuel tank must be vented from the top part of the expansion 
space so that venting is effective under all normal flight conditions. 
Each vent must minimize the probability of stoppage by dirt or ice.
    (b) The venting system must be designed to minimize spillage of fuel 
through the vents to an ignition source in the event of a rollover 
during landing, ground operation, or a survivable impact.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-23, 
53 FR 34213, Sept. 2, 1988; Amdt. 27-30, 59 FR 50387, Oct. 3, 1994; 
Amdt. 27-35, 63 FR 43285, Aug. 12, 1998]



Sec. 27.977  Fuel tank outlet.

    (a) There must be a fuel stainer for the fuel tank outlet or for the 
booster pump. This strainer must--
    (1) For reciprocating engine powered rotorcraft, have 8 to 16 meshes 
per inch; and
    (2) For turbine engine powered rotorcraft, prevent the passage of 
any object that could restrict fuel flow or damage any fuel system 
component.
    (b) The clear area of each fuel tank outlet strainer must be at 
least five times the area of the outlet line.
    (c) The diameter of each strainer must be at least that of the fuel 
tank outlet.
    (d) Each finger strainer must be accessible for inspection and 
cleaning.

[Amdt. 27-11, 41 FR 55470, Dec. 20, 1976]

                         Fuel System Components



Sec. 27.991  Fuel pumps.

    Compliance with Sec. 27.955 may not be jeopardized by failure of--

[[Page 583]]

    (a) Any one pump except pumps that are approved and installed as 
parts of a type certificated engine; or
    (b) Any component required for pump operation except, for engine 
driven pumps, the engine served by that pump.

[Amdt. 27-23, 53 FR 34213, Sept. 2, 1988]



Sec. 27.993  Fuel system lines and fittings.

    (a) Each fuel line must be installed and supported to prevent 
excessive vibration and to withstand loads due to fuel pressure and 
accelerated flight conditions.
    (b) Each fuel line connected to components of the rotorcraft between 
which relative motion could exist must have provisions for flexibility.
    (c) Flexible hose must be approved.
    (d) Each flexible connection in fuel lines that may be under 
pressure or subjected to axial loading must use flexible hose 
assemblies.
    (e) No flexible hose that might be adversely affected by high 
temperatures may be used where excessive temperatures will exist during 
operation or after engine shutdown.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 964, Jan. 26, 1968]



Sec. 27.995  Fuel valves.

    (a) There must be a positive, quick-acting valve to shut off fuel to 
each engine individually.
    (b) The control for this valve must be within easy reach of 
appropriate crewmembers.
    (c) Where there is more than one source of fuel supply there must be 
means for independent feeding from each source.
    (d) No shutoff valve may be on the engine side of any firewall.



Sec. 27.997  Fuel strainer or filter.

    There must be a fuel strainer or filter between the fuel tank outlet 
and the inlet of the first fuel system component which is susceptible to 
fuel contamination, including but not limited to the fuel metering 
device or an engine positive displacement pump, whichever is nearer the 
fuel tank outlet. This fuel strainer or filter must--
    (a) Be accessible for draining and cleaning and must incorporate a 
screen or element which is easily removable;
    (b) Have a sediment trap and drain except that it need not have a 
drain if the strainer or filter is easily removable for drain purposes;
    (c) Be mounted so that its weight is not supported by the connecting 
lines or by the inlet or outlet connections of the strainer or filter 
itself, unless adequate strength margins under all loading conditions 
are provided in the lines and connections; and
    (d) Provide a means to remove from the fuel any contaminant which 
would jeopardize the flow of fuel through rotorcraft or engine fuel 
system components required for proper rotorcraft fuel system or engine 
fuel system operation.

[Amdt. No. 27-9, 39 FR 35461, Oct. 1, 1974, as amended by Amdt. 27-20, 
49 FR 6849, Feb. 23, 1984; Amdt. 27-23, 53 FR 34213, Sept. 2, 1988]



Sec. 27.999  Fuel system drains.

    (a) There must be at least one accessible drain at the lowest point 
in each fuel system to completely drain the system with the rotorcraft 
in any ground attitude to be expected in service.
    (b) Each drain required by paragraph (a) of this section must--
    (1) Discharge clear of all parts of the rotorcraft;
    (2) Have manual or automatic means to assure positive closure in the 
off position; and
    (3) Have a drain valve--
    (i) That is readily accessible and which can be easily opened and 
closed; and
    (ii) That is either located or protected to prevent fuel spillage in 
the event of a landing with landing gear retracted.

[Doc. No. 574, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 41 
FR 55470, Dec. 20, 1976; Amdt. 27-23, 53 FR 34213, Sept. 2, 1988]

                               Oil System



Sec. 27.1011  Engines: General.

    (a) Each engine must have an independent oil system that can supply 
it with an appropriate quantity of oil at a temperature not above that 
safe for continuous operation.

[[Page 584]]

    (b) The usable oil capacity of each system may not be less than the 
product of the endurance of the rotorcraft under critical operating 
conditions and the maximum oil consumption of the engine under the same 
conditions, plus a suitable margin to ensure adequate circulation and 
cooling. Instead of a rational analysis of endurance and consumption, a 
usable oil capacity of one gallon for each 40 gallons of usable fuel may 
be used.
    (c) The oil cooling provisions for each engine must be able to 
maintain the oil inlet temperature to that engine at or below the 
maximum established value. This must be shown by flight tests.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-23, 
53 FR 34213, Sept. 2, 1988]



Sec. 27.1013  Oil tanks.

    Each oil tank must be designed and installed so that--
    (a) It can withstand, without failure, each vibration, inertia, 
fluid, and structural load expected in operation;
    (b) [Reserved]
    (c) Where used with a reciprocating engine, it has an expansion 
space of not less than the greater of 10 percent of the tank capacity or 
0.5 gallon, and where used with a turbine engine, it has an expansion 
space of not less than 10 percent of the tank capacity.
    (d) It is impossible to fill the tank expansion space inadvertently 
with the rotorcraft in the normal ground attitude;
    (e) Adequate venting is provided; and
    (f) There are means in the filler opening to prevent oil overflow 
from entering the oil tank compartment.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-9, 39 
FR 35461, Oct. 1, 1974]



Sec. 27.1015  Oil tank tests.

    Each oil tank must be designed and installed so that it can 
withstand, without leakage, an internal pressure of 5 p.s.i., except 
that each pressurized oil tank used with a turbine engine must be 
designed and installed so that it can withstand, without leakage, an 
internal pressure of 5 p.s.i., plus the maximum operating pressure of 
the tank.

[Amdt. 27-9, 39 FR 35462, Oct. 1, 1974]



Sec. 27.1017  Oil lines and fittings.

    (a) Each oil line must be supported to prevent excessive vibration.
    (b) Each oil line connected to components of the rotorcraft between 
which relative motion could exist must have provisions for flexibility.
    (c) Flexible hose must be approved.
    (d) Each oil line must have an inside diameter of not less than the 
inside diameter of the engine inlet or outlet. No line may have splices 
between connections.



Sec. 27.1019  Oil strainer or filter.

    (a) Each turbine engine installation must incorporate an oil 
strainer or filter through which all of the engine oil flows and which 
meets the following requirements:
    (1) Each oil strainer or filter that has a bypass must be 
constructed and installed so that oil will flow at the normal rate 
through the rest of the system with the strainer or filter completely 
blocked.
    (2) The oil strainer or filter must have the capacity (with respect 
to operating limitations established for the engine) to ensure that 
engine oil system functioning is not impaired when the oil is 
contaminated to a degree (with respect to particle size and density) 
that is greater than that established for the engine under Part 33 of 
this chapter.
    (3) The oil strainer or filter, unless it is installed at an oil 
tank outlet, must incorporate a means to indicate contamination before 
it reaches the capacity established in accordance with paragraph (a)(2) 
of this section.
    (4) The bypass of a strainer or filter must be constructed and 
installed so that the release of collected contaminants is minimized by 
appropriate location of the bypass to ensure that collected contaminants 
are not in the bypass flow path.
    (5) An oil strainer or filter that has no bypass, except one that is 
installed at an oil tank outlet, must have a means to connect it to the 
warning system required in Sec. 27.1305(r).

[[Page 585]]

    (b) Each oil strainer or filter in a powerplant installation using 
reciprocating engines must be constructed and installed so that oil will 
flow at the normal rate through the rest of the system with the strainer 
or filter element completely blocked.

[Amdt. 27-9, 39 FR 35462, Oct. 1, 1974, as amended by Amdt. 27-20, 49 FR 
6849, Feb. 23, 1984; Amdt. 27-23, 53 FR 34213, Sept. 2, 1988]



Sec. 27.1021  Oil system drains.

    A drain (or drains) must be provided to allow safe drainage of the 
oil system. Each drain must--
    (a) Be accessible; and
    (b) Have manual or automatic means for positive locking in the 
closed position.

[Amdt. 27-20, 49 FR 6849, Feb. 23, 1984]



Sec. 27.1027  Transmissions and gearboxes: General.

    (a) The lubrication system for components of the rotor drive system 
that require continuous lubrication must be sufficiently independent of 
the lubrication systems of the engine(s) to ensure lubrication during 
autorotation.
    (b) Pressure lubrication systems for transmissions and gearboxes 
must comply with the engine oil system requirements of Secs. 27.1013 
(except paragraph (c)), 27.1015, 27.1017, 27.1021, and 27.1337(d).
    (c) Each pressure lubrication system must have an oil strainer or 
filter through which all of the lubricant flows and must--
    (1) Be designed to remove from the lubricant any contaminant which 
may damage transmission and drive system components or impede the flow 
of lubricant to a hazardous degree;
    (2) Be equipped with a means to indicate collection of contaminants 
on the filter or strainer at or before opening of the bypass required by 
paragraph (c)(3) of this section; and
    (3) Be equipped with a bypass constructed and installed so that--
    (i) The lubricant will flow at the normal rate through the rest of 
the system with the strainer or filter completely blocked; and
    (ii) The release of collected contaminants is minimized by 
appropriate location of the bypass to ensure that collected contaminants 
are not in the bypass flowpath.
    (d) For each lubricant tank or sump outlet supplying lubrication to 
rotor drive systems and rotor drive system components, a screen must be 
provided to prevent entrance into the lubrication system of any object 
that might obstruct the flow of lubricant from the outlet to the filter 
required by paragraph (c) of this section. The requirements of paragraph 
(c) do not apply to screens installed at lubricant tank or sump outlets.
    (e) Splash-type lubrication systems for rotor drive system gearboxes 
must comply with Secs. 27.1021 and 27.1337(d).

[Amdt. 27-23, 53 FR 34213, Sept. 2, 1988, as amended by Amdt. 27-37, 64 
FR 45095, Aug. 18, 1999]

                                 Cooling



Sec. 27.1041  General.

    (a) Each powerplant cooling system must be able to maintain the 
temperatures of powerplant components within the limits established for 
these components under critical surface (ground or water) and flight 
operating conditions for which certification is required and after 
normal shutdown. Powerplant components to be considered include but may 
not be limited to engines, rotor drive system components, auxiliary 
power units, and the cooling or lubricating fluids used with these 
components.
    (b) Compliance with paragraph (a) of this section must be shown in 
tests conducted under the conditions prescribed in that paragraph.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-23, 
53 FR 34213, Sept. 2, 1988]



Sec. 27.1043  Cooling tests.

    (a) General. For the tests prescribed in Sec. 27.1041(b), the 
following apply:
    (1) If the tests are conducted under conditions deviating from the 
maximum ambient atmospheric temperature specified in paragraph (b) of 
this section, the recorded powerplant temperatures must be corrected 
under paragraphs (c) and (d) of this section unless a more rational 
correction method is applicable.

[[Page 586]]

    (2) No corrected temperature determined under paragraph (a)(1) of 
this section may exceed established limits.
    (3) For reciprocating engines, the fuel used during the cooling 
tests must be of the minimum grade approved for the engines, and the 
mixture settings must be those normally used in the flight stages for 
which the cooling tests are conducted.
    (4) The test procedures must be as prescribed in Sec. 27.1045.
    (b) Maximum ambient atmospheric temperature. A maximum ambient 
atmospheric temperature corresponding to sea level conditions of at 
least 100 degrees F. must be established. The assumed temperature lapse 
rate is 3.6 degrees F. per thousand feet of altitude above sea level 
until a temperature of -69.7 degrees F. is reached, above which altitude 
the temperature is considered constant at -69.7 degrees F. However, for 
winterization installations, the applicant may select a maximum ambient 
atmospheric temperature corresponding to sea level conditions of less 
than 100 degrees F.
    (c) Correction factor (except cylinder barrels). Unless a more 
rational correction applies, temperatures of engine fluids and power-
plant components (except cylinder barrels) for which temperature limits 
are established, must be corrected by adding to them the difference 
between the maximum ambient atmospheric temperature and the temperature 
of the ambient air at the time of the first occurrence of the maximum 
component or fluid temperature recorded during the cooling test.
    (d) Correction factor for cylinder barrel temperatures. Cylinder 
barrel temperatures must be corrected by adding to them 0.7 times the 
difference between the maximum ambient atmospheric temperature and the 
temperature of the ambient air at the time of the first occurrence of 
the maximum cylinder barrel temperature recorded during the cooling 
test.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55470, Dec. 20, 1976; Amdt. 27-14, 43 FR 2325, Jan. 16, 1978]



Sec. 27.1045  Cooling test procedures.

    (a) General. For each stage of flight, the cooling tests must be 
conducted with the rotorcraft--
    (1) In the configuration most critical for cooling; and
    (2) Under the conditions most critical for cooling.
    (b) Temperature stabilization. For the purpose of the cooling tests, 
a temperature is ``stabilized'' when its rate of change is less than two 
degrees F. per minute. The following component and engine fluid 
temperature stabilization rules apply:
    (1) For each rotorcraft, and for each stage of flight--
    (i) The temperatures must be stabilized under the conditions from 
which entry is made into the stage of flight being investigated; or
    (ii) If the entry condition normally does not allow temperatures to 
stabilize, operation through the full entry condition must be conducted 
before entry into the stage of flight being investigated in order to 
allow the temperatures to attain their natural levels at the time of 
entry.
    (2) For each helicopter during the takeoff stage of flight, the 
climb at takeoff power must be preceded by a period of hover during 
which the temperatures are stabilized.
    (c) Duration of test. For each stage of flight the tests must be 
continued until--
    (1) The temperatures stabilize or 5 minutes after the occurrence of 
the highest temperature recorded, as appropriate to the test condition;
    (2) That stage of flight is completed; or
    (3) An operating limitation is reached.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-23, 
53 FR 34214, Sept. 2, 1988]

                            Induction System



Sec. 27.1091  Air induction.

    (a) The air induction system for each engine must supply the air 
required by that engine under the operating conditions and maneuvers for 
which certification is requested.

[[Page 587]]

    (b) Each cold air induction system opening must be outside the 
cowling if backfire flames can emerge.
    (c) If fuel can accumulate in any air induction system, that system 
must have drains that discharge fuel--
    (1) Clear of the rotorcraft; and
    (2) Out of the path of exhaust flames.
    (d) For turbine engine powered rotorcraft--
    (1) There must be means to prevent hazardous quantities of fuel 
leakage or overflow from drains, vents, or other components of flammable 
fluid systems from entering the engine intake system; and
    (2) The air inlet ducts must be located or protected so as to 
minimize the ingestion of foreign matter during takeoff, landing, and 
taxiing.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 964, Jan. 26, 1968; Amdt. 27-23, 53 FR 34214, Sept. 2, 1988]



Sec. 27.1093  Induction system icing protection.

    (a) Reciprocating engines. Each reciprocating engine air induction 
system must have means to prevent and eliminate icing. Unless this is 
done by other means, it must be shown that, in air free of visible 
moisture at a temperature of 30 degrees F., and with the engines at 75 
percent of maximum continuous power--
    (1) Each rotorcraft with sea level engines using conventional 
venturi carburetors has a preheater that can provide a heat rise of 90 
degrees F.;
    (2) Each rotorcraft with sea level engines using carburetors tending 
to prevent icing has a sheltered alternate source of air, and that the 
preheat supplied to the alternate air intake is not less than that 
provided by the engine cooling air downstream of the cylinders;
    (3) Each rotorcraft with altitude engines using conventional venturi 
carburetors has a preheater capable of providing a heat rise of 120 
degrees F.; and
    (4) Each rotorcraft with altitude engines using carburetors tending 
to prevent icing has a preheater that can provide a heat rise of--
    (i) 100 degrees F.; or
    (ii) If a fluid deicing system is used, at least 40 degrees F.
    (b) Turbine engine. (1) It must be shown that each turbine engine 
and its air inlet system can operate throughout the flight power range 
of the engine (including idling)--
    (i) Without accumulating ice on engine or inlet system components 
that would adversely affect engine operation or cause a serious loss of 
power under the icing conditions specified in appendix C of Part 29 of 
this chapter; and
    (ii) In snow, both falling and blowing, without adverse effect on 
engine operation, within the limitations established for the rotorcraft.
    (2) Each turbine engine must idle for 30 minutes on the ground, with 
the air bleed available for engine icing protection at its critical 
condition, without adverse effect, in an atmosphere that is at a 
temperature between 15 deg. and 30  deg.F (between -9 deg. and -1 
deg.C) and has a liquid water content not less than 0.3 gram per cubic 
meter in the form of drops having a mean effective diameter not less 
than 20 microns, followed by momentary operation at takeoff power or 
thrust. During the 30 minutes of idle operation, the engine may be run 
up periodically to a moderate power or thrust setting in a manner 
acceptable to the Administrator.
    (c) Supercharged reciprocating engines. For each engine having 
superchargers to pressurize the air before it enters the carburetor, the 
heat rise in the air caused by that supercharging at any altitude may be 
utilized in determining compliance with paragraph (a) of this section if 
the heat rise utilized is that which will be available, automatically, 
for the applicable altitude and operating condition because of 
supercharging.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55470, Dec. 20, 1976; Amdt. 27-12, 42 FR 15045, Mar. 17, 1977; 
Amdt. 27-20, 49 FR 6849, Feb. 23, 1984; Amdt. 27-23, 53 FR 34214, Sept. 
2, 1988]

                             Exhaust System



Sec. 27.1121  General.

    For each exhaust system--

[[Page 588]]

    (a) There must be means for thermal expansion of manifolds and 
pipes;
    (b) There must be means to prevent local hot spots;
    (c) Exhaust gases must discharge clear of the engine air intake, 
fuel system components, and drains;
    (d) Each exhaust system part with a surface hot enough to ignite 
flammable fluids or vapors must be located or shielded so that leakage 
from any system carrying flammable fluids or vapors will not result in a 
fire caused by impingement of the fluids or vapors on any part of the 
exhaust system including shields for the exhaust system;
    (e) Exhaust gases may not impair pilot vision at night due to glare;
    (f) If significant traps exist, each turbine engine exhaust system 
must have drains discharging clear of the rotorcraft, in any normal 
ground and flight attitudes, to prevent fuel accumulation after the 
failure of an attempted engine start;
    (g) Each exhaust heat exchanger must incorporate means to prevent 
blockage of the exhaust port after any internal heat exchanger failure.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964 as amended by Amdt. 27-12, 42 
FR 15045, Mar. 17, 1977]



Sec. 27.1123  Exhaust piping.

    (a) Exhaust piping must be heat and corrosion resistant, and must 
have provisions to prevent failure due to expansion by operating 
temperatures.
    (b) Exhaust piping must be supported to withstand any vibration and 
inertia loads to which it would be subjected in operations.
    (c) Exhaust piping connected to components between which relative 
motion could exist must have provisions for flexibility.

[Amdt. 27-11, 41 FR 55470, Dec. 20, 1976]

                   Powerplant Controls and Accessories



Sec. 27.1141  Powerplant controls: general.

    (a) Powerplant controls must be located and arranged under 
Sec. 27.777 and marked under Sec. 27.1555.
    (b) Each flexible powerplant control must be approved.
    (c) Each control must be able to maintain any set position without--
    (1) Constant attention; or
    (2) Tendency to creep due to control loads or vibration.
    (d) Controls of powerplant valves required for safety must have--
    (1) For manual valves, positive stops or in the case of fuel valves 
suitable index provisions, in the open and closed position; and
    (2) For power-assisted valves, a means to indicate to the flight 
crew when the valve--
    (i) Is in the fully open or fully closed position; or
    (ii) Is moving between the fully open and fully closed position.
    (e) For turbine engine powered rotorcraft, no single failure or 
malfunction, or probable combination thereof, in any powerplant control 
system may cause the failure of any powerplant function necessary for 
safety.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-12, 
42 FR 15045, Mar. 17, 1977; Amdt. 27-23, 53 FR 34214, Sept. 2, 1988; 
Amdt. 27-33, 61 FR 21907, May 10, 1996]



Sec. 27.1143  Engine controls.

    (a) There must be a separate power control for each engine.
    (b) Power controls must be grouped and arranged to allow--
    (1) Separate control of each engine; and
    (2) Simultaneous control of all engines.
    (c) Each power control must provide a positive and immediately 
responsive means of controlling its engine.
    (d) If a power control incorporates a fuel shutoff feature, the 
control must have a means to prevent the inadvertent movement of the 
control into the shutoff position. The means must--
    (1) Have a positive lock or stop at the idle position; and
    (2) Require a separate and distinct operation to place the control 
in the shutoff position.
    (e) For rotorcraft to be certificated for a 30-second OEI power 
rating, a

[[Page 589]]

means must be provided to automatically activate and control the 30-
second OEI power and prevent any engine from exceeding the installed 
engine limits associated with the 30-second OEI power rating approved 
for the rotorcraft.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55470, Dec. 20, 1976; Amdt. 27-23, 53 FR 34214, Sept. 2, 1988; 
Amdt. 27-29, 59 FR 47767, Sept. 16, 1994]



Sec. 27.1145  Ignition switches.

    (a) There must be means to quickly shut off all ignition by the 
grouping of switches or by a master ignition control.
    (b) Each group of ignition switches, except ignition switches for 
turbine engines for which continuous ignition is not required, and each 
master ignition control must have a means to prevent its inadvertent 
operation.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-12, 
42 FR 15045, Mar. 17, 1977]



Sec. 27.1147  Mixture controls.

    If there are mixture controls, each engine must have a separate 
control and the controls must be arranged to allow--
    (a) Separate control of each engine; and
    (b) Simultaneous control of all engines.



Sec. 27.1151  Rotor brake controls.

    (a) It must be impossible to apply the rotor brake inadvertently in 
flight.
    (b) There must be means to warn the crew if the rotor brake has not 
been completely released before takeoff.

[Doc. No. 28008, 61 FR 21907, May 10, 1996]



Sec. 27.1163  Powerplant accessories.

    (a) Each engine-mounted accessory must--
    (1) Be approved for mounting on the engine involved;
    (2) Use the provisions on the engine for mounting; and
    (3) Be sealed in such a way as to prevent contamination of the 
engine oil system and the accessory system.
    (b) Unless other means are provided, torque limiting means must be 
provided for accessory drives located on any component of the 
transmission and rotor drive system to prevent damage to these 
components from excessive accessory load.

[Amdt. 27-2, 33 FR 964, Jan. 26, 1968, as amended by Amdt. 27-20, 49 FR 
6849, Feb. 23, 1984; Amdt. 27-23, 53 FR 34214, Sept. 2, 1988]

                       Powerplant Fire Protection



Sec. 27.1183  Lines, fittings, and components.

    (a) Except as provided in paragraph (b) of this section, each line, 
fitting, and other component carrying flammable fluid in any area 
subject to engine fire conditions must be fire resistant, except that 
flammable fluid tanks and supports which are part of and attached to the 
engine must be fireproof or be enclosed by a fireproof shield unless 
damage by fire to any non-fireproof part will not cause leakage or 
spillage of flammable fluid. Components must be shielded or located so 
as to safeguard against the ignition of leaking flammable fluid. An 
integral oil sump of less than 25-quart capacity on a reciprocating 
engine need not be fireproof nor be enclosed by a fireproof shield.
    (b) Paragraph (a) does not apply to--
    (1) Lines, fittings, and components which are already approved as 
part of a type certificated engine; and
    (2) Vent and drain lines, and their fittings, whose failure will not 
result in, or add to, a fire hazard.
    (c) Each flammable fluid drain and vent must discharge clear of the 
induction system air inlet.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-1, 32 
FR 6914, May 5, 1967; Amdt. 27-9, 39 FR 35462, Oct. 1, 1974; Amdt. 27-
20, 49 FR 6849, Feb. 23, 1984]



Sec. 27.1185  Flammable fluids.

    (a) Each fuel tank must be isolated from the engines by a firewall 
or shroud.
    (b) Each tank or reservoir, other than a fuel tank, that is part of 
a system containing flammable fluids or gases must be isolated from the 
engine by a firewall or shroud, unless the design of the system, the 
materials used

[[Page 590]]

in the tank and its supports, the shutoff means, and the connections, 
lines and controls provide a degree of safety equal to that which would 
exist if the tank or reservoir were isolated from the engines.
    (c) There must be at least one-half inch of clear airspace between 
each tank and each firewall or shroud isolating that tank, unless 
equivalent means are used to prevent heat transfer from each engine 
compartment to the flammable fluid.
    (d) Absorbent materials close to flammable fluid system components 
that might leak must be covered or treated to prevent the absorption of 
hazardous quantities of fluids.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 964, Jan. 26, 1968; Amdt. 27-11, 41 FR 55470, Dec. 20, 1976; Amdt. 
27-37, 64 FR 45095, Aug. 18, 1999]



Sec. 27.1187  Ventilation and drainage.

    Each compartment containing any part of the powerplant installation 
must have provision for ventilation and drainage of flammable fluids. 
The drainage means must be--
    (a) Effective under conditions expected to prevail when drainage is 
needed, and
    (b) Arranged so that no discharged fluid will cause an additional 
fire hazard.

[Doc. No. 29247, 64 FR 45095, Aug. 18, 1999]



Sec. 27.1189  Shutoff means.

    (a) There must be means to shut off each line carrying flammable 
fluids into the engine compartment, except--
    (1) Lines, fittings, and components forming an intergral part of an 
engine;
    (2) For oil systems for which all components of the system, 
including oil tanks, are fireproof or located in areas not subject to 
engine fire conditions; and
    (3) For reciprocating engine installations only, engine oil system 
lines in installation using engines of less than 500 cu. in. 
displacement.
    (b) There must be means to guard against inadvertent operation of 
each shutoff, and to make it possible for the crew to reopen it in 
flight after it has been closed.
    (c) Each shutoff valve and its control must be designed, located, 
and protected to function properly under any condition likely to result 
from an engine fire.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 964, Jan. 26, 1968; Amdt. 27-20, 49 FR 6850, Feb. 23, 1984; Amdt. 27-
23, 53 FR 34214, Sept. 2, 1988]



Sec. 27.1191  Firewalls.

    (a) Each engine, including the combustor, turbine, and tailpipe 
sections of turbine engines must be isolated by a firewall, shroud, or 
equivalent means, from personnel compartments, structures, controls, 
rotor mechanisms, and other parts that are--
    (1) Essential to a controlled landing: and
    (2) Not protected under Sec. 27.861.
    (b) Each auxiliary power unit and combustion heater, and any other 
combustion equipment to be used in flight, must be isolated from the 
rest of the rotorcraft by firewalls, shrouds, or equivalent means.
    (c) In meeting paragraphs (a) and (b) of this section, account must 
be taken of the probable path of a fire as affected by the airflow in 
normal flight and in autorotation.
    (d) Each firewall and shroud must be constructed so that no 
hazardous quantity of air, fluids, or flame can pass from any engine 
compartment to other parts of the rotorcraft.
    (e) Each opening in the firewall or shroud must be sealed with 
close-fitting, fireproof grommets, bushings, or firewall fittings.
    (f) Each firewall and shroud must be fireproof and protected against 
corrosion.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 22 
FR 964, Jan. 26, 1968]



Sec. 27.1193  Cowling and engine compartment covering.

    (a) Each cowling and engine compartment covering must be constructed 
and supported so that it can resist the vibration, inertia, and air 
loads to which it may be subjected in operation.
    (b) There must be means for rapid and complete drainage of each part 
of the cowling or engine compartment in the normal ground and flight 
attitudes.
    (c) No drain may discharge where it might cause a fire hazard.

[[Page 591]]

    (d) Each cowling and engine compartment covering must be at least 
fire resistant.
    (e) Each part of the cowling or engine compartment covering subject 
to high temperatures due to its nearness to exhaust system parts or 
exhaust gas impingement must be fireproof.
    (f) A means of retaining each openable or readily removable panel, 
cowling, or engine or rotor drive system covering must be provided to 
preclude hazardous damage to rotors or critical control components in 
the event of structural or mechanical failure of the normal retention 
means, unless such failure is extremely improbable.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-23, 
53 FR 34214, Sept. 2, 1988]



Sec. 27.1194  Other surfaces.

    All surfaces aft of, and near, powerplant compartments, other than 
tail surfaces not subject to heat, flames, or sparks emanating from a 
powerplant compartment, must be at least fire resistant.

[Amdt. 27-2, 33 FR 964, Jan. 26, 1968]



Sec. 27.1195  Fire detector systems.

    Each turbine engine powered rotorcraft must have approved quick-
acting fire detectors in numbers and locations insuring prompt detection 
of fire in the engine compartment which cannot be readily observed in 
flight by the pilot in the cockpit.

[Amdt. 27-5, 36 FR 5493, Mar. 24, 1971]



                          Subpart F--Equipment

                                 General



Sec. 27.1301  Function and installation.

    Each item of installed equipment must--
    (a) Be of a kind and design appropriate to its intended function;
    (b) Be labeled as to its identification, function, or operating 
limitations, or any applicable combination of these factors;
    (c) Be installed according to limitations specified for that 
equipment; and
    (d) Function properly when installed.



Sec. 27.1303  Flight and navigation instruments.

    The following are the required flight and navigation instruments:
    (a) An airspeed indicator.
    (b) An altimeter.
    (c) A magnetic direction indicator.



Sec. 27.1305  Powerplant instruments.

    The following are the required powerplant instruments:
    (a) A carburetor air temperature indicator, for each engine having a 
preheater that can provide a heat rise in excess of 60 deg. F.
    (b) A cylinder head temperature indicator, for each--
    (1) Air cooled engine;
    (2) Rotorcraft with cooling shutters; and
    (3) Rotorcraft for which compliance with Sec. 27.1043 is shown in 
any condition other than the most critical flight condition with respect 
to cooling.
    (c) A fuel pressure indicator, for each pump-fed engine.
    (d) A fuel quantity indicator, for each fuel tank.
    (e) A manifold pressure indicator, for each altitude engine.
    (f) An oil temperature warning device to indicate when the 
temperature exceeds a safe value in each main rotor drive gearbox 
(including any gearboxes essential to rotor phasing) having an oil 
system independent of the engine oil system.
    (g) An oil pressure warning device to indicate when the pressure 
falls below a safe value in each pressure-lubricated main rotor drive 
gearbox (including any gearboxes essential to rotor phasing) having an 
oil system independent of the engine oil system.
    (h) An oil pressure indicator for each engine.
    (i) An oil quantity indicator for each oil tank.
    (j) An oil temperature indicator for each engine.
    (k) At least one tachometer to indicate the r.p.m. of each engine 
and, as applicable--
    (1) The r.p.m. of the single main rotor;
    (2) The common r.p.m. of any main rotors whose speeds cannot vary 
appreciably with respect to each other; or

[[Page 592]]

    (3) The r.p.m. of each main rotor whose speed can vary appreciably 
with respect to that of another main rotor.
    (l) A low fuel warning device for each fuel tank which feeds an 
engine. This device must--
    (1) Provide a warning to the flightcrew when approximately 10 
minutes of usable fuel remains in the tank; and
    (2) Be independent of the normal fuel quantity indicating system.
    (m) Means to indicate to the flightcrew the failure of any fuel pump 
installed to show compliance with Sec. 27.955.
    (n) A gas temperature indicator for each turbine engine.
    (o) Means to enable the pilot to determine the torque of each 
turboshaft engine, if a torque limitation is established for that engine 
under Sec. 27.1521(e).
    (p) For each turbine engine, an indicator to indicate the 
functioning of the powerplant ice protection system.
    (q) An indicator for the fuel filter required by Sec. 27.997 to 
indicate the occurrence of contamination of the filter at the degree 
established by the applicant in compliance with Sec. 27.955.
    (r) For each turbine engine, a warning means for the oil strainer or 
filter required by Sec. 27.1019, if it has no bypass, to warn the pilot 
of the occurrence of contamination of the strainer or filter before it 
reaches the capacity established in accordance with Sec. 27.1019(a)(2).
    (s) An indicator to indicate the functioning of any selectable or 
controllable heater used to prevent ice clogging of fuel system 
components.
    (t) For rotorcraft for which a 30-second/2-minute OEI power rating 
is requested, a means must be provided to alert the pilot when the 
engine is at the 30-second and the 2-minute OEI power levels, when the 
event begins, and when the time interval expires.
    (u) For each turbine engine utilizing 30-second/2-minute OEI power, 
a device or system must be provided for use by ground personnel which--
    (1) Automatically records each usage and duration of power at the 
30-second and 2-minute OEI levels;
    (2) Permits retrieval of the recorded data;
    (3) Can be reset only by ground maintenance personnel; and
    (4) Has a means to verify proper operation of the system or device.
    (v) Warning or caution devices to signal to the flight crew when 
ferromagnetic particles are detected by the chip detector required by 
Sec. 27.1337(e).

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-9, 39 
FR 35462, Oct. 1, 1974; Amdt. 27-23, 53 FR 34214, Sept. 2, 1988; Amdt. 
27-29, 59 FR 47767, Sept. 16, 1994; Amdt. 27-37, 64 FR 45095, Aug. 18, 
1999; 64 FR 47563, Aug. 31, 1999]



Sec. 27.1307  Miscellaneous equipment.

    The following is the required miscellaneous equipment:
    (a) An approved seat for each occupant.
    (b) An approved safety belt for each occupant.
    (c) A master switch arrangement.
    (d) An adequate source of electrical energy, where electrical energy 
is necessary for operation of the rotorcraft.
    (e) Electrical protective devices.



Sec. 27.1309  Equipment, systems, and installations.

    (a) The equipment, systems, and installations whose functioning is 
required by this subchapter must be designed and installed to ensure 
that they perform their intended functions under any foreseeable 
operating condition.
    (b) The equipment, systems, and installations of a multiengine 
rotorcraft must be designed to prevent hazards to the rotorcraft in the 
event of a probable malfunction or failure.
    (c) The equipment, systems, and installations of single-engine 
rotorcraft must be designed to minimize hazards to the rotorcraft in the 
event of a probable malfunction or failure.
    (d) In showing compliance with paragraph (a), (b), or (c) of this 
section, the effects of lightning strikes on the rotorcraft must be 
considered in accordance with Sec. 27.610.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-21, 
49 FR 44435, Nov. 6, 1984]

[[Page 593]]

                        Instruments: Installation



Sec. 27.1321  Arrangement and visibility.

    (a) Each flight, navigation, and powerplant instrument for use by 
any pilot must be easily visible to him.
    (b) For each multiengine rotorcraft, identical powerplant 
instruments must be located so as to prevent confusion as to which 
engine each instrument relates.
    (c) Instrument panel vibration may not damage, or impair the 
readability or accuracy of, any instrument.
    (d) If a visual indicator is provided to indicate malfunction of an 
instrument, it must be effective under all probable cockpit lighting 
conditions.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964; 29 FR 17885, Dec. 17, 1964, 
as amended by Amdt. 27-13, 42 FR 36971, July 18, 1977]



Sec. 27.1322  Warning, caution, and advisory lights.

    If warning, caution or advisory lights are installed in the cockpit, 
they must, unless otherwise approved by the Administrator, be--
    (a) Red, for warning lights (lights indicating a hazard which may 
require immediate corrective action):
    (b) Amber, for caution lights (lights indicating the possible need 
for future corrective action);
    (c) Green, for safe operation lights; and
    (d) Any other color, including white, for lights not described in 
paragraphs (a) through (c) of this section, provided the color differs 
sufficiently from the colors prescribed in paragraphs (a) through (c) of 
this section to avoid possible confusion.

[Amdt. 27-11, 41 FR 55470, Dec. 20, 1976]



Sec. 27.1323  Airspeed indicating system.

    (a) Each airspeed indicating instrument must be calibrated to 
indicate true airspeed (at sea level with a standard atmosphere) with a 
minimum practicable instrument calibration error when the corresponding 
pitot and static pressures are applied.
    (b) The airspeed indicating system must be calibrated in flight at 
forward speeds of 20 knots and over.
    (c) At each forward speed above 80 percent of the climbout speed, 
the airspeed indicator must indicate true airspeed, at sea level with a 
standard atmosphere, to within an allowable installation error of not 
more than the greater of--
    (1) plus-minus3 percent of the calibrated airspeed; or
    (2) Five knots.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-13, 
42 FR 36972, July 18, 1977]



Sec. 27.1325  Static pressure systems.

    (a) Each instrument with static air case connections must be vented 
so that the influence of rotorcraft speed, the opening and closing of 
windows, airflow variation, and moisture or other foreign matter does 
not seriously affect its accuracy.
    (b) Each static pressure port must be designed and located in such 
manner that the correlation between air pressure in the static pressure 
system and true ambient atmospheric static pressure is not altered when 
the rotorcraft encounters icing conditions. An anti-icing means or an 
alternate source of static pressure may be used in showing compliance 
with this requirement. If the reading of the altimeter, when on the 
alternate static pressure system, differs from the reading of the 
altimeter when on the primary static system by more than 50 feet, a 
correction card must be provided for the alternate static system.
    (c) Except as provided in paragraph (d) of this section, if the 
static pressure system incorporates both a primary and an alternate 
static pressure source, the means for selecting one or the other source 
must be designed so that--
    (1) When either source is selected, the other is blocked off; and
    (2) Both sources cannot be blocked off simultaneously.

[[Page 594]]

    (d) For unpressurized rotorcraft, paragraph (c)(1) of this section 
does not apply if it can be demonstrated that the static pressure system 
calibration, when either static pressure source is selected is not 
changed by the other static pressure source being open or blocked.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-13, 
42 FR 36972, July 18, 1977]



Sec. 27.1327  Magnetic direction indicator.

    (a) Except as provided in paragraph (b) of this section--
    (1) Each magnetic direction indicator must be installed so that its 
accuracy is not excessively affected by the rotorcraft's vibration or 
magnetic fields; and
    (2) The compensated installation may not have a deviation, in level 
flight, greater than 10 degrees on any heading.
    (b) A magnetic nonstabilized direction indicator may deviate more 
than 10 degrees due to the operation of electrically powered systems 
such as electrically heated windshields if either a magnetic stabilized 
direction indicator, which does not have a deviation in level flight 
greater than 10 degrees on any heading, or a gyroscopic direction 
indicator, is installed. Deviations of a magnetic nonstabilized 
direction indicator of more than 10 degrees must be placarded in 
accordance with Sec. 27.1547(e).

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 27-13, 42 FR 36972, July 18, 1977]



Sec. 27.1329  Automatic pilot system.

    (a) Each automatic pilot system must be designed so that the 
automatic pilot can--
    (1) Be sufficiently overpowered by one pilot to allow control of the 
rotorcraft; and
    (2) Be readily and positively disengaged by each pilot to prevent it 
from interfering with control of the rotorcraft.
    (b) Unless there is automatic synchronization, each system must have 
a means to readily indicate to the pilot the alignment of the actuating 
device in relation to the control system it operates.
    (c) Each manually operated control for the system's operation must 
be readily accessible to the pilots.
    (d) The system must be designed and adjusted so that, within the 
range of adjustment available to the pilot, it cannot produce hazardous 
loads on the rotorcraft or create hazardous deviations in the flight 
path under any flight condition appropriate to its use, either during 
normal operation or in the event of a malfunction, assuming that 
corrective action begins within a reasonable period of time.
    (e) If the automatic pilot integrates signals from auxiliary 
controls or furnishes signals for operation of other equipment, there 
must be positive interlocks and sequencing of engagement to prevent 
improper operation.
    (f) If the automatic pilot system can be coupled to airborne 
navigation equipment, means must be provided to indicate to the pilots 
the current mode of operation. Selector switch position is not 
acceptable as a means of indication.

[Amdt. 27-21, 49 FR 44435, Nov. 6, 1984, as amended by Amdt. 27-35, 63 
FR 43285, Aug. 12, 1998]



Sec. 27.1335  Flight director systems.

    If a flight director system is installed, means must be provided to 
indicate to the flight crew its current mode of operation. Selector 
switch position is not acceptable as a means of indication.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 27-13, 42 FR 36972, July 18, 1977]



Sec. 27.1337  Powerplant instruments.

    (a) Instruments and instrument lines.
    (1) Each powerplant instrument line must meet the requirements of 
Secs. 27.- 961 and 27.993.

[[Page 595]]

    (2) Each line carrying flammable fluids under pressure must--
    (i) Have restricting orifices or other safety devices at the source 
of pressure to prevent the escape of excessive fluid if the line fails; 
and
    (ii) Be installed and located so that the escape of fluids would not 
create a hazard.
    (3) Each powerplant instrument that utilizes flammable fluids must 
be installed and located so that the escape of fluid would not create a 
hazard.
    (b) Fuel quantity indicator. Each fuel quantity indicator must be 
installed to clearly indicate to the flight crew the quantity of fuel in 
each tank in flight. In addition--
    (1) Each fuel quantity indicator must be calibrated to read ``zero'' 
during level flight when the quantity of fuel remaining in the tank is 
equal to the unusable fuel supply determined under Sec. 27.959;
    (2) When two or more tanks are closely interconnected by a gravity 
feed system and vented, and when it is impossible to feed from each tank 
separately, at least one fuel quantity indicator must be installed; and
    (3) Each exposed sight gauge used as a fuel quantity indicator must 
be protected against damage.
    (c) Fuel flowmeter system. If a fuel flowmeter system is installed, 
each metering component must have a means for bypassing the fuel supply 
if malfunction of that component severely restricts fuel flow.
    (d) Oil quantity indicator. There must be means to indicate the 
quantity of oil in each tank--
    (1) On the ground (including during the filling of each tank); and
    (2) In flight, if there is an oil transfer system or reserve oil 
supply system.
    (e) Rotor drive system transmissions and gearboxes utilizing 
ferromagnetic materials must be equipped with chip detectors designed to 
indicate the presence of ferromagnetic particles resulting from damage 
or excessive wear. Chip detectors must--
    (1) Be designed to provide a signal to the device required by 
Sec. 27.1305(v) and be provided with a means to allow crewmembers to 
check, in flight, the function of each detector electrical circuit and 
signal.
    (2) [Reserved]

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c) 49 U.S.C. 1655(c))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-12, 
42 FR 15046, Mar. 17, 1977; Amdt. 27-23, 53 FR 34214, Sept. 2, 1988; 
Amdt. 27-37, 64 FR 45095, Aug. 18, 1999]

                    Electrical Systems and Equipment



Sec. 27.1351  General.

    (a) Electrical system capacity. Electrical equipment must be 
adequate for its intended use. In addition--
    (1) Electric power sources, their transmission cables, and their 
associated control and protective devices must be able to furnish the 
required power at the proper voltage to each load circuit essential for 
safe operation; and
    (2) Compliance with paragraph (a)(1) of this section must be shown 
by an electrical load analysis, or by electrical measurements that take 
into account the electrical loads applied to the electrical system, in 
probable combinations and for probable durations.
    (b) Function. For each electrical system, the following apply:
    (1) Each system, when installed, must be--
    (i) Free from hazards in itself, in its method of operation, and in 
its effects on other parts of the rotorcraft; and
    (ii) Protected from fuel, oil, water, other detrimental substances, 
and mechanical damage.
    (2) Electric power sources must function properly when connected in 
combination or independently.
    (3) No failure or malfunction of any source may impair the ability 
of any remaining source to supply load circuits essential for safe 
operation.
    (4) Each electric power source control must allow the independent 
operation of each source.
    (c) Generating system. There must be at least one generator if the 
system supplies power to load circuits essential for safe operation. In 
addition--
    (1) Each generator must be able to deliver its continuous rated 
power;
    (2) Generator voltage control equipment must be able to dependably 
regulate each generator output within rated limits;

[[Page 596]]

    (3) Each generator must have a reverse current cutout designed to 
disconnect the generator from the battery and from the other generators 
when enough reverse current exists to damage that generator; and
    (4) Each generator must have an overvoltage control designed and 
installed to prevent damage to the electrical system, or to equipment 
supplied by the electrical system, that could result if that generator 
were to develop an overvoltage condition.
    (d) Instruments. There must be means to indicate to appropriate 
crewmembers the electric power system quantities essential for safe 
operation of the system. In addition--
    (1) For direct current systems, an ammeter that can be switched into 
each generator feeder may be used; and
    (2) If there is only one generator, the ammeter may be in the 
battery feeder.
    (e) External power. If provisions are made for connecting external 
power to the rotorcraft, and that external power can be electrically 
connected to equipment other than that used for engine starting, means 
must be provided to ensure that no external power supply having a 
reverse polarity, or a reverse phase sequence, can supply power to the 
rotorcraft's electrical system.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))


[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55470, Dec. 20, 1976; Amdt. 27-13, 42 FR 36972, July 18, 1977]



Sec. 27.1353  Storage battery design and installation.

    (a) Each storage battery must be designed and installed as 
prescribed in this section.
    (b) Safe cell temperatures and pressures must be maintained during 
any probable charging and discharging condition. No uncontrolled 
increase in cell temperature may result when the battery is recharged 
(after previous complete discharge)--
    (1) At maximum regulated voltage or power;
    (2) During a flight of maximum duration; and
    (3) Under the most adverse cooling condition likely to occur in 
service.
    (c) Compliance with paragraph (b) of this section must be shown by 
test unless experience with similar batteries and installations has 
shown that maintaining safe cell temperatures and pressures presents no 
problem.
    (d) No explosive or toxic gases emitted by any battery in normal 
operation, or as the result of any probable malfunction in the charging 
system or battery installation, may accumulate in hazardous quantities 
within the rotorcraft.
    (e) No corrosive fluids or gases that may escape from the battery 
may damage surrounding structures or adjacent essential equipment.
    (f) Each nickel cadmium battery installation capable of being used 
to start an engine or auxiliary power unit must have provisions to 
prevent any hazardous effect on structure or essential systems that may 
be caused by the maximum amount of heat the battery can generate during 
a short circuit of the battery or of its individual cells.
    (g) Nickel cadmium battery installations capable of being used to 
start an engine or auxiliary power unit must have--
    (1) A system to control the charging rate of the battery 
automatically so as to prevent battery overheating;
    (2) A battery temperature sensing and over-temperature warning 
system with a means for disconnecting the battery from its charging 
source in the event of an over-temperature condition; or
    (3) A battery failure sensing and warning system with a means for 
disconnecting the battery from its charging source in the event of 
battery failure.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-13, 
42 FR 36972, July 18, 1977; Amdt. 27-14, 43 FR 2325, Jan. 16, 1978]



Sec. 27.1357  Circuit protective devices.

    (a) Protective devices, such as fuses or circuit breakers, must be 
installed in each electrical circuit other than--

[[Page 597]]

    (1) The main circuits of starter motors; and
    (2) Circuits in which no hazard is presented by their omission.
    (b) A protective device for a circuit essential to flight safety may 
not be used to protect any other circuit.
    (c) Each resettable circuit protective device (``trip free'' device 
in which the tripping mechanism cannot be overridden by the operating 
control) must be designed so that--
    (1) A manual operation is required to restore service after 
trippling; and
    (2) If an overload or circuit fault exists, the device will open the 
circuit regardless of the position of the operating control.
    (d) If the ability to reset a circuit breaker or replace a fuse is 
essential to safety in flight, that circuit breaker or fuse must be 
located and identified so that it can be readily reset or replaced in 
flight.
    (e) If fuses are used, there must be one spare of each rating, or 50 
percent spare fuses of each rating, whichever is greater.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964; 29 FR 17885, Dec. 17, 1964, 
as amended by Amdt. 27-13, 42 FR 36972, July 18, 1977]



Sec. 27.1361  Master switch.

    (a) There must be a master switch arrangement to allow ready 
disconnection of each electric power source from the main bus. The point 
of disconnection must be adjacent to the sources controlled by the 
switch.
    (b) Load circuits may be connected so that they remain energized 
after the switch is opened, if they are protected by circuit protective 
devices, rated at five amperes or less, adjacent to the electric power 
source.
    (c) The master switch or its controls must be installed so that the 
switch is easily discernible and accessible to a crewmember in flight.



Sec. 27.1365  Electric cables.

    (a) Each electric connecting cable must be of adequate capacity.
    (b) Each cable that would overheat in the event of circuit overload 
or fault must be at least flame resistant and may not emit dangerous 
quantities of toxic fumes.
    (c) Insulation on electrical wire and cable installed in the 
rotorcraft must be self-extinguishing when tested in accordance with 
Appendix F, Part I(a)(3), of part 25 of this chapter.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-35, 
63 FR 43285, Aug. 12, 1998]



Sec. 27.1367  Switches.

    Each switch must be--
    (a) Able to carry its rated current;
    (b) Accessible to the crew; and
    (c) Labeled as to operation and the circuit controlled.

                                 Lights



Sec. 27.1381  Instrument lights.

    The instrument lights must--
    (a) Make each instrument, switch, and other devices for which they 
are provided easily readable; and
    (b) Be installed so that--
    (1) Their direct rays are shielded from the pilot's eyes; and
    (2) No objectionable reflections are visible to the pilot.



Sec. 27.1383  Landing lights.

    (a) Each required landing or hovering light must be approved.
    (b) Each landing light must be installed so that--
    (1) No objectionable glare is visible to the pilot;
    (2) The pilot is not adversely affected by halation; and
    (3) It provides enough light for night operation, including hovering 
and landing.
    (c) At least one separate switch must be provided, as applicable--
    (1) For each separately installed landing light; and
    (2) For each group of landing lights installed at a common location.



Sec. 27.1385  Position light system installation.

    (a) General. Each part of each position light system must meet the 
applicable requirements of this section, and each system as a whole must 
meet the

[[Page 598]]

requirements of Secs. 27.1387 through 27.1397.
    (b) Forward position lights. Forward position lights must consist of 
a red and a green light spaced laterally as far apart as practicable and 
installed forward on the rotorcraft so that, with the rotorcraft in the 
normal flying position, the red light is on the left side and the green 
light is on the right side. Each light must be approved.
    (c) Rear position light. The rear position light must be a white 
light mounted as far aft as practicable, and must be approved.
    (d) Circuit. The two forward position lights and the rear position 
light must make a single circuit.
    (e) Light covers and color filters. Each light cover or color filter 
must be at least flame resistant and may not change color or shape or 
lose any appreciable light transmission during normal use.



Sec. 27.1387  Position light system dihedral angles.

    (a) Except as provided in paragraph (e) of this section, each 
forward and rear position light must, as installed, show unbroken light 
within the dihedral angles described in this section.
    (b) Dihedral angle L (left) is formed by two intersecting vertical 
planes, the first parallel to the longitudinal axis of the rotorcraft, 
and the other at 110 degrees to the left of the first, as viewed when 
looking forward along the longitudinal axis.
    (c) Dihedral angle R (right) is formed by two intersecting vertical 
planes, the first parallel to the longitudinal axis of the rotorcraft, 
and the other at 110 degrees to the right of the first, as viewed when 
looking forward along the longitudinal axis.
    (d) Dihedral angle A (aft) is formed by two intersecting vertical 
planes making angles of 70 degrees to the right and to the left, 
respectively, to a vertical plane passing through the longitudinal axis, 
as viewed when looking aft along the longitudinal axis.
    (e) If the rear position light, when mounted as far aft as 
practicable in accordance with Sec. 25.1385(c), cannot show unbroken 
light within dihedral angle A (as defined in paragraph (d) of this 
section), a solid angle or angles of obstructed visibility totaling not 
more than 0.04 steradians is allowable within that dihedral angle, if 
such solid angle is within a cone whose apex is at the rear position 
light and whose elements make an angle of 30 deg. with a vertical line 
passing through the rear position light.

(49 U.S.C. 1655(c))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-7, 36 
FR 21278, Nov. 5, 1971]



Sec. 27.1389  Position light distribution and intensities.

    (a) General. the intensities prescribed in this section must be 
provided by new equipment with light covers and color filters in place. 
Intensities must be determined with the light source operating at a 
steady value equal to the average luminous output of the source at the 
normal operating voltage of the rotorcraft. The light distribution and 
intensity of each position light must meet the requirements of paragraph 
(b) of this section.
    (b) Forward and rear position lights. The light distribution and 
intensities of forward and rear position lights must be expressed in 
terms of minimum intensities in the horizontal plane, minimum 
intensities in any vertical plane, and maximum intensities in 
overlapping beams, within dihedral angles L, R, and A, and must meet the 
following requirements:
    (1) Intensities in the horizontal plane. Each intensity in the 
horizontal plane (the plane containing the longitudinal axis of the 
rotorcraft and perpendicular to the plane of symmetry of the rotorcraft) 
must equal or exceed the values in Sec. 27.1391.
    (2) Intensities in any vertical plane. Each intensity in any 
vertical plane (the plane perpendicular to the horizontal plane) must 
equal or exceed the appropriate value in Sec. 27.1393, where I is the 
minimum intensity prescribed in Sec. 27.1391 for the corresponding 
angles in the horizontal plane.
    (3) Intensities in overlaps between adjacent signals. No intensity 
in any overlap between adjacent signals may exceed the values in 
Sec. 27.1395, except that higher intensities in overlaps may be used 
with main beam intensities substantially greater than the minima

[[Page 599]]

specified in Secs. 27.1391 and 27.1393, if the overlap intensities in 
relation to the main beam intensities do not adversely affect signal 
clarity. When the peak intensity of the forward position lights is 
greater than 100 candles, the maximum overlap intensities between them 
may exceed the values in Sec. 27.1395 if the overlap intensity in Area A 
is not more than 10 percent of peak position light intensity and the 
overlap intensity in Area B is not more than 2.5 percent of peak 
position light intensity.



Sec. 27.1391  Minimum intensities in the horizontal plane of forward and rear position lights.

    Each position light intensity must equal or exceed the applicable 
values in the following table:

------------------------------------------------------------------------
                                        Angle from right or
                                       left of longitudinal    Intensity
   Dihedral angle (light included)      axis, measured from    (candles)
                                            dead ahead
------------------------------------------------------------------------
L and R (forward red and green).....  10 deg. to 10 deg.....          40
                                      10 deg. to 20 deg.....          30
                                      20 deg. to 110 deg....           5
A (rear white)......................  110 deg. to 180 deg...          20
------------------------------------------------------------------------



Sec. 27.1393  Minimum intensities in any vertical plane of forward and rear position lights.

    Each position light intensity must equal or exceed the applicable 
values in the following table:

------------------------------------------------------------------------
                                                              Intensity,
          Angle above or below the horizontal plane                l
------------------------------------------------------------------------
0 deg.......................................................        1.00
0 deg. to 5 deg.............................................        0.90
5 deg. to 10 deg............................................        0.80
10 deg. to 15 deg...........................................        0.70
15 deg. to 20 deg...........................................        0.50
20 deg. to 30 deg...........................................        0.30
30 deg. to 40 deg...........................................        0.10
40 deg. to 90 deg...........................................        0.05
------------------------------------------------------------------------



Sec. 27.1395  Maximum intensities in overlapping beams of forward and rear position lights.

    No position light intensity may exceed the applicable values in the 
following table, except as provided in Sec. 27.1389(b)(3).

------------------------------------------------------------------------
                                                     Maximum Intensity
                                                 -----------------------
                    Overlaps                        Area A      Area B
                                                   (candles)   (candles)
------------------------------------------------------------------------
Green in dihedral angle L.......................          10           1
Red in dihedral angle R.........................          10           1
Green in dihedral angle A.......................           5           1
Red in dihedral angle A.........................           5           1
Rear white in dihedral angle L..................           5           1
Rear white in dihedral angle R..................           5           1
------------------------------------------------------------------------


Where--
    (a) Area A includes all directions in the adjacent dihedral angle 
that pass through the light source and intersect the common boundary 
plane at more than 10 degrees but less than 20 degrees, and
    (b) Area B includes all directions in the adjacent dihedral angle 
that pass through the light source and intersect the common boundary 
plane at more than 20 degrees.



Sec. 27.1397  Color specifications.

    Each position light color must have the applicable International 
Commission on Illumination chromaticity coordinates as follows:
    (a) Aviation red--

    ``y'' is not greater than 0.335; and
    ``z'' is not greater than 0.002.

    (b) Aviation green--

    ``x'' is not greater than 0.440--0.320y;
    ``x'' is not greater than y--0.170; and
    ``y'' is not less than 0.390--0.170x.

    (c) Aviation white--

    ``x'' is not less than 0.300 and not greater than 0.540;
    ``y'' is not less than ``x--0.040'' or ``yc--0.010'', 
whichever is the smaller; and
    ``y'' is not greater than ``x+0.020'' nor ``0.636--0.400x'';
    Where ``yc'' is the ``y'' coordinate of the Planckian 
radiator for the value of ``x'' considered.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-6, 36 
FR 12972, July 10, 1971]



Sec. 27.1399  Riding light.

    (a) Each riding light required for water operation must be installed 
so that it can--
    (1) Show a white light for at least two nautical miles at night 
under clear atmospheric conditions; and
    (2) Show a maximum practicable unbroken light with the rotorcraft on 
the water.

[[Page 600]]

    (b) Externally hung lights may be used.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 964, Jan. 26, 1968]



Sec. 27.1401  Anticollision light system.

    (a) General. If certification for night operation is requested, the 
rotorcraft must have an anticollision light system that--
    (1) Consists of one or more approved anticollision lights located so 
that their emitted light will not impair the crew's vision or detract 
from the conspicuity of the position lights; and
    (2) Meets the requirements of paragraphs (b) through (f) of this 
section.
    (b) Field of coverage. The system must consist of enough lights to 
illuminate the vital areas around the rotorcraft, considering the 
physical configuration and flight characteristics of the rotorcraft. The 
field of coverage must extend in each direction within at least 30 
degrees below the horizontal plane of the rotorcraft, except that there 
may be solid angles of obstructed visibility totaling not more than 0.5 
steradians.
    (c) Flashing characteristics. The arrangement of the system, that 
is, the number of light sources, beam width, speed of rotation, and 
other characteristics, must give an effective flash frequency of not 
less than 40, nor more than 100, cycles per minute. The effective flash 
frequency is the frequency at which the rotorcraft's complete 
anticollision light system is observed from a distance, and applies to 
each sector of light including any overlaps that exist when the system 
consists of more than one light source. In overlaps, flash frequencies 
may exceed 100, but not 180, cycles per minute.
    (d) Color. Each anticollision light must be aviation red and must 
meet the applicable requirements of Sec. 27.1397.
    (e) Light intensity. The minimum light intensities in any vertical 
plane, measured with the red filter (if used) and expressed in terms of 
``effective'' intensities, must meet the requirements of paragraph (f) 
of this section. The following relation must be assumed:
[GRAPHIC] [TIFF OMITTED] TC28SE91.086

where:

Ie=effective intensity (candles).
I(t)=instantaneous intensity as a function of time.
t2-t1=flash time interval (seconds).
Normally, the maximum value of effective intensity is obtained when 
t2 and t1 are chosen so that the effective 
intensity is equal to the instantaneous intensity at t2 and 
t1.
    (f) Minimum effective intensities for anticollision light. Each 
anticollision light effective intensity must equal or exceed the 
applicable values in the following table:

------------------------------------------------------------------------
                                                               Effective
          Angle above or below the horizontal plane            intensity
                                                               (candles)
------------------------------------------------------------------------
0 deg. to 5 deg.............................................         150
5 deg. to 10 deg............................................          90
10 deg. to 20 deg...........................................          30
20 deg. to 30 deg...........................................          15
------------------------------------------------------------------------


[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-6, 36 
FR 12972, July 10, 1971; Amdt. 27-10, 41 FR 5290, Feb. 5, 1976]

                            Safety Equipment



Sec. 27.1411  General.

    (a) Required safety equipment to be used by the crew in an 
emergency, such as flares and automatic liferaft releases, must be 
readily accessible.
    (b) Stowage provisions for required safety equipment must be 
furnished and must--
    (1) Be arranged so that the equipment is directly accessible and its 
location is obvious; and
    (2) Protect the safety equipment from damage caused by being 
subjected to the inertia loads specified in Sec. 27.561.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55470, Dec. 20, 1976]

[[Page 601]]



Sec. 27.1413  Safety belts.

    Each safety belt must be equipped with a metal to metal latching 
device.

(Secs. 313, 314, and 601 through 610 of the Federal Aviation Act of 1958 
(49 U.S.C. 1354, 1355, and 1421 through 1430) and sec. 6(c), Dept. of 
Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-15, 
43 FR 46233, Oct. 5, 1978; Amdt. 27-21, 49 FR 44435, Nov. 6, 1984]



Sec. 27.1415  Ditching equipment.

    (a) Emergency flotation and signaling equipment required by any 
operating rule in this chapter must meet the requirements of this 
section.
    (b) Each raft and each life preserver must be approved and must be 
installed so that it is readily available to the crew and passengers. 
The storage provisions for life preservers must accommodate one life 
preserver for each occupant for which certification for ditching is 
requested.
    (c) Each raft released automatically or by the pilot must be 
attached to the rotorcraft by a line to keep it alongside the 
rotorcraft. This line must be weak enough to break before submerging the 
empty raft to which it is attached.
    (d) Each signaling device must be free from hazard in its operation 
and must be installed in an accessible location.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55470, Dec. 20, 1976]



Sec. 27.1419  Ice protection.

    (a) To obtain certification for flight into icing conditions, 
compliance with this section must be shown.
    (b) It must be demonstrated that the rotorcraft can be safely 
operated in the continuous maximum and intermittent maximum icing 
conditions determined under appendix C of Part 29 of this chapter within 
the rotorcraft altitude envelope. An analysis must be performed to 
establish, on the basis of the rotorcraft's operational needs, the 
adequacy of the ice protection system for the various components of the 
rotorcraft.
    (c) In addition to the analysis and physical evaluation prescribed 
in paragraph (b) of this section, the effectiveness of the ice 
protection system and its components must be shown by flight tests of 
the rotorcraft or its components in measured natural atmospheric icing 
conditions and by one or more of the following tests as found necessary 
to determine the adequacy of the ice protection system:
    (1) Laboratory dry air or simulated icing tests, or a combination of 
both, of the components or models of the components.
    (2) Flight dry air tests of the ice protection system as a whole, or 
its individual components.
    (3) Flight tests of the rotorcraft or its components in measured 
simulated icing conditions.
    (d) The ice protection provisions of this section are considered to 
be applicable primarily to the airframe. Powerplant installation 
requirements are contained in Subpart E of this part.
    (e) A means must be indentified or provided for determining the 
formation of ice on critical parts of the rotorcraft. Unless otherwise 
restricted, the means must be available for nighttime as well as daytime 
operation. The rotorcraft flight manual must describe the means of 
determining ice formation and must contain information necessary for 
safe operation of the rotorcraft in icing conditions.

[Amdt. 27-19, 48 FR 4389, Jan. 31, 1983]



Sec. 27.1435  Hydraulic systems.

    (a) Design. Each hydraulic system and its elements must withstand, 
without yielding, any structural loads expected in addition to hydraulic 
loads.
    (b) Tests. Each system must be substantiated by proof pressure 
tests. When proof tested, no part of any system may fail, malfunction, 
or experience a permanent set. The proof load of each system must be at 
least 1.5 times the maximum operating pressure of that system.
    (c) Accumulators. No hydraulic accumulator or pressurized reservoir 
may be installed on the engine side of any firewall unless it is an 
integral part of an engine.



Sec. 27.1457  Cockpit voice recorders.

    (a) Each cockpit voice recorder required by the operating rules of 
this chapter must be approved, and must be

[[Page 602]]

installed so that it will record the following:
    (1) Voice communications transmitted from or received in the 
rotorcraft by radio.
    (2) Voice communications of flight crewmembers on the flight deck.
    (3) Voice communications of flight crewmembers on the flight deck, 
using the rotorcraft's interphone system.
    (4) Voice or audio signals identifying navigation or approach aids 
introduced into a headset or speaker.
    (5) Voice communications of flight crewmembers using the passenger 
loudspeaker system, if there is such a system, and if the fourth channel 
is available in accordance with the requirements of paragraph (c)(4)(ii) 
of this section.
    (b) The recording requirements of paragraph (a)(2) of this section 
may be met:
    (1) By installing a cockpit-mounted area microphone located in the 
best position for recording voice communications originating at the 
first and second pilot stations and voice communications of other 
crewmembers on the flight deck when directed to those stations; or
    (2) By installing a continually energized or voice-actuated lip 
microphone at the first and second pilot stations.
    The microphone specified in this paragraph must be so located and, 
if necessary, the preamplifiers and filters of the recorder must be 
adjusted or supplemented so that the recorded communications are 
intelligible when recorded under flight cockpit noise conditions and 
played back. The level of intelligibility must be approved by the 
Administrator. Repeated aural or visual playback of the record may be 
used in evaluating intelligibility.
    (c) Each cockpit voice recorder must be installed so that the part 
of the communication or audio signals specified in paragraph (a) of this 
section obtained from each of the following sources is recorded on a 
separate channel:
    (1) For the first channel, from each microphone, headset, or speaker 
used at the first pilot station.
    (2) For the second channel, from each microphone, headset, or 
speaker used at the second pilot station.
    (3) For the third channel, from the cockpit-mounted area microphone, 
or the continually energized or voice-actuated lip microphone at the 
first and second pilot stations.
    (4) For the fourth channel, from:
    (i) Each microphone, headset, or speaker used at the stations for 
the third and fourth crewmembers; or
    (ii) If the stations specified in paragraph (c)(4)(i) of this 
section are not required or if the signal at such a station is picked up 
by another channel, each microphone on the flight deck that is used with 
the passenger loudspeaker system if its signals are not picked up by 
another channel.
    (iii) Each microphone on the flight deck that is used with the 
rotorcraft's loudspeaker system if its signals are not picked up by 
another channel.
    (d) Each cockpit voice recorder must be installed so that:
    (1) It receives its electric power from the bus that provides the 
maximum reliability for operation of the cockpit voice recorder without 
jeopardizing service to essential or emergency loads;
    (2) There is an automatic means to simultaneously stop the recorder 
and prevent each erasure feature from functioning, within 10 minutes 
after crash impact; and
    (3) There is an aural or visual means for preflight checking of the 
recorder for proper operation.
    (e) The record container must be located and mounted to minimize the 
probability of rupture of the container as a result of crash impact and 
consequent heat damage to the record from fire.
    (f) If the cockpit voice recorder has a bulk erasure device, the 
installation must be designed to minimize the probability of inadvertent 
operation and actuation of the device during crash impact.
    (g) Each recorder container must be either bright orange or bright 
yellow.

[Amdt. 27-22, 53 FR 26144, July 11, 1988]



Sec. 27.1459  Flight recorders.

    (a) Each flight recorder required by the operating rules of 
Subchapter G of this chapter must be installed so that:
    (1) It is supplied with airspeed, altitude, and directional data 
obtained

[[Page 603]]

from sources that meet the accuracy requirements of Secs. 27.1323, 
27.1325, and 27.1327 of this part, as applicable;
    (2) The vertical acceleration sensor is rigidly attached, and 
located longitudinally within the approved center of gravity limits of 
the rotorcraft;
    (3) It receives its electrical power from the bus that provides the 
maximum reliability for operation of the flight recorder without 
jeopardizing service to essential or emergency loads;
    (4) There is an aural or visual means for preflight checking of the 
recorder for proper recording of data in the storage medium;
    (5) Except for recorders powered solely by the engine-driven 
electrical generator system, there is an automatic means to 
simultaneously stop a recorder that has a data erasure feature and 
prevent each erasure feature from functioning, within 10 minutes after 
any crash impact; and
    (b) Each nonejectable recorder container must be located and mounted 
so as to minimize the probability of container rupture resulting from 
crash impact and subsequent damage to the record from fire.
    (c) A correlation must be established between the flight recorder 
readings of airspeed, altitude, and heading and the corresponding 
readings (taking into account correction factors) of the first pilot's 
instruments. This correlation must cover the airspeed range over which 
the aircraft is to be operated, the range of altitude to which the 
aircraft is limited, and 360 degrees of heading. Correlation may be 
established on the ground as appropriate.
    (d) Each recorder container must:
    (1) Be either bright orange or bright yellow;
    (2) Have a reflective tape affixed to its external surface to 
facilitate its location under water; and
    (3) Have an underwater locating device, when required by the 
operating rules of this chapter, on or adjacent to the container which 
is secured in such a manner that they are not likely to be separated 
during crash impact.

[Amdt. 27-22, 53 FR 26144, July 11, 1988]



Sec. 27.1461  Equipment containing high energy rotors.

    (a) Equipment containing high energy rotors must meet paragraph (b), 
(c), or (d) of this section.
    (b) High energy rotors contained in equipment must be able to 
withstand damage caused by malfunctions, vibration, abnormal speeds, and 
abnormal temperatures. In addition--
    (1) Auxiliary rotor cases must be able to contain damage caused by 
the failure of high energy rotor blades; and
    (2) Equipment control devices, systems, and instrumentation must 
reasonably ensure that no operating limitations affecting the integrity 
of high energy rotors will be exceeded in service.
    (c) It must be shown by test that equipment containing high energy 
rotors can contain any failure of a high energy rotor that occurs at the 
highest speed obtainable with the normal speed control devices 
inoperative.
    (d) Equipment containing high energy rotors must be located where 
rotor failure will neither endanger the occupants nor adversely affect 
continued safe flight.

[Amdt. 27-2, 33 FR 964, Jan. 26, 1968]



            Subpart G--Operating Limitations and Information



Sec. 27.1501  General.

    (a) Each operating limitation specified in Secs. 27.1503 through 
27.1525 and other limitations and information necessary for safe 
operation must be established.
    (b) The operating limitations and other information necessary for 
safe operation must be made available to the crewmembers as prescribed 
in Secs. 27.1541 through 27.1589.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 27-14, 43 FR 2325, Jan. 16, 1978]

                          Operating Limitations



Sec. 27.1503  Airspeed limitations: general.

    (a) An operating speed range must be established.

[[Page 604]]

    (b) When airspeed limitations are a function of weight, weight 
distribution, altitude, rotor speed, power, or other factors, airspeed 
limitations corresponding with the critical combinations of these 
factors must be established.



Sec. 27.1505  Never-exceed speed.

    (a) The never-exceed speed, VNE, must be established so 
that it is--
    (1) Not less than 40 knots (CAS); and
    (2) Not more than the lesser of--
    (i) 0.9 times the maximum forward speeds established under 
Sec. 27.309;
    (ii) 0.9 times the maximum speed shown under Secs. 27.251 and 
27.629; or
    (iii) 0.9 times the maximum speed substantiated for advancing blade 
tip mach number effects.
    (b) VNE may vary with altitude, r.p.m., temperature, and 
weight, if--
    (1) No more than two of these variables (or no more than two 
instruments integrating more than one of these variables) are used at 
one time; and
    (2) The ranges of these variables (or of the indications on 
instruments integrating more than one of these variables) are large 
enough to allow an operationally practical and safe variation of 
VNE.
    (c) For helicopters, a stabilized power-off VNE denoted 
as VNE (power-off) may be established at a speed less than 
VNE established pursuant to paragraph (a) of this section, if 
the following conditions are met:
    (1) VNE (power-off) is not less than a speed midway 
between the power-on VNE and the speed used in meeting the 
requirements of--
    (i) Sec. 27.65(b) for single engine helicopters; and
    (ii) Sec. 27.67 for multiengine helicopters.
    (2) VNE (power-off) is--
    (i) A constant airspeed;
    (ii) A constant amount less than power-on VNE; or
    (iii) A constant airspeed for a portion of the altitude range for 
which certification is requested, and a constant amount less than power-
on VNE for the remainder of the altitude range.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 27-2, 33 FR 964, Jan. 26, 1968, and Amdt. 27-14, 43 FR 2325, Jan. 
16, 1978; Amdt. 27-21, 49 FR 44435, Nov. 6, 1984]



Sec. 27.1509  Rotor speed.

    (a) Maximum power-off (autorotation). The maximum power-off rotor 
speed must be established so that it does not exceed 95 percent of the 
lesser of--
    (1) The maximum design r.p.m. determined under Sec. 27.309(b); and
    (2) The maximum r.p.m. shown during the type tests.
    (b) Minimum power off. The minimum power-off rotor speed must be 
established so that it is not less than 105 percent of the greater of--
    (1) The minimum shown during the type tests; and
    (2) The minimum determined by design substantiation.
    (c) Minimum power on. The minimum power-on rotor speed must be 
established so that it is--
    (1) Not less than the greater of--
    (i) The minimum shown during the type tests; and
    (ii) The minimum determined by design substantiation; and
    (2) Not more than a value determined under Sec. 27.33(a)(1) and 
(b)(1).



Sec. 27.1519  Weight and center of gravity.

    The weight and center of gravity limitations determined under 
Secs. 27.25 and 27.27, respectively, must be established as operating 
limitations.

[Amdt. 27-2, 33 FR 965, Jan. 26, 1968, as amended by Amdt. 27-21, 49 FR 
44435, Nov. 6, 1984]



Sec. 27.1521  Powerplant limitations.

    (a) General. The powerplant limitations prescribed in this section 
must be established so that they do not exceed the corresponding limits 
for which the engines are type certificated.
    (b) Takeoff operation. The powerplant takeoff operation must be 
limited by--

[[Page 605]]

    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value shown during the type tests;
    (2) The maximum allowable manifold pressure (for reciprocating 
engines);
    (3) The time limit for the use of the power corresponding to the 
limitations established in paragraphs (b)(1) and (2) of this section;
    (4) If the time limit in paragraph (b)(3) of this section exceeds 
two minutes, the maximum allowable cylinder head, coolant outlet, or oil 
temperatures;
    (5) The gas temperature limits for turbine engines over the range of 
operating and atmospheric conditions for which certification is 
requested.
    (c) Continuous operation. The continuous operation must be limited 
by--
    (1) The maximum rotational speed which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value shown during the type tests;
    (2) The minimum rotational speed shown under the rotor speed 
requirements in Sec. 27.1509(c); and
    (3) The gas temperature limits for turbine engines over the range of 
operating and atmospheric conditions for which certification is 
requested.
    (d) Fuel grade or designation. The minimum fuel grade (for 
reciprocating engines), or fuel designation (for turbine engines), must 
be established so that it is not less than that required for the 
operation of the engines within the limitations in paragraphs (b) and 
(c) of this section.
    (e) Turboshaft engine torque. For rotorcraft with main rotors driven 
by turboshaft engines, and that do not have a torque limiting device in 
the transmission system, the following apply:
    (1) A limit engine torque must be established if the maximum torque 
that the engine can exert is greater than--
    (i) The torque that the rotor drive system is designed to transmit; 
or
    (ii) The torque that the main rotor assembly is designed to 
withstand in showing compliance with Sec. 27.547(e).
    (2) The limit engine torque established under paragraph (e)(1) of 
this section may not exceed either torque specified in paragraph 
(e)(1)(i) or (ii) of this section.
    (f) Ambient temperature. For turbine engines, ambient temperature 
limitations (including limitations for winterization installations, if 
applicable) must be established as the maximum ambient atmospheric 
temperature at which compliance with the cooling provisions of 
Secs. 27.1041 through 27.1045 is shown.
    (g) Two and one-half-minute OEI power operation. Unless otherwise 
authorized, the use of 2\1/2\-minute OEI power must be limited to engine 
failure operation of multiengine, turbine-powered rotorcraft for not 
longer than 2\1/2\ minutes after failure of an engine. The use of 2\1/
2\-minute OEI power must also be limited by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum demonstrated during the type tests;
    (2) The maximum allowable gas temperature; and
    (3) The maximum allowable torque.
    (h) Thirty-minute OEI power operation. Unless otherwise authorized, 
the use of 30-minute OEI power must be limited to multiengine, turbine-
powered rotorcraft for not longer than 30 minutes after failure of an 
engine. The use of 30-minute OEI power must also be limited by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value demonstrated during the type tests;
    (2) The maximum allowable gas temperature; and
    (3) The maximum allowable torque.
    (i) Continuous OEI power operation. Unless otherwise authorized, the 
use of continuous OEI power must be limited to multiengine, turbine-
powered rotorcraft for continued flight after failure of an engine. The 
use of continuous OEI power must also be limited by--
    (1) The maximum rotational speed, which may not be greater than--

[[Page 606]]

    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value demonstrated during the type tests;
    (2) The maximum allowable gas temperature; and
    (3) The maximum allowable torque.
    (j) Rated 30-second OEI power operation. Rated 30-second OEI power 
is permitted only on multiengine, turbine-powered rotorcraft, also 
certificated for the use of rated 2-minute OEI power, and can only be 
used for continued operation of the remaining engine(s) after a failure 
or precautionary shutdown of an engine. It must be shown that following 
application of 30-second OEI power, any damage will be readily 
detectable by the applicable inspections and other related procedures 
furnished in accordance with Section A27.4 of appendix A of this part 
and Section A33.4 of appendix A of part 33. The use of 30-second OEI 
power must be limited to not more than 30 seconds for any period in 
which that power is used, and by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value demonstrated during the type tests;
    (2) The maximum allowable gas temperature; and
    (3) The maximum allowable torque.
    (k) Rated 2-minute OEI power operation. Rated 2-minute OEI power is 
permitted only on multiengine, turbine-powered rotorcraft, also 
certificated for the use of rated 30-second OEI power, and can only be 
used for continued operation of the remaining engine(s) after a failure 
or precautionary shutdown of an engine. It must be shown that following 
application of 2-minute OEI power, any damage will be readily detectable 
by the applicable inspections and other related procedures furnished in 
accordance with Section A27.4 of appendix A of this part and Section 
A33.4 of appendix A of part 33. The use of 2-minute OEI power must be 
limited to not more than 2 minutes for any period in which that power is 
used, and by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value demonstrated during the type tests;
    (2) The maximum allowable gas temperature; and
    (3) The maximum allowable torque.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-14, 
43 FR 2325, Jan. 16, 1978; Amdt. 27-23, 53 FR 34214, Sept. 2, 1988; 
Amdt. 27-29, 59 FR 47767, Sept. 16, 1994]



Sec. 27.1523  Minimum flight crew.

    The minimum flight crew must be established so that it is sufficient 
for safe operation, considering--
    (a) The workload on individual crewmembers;
    (b) The accessibility and ease of operation of necessary controls by 
the appropriate crewmember; and
    (c) The kinds of operation authorized under Sec. 27.1525.



Sec. 27.1525  Kinds of operations.

    The kinds of operations (such as VFR, IFR, day, night, or icing) for 
which the rotorcraft is approved are established by demonstrated 
compliance with the applicable certification requirements and by the 
installed equipment.

[Amdt. 27-21, 49 FR 44435, Nov. 6, 1984]



Sec. 27.1527  Maximum operating altitude.

    The maximum altitude up to which operation is allowed, as limited by 
flight, structural, powerplant, functional, or equipment 
characteristics, must be established.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 27-14, 43 FR 2325, Jan. 16, 1978]



Sec. 27.1529  Instructions for Continued Airworthiness.

    The applicant must prepare Instructions for Continued Airworthiness 
in accordance with appendix A to this

[[Page 607]]

part that are acceptable to the Administrator. The instructions may be 
incomplete at type certification if a program exists to ensure their 
completion prior to delivery of the first rotorcraft or issuance of a 
standard certificate of airworthiness, whichever occurs later.

[Amdt. 27-18, 45 FR 60177, Sept. 11, 1980]

                          Markings and Placards



Sec. 27.1541  General.

    (a) The rotorcraft must contain--
    (1) The markings and placards specified in Secs. 27.1545 through 
27.1565, and
    (2) Any additional information, instrument markings, and placards 
required for the safe operation of rotorcraft with unusual design, 
operating or handling characteristics.
    (b) Each marking and placard prescribed in paragraph (a) of this 
section--
    (1) Must be displayed in a conspicuous place; and
    (2) May not be easily erased, disfigured, or obscured.



Sec. 27.1543  Instrument markings: general.

    For each instrument--
    (a) When markings are on the cover glass of the instrument, there 
must be means to maintain the correct alignment of the glass cover with 
the face of the dial; and
    (b) Each arc and line must be wide enough, and located, to be 
clearly visible to the pilot.



Sec. 27.1545  Airspeed indicator.

    (a) Each airspeed indicator must be marked as specified in paragraph 
(b) of this section, with the marks located at the corresponding 
indicated airspeeds.
    (b) The following markings must be made:
    (1) A red radial line--
    (i) For rotocraft other than helicopters, at VNE; and
    (ii) For helicopters at VNE (power-on).
    (2) A red cross-hatched radial line at VNE (power-off) 
for helicopters, if VNE (power-off) is less than VNE 
(power-on).
    (3) For the caution range, a yellow arc.
    (4) For the safe operating range, a green arc.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-14, 
43 FR 2325, Jan. 16, 1978; 43 FR 3900, Jan. 30, 1978; Amdt. 27-16, 43 FR 
50599, Oct. 30, 1978]



Sec. 27.1547  Magnetic direction indicator.

    (a) A placard meeting the requirements of this section must be 
installed on or near the the magnetic direction indicator.
    (b) The placard must show the calibration of the instrument in level 
flight with the engines operating.
    (c) The placard must state whether the calibration was made with 
radio receivers on or off.
    (d) Each calibration reading must be in terms of magnetic heading in 
not more than 45 degree increments.
    (e) If a magnetic nonstabilized direction indicator can have a 
deviation of more than 10 degrees caused by the operation of electrical 
equipment, the placard must state which electrical loads, or combination 
of loads, would cause a deviation of more than 10 degrees when turned 
on.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-13, 
42 FR 36972, July 18, 1977]



Sec. 27.1549  Powerplant instruments.

    For each required powerplant instrument, as appropriate to the type 
of instrument--
    (a) Each maximum and, if applicable, minimum safe operating limit 
must be marked with a red radial or a red line;
    (b) Each normal operating range must be marked with a green arc or 
green line, not extending beyond the maximum and minimum safe limits;
    (c) Each takeoff and precautionary range must be marked with a 
yellow arc or yellow line;
    (d) Each engine or propeller range that is restricted because of 
excessive

[[Page 608]]

vibration stresses must be marked with red arcs or red lines; and
    (e) Each OEI limit or approved operating range must be marked to be 
clearly differentiated from the markings of paragraphs (a) through (d) 
of this section except that no marking is normally required for the 30-
second OEI limit.

[Amdt. 27-11, 41 FR 55470, Dec. 20, 1976, as amended by Amdt. 27-23, 53 
FR 34215, Sept. 2, 1988; Amdt. 27-29, 59 FR 47768, Sept. 16, 1994]



Sec. 27.1551  Oil quantity indicator.

    Each oil quantity indicator must be marked with enough increments to 
indicate readily and accurately the quantity of oil.



Sec. 27.1553  Fuel quantity indicator.

    If the unusable fuel supply for any tank exceeds one gallon, or five 
percent of the tank capacity, whichever is greater, a red arc must be 
marked on its indicator extending from the calibrated zero reading to 
the lowest reading obtainable in level flight.



Sec. 27.1555  Control markings.

    (a) Each cockpit control, other than primary flight controls or 
control whose function is obvious, must be plainly marked as to its 
function and method of operation.
    (b) For powerplant fuel controls--
    (1) Each fuel tank selector control must be marked to indicate the 
position corresponding to each tank and to each existing cross feed 
position;
    (2) If safe operation requires the use of any tanks in a specific 
sequence, that sequence must be marked on, or adjacent to, the selector 
for those tanks; and
    (3) Each valve control for any engine of a multiengine rotorcraft 
must be marked to indicate the position corresponding to each engine 
controlled.
    (c) Usable fuel capacity must be marked as follows:
    (1) For fuel systems having no selector controls, the usable fuel 
capacity of the system must be indicated at the fuel quantity indicator.
    (2) For fuel systems having selector controls, the usable fuel 
capacity available at each selector control position must be indicated 
near the selector control.
    (d) For accessory, auxiliary, and emergency controls--
    (1) Each essential visual position indicator, such as those showing 
rotor pitch or landing gear position, must be marked so that each 
crewmember can determine at any time the position of the unit to which 
it relates; and
    (2) Each emergency control must be red and must be marked as to 
method of operation.
    (e) For rotorcraft incorporating retractable landing gear, the 
maximum landing gear operating speed must be displayed in clear view of 
the pilot.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55470, Dec. 20, 1976; Amdt. 27-21, 49 FR 44435, Nov. 6, 1984]



Sec. 27.1557  Miscellaneous markings and placards.

    (a) Baggage and cargo compartments, and ballast location. Each 
baggage and cargo compartment, and each ballast location must have a 
placard stating any limitations on contents, including weight, that are 
necessary under the loading requirements.
    (b) Seats. If the maximum allowable weight to be carried in a seat 
is less than 170 pounds, a placard stating the lesser weight must be 
permanently attached to the seat structure.
    (c) Fuel and oil filler openings. The following apply:
    (1) Fuel filler openings must be marked at or near the filler cover 
with--
    (i) The word ``fuel'';
    (ii) For reciprocating engine powered rotorcraft, the minimum fuel 
grade;
    (iii) For turbine engine powered rotorcraft, the permissible fuel 
designations; and
    (iv) For pressure fueling systems, the maximum permissible fueling 
supply pressure and the maximum permissible defueling pressure.
    (2) Oil filler openings must be marked at or near the filler cover 
with the word ``oil''.
    (d) Emergency exit placards. Each placard and operating control for 
each emergency exit must be red. A placard

[[Page 609]]

must be near each emergency exit control and must clearly indicate the 
location of that exit and its method of operation.

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-11, 
41 FR 55471, Dec. 20, 1976]



Sec. 27.1559  Limitations placard.

    There must be a placard in clear view of the pilot that specifies 
the kinds of operations (such as VFR, IFR, day, night, or icing) for 
which the rotorcraft is approved.

[Amdt. 27-21, 49 FR 44435, Nov. 6, 1984]



Sec. 27.1561  Safety equipment.

    (a) Each safety equipment control to be operated by the crew in 
emergency, such as controls for automatic liferaft releases, must be 
plainly marked as to its method of operation.
    (b) Each location, such as a locker or compartment, that carries any 
fire extinguishing, signaling, or other life saving equipment, must be 
so marked.



Sec. 27.1565  Tail rotor.

    Each tail rotor must be marked so that its disc is conspicuous under 
normal daylight ground conditions.

[Amdt. 27-2, 33 FR 965, Jan. 26, 1968]

          Rotorcraft Flight Manual and Approved Manual Material



Sec. 27.1581  General.

    (a) Furnishing information. A Rotorcraft Flight Manual must be 
furnished with each rotorcraft, and it must contain the following:
    (1) Information required by Secs. 27.1583 through 27.1589.
    (2) Other information that is necessary for safe operation because 
of design, operating, or handling characteristics.
    (b) Approved information. Each part of the manual listed in 
Secs. 27.1583 through 27.1589, that is appropriate to the rotorcraft, 
must be furnished, verified, and approved, and must be segregated, 
identified, and clearly distinguished from each unapproved part of that 
manual.
    (c) [Reserved]
    (d) Table of contents. Each Rotorcraft Flight Manual must include a 
table of contents if the complexity of the manual indicates a need for 
it.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 27-14, 43 FR 2325, Jan. 16, 1978]



Sec. 27.1583  Operating limitations.

    (a) Airspeed and rotor limitations. Information necessary for the 
marking of airspeed and rotor limitations on, or near, their respective 
indicators must be furnished. The significance of each limitation and of 
the color coding must be explained.
    (b) Powerplant limitations. The following information must be 
furnished:
    (1) Limitations required by Sec. 27.1521.
    (2) Explanation of the limitations, when appropriate.
    (3) Information necessary for marking the instruments required by 
Secs. 27.1549 through 27.1553.
    (c) Weight and loading distribution. The weight and center of 
gravity limits required by Secs. 27.25 and 27.27, respectively, must be 
furnished. If the variety of possible loading conditions warrants, 
instructions must be included to allow ready observance of the 
limitations.
    (d) Flight crew. When a flight crew of more than one is required, 
the number and functions of the minimum flight crew determined under 
Sec. 27.1523 must be furnished.
    (e) Kinds of operation. Each kind of operation for which the 
rotorcraft and its equipment installations are approved must be listed.
    (f) [Reserved]
    (g) Altitude. The altitude established under Sec. 27.1527 and an 
explanation of the limiting factors must be furnished.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-2, 33 
FR 965, Jan. 26, 1968; Amdt. 27-14, 43 FR 2325, Jan. 16, 1978; Amdt. 27-
16, 43 FR 50599, Oct. 30, 1978]

[[Page 610]]



Sec. 27.1585  Operating procedures.

    (a) Parts of the manual containing operating procedures must have 
information concerning any normal and emergency procedures and other 
information necessary for safe operation, including takeoff and landing 
procedures and associated airspeeds. The manual must contain any 
pertinent information including--
    (1) The kind of takeoff surface used in the tests and each 
appropriate climbout speed; and
    (2) The kind of landing surface used in the tests and appropriate 
approach and glide airspeeds.
    (b) For multiengine rotorcraft, information identifying each 
operating condition in which the fuel system independence prescribed in 
Sec. 27.953 is necessary for safety must be furnished, together with 
instructions for placing the fuel system in a configuration used to show 
compliance with that section.
    (c) For helicopters for which a VNE (power-off) is 
established under Sec. 27.1505(c), information must be furnished to 
explain the VNE (power-off) and the procedures for reducing 
airspeed to not more than the VNE (power-off) following 
failure of all engines.
    (d) For each rotorcraft showing compliance with Sec. 27.1353 (g)(2) 
or (g)(3), the operating procedures for disconnecting the battery from 
its charging source must be furnished.
    (e) If the unusable fuel supply in any tank exceeds five percent of 
the tank capacity, or one gallon, whichever is greater, information must 
be furnished which indicates that when the fuel quantity indicator reads 
``zero'' in level flight, any fuel remaining in the fuel tank cannot be 
used safely in flight.
    (f) Information on the total quantity of usable fuel for each fuel 
tank must be furnished.
    (g) The airspeeds and rotor speeds for minimum rate of descent and 
best glide angle as prescribed in Sec. 27.71 must be provided.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 27-1, 32 FR 6914, May 5, 1967, as amended by Amdt. 27-14, 43 FR 
2326, Jan. 16, 1978; Amdt. 27-16, 43 FR 50599, Oct. 30, 1978; Amdt. 27-
21, 49 FR 44435, Nov. 6, 1984]



Sec. 27.1587  Performance information.

    (a) The rotorcraft must be furnished with the following information, 
determined in accordance with Secs. 27.51 through 27.79 and 27.143(c):
    (1) Enough information to determine the limiting height-speed 
envelope.
    (2) Information relative to--
    (i) The hovering ceilings and the steady rates of climb and descent, 
as affected by any pertinent factors such as airspeed, temperature, and 
altitude;
    (ii) The maximum safe wind for operation near the ground. If there 
are combinations of weight, altitude, and temperature for which 
performance information is provided and at which the rotorcraft cannot 
land and takeoff safely with the maximum wind value, those portions of 
the operating envelope and the appropriate safe wind conditions shall be 
identified in the flight manual;
    (iii) For reciprocating engine-powered rotorcraft, the maximum 
atmospheric temperature at which compliance with the cooling provisions 
of Secs. 27.1041 through 27.1045 is shown; and
    (iv) Glide distance as a function of altitude when autorotating at 
the speeds and conditions for minimum rate of descent and best glide as 
determined in Sec. 27.71.
    (b) The Rotorcraft Flight Manual must contain--
    (1) In its performance information section any pertinent information 
concerning the takeoff weights and altitudes used in compliance with 
Sec. 27.51; and

[[Page 611]]

    (i) Any pertinent information concerning the takeoff procedure, 
including the kind of takeoff surface used in the tests and each 
appropriate climb- out speed; and
    (ii) Any pertinent landing procedures, including the kind of landing 
surface used in the tests and appropriate approach and glide airspeeds; 
and
    (2) The horizontal takeoff distance determined in accordance with 
Sec. 27.65(a)(2)(i).

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5074, 29 FR 15695, Nov. 24, 1964, as amended by Amdt. 27-14, 
43 FR 2326, Jan. 16, 1978; Amdt. 27-21, 49 FR 44435, Nov. 6, 1984]



Sec. 27.1589  Loading information.

    There must be loading instructions for each possible loading 
condition between the maximum and minimum weights determined under 
Sec. 27.25 that can result in a center of gravity beyond any extreme 
prescribed in Sec. 27.27, assuming any probable occupant weights.

     Appendix A to Part 27--Instructions for Continued Airworthiness

A27.1  General.

    (a) This appendix specifies requirements for the preparation of 
Instructions for Continued Airworthiness as required by Sec. 27.1529.
    (b) The Instructions for Continued Airworthiness for each rotorcraft 
must include the Instructions for Continued Airworthiness for each 
engine and rotor (hereinafter designated `products'), for each appliance 
required by this chapter, and any required information relating to the 
interface of those appliances and products with the rotorcraft. If 
Instructions for Continued Airworthiness are not supplied by the 
manufacturer of an appliance or product installed in the rotorcraft, the 
Instructions for Continued Airworthiness for the rotorcraft must include 
the information essential to the continued airworthiness of the 
rotorcraft.
    (c) The applicant must submit to the FAA a program to show how 
changes to the Instructions for Continued Airworthiness made by the 
applicant or by the manufacturers of products and appliances installed 
in the rotorcraft will be distributed.

A27.2  Format.

    (a) The Instructions for Continued Airworthiness must be in the form 
of a manual or manuals as appropriate for the quantity of data to be 
provided.
    (b) The format of the manual or manuals must provide for a practical 
arrangement.

A27.3  Content.
    The contents of the manual or manuals must be prepared in the 
English language. The Instructions for Continued Airworthiness must 
contain the following manuals or sections, as appropriate, and 
information:
    (a) Rotorcraft maintenance manual or section. (1) Introduction 
information that includes an explanation of the rotorcraft's features 
and data to the extent necessary for maintenance or preventive 
maintenance.
    (2) A description of the rotorcraft and its systems and 
installations including its engines, rotors, and appliances.
    (3) Basic control and operation information describing how the 
rotorcraft components and systems are controlled and how they operate, 
including any special procedures and limitations that apply.
    (4) Servicing information that covers details regarding servicing 
points, capacities of tanks, reservoirs, types of fluids to be used, 
pressures applicable to the various systems, location of access panels 
for inspection and servicing, locations of lubrication points, the 
lubricants to be used, equipment required for servicing, tow 
instructions and limitations, mooring, jacking, and leveling 
information.
    (b) Maintenance instructions. (1) Scheduling information for each 
part of the rotorcraft and its engines, auxiliary power units, rotors, 
accessories, instruments and equipment that provides the recommended 
periods at which they should be cleaned, inspected, adjusted, tested, 
and lubricated, and the degree of inspection, the applicable wear 
tolerances, and work recommended at these periods. However, the 
applicant may refer to an accessory, instrument, or equipment 
manufacturer as the source of this information if the applicant shows 
the item has an exceptionally high degree of complexity requiring 
specialized maintenance techniques, test equipment, or expertise. The 
recommended overhaul periods and necessary cross references to the 
Airworthiness Limitations section of the manual must also be included. 
In addition, the applicant must include an inspection program that 
includes the frequency and extent of the inspections necessary to 
provide for the continued airworthiness of the rotorcraft.
    (2) Troubleshooting information describing problem malfunctions, how 
to recognize those malfunctions, and the remedial action for those 
malfunctions.
    (3) Information describing the order and method of removing and 
replacing products and parts with any necessary precautions to be taken.
    (4) Other general procedural instructions including procedures for 
system testing during ground running, symmetry checks,

[[Page 612]]

weighing and determining the center of gravity, lifting and shoring, and 
storage limitations.
    (c) Diagrams of structural access plates and information needed to 
gain access for inspections when access plates are not provided.
    (d) Details for the application of special inspection techniques 
including radiographic and ultrasonic testing where such processes are 
specified.
    (e) Information needed to apply protective treatments to the 
structure after inspection.
    (f) All data relative to structural fasteners such as 
identification, discarded recommendations, and torque values.
    (g) A list of special tools needed.

A27.4  Airworthiness Limitations section.
    The Instructions for Continued Airworthiness must contain a section, 
titled Airworthiness Limitations that is segregated and clearly 
distinguishable from the rest of the document. This section must set 
forth each mandatory replacement time, structural inspection interval, 
and related structural inspection procedure approved under Sec. 27.571. 
If the Instructions for Continued Airworthiness consist of multiple 
documents, the section required by this paragraph must be included in 
the principal manual. This section must contain a legible statement in a 
prominent location that reads: ``The Airworthiness Limitations section 
is FAA approved and specifies inspections and other maintenance required 
under Secs. 43.16 and 91.403 of the Federal Aviation Regulations unless 
an alternative program has been FAA approved.''

[Amdt. 27-17, 45 FR 60178, Sept. 11, 1980, as amended by Amdt. 27-24, 54 
FR 34329, Aug. 18, 1989]

Appendix B to Part 27--Airworthiness Criteria for Helicopter Instrument 
                                 Flight

    I. General. A normal category helicopter may not be type 
certificated for operation under the instrument flight rules (IFR) of 
this chapter unless it meets the design and installation requirements 
contained in this appendix.
    II. Definitions. (a) VYI means instrument climb speed, 
utilized instead of VY for compliance with the climb 
requirements for instrument flight.
    (b) VNEI means instrument flight never exceed speed, 
utilized instead of VNE for compliance with maximum limit 
speed requirements for instrument flight.
    (c) VMINI means instrument flight minimum speed, utilized 
in complying with minimum limit speed requirements for instrument 
flight.
    III. Trim. It must be possible to trim the cyclic, collective, and 
directional control forces to zero at all approved IFR airspeeds, power 
settings, and configurations appropriate to the type.
    IV. Static longitudinal stability. (a) General. The helicopter must 
possess positive static longitudinal control force stability at critical 
combinations of weight and center of gravity at the conditions specified 
in paragraph IV (b) or (c) of this appendix, as appropriate. The stick 
force must vary with speed so that any substantial speed change results 
in a stick force clearly perceptible to the pilot. For single-pilot 
approval, the airspeed must return to within 10 percent of the trim 
speed when the control force is slowly released for each trim condition 
specified in paragraph IV(b) of the this appendix.
    (b) For single-pilot approval:
    (1) Climb. Stability must be shown in climb throughout the speed 
range 20 knots either side of trim with--
    (i) The helicopter trimmed at VYI;
    (ii) Landing gear retracted (if retractable); and
    (iii) Power required for limit climb rate (at least 1,000 fpm) at 
VYI or maximum continuous power, whichever is less.
    (2) Cruise. Stability must be shown throughout the speed range from 
0.7 to 1.1 VH or VNEI, whichever is lower, not to 
exceed 20 knots from trim with--
    (i) The helicopter trimmed and power adjusted for level flight at 
0.9 VH or 0.9 VNEI, whichever is lower; and
    (ii) Landing gear retracted (if retractable).
    (3) Slow cruise. Stability must be shown throughout the speed range 
from 0.9 VMINI to 1.3 VMINI or 20 knots above trim 
speed, whichever is greater, with--
    (i) the helicopter trimmed and power adjusted for level flight at 
1.1 VMINI; and
    (ii) Landing gear retracted (if retractable).
    (4) Descent. Stability must be shown throughout the speed range 20 
knots either side of trim with--
    (i) The helicopter trimmed at 0.8 VH or 0.8 
VNEI (or 0.8 VLE for the landing gear extended 
case), whichever is lower;
    (ii) Power required for 1,000 fpm descent at trim speed; and
    (iii) Landing gear extended and retracted, if applicable.
    (5) Approach. Stability must be shown throughout the speed range 
from 0.7 times the minimum recommended approach speed to 20 knots above 
the maximum recommended approach speed with--
    (i) The helicopter trimmed at the recommended approach speed or 
speeds;
    (ii) Landing gear extended and retracted, if applicable; and
    (iii) Power required to maintain a 3 deg. glide path and power 
required to maintain the steepest approach gradient for which approval 
is requested.

[[Page 613]]

    (c) Helicopters approved for a minimum crew of two pilots must 
comply with the provisions of paragraphs IV(b)(2) and IV(b)(5) of this 
appendix.
    V. Static lateral-directional stability. (a) Static directional 
stability must be positive throughout the approved ranges of airspeed, 
power, and vertical speed. In straight, steady sideslips up to 
10 deg. from trim, directional control position must 
increase in approximately constant proportion to angle of sideslip. At 
greater angles up to the maximum sideslip angle appropriate to the type, 
increased directional control position must produce increased angle of 
sideslip.
    (b) During sideslips up to 10 deg. from trim throughout 
the approved ranges of airspeed, power, and vertical speed, there must 
be no negative dihedral stability perceptible to the pilot through 
lateral control motion or force. Longitudinal cyclic movement with 
sideslip must not be excessive.
    VI. Dynamic stability. (a) For single-pilot approval--
    (1) Any oscillation having a period of less than 5 seconds must damp 
to \1/2\ amplitude in not more than one cycle.
    (2) Any oscillation having a period of 5 seconds or more but less 
than 10 seconds must damp to \1/2\ amplitude in not more than two 
cycles.
    (3) Any oscillation having a period of 10 seconds or more but less 
than 20 seconds must be damped.
    (4) Any oscillation having a period of 20 seconds or more may not 
achieve double amplitude in less than 20 seconds.
    (5) Any aperiodic response may not achieve double amplitude in less 
than 6 seconds.
    (b) For helicopters approved with a minimum crew of two pilots--
    (1) Any oscillation having a period of less than 5 seconds must damp 
to \1/2\ amplitude in not more than two cycles.
    (2) Any oscillation having a period of 5 seconds or more but less 
than 10 seconds must be damped.
    (3) Any oscillation having a period of 10 seconds or more may not 
achieve double amplitude in less than 10 seconds.
    VII. Stability augmentation system (SAS). (a) If a SAS is used, the 
reliability of the SAS must be related to the effects of its failure. 
The occurrence of any failure condition which would prevent continued 
safe flight and landing must be extremely improbable. For any failure 
condition of the SAS which is not shown to be extremely improbable--
    (1) The helicopter must be safely controllable and capable of 
prolonged instrument flight without undue pilot effort. Additional 
unrelated probable failures affecting the control system must be 
considered; and
    (2) The flight characteristics requirements in Subpart B of Part 27 
must be met throughout a practical flight envelope.
    (b) The SAS must be designed so that it cannot create a hazardous 
deviation in flight path or produce hazardous loads on the helicopter 
during normal operation or in the event of malfunction or failure, 
assuming corrective action begins within an appropriate period of time. 
Where multiple systems are installed, subsequent malfunction conditions 
must be considered in sequence unless their occurrence is shown to be 
improbable.
    VIII. Equipment, systems, and installation. The basic equipment and 
installation must comply with Secs. 29.1303, 29.1431, and 29.1433 
through Amendment 29-14, with the following exceptions and additions:
    (a) Flight and Navigation Instruments. (1) A magnetic gyro-stablized 
direction indicator instead of a gyroscopic direction indicator required 
by Sec. 29.1303(h); and
    (2) A standby attitude indicator which meets the requirements of 
Secs. 29.1303(g)(1) through (7) instead of a rate-of-turn indicator 
required by Sec. 29.1303(g). For two-pilot configurations, one pilot's 
primary indicator may be designated for this purpose. If standby 
batteries are provided, they may be charged from the aircraft electrical 
system if adequate isolation is incorporated.
    (b) Miscellaneous requirements. (1) Instrument systems and other 
systems essential for IFR flight that could be adversely affected by 
icing must be adequately protected when exposed to the continuous and 
intermittent maximum icing conditions defined in appendix C of Part 29 
of this chapter, whether or not the rotorcraft is certificated for 
operation in icing conditions.
    (2) There must be means in the generating system to automatically 
de-energize and disconnect from the main bus any power source developing 
hazardous overvoltage.
    (3) Each required flight instrument using a power supply (electric, 
vacuum, etc.) must have a visual means integral with the instrument to 
indicate the adequacy of the power being supplied.
    (4) When multiple systems performing like functions are required, 
each system must be grouped, routed, and spaced so that physical 
separation between systems is provided to ensure that a single 
malfunction will not adversely affect more than one system.
    (5) For systems that operate the required flight instruments at each 
pilot's station--
    (i) Only the required flight instruments for the first pilot may be 
connected to that operating system;
    (ii) Additional instruments, systems, or equipment may not be 
connected to an operating system for a second pilot unless provisions 
are made to ensure the continued normal functioning of the required 
instruments in the event of any malfunction of the additional 
instruments, systems, or equipment which is not shown to be extremely 
improbable;

[[Page 614]]

    (iii) The equipment, systems, and installations must be designed so 
that one display of the information essential to the safety of flight 
which is provided by the instruments will remain available to a pilot, 
without additional crewmember action, after any single failure or 
combination of failures that is not shown to be extremely improbable; 
and
    (iv) For single-pilot configurations, instruments which require a 
static source must be provided with a means of selecting an alternate 
source and that source must be calibrated.
    IX. Rotorcraft Flight Manual. A Rotorcraft Flight Manual or 
Rotorcraft Flight Manual IFR Supplement must be provided and must 
contain--
    (a) Limitations. The approved IFR flight envelope, the IFR 
flightcrew composition, the revised kinds of operation, and the steepest 
IFR precision approach gradient for which the helicopter is approved;
    (b) Procedures. Required information for proper operation of IFR 
systems and the recommended procedures in the event of stability 
augmentation or electrical system failures; and
    (c) Performance. If VYI differs from VY, climb 
performance at VYI and with maximum continuous power 
throughout the ranges of weight, altitude, and temperature for which 
approval is requested.

[Amdt. 27-19, 48 FR 4389, Jan. 31, 1983]

             Appendix C to Part 27--Criteria for Category A

    C27.1  General.
    A small multiengine rotorcraft may not be type certificated for 
Category A operation unless it meets the design installation and 
performance requirements contained in this appendix in addition to the 
requirements of this part.
    C27.2  Applicable part 29 sections. The following sections of part 
29 of this chapter must be met in addition to the requirements of this 
part:

29.45(a) and (b)(2)--General.
29.49(a)--Performance at minimum operating speed.
29.51--Takeoff data: General.
29.53--Takeoff: Category A.
29.55--Takeoff decision point: Category A.
29.59--Takeoff Path: Category A.
29.60--Elevated heliport takeoff path: Category A.
29.61--Takeoff distance: Category A.
29.62--Rejected takeoff: Category A.
29.64--Climb: General.
29.65(a)--Climb: AEO.
29.67(a)--Climb: OEI.
29.75--Landing: General.
29.77--Landing decision point: Category A.
29.79--Landing: Category A.
29.81--Landing distance (Ground level sites): Category A.
29.85--Balked landing: Category A.
29.87(a)--Height-velocity envelope.
29.547(a) and (b)--Main and tail rotor structure.
29.861(a)--Fire protection of structure, controls, and other parts.
29.901(c)--Powerplant: Installation.
29.903(b) (c) and (e)--Engines.
29.908(a)--Cooling fans.
29.917(b) and (c)(1)--Rotor drive system: Design.
29.927(c)(1)--Additional tests.
29.953(a)--Fuel system independence.
29.1027(a)--Transmission and gearboxes: General.
29.1045(a)(1), (b), (c), (d), and (f)--Climb cooling test procedures.
29.1047(a)--Takeoff cooling test procedures.
29.1181(a)--Designated fire zones: Regions included.
29.1187(e)--Drainage and ventilation of fire zones.
29.1189(c)--Shutoff means.
29.1191(a)(1)--Firewalls.
29.1193(e)--Cowling and engine compartment covering.
29.1195(a) and (d)--Fire extinguishing systems (one shot).
29.1197--Fire extinguishing agents.
29.1199--Extinguishing agent containers.
29.1201--Fire extinguishing system materials.
29.1305(a) (6) and (b)--Powerplant instruments.
29.1309(b)(2) (i) and (d)--Equipment, systems, and installations.
29.1323(c)(1)--Airspeed indicating system.
29.1331(b)--Instruments using a power supply.
29.1351(d)(2)--Electrical systems and equipment: General (operation 
          without normal electrical power).
29.1587(a)--Performance information.
    Note: In complying with the paragraphs listed in paragraph C27.2 
above, relevant material in the AC ``Certification of Transport Category 
Rotorcraft'' should be used.

[Doc. No. 28008, 61 FR 21907, May 10, 1996]



PART 29--AIRWORTHINESS STANDARDS: TRANSPORT CATEGORY ROTORCRAFT--Table of Contents




                           Subpart A--General

Sec.
29.1  Applicability.
29.2  Special retroactive requirements.

                            Subpart B--Flight

                                 General

29.21  Proof of compliance.
29.25  Weight limits.
29.27  Center of gravity limits.

[[Page 615]]

29.29  Empty weight and corresponding center of gravity.
29.31  Removable ballast.
29.33  Main rotor speed and pitch limits.

                               Performance

29.45  General.
29.49  Performance at minimum operating speed.
29.51  Takeoff data: general.
29.53  Takeoff: Category A.
29.55  Takeoff decision point (TDP): Category A.
29.59  Takeoff path: Category A.
29.60  Elevated heliport takeoff path: Category A.
29.61  Takeoff distance: Category A.
29.62  Rejected takeoff: Category A.
29.63  Takeoff: Category B.
29.64  Climb: General.
29.65  Climb: All engines operating.
29.67  Climb: One engine inoperative (OEI).
29.71  Helicopter angle of glide: Category B.
29.75  Landing: General.
29.77  Landing Decision Point (LDP): Category A.
29.79  Landing: Category A.
29.81  Landing distance: Category A.
29.83  Landing: Category B.
29.85  Balked landing: Category A.
29.87  Height-velocity envelope.

                         Flight Characteristics

29.141  General.
29.143  Controllability and maneuverability.
29.151  Flight controls.
29.161  Trim control.
29.171  Stability: general.
29.173  Static longitudinal stability.
29.175  Demonstration of static longitudinal stability.
29.177  Static directional stability.
29.181  Dynamic stability: Category A rotorcraft.

                Ground and Water Handling Characteristics

29.231  General.
29.235  Taxiing condition.
29.239  Spray characteristics.
29.241  Ground resonance.

                    Miscellaneous Flight Requirements

29.251  Vibration.

                    Subpart C--Strength Requirements

                                 General

29.301  Loads.
29.303  Factor of safety.
29.305  Strength and deformation.
29.307  Proof of structure.
29.309  Design limitations.

                              Flight Loads

29.321  General.
29.337  Limit maneuvering load factor.
29.339  Resultant limit maneuvering loads.
29.341  Gust loads.
29.351  Yawing conditions.
29.361  Engine torque.

                    Control Surface and System Loads

29.391  General.
29.395  Control system.
29.397  Limit pilot forces and torques.
29.399  Dual control system.
29.411  Ground clearance: tail rotor guard.
29.427  Unsymmetrical loads.

                              Ground Loads

29.471  General.
29.473  Ground loading conditions and assumptions.
29.475  Tires and shock absorbers.
29.477  Landing gear arrangement.
29.479  Level landing conditions.
29.481  Tail-down landing conditions.
29.483  One-wheel landing conditions.
29.485  Lateral drift landing conditions.
29.493  Braked roll conditions.
29.497  Ground loading conditions: landing gear with tail wheels.
29.501  Ground loading conditions: landing gear with skids.
29.505  Ski landing conditions.
29.511  Ground load: unsymmetrical loads on multiple-wheel units.

                               Water Loads

29.519  Hull type rotorcraft: Water-based and amphibian.
29.521  Float landing conditions.

                       Main Component Requirements

29.547  Main and tail rotor structure.
29.549  Fuselage and rotor pylon structures.
29.551  Auxiliary lifting surfaces.

                      Emergency Landing Conditions

29.561  General.
29.562  Emergency landing dynamic conditions.
29.563  Structural ditching provisions.

                           Fatigue Evaluation

29.571  Fatigue evaluation of structure.

                   Subpart D--Design and Construction

                                 General

29.601  Design.
29.602  Critical parts.
29.603  Materials.
29.605  Fabrication methods.
29.607  Fasteners.
29.609  Protection of structure.
29.610  Lightning and static electricity protection.
29.611  Inspection provisions.

[[Page 616]]

29.613  Material strength properties and design values.
29.619  Special factors.
29.621  Casting factors.
29.623  Bearing factors.
29.625  Fitting factors.
29.629  Flutter and divergence.
29.631  Bird strike.

                                 Rotors

29.653  Pressure venting and drainage of rotor blades.
29.659  Mass balance.
29.661  Rotor blade clearance.
29.663  Ground resonance prevention means.

                             Control Systems

29.671  General.
29.672  Stability augmentation, automatic, and power-operated systems.
29.673  Primary flight controls.
29.674  Interconnected controls.
29.675  Stops.
29.679  Control system locks.
29.681  Limit load static tests.
29.683  Operation tests.
29.685  Control system details.
29.687  Spring devices.
29.691  Autorotation control mechanism.
29.695  Power boost and power-operated control system.

                              Landing Gear

29.723  Shock absorption tests.
29.725  Limit drop test.
29.727  Reserve energy absorption drop test.
29.729  Retracting mechanism.
29.731  Wheels.
29.733  Tires.
29.735  Brakes.
29.737  Skis.

                            Floats and Hulls

29.751  Main float buoyancy.
29.753  Main float design.
29.755  Hull buoyancy.
29.757  Hull and auxiliary float strength.

                   Personnel and Cargo Accommodations

29.771  Pilot compartment.
29.773  Pilot compartment view.
29.775  Windshields and windows.
29.777  Cockpit controls.
29.779  Motion and effect of cockpit controls.
29.783  Doors.
29.785  Seats, berths, litters, safety belts, and harnesses.
29.787  Cargo and baggage compartments.
29.801  Ditching.
29.803  Emergency evacuation.
29.805  Flight crew emergency exits.
29.807  Passenger emergency exits.
29.809  Emergency exit arrangement.
29.811  Emergency exit marking.
29.812  Emergency lighting.
29.813  Emergency exit access.
29.815  Main aisle width.
29.831  Ventilation.
29.833  Heaters.

                             Fire Protection

29.851  Fire extinguishers.
29.853  Compartment interiors.
29.855  Cargo and baggage compartments.
29.859  Combustion heater fire protection.
29.861  Fire protection of structure, controls, and other parts.
29.863  Flammable fluid fire protection.

                             External Loads

29.865  External loads.

                              Miscellaneous

29.871  Leveling marks.
29.873  Ballast provisions.

                          Subpart E--Powerplant

                                 General

29.901  Installation.
29.903  Engines.
29.907  Engine vibration.
29.908  Cooling fans.

                           Rotor Drive System

29.917  Design.
29.921  Rotor brake.
29.923  Rotor drive system and control mechanism tests.
29.927  Additional tests.
29.931  Shafting critical speed.
29.935  Shafting joints.
29.939  Turbine engine operating characteristics.

                               Fuel System

29.951  General.
29.952  Fuel system crash resistance.
29.953  Fuel system independence.
29.954  Fuel system lightning protection.
29.955  Fuel flow.
29.957  Flow between interconnected tanks.
29.959  Unusable fuel supply.
29.961  Fuel system hot weather operation.
29.963  Fuel tanks: general.
29.965  Fuel tank tests.
29.967  Fuel tank installation.
29.969  Fuel tank expansion space.
29.971  Fuel tank sump.
29.973  Fuel tank filler connection.
29.975  Fuel tank vents and carburetor vapor vents.
29.977  Fuel tank outlet.
29.979  Pressure refueling and fueling provisions below fuel level.

                         Fuel System Components

29.991  Fuel pumps.
29.993  Fuel system lines and fittings.
29.995  Fuel valves.
29.997  Fuel strainer or filter.

[[Page 617]]

29.999  Fuel system drains.
29.1001  Fuel jettisoning.

                               Oil System

29.1011  Engines: general.
29.1013  Oil tanks.
29.1015  Oil tank tests.
29.1017  Oil lines and fittings.
29.1019  Oil strainer or filter.
29.1021  Oil system drains.
29.1023  Oil radiators.
29.1025  Oil valves.
29.1027  Transmission and gearboxes: general.

                                 Cooling

29.1041  General.
29.1043  Cooling tests.
29.1045  Climb cooling test procedures.
29.1047  Takeoff cooling test procedures.
29.1049  Hovering cooling test procedures.

                            Induction System

29.1091  Air induction.
29.1093  Induction system icing protection.
29.1101  Carburetor air preheater design.
29.1103  Induction systems ducts and air duct systems.
29.1105  Induction system screens.
29.1107  Inter-coolers and after-coolers.
29.1109  Carburetor air cooling.

                             Exhaust System

29.1121  General.
29.1123  Exhaust piping.
29.1125  Exhaust heat exchangers.

                   Powerplant Controls and Accessories

29.1141  Powerplant controls: general.
29.1142  Auxiliary power unit controls.
29.1143  Engine controls.
29.1145  Ignition switches.
29.1147  Mixture controls.
29.1151  Rotor brake controls.
29.1157  Carburetor air temperature controls.
29.1159  Supercharger controls.
29.1163  Powerplant accessories.
29.1165  Engine ignition systems.

                       Powerplant Fire Protection

29.1181  Designated fire zones: regions included.
29.1183  Lines, fittings, and components.
29.1185  Flammable fluids.
29.1187  Drainage and ventilation of fire zones.
29.1189  Shutoff means.
29.1191  Firewalls.
29.1193  Cowling and engine compartment covering.
29.1194  Other surfaces.
29.1195  Fire extinguishing systems.
29.1197  Fire extinguishing agents.
29.1199  Extinguishing agent containers.
29.1201  Fire extinguishing system materials.
29.1203  Fire detector systems.

                          Subpart F--Equipment

                                 General

29.1301  Function and installation.
29.1303  Flight and navigation instruments.
29.1305  Powerplant instruments.
29.1307  Miscellaneous equipment.
29.1309  Equipment, systems, and installations.

                        Instruments: Installation

29.1321  Arrangement and visibility.
29.1322  Warning, caution, and advisory lights.
29.1323  Airspeed indicating system.
29.1325  Static pressure and pressure altimeter systems.
29.1327  Magnetic direction indicator.
29.1329  Automatic pilot system.
29.1331  Instruments using a power supply.
29.1333  Instrument systems.
29.1335  Flight director systems.
29.1337  Powerplant instruments.

                    Electrical Systems and Equipment

29.1351  General.
29.1353  Electrical equipment and installations.
29.1355  Distribution system.
29.1357  Circuit protective devices.
29.1359  Electrical system fire and smoke protection.
29.1363  Electrical system tests.

                                 Lights

29.1381  Instrument lights.
29.1383  Landing lights.
29.1385  Position light system installation.
29.1387  Position light system dihedral angles.
29.1389  Position light distribution and intensities.
29.1391  Minimum intensities in the horizontal plane of forward and rear 
          position lights.
29.1393  Minimum intensities in any vertical plane of forward and rear 
          position lights.
29.1395  Maximum intensities in overlapping beams of forward and rear 
          position lights.
29.1397  Color specifications.
29.1399  Riding light.
29.1401  Anticollision light system.

                            Safety Equipment

29.1411  General.
29.1413  Safety belts: passenger warning device.
29.1415  Ditching equipment.
29.1419  Ice protection.

                         Miscellaneous Equipment

29.1431  Electronic equipment.

[[Page 618]]

29.1433  Vacuum systems.
29.1435  Hydraulic systems.
29.1439  Protective breathing equipment.
29.1457  Cockpit voice recorders.
29.1459  Flight recorders.
29.1461  Equipment containing high energy rotors.

            Subpart G--Operating Limitations and Information

29.1501  General.

                          Operating Limitations

29.1503  Airspeed limitations: general.
29.1505  Never-exceed speed.
29.1509  Rotor speed.
29.1517  Limiting height-speed envelope.
29.1519  Weight and center of gravity.
29.1521  Powerplant limitations.
29.1522  Auxiliary power unit limitations.
29.1523  Minimum flight crew.
29.1525  Kinds of operations.
29.1527  Maximum operating altitude.
29.1529  Instructions for Continued Airworthiness.

                          Markings and Placards

29.1541  General.
29.1543  Instrument markings: general.
29.1545  Airspeed indicator.
29.1547  Magnetic direction indicator.
29.1549  Powerplant instruments.
29.1551  Oil quantity indicator.
29.1553  Fuel quantity indicator.
29.1555  Control markings.
29.1557  Miscellaneous markings and placards.
29.1559  Limitations placard.
29.1561  Safety equipment.
29.1565  Tail rotor.

                        Rotorcraft Flight Manual

29.1581  General.
29.1583  Operating limitations.
29.1585  Operating procedures.
29.1587  Performance information.
29.1589  Loading information.

Appendix A to Part 29--Instructions for Continued Airworthiness
Appendix B to Part 29--Airworthiness Criteria for Helicopter Instrument 
          Flight
Appendix C to Part 29--Icing Certification
Appendix D to Part 29--Criteria for Demonstration of Emergency 
          Evacuation Procedures Under Sec. 29.803

    Authority: 49 U.S.C. 106(g), 40113, 44701-44702, 44704.

    Source: Docket No. 5084, 29 FR 16150, Dec. 3, 1964, unless otherwise 
noted.



                           Subpart A--General



Sec. 29.1  Applicability.

    (a) This part prescribes airworthiness standards for the issue of 
type certificates, and changes to those certificates, for transport 
category rotorcraft.
    (b) Transport category rotorcraft must be certificated in accordance 
with either the Category A or Category B requirements of this part. A 
multiengine rotorcraft may be type certificated as both Category A and 
Category B with appropriate and different operating limitations for each 
category.
    (c) Rotorcraft with a maximum weight greater than 20,000 pounds and 
10 or more passenger seats must be type certificated as Category A 
rotorcraft.
    (d) Rotorcraft with a maximum weight greater than 20,000 pounds and 
nine or less passenger seats may be type certificated as Category B 
rotorcraft provided the Category A requirements of Subparts C, D, E, and 
F of this part are met.
    (e) Rotorcraft with a maximum weight of 20,000 pounds or less but 
with 10 or more passenger seats may be type certificated as Category B 
rotorcraft provided the Category A requirements of Secs. 29.67(a)(2), 
29.87, 29.1517, and subparts C, D, E, and F of this part are met.
    (f) Rotorcraft with a maximum weight of 20,000 pounds or less and 
nine or less passenger seats may be type certificated as Category B 
rotorcraft.
    (g) Each person who applies under Part 21 for a certificate or 
change described in paragraphs (a) through (f) of this section must show 
compliance with the applicable requirements of this part.

[Amdt. 29-21, 48 FR 4391, Jan. 31, 1983, as amended by Amdt. 29-39, 61 
FR 21898, May 10, 1996; 61 FR 33963, July 1, 1996]



Sec. 29.2  Special retroactive requirements.

    For each rotorcraft manufactured after September 16, 1992, each 
applicant must show that each occupant's seat is equipped with a safety 
belt and shoulder harness that meets the requirements of paragraphs (a), 
(b), and (c) of this section.

[[Page 619]]

    (a) Each occupant's seat must have a combined safety belt and 
shoulder harness with a single-point release. Each pilot's combined 
safety belt and shoulder harness must allow each pilot, when seated with 
safety belt and shoulder harness fastened, to perform all functions 
necessary for flight operations. There must be a means to secure belts 
and harnesses, when not in use, to prevent interference with the 
operation of the rotorcraft and with rapid egress in an emergency.
    (b) Each occupant must be protected from serious head injury by a 
safety belt plus a shoulder harness that will prevent the head from 
contacting any injurious object.
    (c) The safety belt and shoulder harness must meet the static and 
dynamic strength requirements, if applicable, specified by the 
rotorcraft type certification basis.
    (d) For purposes of this section, the date of manufacture is 
either--
    (1) The date the inspection acceptance records, or equivalent, 
reflect that the rotorcraft is complete and meets the FAA-Approved Type 
Design Data; or
    (2) The date that the foreign civil airworthiness authority 
certifies the rotorcraft is complete and issues an original standard 
airworthiness certificate, or equivalent, in that country.

[Doc. No. 26078, 56 FR 41052, Aug. 16, 1991]



                            Subpart B--Flight

                                 General



Sec. 29.21  Proof of compliance.

    Each requirement of this subpart must be met at each appropriate 
combination of weight and center of gravity within the range of loading 
conditions for which certification is requested. This must be shown--
    (a) By tests upon a rotorcraft of the type for which certification 
is requested, or by calculations based on, and equal in accuracy to, the 
results of testing; and
    (b) By systematic investigation of each required combination of 
weight and center of gravity, if compliance cannot be reasonably 
inferred from combinations investigated.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-24, 49 
FR 44435, Nov. 6, 1984]



Sec. 29.25  Weight limits.

    (a) Maximum weight. The maximum weight (the highest weight at which 
compliance with each applicable requirement of this part is shown) or, 
at the option of the applicant, the highest weight for each altitude and 
for each practicably separable operating condition, such as takeoff, 
enroute operation, and landing, must be established so that it is not 
more than--
    (1) The highest weight selected by the applicant;
    (2) The design maximum weight (the highest weight at which 
compliance with each applicable structural loading condition of this 
part is shown); or
    (3) The highest weight at which compliance with each applicable 
flight requirement of this part is shown.
    (b) Minimum weight. The minimum weight (the lowest weight at which 
compliance with each applicable requirement of this part is shown) must 
be established so that it is not less than--
    (1) The lowest weight selected by the applicant;
    (2) The design minimum weight (the lowest weight at which compliance 
with each structural loading condition of this part is shown); or
    (3) The lowest weight at which compliance with each applicable 
flight requirement of this part is shown.
    (c) Total weight with jettisonable external load. A total weight for 
the rotorcraft with a jettisonable external load attached that is 
greater than the maximum weight established under paragraph (a) of this 
section may be established for any rotorcraft-load combination if--
    (1) The rotorcraft-load combination does not include human external 
cargo,
    (2) Structural component approval for external load operations under 
either Sec. 29.865 or under equivalent operational standards is 
obtained,
    (3) The portion of the total weight that is greater than the maximum 
weight established under paragraph (a) of this section is made up only 
of the

[[Page 620]]

weight of all or part of the jettisonable external load,
    (4) Structural components of the rotorcraft are shown to comply with 
the applicable structural requirements of this part under the increased 
loads and stresses caused by the weight increase over that established 
under paragraph (a) of this section, and
    (5) Operation of the rotorcraft at a total weight greater than the 
maximum certificated weight established under paragraph (a) of this 
section is limited by appropriate operating limitations under 
Sec. 29.865 (a) and (d) of this part.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55471, Dec. 20, 1976; Amdt. 29-43, 64 FR 43020, Aug. 6, 1999]



Sec. 29.27  Center of gravity limits.

    The extreme forward and aft centers of gravity and, where critical, 
the extreme lateral centers of gravity must be established for each 
weight established under Sec. 29.25. Such an extreme may not lie 
beyond--
    (a) The extremes selected by the applicant;
    (b) The extremes within which the structure is proven; or
    (c) The extremes within which compliance with the applicable flight 
requirements is shown.

[Amdt. 29-3, 33 FR 965, Jan. 26, 1968]



Sec. 29.29  Empty weight and corresponding center of gravity.

    (a) The empty weight and corresponding center of gravity must be 
determined by weighing the rotorcraft without the crew and payload, but 
with--
    (1) Fixed ballast;
    (2) Unusable fuel; and
    (3) Full operating fluids, including--
    (i) Oil;
    (ii) Hydraulic fluid; and
    (iii) Other fluids required for normal operation of rotorcraft 
systems, except water intended for injection in the engines.
    (b) The condition of the rotorcraft at the time of determining empty 
weight must be one that is well defined and can be easily repeated, 
particularly with respect to the weights of fuel, oil, coolant, and 
installed equipment.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150. Dec. 3, 1964, as amended by Amdt. 29-15, 43 
FR 2326, Jan. 16, 1978]



Sec. 29.31  Removable ballast.

    Removable ballast may be used in showing compliance with the flight 
requirements of this subpart.



Sec. 29.33  Main rotor speed and pitch limits.

    (a) Main rotor speed limits. A range of main rotor speeds must be 
established that--
    (1) With power on, provides adequate margin to accommodate the 
variations in rotor speed occurring in any appropriate maneuver, and is 
consistent with the kind of governor or synchronizer used; and
    (2) With power off, allows each appropriate autorotative maneuver to 
be performed throughout the ranges of airspeed and weight for which 
certification is requested.
    (b) Normal main rotor high pitch limit (power on). For rotorcraft, 
except helicopters required to have a main rotor low speed warning under 
paragraph (e) of this section, it must be shown, with power on and 
without exceeding approved engine maximum limitations, that main rotor 
speeds substantially less than the minimum approved main rotor speed 
will not occur under any sustained flight condition. This must be met 
by--
    (1) Appropriate setting of the main rotor high pitch stop;
    (2) Inherent rotorcraft characteristics that make unsafe low main 
rotor speeds unlikely; or
    (3) Adequate means to warn the pilot of unsafe main rotor speeds.
    (c) Normal main rotor low pitch limit (power off). It must be shown, 
with power off, that--
    (1) The normal main rotor low pitch limit provides sufficient rotor 
speed, in any autorotative condition, under the most critical 
combinations of weight and airspeed; and

[[Page 621]]

    (2) It is possible to prevent overspeeding of the rotor without 
exceptional piloting skill.
    (d) Emergency high pitch. If the main rotor high pitch stop is set 
to meet paragraph (b)(1) of this section, and if that stop cannot be 
exceeded inadvertently, additional pitch may be made available for 
emergency use.
    (e) Main rotor low speed warning for helicopters. For each single 
engine helicopter, and each multiengine helicopter that does not have an 
approved device that automatically increases power on the operating 
engines when one engine fails, there must be a main rotor low speed 
warning which meets the following requirements:
    (1) The warning must be furnished to the pilot in all flight 
conditions, including power-on and power-off flight, when the speed of a 
main rotor approaches a value that can jeopardize safe flight.
    (2) The warning may be furnished either through the inherent 
aerodynamic qualities of the helicopter or by a device.
    (3) The warning must be clear and distinct under all conditions, and 
must be clearly distinguishable from all other warnings. A visual device 
that requires the attention of the crew within the cockpit is not 
acceptable by itself.
    (4) If a warning device is used, the device must automatically 
deactivate and reset when the low-speed condition is corrected. If the 
device has an audible warning, it must also be equipped with a means for 
the pilot to manually silence the audible warning before the low-speed 
condition is corrected.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 965, Jan. 26, 1968; Amdt. 29-15, 43 FR 2326, Jan. 16, 1978]

                               Performance



Sec. 29.45  General.

    (a) The performance prescribed in this subpart must be determined--
    (1) With normal piloting skill and;
    (2) Without exceptionally favorable conditions.
    (b) Compliance with the performance requirements of this subpart 
must be shown--
    (1) For still air at sea level with a standard atmosphere and;
    (2) For the approved range of atmospheric variables.
    (c) The available power must correspond to engine power, not 
exceeding the approved power, less--
    (1) Installation losses; and
    (2) The power absorbed by the accessories and services at the values 
for which certification is requested and approved.
    (d) For reciprocating engine-powered rotorcraft, the performance, as 
affected by engine power, must be based on a relative humidity of 80 
percent in a standard atmosphere.
    (e) For turbine engine-powered rotorcraft, the performance, as 
affected by engine power, must be based on a relative humidity of--
    (1) 80 percent, at and below standard temperature; and
    (2) 34 percent, at and above standard temperature plus 50 deg. F.

Between these two temperatures, the relative humidity must vary 
linearly.
    (f) For turbine-engine-power rotorcraft, a means must be provided to 
permit the pilot to detemine prior to takeoff that each engine is 
capable of developing the power necessary to achieve the applicable 
rotorcraft performance prescribed in this subpart.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-15, 43 
FR 2326, Jan. 16, 1978; Amdt. 29-24, 49 FR 44436, Nov. 6, 1984]



Sec. 29.49  Performance at minimum operating speed.

    (a) For each Category A helicopter, the hovering performance must be 
determined over the ranges of weight, altitude, and temperature for 
which takeoff data are scheduled--
    (1) With not more than takeoff power;
    (2) With the landing gear extended; and

[[Page 622]]

    (3) At a height consistent with the procedure used in establishing 
the takeoff, climbout, and rejected takeoff paths.
    (b) For each Category B helicopter, the hovering performance must be 
determined over the ranges of weight, altitude, and temperature for 
which certification is requested, with--
    (1) Takeoff power;
    (2) The landing gear extended; and
    (3) The helicopter in ground effect at a height consistent with 
normal takeoff procedures.
    (c) For each helicopter, the out-of-ground effect hovering 
performance must be determined over the ranges of weight, altitude, and 
temperature for which certification is requested with takeoff power.
    (d) For rotorcraft other than helicopters, the steady rate of climb 
at the minimum operating speed must be determined over the ranges of 
weight, altitude, and temperature for which certification is requested 
with--
    (1) Takeoff power; and
    (2) The landing gear extended.

[Doc. No. 24802, 61 FR 21898, May 10, 1996; 61 FR 33963, July 1, 1996]



Sec. 29.51  Takeoff data: general.

    (a) The takeoff data required by Secs. 29.53, 29.55, 29.59, 29.60, 
29.61, 29.62, 29.63, and 29.67 must be determined--
    (1) At each weight, altitude, and temperature selected by the 
applicant; and
    (2) With the operating engines within approved operating 
limitations.
    (b) Takeoff data must--
    (1) Be determined on a smooth, dry, hard surface; and
    (2) Be corrected to assume a level takeoff surface.
    (c) No takeoff made to determine the data required by this section 
may require exceptional piloting skill or alertness, or exceptionally 
favorable conditions.


[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-39, 61 
FR 21899, May 10, 1996]



Sec. 29.53  Takeoff: Category A.

    The takeoff performance must be determined and scheduled so that, if 
one engine fails at any time after the start of takeoff, the rotorcraft 
can--
    (a) Return to, and stop safely on, the takeoff area; or
    (b) Continue the takeoff and climbout, and attain a configuration 
and airspeed allowing compliance with Sec. 29.67(a)(2).


[Doc. No. 24802, 61 FR 21899, May 10, 1996; 61 FR 33963, July 1, 1996]



Sec. 29.55  Takeoff decision point (TDP): Category A.

    (a) The TDP is the first point from which a continued takeoff 
capability is assured under Sec. 29.59 and is the last point in the 
takeoff path from which a rejected takeoff is assured within the 
distance determined under Sec. 29.62.
    (b) The TDP must be established in relation to the takeoff path 
using no more than two parameters; e.g., airspeed and height, to 
designate the TDP.
    (c) Determination of the TDP must include the pilot recognition time 
interval following failure of the critical engine.

[Doc. No. 24802, 61 FR 21899, May 10, 1996]



Sec. 29.59  Takeoff path: Category A.

    (a) The takeoff path extends from the point of commencement of the 
takeoff procedure to a point at which the rotorcraft is 1,000 feet above 
the takeoff surface and compliance with Sec. 29.67(a)(2) is shown. In 
addition--
    (1) The takeoff path must remain clear of the height-velocity 
envelope established in accordance with Sec. 29.87;
    (2) The rotorcraft must be flown to the engine failure point; at 
which point, the critical engine must be made inoperative and remain 
inoperative for the rest of the takeoff;
    (3) After the critical engine is made inoperative, the rotorcraft 
must continue to the takeoff decision point, and then attain 
VTOSS;
    (4) Only primary controls may be used while attaining 
VTOSS and while establishing a positive rate of climb. 
Secondary controls that are located on the primary controls may be used 
after a positive rate of climb and VTOSS are established but 
in no case less than 3 seconds after the critical engine is made 
inoperative; and

[[Page 623]]

    (5) After attaining VTOSS and a positive rate of a climb, 
the landing gear may be retracted.
    (b) During the takeoff path determination made in accordance with 
paragraph (a) of this section and after attaining VTOSS and a 
positive rate of climb, the climb must be continued at a speed as close 
as practicable to, but not less than, VTOSS until the 
rotorcraft is 200 feet above the takeoff surface. During this interval, 
the climb performance must meet or exceed that required by 
Sec. 29.67(a)(1).
    (c) During the continued takeoff, the rotorcraft shall not descend 
below 15 feet above the takeoff surface when the takeoff decision point 
is above 15 feet.
    (d) From 200 feet above the takeoff surface, the rotorcraft takeoff 
path must be level or positive until a height 1,000 feet above the 
takeoff surface is attained with not less than the rate of climb 
required by Sec. 29.67(a)(2). Any secondary or auxiliary control may be 
used after attaining 200 feet above the takeoff surface.
    (e) Takeoff distance will be determined in accordance with 
Sec. 29.61.

[Doc. No. 24802, 61 FR 21899, May 10, 1996; 61 FR 33963, July 1, 1996, 
as amended by Amdt. 29-44, 64 FR 45337, Aug. 19, 1999]



Sec. 29.60  Elevated heliport takeoff path: Category A.

    (a) The elevated heliport takeoff path extends from the point of 
commencement of the takeoff procedure to a point in the takeoff path at 
which the rotorcraft is 1,000 feet above the takeoff surface and 
compliance with Sec. 29.67(a)(2) is shown. In addition--
    (1) The requirements of Sec. 29.59(a) must be met;
    (2) While attaining VTOSS and a positive rate of climb, 
the rotorcraft may descend below the level of the takeoff surface if, in 
so doing and when clearing the elevated heliport edge, every part of the 
rotorcraft clears all obstacles by at least 15 feet;
    (3) The vertical magnitude of any descent below the takeoff surface 
must be determined; and
    (4) After attaining VTOSS and a positive rate of climb, 
the landing gear may be retracted.
    (b) The scheduled takeoff weight must be such that the climb 
requirements of Sec. 29.67 (a)(1) and (a)(2) will be met.
    (c) Takeoff distance will be determined in accordance with 
Sec. 29.61.

[Doc. No. 24802, 61 FR 21899, May 10, 1996; 61 FR 33963, July 1, 1996]



Sec. 29.61  Takeoff distance: Category A.

    (a) The normal takeoff distance is the horizontal distance along the 
takeoff path from the start of the takeoff to the point at which the 
rotorcraft attains and remains at least 35 feet above the takeoff 
surface, attains and maintains a speed of at least VTOSS, and 
establishes a positive rate of climb, assuming the critical engine 
failure occurs at the engine failure point prior to the takeoff decision 
point.
    (b) For elevated heliports, the takeoff distance is the horizontal 
distance along the takeoff path from the start of the takeoff to the 
point at which the rotorcraft attains and maintains a speed of at least 
VTOSS and establishes a positive rate of climb, assuming the 
critical engine failure occurs at the engine failure point prior to the 
takeoff decision point.

[Doc. No. 24802, 61 FR 21899, May 10, 1996]



Sec. 29.62  Rejected takeoff: Category A.

    The rejected takeoff distance and procedures for each condition 
where takeoff is approved will be established with--
    (a) The takeoff path requirements of Secs. 29.59 and 29.60 being 
used up to the TDP where the critical engine failure is recognized and 
the rotorcraft is landed and brought to a complete stop on the takeoff 
surface;
    (b) The remaining engines operating within approved limits;
    (c) The landing gear remaining extended throughout the entire 
rejected takeoff; and
    (d) The use of only the primary controls until the rotorcraft is on 
the ground. Secondary controls located on the primary control may not be 
used until the rotorcraft is on the ground. Means other than wheel 
brakes may be used to stop the rotorcraft if the means

[[Page 624]]

are safe and reliable and consistent results can be expected under 
normal operating conditions.

[Doc. No. 24802, 61 FR 21899, May 10, 1996, as amended by Amdt. 29-44, 
64 FR 45337, Aug. 19, 1999]



Sec. 29.63  Takeoff: Category B.

    The horizontal distance required to take off and climb over a 50-
foot obstacle must be established with the most unfavorable center of 
gravity. The takeoff may be begun in any manner if--
    (a) The takeoff surface is defined;
    (b) Adequate safeguards are maintained to ensure proper center of 
gravity and control positions; and
    (c) A landing can be made safely at any point along the flight path 
if an engine fails.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55471, Dec. 20, 1976]



Sec. 29.64  Climb: General.

    Compliance with the requirements of Secs. 29.65 and 29.67 must be 
shown at each weight, altitude, and temperature within the operational 
limits established for the rotorcraft and with the most unfavorable 
center of gravity for each configuration. Cowl flaps, or other means of 
controlling the engine-cooling air supply, will be in the position that 
provides adequate cooling at the temperatures and altitudes for which 
certification is requested.

[Doc. No. 24802, 61 FR 21900, May 10, 1996]



Sec. 29.65  Climb: All engines operating.

    (a) The steady rate of climb must be determined--
    (1) With maximum continuous power;
    (2) With the landing gear retracted; and
    (3) At Vy for standard sea level conditions and at speeds 
selected by the applicant for other conditions.
    (b) For each Category B rotorcraft except helicopters, the rate of 
climb determined under paragraph (a) of this section must provide a 
steady climb gradient of at least 1:6 under standard sea level 
conditions.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150. Dec. 3, 1964, as amended by Amdt. 29-15, 43 
FR 2326, Jan. 16, 1978; Amdt. 29-39, 61 FR 21900, May 10, 1996; 61 FR 
33963, July 1, 1996]



Sec. 29.67  Climb: One engine inoperative (OEI).

    (a) For Category A rotorcraft, in the critical takeoff configuration 
existing along the takeoff path, the following apply:
    (1) The steady rate of climb without ground effect, 200 feet above 
the takeoff surface, must be at least 100 feet per minute for each 
weight, altitude, and temperature for which takeoff data are to be 
scheduled with--
    (i) The critical engine inoperative and the remaining engines within 
approved operating limitations, except that for rotorcraft for which the 
use of 30-second/2-minute OEI power is requested, only the 2-minute OEI 
power may be used in showing compliance with this paragraph;
    (ii) The landing gear extended; and
    (iii) The takeoff safety speed selected by the applicant.
    (2) The steady rate of climb without ground effect, 1000 feet above 
the takeoff surface, must be at least 150 feet per minute, for each 
weight, altitude, and temperature for which takeoff data are to be 
scheduled with--
    (i) The critical engine inoperative and the remaining engines at 
maximum continuous power including continuous OEI power, if approved, or 
at 30-minute OEI power for rotorcraft for which certification for use of 
30-minute OEI power is requested;
    (ii) The landing gear retracted; and
    (iii) The speed selected by the applicant.
    (3) The steady rate of climb (or descent) in feet per minute, at 
each altitude and temperature at which the rotorcraft is expected to 
operate and at any weight within the range of weights for which 
certification is requested, must be determined with--

[[Page 625]]

    (i) The critical engine inoperative and the remaining engines at 
maximum continuous power including continuous OEI power, if approved, 
and at 30-minute OEI power for rotorcraft for which certification for 
the use of 30-minute OEI power is requested;
    (ii) The landing gear retracted; and
    (iii) The speed selected by the applicant.
    (b) For multiengine Category B rotorcraft meeting the Category A 
engine isolation requirements, the steady rate of climb (or descent) 
must be determined at the speed for best rate of climb (or minimum rate 
of descent) at each altitude, temperature, and weight at which the 
rotorcraft is expected to operate, with the critical engine inoperative 
and the remaining engines at maximum continuous power including 
continuous OEI power, if approved, and at 30-minute OEI power for 
rotorcraft for which certification for the use of 30-minute OEI power is 
requested.

[Doc. No. 24802, 61 FR 21900, May 10, 1996; 61 FR 33963, July 1, 1996, 
as amended by Amdt. 29-44, 64 FR 45337, Aug. 19, 1999; 64 FR 47563, Aug. 
31, 1999]



Sec. 29.71  Helicopter angle of glide: Category B.

    For each category B helicopter, except multiengine helicopters 
meeting the requirements of Sec. 29.67(b) and the powerplant 
installation requirements of category A, the steady angle of glide must 
be determined in autorotation--
    (a) At the forward speed for minimum rate of descent as selected by 
the applicant;
    (b) At the forward speed for best glide angle;
    (c) At maximum weight; and
    (d) At the rotor speed or speeds selected by the applicant.

[Amdt. 29-12, 41 FR 55471, Dec. 20, 1976]



Sec. 29.75  Landing: General.

    (a) For each rotorcraft--
    (1) The corrected landing data must be determined for a smooth, dry, 
hard, and level surface;
    (2) The approach and landing must not require exceptional piloting 
skill or exceptionally favorable conditions; and
    (3) The landing must be made without excessive vertical acceleration 
or tendency to bounce, nose over, ground loop, porpoise, or water loop.
    (b) The landing data required by Secs. 29.77, 29.79, 29.81, 29.83, 
and 29.85 must be determined--
    (1) At each weight, altitude, and temperature for which landing data 
are approved;
    (2) With each operating engine within approved operating 
limitations; and
    (3) With the most unfavorable center of gravity.

[Doc. No. 24802, 61 FR 21900, May 10, 1996]



Sec. 29.77  Landing Decision Point (LDP): Category A.

    (a) The LDP is the last point in the approach and landing path from 
which a balked landing can be accomplished in accordance with 
Sec. 29.85.
    (b) Determination of the LDP must include the pilot recognition time 
interval following failure of the critical engine.

[Doc. No. 24802, 64 FR 45338, Aug. 19, 1999]



Sec. 29.79  Landing: Category A.

    (a) For Category A rotorcraft--
    (1) The landing performance must be determined and scheduled so that 
if the critical engine fails at any point in the approach path, the 
rotorcraft can either land and stop safely or climb out and attain a 
rotorcraft configuration and speed allowing compliance with the climb 
requirement of Sec. 29.67(a)(2);
    (2) The approach and landing paths must be established with the 
critical engine inoperative so that the transition between each stage 
can be made smoothly and safely;
    (3) The approach and landing speeds must be selected by the 
applicant and must be appropriate to the type of rotorcraft; and
    (4) The approach and landing path must be established to avoid the 
critical areas of the height-velocity envelope determined in accordance 
with Sec. 29.87.
    (b) It must be possible to make a safe landing on a prepared landing 
surface after complete power failure occurring during normal cruise.

[Doc. No. 24802, 61 FR 21900, May 10, 1996]

[[Page 626]]



Sec. 29.81  Landing distance: Category A.

    The horizontal distance required to land and come to a complete stop 
(or to a speed of approximately 3 knots for water landings) from a point 
50 ft above the landing surface must be determined from the approach and 
landing paths established in accordance with Sec. 29.79.

[Doc. No. 24802, 64 FR 45338, Aug. 19, 1999]



Sec. 29.83  Landing: Category B.

    (a) For each Category B rotorcraft, the horizontal distance required 
to land and come to a complete stop (or to a speed of approximately 3 
knots for water landings) from a point 50 feet above the landing surface 
must be determined with--
    (1) Speeds appropriate to the type of rotorcraft and chosen by the 
applicant to avoid the critical areas of the height-velocity envelope 
established under Sec. 29.87; and
    (2) The approach and landing made with power on and within approved 
limits.
    (b) Each multiengined Category B rotorcraft that meets the 
powerplant installation requirements for Category A must meet the 
requirements of--
    (1) Sections 29.79 and 29.81; or
    (2) Paragraph (a) of this section.
    (c) It must be possible to make a safe landing on a prepared landing 
surface if complete power failure occurs during normal cruise.

[Doc. No. 24802, 61 FR 21900, May 10, 1996; 61 FR 33963, July 1, 1996]



Sec. 29.85  Balked landing: Category A.

    For Category A rotorcraft, the balked landing path with the critical 
engine inoperative must be established so that--
    (a) The transition from each stage of the maneuver to the next stage 
can be made smoothly and safely;
    (b) From the LDP on the approach path selected by the applicant, a 
safe climbout can be made at speeds allowing compliance with the climb 
requirements of Sec. 29.67(a)(1) and (2); and
    (c) The rotorcraft does not descend below 15 feet above the landing 
surface. For elevated heliport operations, descent may be below the 
level of the landing surface provided the deck edge clearance of 
Sec. 29.60 is maintained and the descent (loss of height) below the 
landing surface is determined.

[Doc. No. 24802, 64 FR 45338, Aug. 19, 1999]



Sec. 29.87  Height-velocity envelope.

    (a) If there is any combination of height and forward velocity 
(including hover) under which a safe landing cannot be made after 
failure of the critical engine and with the remaining engines (where 
applicable) operating within approved limits, a height-velocity envelope 
must be established for--
    (1) All combinations of pressure altitude and ambient temperature 
for which takeoff and landing are approved; and
    (2) Weight from the maximum weight (at sea level) to the highest 
weight approved for takeoff and landing at each altitude. For 
helicopters, this weight need not exceed the highest weight allowing 
hovering out-of-ground effect at each altitude.
    (b) For single-engine or multiengine rotorcraft that do not meet the 
Category A engine isolation requirements, the height-velocity envelope 
for complete power failure must be established.

[Doc. No. 24802, 61 FR 21901, May 10, 1996; 61 FR 33963, July 1, 1996]

                         Flight Characteristics



Sec. 29.141  General.

    The rotorcraft must--
    (a) Except as specifically required in the applicable section, meet 
the flight characteristics requirements of this subpart--
    (1) At the approved operating altitudes and temperatures;
    (2) Under any critical loading condition within the range of weights 
and centers of gravity for which certification is requested; and
    (3) For power-on operations, under any condition of speed, power, 
and rotor r.p.m. for which certification is requested; and
    (4) For power-off operations, under any condition of speed, and 
rotor r.p.m. for which certification is requested that is attainable 
with the controls rigged in accordance with the approved rigging 
instructions and tolerances;

[[Page 627]]

    (b) Be able to maintain any required flight condition and make a 
smooth transition from any flight condition to any other flight 
condition without exceptional piloting skill, alertness, or strength, 
and without danger of exceeding the limit load factor under any 
operating condition probable for the type, including--
    (1) Sudden failure of one engine, for multiengine rotorcraft meeting 
Transport Category A engine isolation requirements;
    (2) Sudden, complete power failure, for other rotorcraft; and
    (3) Sudden, complete control system failures specified in 
Sec. 29.695 of this part; and
    (c) Have any additional characteristics required for night or 
instrument operation, if certification for those kinds of operation is 
requested. Requirements for helicopter instrument flight are contained 
in appendix B of this part.

[Doc. No. 5084, 29 FR 16150, Dec. 8, 1964, as amended by Amdt. 29-3, 33 
FR 905, Jan. 26, 1968; Amdt. 29-12, 41 FR 55471, Dec. 20, 1976; Amdt. 
29-21, 48 FR 4391, Jan. 31, 1983; Amdt. 29-24, 49 FR 44436, Nov. 6, 
1984]



Sec. 29.143  Controllability and maneuverability.

    (a) The rotorcraft must be safely controllable and maneuverable--
    (1) During steady flight; and
    (2) During any maneuver appropriate to the type, including--
    (i) Takeoff;
    (ii) Climb;
    (iii) Level flight;
    (iv) Turning flight;
    (v) Glide; and
    (vi) Landing (power on and power off).
    (b) The margin of cyclic control must allow satisfactory roll and 
pitch control at VNE with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Critical rotor r.p.m.; and
    (4) Power off (except for helicopters demonstrating compliance with 
paragraph (e) of this section) and power on.
    (c) A wind velocity of not less than 17 knots must be established in 
which the rotorcraft can be operated without loss of control on or near 
the ground in any maneuver appropriate to the type (such as crosswind 
takeoffs, sideward flight, and rearward flight), with--
    (1) Critical weight;
    (2) Critical center of gravity; and
    (3) Critical rotor r.p.m.
    (d) The rotorcraft, after (1) failure of one engine, in the case of 
multiengine rotorcraft that meet Transport Category A engine isolation 
requirements, or (2) complete power failure in the case of other 
rotorcraft, must be controllable over the range of speeds and altitudes 
for which certification is requested when such power failure occurs with 
maximum continuous power and critical weight. No corrective action time 
delay for any condition following power failure may be less than--
    (i) For the cruise condition, one second, or normal pilot reaction 
time (whichever is greater); and
    (ii) For any other condition, normal pilot reaction time.
    (e) For helicopters for which a VNE (power-off) is 
established under Sec. 29.1505(c), compliance must be demonstrated with 
the following requirements with critical weight, critical center of 
gravity, and critical rotor r.p.m.:
    (1) The helicopter must be safely slowed to VNE (power-
off), without exceptional pilot skill after the last operating engine is 
made inoperative at power-on VNE.
    (2) At a speed of 1.1 VNE (power-off), the margin of 
cyclic control must allow satisfactory roll and pitch control with power 
off.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 965, Jan. 26, 1968; Amdt. 29-15, 43 FR 2326, Jan. 16, 1978; Amdt. 29-
24, 49 FR 44436, Nov. 6, 1984]



Sec. 29.151  Flight controls.

    (a) Longitudinal, lateral, directional, and collective controls may 
not exhibit excessive breakout force, friction, or preload.
    (b) Control system forces and free play may not inhibit a smooth, 
direct rotorcraft response to control system input.

[Amdt. 29-24, 49 FR 44436, Nov. 6, 1984]

[[Page 628]]



Sec. 29.161  Trim control.

    The trim control--
    (a) Must trim any steady longitudinal, lateral, and collective 
control forces to zero in level flight at any appropriate speed; and
    (b) May not introduce any undesirable discontinuities in control 
force gradients.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-24, 49 
FR 44436, Nov. 6, 1984]



Sec. 29.171  Stability: general.

    The rotorcraft must be able to be flown, without undue pilot fatigue 
or strain, in any normal maneuver for a period of time as long as that 
expected in normal operation. At least three landings and takeoffs must 
be made during this demonstration.



Sec. 29.173  Static longitudinal stability.

    (a) The longitudinal control must be designed so that a rearward 
movement of the control is necessary to obtain a speed less than the 
trim speed, and a forward movement of the control is necessary to obtain 
a speed more than the trim speed.
    (b) With the throttle and collective pitch held constant during the 
maneuvers specified in Sec. 29.175 (a) through (c), the slope of the 
control position versus speed curve must be positive throughout the full 
range of altitude for which certification is requested.
    (c) During the maneuver specified in Sec. 29.175(d), the 
longitudinal control position versus speed curve may have a negative 
slope within the specified speed range if the negative motion is not 
greater than 10 percent of total control travel.

[Amdt. 29-24, 49 FR 44436, Nov. 6, 1984]



Sec. 29.175  Demonstration of static longitudinal stability.

    (a) Climb. Static longitudinal stability must be shown in the climb 
condition at speeds from 0.85 VY, or 15 knots below 
VY, whichever is less, to 1.2 VY or 15 knots above 
VY, whichever is greater, with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Maximum continuous power;
    (4) The landing gear retracted; and
    (5) The rotorcraft trimmed at VY.
    (b) Cruise. Static longitudinal stability must be shown in the 
cruise condition at speeds from 0.7 VH or 0.7 VNE, 
whichever is less, to 1.1 VH or 1.1 VNE, whichever 
is less, with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Power for level flight at 0.9 VH or 0.9 VNE, 
whichever is less;
    (4) The landing gear retracted, and
    (5) The rotorcraft trimmed at 0.9 VH or 0.9 VNE, 
whichever is less.
    (c) Autorotation. Static longitudinal stability must be shown in 
autorotation at airspeeds from 0.5 times the speed for minimum rate of 
descent, or 0.5 times the maximum range glide speed for Category A 
rotorcraft, to VNE or to 1.1 VNE (power-off) if 
VNE (power-off) is established under Sec. 29.1505(c), and 
with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Power off;
    (4) The landing gear----
    (i) Retracted; and
    (ii) Extended; and
    (5) The rotorcraft trimmed at appropriate speeds found necessary by 
the Administrator to demonstrate stability throughout the prescribed 
speed range.
    (d) Hovering. For helicopters, the longitudinal cyclic control must 
operate with the sense, direction of motion, and position as prescribed 
in Sec. 29.173 between the maximum approved rearward speed and a forward 
speed of 17 knots with--
    (1) Critical weight;
    (2) Critical center of gravity;
    (3) Power required to maintain an approximate constant height in 
ground effect;
    (4) The landing gear extended; and
    (5) The helicopter trimmed for hovering.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 966, Jan. 26, 1968; Amdt. 29-12, 41 FR 55471, Dec. 20, 1976; Amdt. 
29-15, 43 FR 2327, Jan. 16, 1978; Amdt. 29-24, 49 FR 44436, Nov. 6, 
1984]

[[Page 629]]



Sec. 29.177  Static directional stability.

    Static directional stability must be positive with throttle and 
collective controls held constant at the trim conditions specified in 
Sec. 29.175 (a), (b), and (c). Sideslip angle must increase steadily 
with directional control deflection for sideslip angles up to 
10 deg. from trim. Sufficient cues must accompany sideslip 
to alert the pilot when approaching sideslip limits.

[Amdt. 29-24, 49 FR 44436, Nov. 6, 1984]



Sec. 29.181  Dynamic stability: Category A rotorcraft.

    Any short-period oscillation occurring at any speed from 
VY to VNE must be positively damped with the 
primary flight controls free and in a fixed position.

[Amdt. 29-24, 49 FR 44437, Nov. 6, 1984]

                Ground and Water Handling Characteristics



Sec. 29.231  General.

    The rotorcraft must have satisfactory ground and water handling 
characteristics, including freedom from uncontrollable tendencies in any 
condition expected in operation.



Sec. 29.235  Taxiing condition.

    The rotorcraft must be designed to withstand the loads that would 
occur when the rotorcraft is taxied over the roughest ground that may 
reasonably be expected in normal operation.



Sec. 29.239  Spray characteristics.

    If certification for water operation is requested, no spray 
characteristics during taxiing, takeoff, or landing may obscure the 
vision of the pilot or damage the rotors, propellers, or other parts of 
the rotorcraft.



Sec. 29.241  Ground resonance.

    The rotorcraft may have no dangerous tendency to oscillate on the 
ground with the rotor turning.

                    Miscellaneous Flight Requirements



Sec. 29.251  Vibration.

    Each part of the rotorcraft must be free from excessive vibration 
under each appropriate speed and power condition.



                    Subpart C--Strength Requirements

                                 General



Sec. 29.301  Loads.

    (a) Strength requirements are specified in terms of limit loads (the 
maximum loads to be expected in service) and ultimate loads (limit loads 
multiplied by prescribed factors of safety). Unless otherwise provided, 
prescribed loads are limit loads.
    (b) Unless otherwise provided, the specified air, ground, and water 
loads must be placed in equilibrium with inertia forces, considering 
each item of mass in the rotorcraft. These loads must be distributed to 
closely approximate or conservatively represent actual conditions.
    (c) If deflections under load would significantly change the 
distribution of external or internal loads, this redistribution must be 
taken into account.



Sec. 29.303  Factor of safety.

    Unless otherwise provided, a factor of safety of 1.5 must be used. 
This factor applies to external and inertia loads unless its application 
to the resulting internal stresses is more conservative.



Sec. 29.305  Strength and deformation.

    (a) The structure must be able to support limit loads without 
detrimental or permanent deformation. At any load up to limit loads, the 
deformation may not interfere with safe operation.
    (b) The structure must be able to support ultimate loads without 
failure. This must be shown by--
    (1) Applying ultimate loads to the structure in a static test for at 
least three seconds; or
    (2) Dynamic tests simulating actual load application.



Sec. 29.307  Proof of structure.

    (a) Compliance with the strength and deformation requirements of 
this subpart must be shown for each critical loading condition 
accounting for the environment to which the structure will be exposed in 
operation. Structural analysis (static or fatigue) may

[[Page 630]]

be used only if the structure conforms to those structures for which 
experience has shown this method to be reliable. In other cases, 
substantiating load tests must be made.
    (b) Proof of compliance with the strength requirements of this 
subpart must include--
    (1) Dynamic and endurance tests of rotors, rotor drives, and rotor 
controls;
    (2) Limit load tests of the control system, including control 
surfaces;
    (3) Operation tests of the control system;
    (4) Flight stress measurement tests;
    (5) Landing gear drop tests; and
    (6) Any additional tests required for new or unusual design 
features.

(Secs. 604, 605, 72 Stat. 778, 49 U.S.C. 1424, 1425)

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-4, 33 
FR 14106, Sept. 18, 1968; Amdt. 27-26, 55 FR 8001, Mar. 6, 1990]



Sec. 29.309  Design limitations.

    The following values and limitations must be established to show 
compliance with the structural requirements of this subpart:
    (a) The design maximum and design minimum weights.
    (b) The main rotor r.p.m. ranges, power on and power off.
    (c) The maximum forward speeds for each main rotor r.p.m. within the 
ranges determined under paragraph (b) of this section.
    (d) The maximum rearward and sideward flight speeds.
    (e) The center of gravity limits corresponding to the limitations 
determined under paragraphs (b), (c), and (d) of this section.
    (f) The rotational speed ratios between each powerplant and each 
connected rotating component.
    (g) The positive and negative limit maneuvering load factors.

                              Flight Loads



Sec. 29.321  General.

    (a) The flight load factor must be assumed to act normal to the 
longitudinal axis of the rotorcraft, and to be equal in magnitude and 
opposite in direction to the rotorcraft inertia load factor at the 
center of gravity.
    (b) Compliance with the flight load requirements of this subpart 
must be shown--
    (1) At each weight from the design minimum weight to the design 
maximum weight; and
    (2) With any practical distribution of disposable load within the 
operating limitations in the Rotorcraft Flight Manual.



Sec. 29.337  Limit maneuvering load factor.

    The rotorcraft must be designed for--
    (a) A limit maneuvering load factor ranging from a positive limit of 
3.5 to a negative limit of -1.0; or
    (b) Any positive limit maneuvering load factor not less than 2.0 and 
any negative limit maneuvering load factor of not less than -0.5 for 
which--
    (1) The probability of being exceeded is shown by analysis and 
flight tests to be extremely remote; and
    (2) The selected values are appropriate to each weight condition 
between the design maximum and design minimum weights.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 27-26, 55 
FR 8002, Mar. 6, 1990]



Sec. 29.339  Resultant limit maneuvering loads.

    The loads resulting from the application of limit maneuvering load 
factors are assumed to act at the center of each rotor hub and at each 
auxiliary lifting surface, and to act in directions and with 
distributions of load among the rotors and auxiliary lifting surfaces, 
so as to represent each critical maneuvering condition, including power-
on and power-off flight with the maximum design rotor tip speed ratio. 
The rotor tip speed ratio is the ratio of the rotorcraft flight velocity 
component in the plane of the rotor disc to the rotational tip speed of 
the rotor blades, and is expressed as follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.087

where--

V=The airspeed along the flight path (f.p.s.);
a=The angle between the projection, in the plane of symmetry, of the 
          axis of no feathering and a line perpendicular to

[[Page 631]]

          the flight path (radians, positive when axis is pointing aft);
omega=The angular velocity of rotor (radians per second); and
R =The rotor radius (ft.).



Sec. 29.341  Gust loads.

    Each rotorcraft must be designed to withstand, at each critical 
airspeed including hovering, the loads resulting from vertical and 
horizontal gusts of 30 feet per second.



Sec. 29.351  Yawing conditions.

    (a) Each rotorcraft must be designed for the loads resulting from 
the maneuvers specified in paragraphs (b) and (c) of this section, 
with--
    (1) Unbalanced aerodynamic moments about the center of gravity which 
the aircraft reacts to in a rational or conservative manner considering 
the principal masses furnishing the reacting inertia forces; and
    (2) Maximum main rotor speed.
    (b) To produce the load required in paragraph (a) of this section, 
in unaccelerated flight with zero yaw, at forward speeds from zero up to 
0.6 VNE--
    (1) Displace the cockpit directional control suddenly to the maximum 
deflection limited by the control stops or by the maximum pilot force 
specified in Sec. 29.397(a);
    (2) Attain a resulting sideslip angle or 90 deg., whichever is less; 
and
    (3) Return the directional control suddenly to neutral.
    (c) To produce the load required in paragraph (a) of the section, in 
unaccelerated flight with zero yaw, at forward speeds from 0.6 
VNE up to VNE or VH, whichever is 
less--
    (1) Displace the cockpit directional control suddenly to the maximum 
deflection limited by the control stops or by the maximum pilot force 
specified in Sec. 29.397(a);
    (2) Attain a resulting sideslip angle or 15 deg., whichever is less, 
at the lesser speed of VNE or VH;
    (3) Vary the sideslip angles of paragraphs (b)(2) and (c)(2) of this 
section directly with speed; and
    (4) Return the directional control suddenly to neutral.

[Amdt. 29-26, 55 FR 8002, Mar. 6, 1990, as amended by Amdt. 29-41, 62 FR 
46173, Aug. 29, 1997]



Sec. 29.361  Engine torque.

    The limit engine torque may not be less than the following:
    (a) For turbine engines, the highest of--
    (1) The mean torque for maximum continuous power multiplied by 1.25;
    (2) The torque required by Sec. 29.923;
    (3) The torque required by Sec. 29.927; or
    (4) The torque imposed by sudden engine stoppage due to malfunction 
or structural failure (such as compressor jamming).
    (b) For reciprocating engines, the mean torque for maximum 
continuous power multiplied by--
    (1) 1.33, for engines with five or more cylinders; and
    (2) Two, three, and four, for engines with four, three, and two 
cylinders, respectively.

[Amdt. 29-26, 53 FR 34215, Sept. 2, 1988]

                    Control Surface and System Loads



Sec. 29.391  General.

    Each auxiliary rotor, each fixed or movable stabilizing or control 
surface, and each system operating any flight control must meet the 
requirements of Secs. 29.395 through 29.399, 29.411, and 29.427.

[Amdt. 29-26, 55 FR 8002, Mar. 6, 1990, as amended by Amdt. 29-41, 62 FR 
46173, Aug. 29, 1997]



Sec. 29.395  Control system.

    (a) The reaction to the loads prescribed in Sec. 29.397 must be 
provided by--
    (1) The control stops only;
    (2) The control locks only;
    (3) The irreversible mechanism only (with the mechanism locked and 
with the control surface in the critical positions for the effective 
parts of the system within its limit of motion);
    (4) The attachment of the control system to the rotor blade pitch 
control horn only (with the control in the critical positions for the 
affected parts of the system within the limits of its motion); and
    (5) The attachment of the control system to the control surface horn 
(with the control in the critical positions for the affected parts of 
the system within the limits of its motion).

[[Page 632]]

    (b) Each primary control system, including its supporting structure, 
must be designed as follows:
    (1) The system must withstand loads resulting from the limit pilot 
forces prescribed in Sec. 29.397;
    (2) Notwithstanding paragraph (b)(3) of this section, when power-
operated actuator controls or power boost controls are used, the system 
must also withstand the loads resulting from the limit pilot forces 
prescribed in Sec. 29.397 in conjunction with the forces output of each 
normally energized power device, including any single power boost or 
actuator system failure;
    (3) If the system design or the normal operating loads are such that 
a part of the system cannot react to the limit pilot forces prescribed 
in Sec. 29.397, that part of the system must be designed to withstand 
the maximum loads that can be obtained in normal operation. The minimum 
design loads must, in any case, provide a rugged system for service use, 
including consideration of fatigue, jamming, ground gusts, control 
inertia, and friction loads. In the absence of a rational analysis, the 
design loads resulting from 0.60 of the specified limit pilot forces are 
acceptable minimum design loads; and
    (4) If operational loads may be exceeded through jamming, ground 
gusts, control inertia, or friction, the system must withstand the limit 
pilot forces specified in Sec. 29.397, without yielding.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-26, 55 
FR 8002, Mar. 6, 1990]



Sec. 29.397  Limit pilot forces and torques.

    (a) Except as provided in paragraph (b) of this section, the limit 
pilot forces are as follows:
    (1) For foot controls, 130 pounds.
    (2) For stick controls, 100 pounds fore and aft, and 67 pounds 
laterally.
    (b) For flap, tab, stabilizer, rotor brake, and landing gear 
operating controls, the following apply (R=radius in inches):
    (1) Crank wheel, and lever controls, [1 + R]/3  x  50 pounds, but 
not less than 50 pounds nor more than 100 pounds for hand operated 
controls or 130 pounds for foot operated controls, applied at any angle 
within 20 degrees of the plane of motion of the control.
    (2) Twist controls, 80R inch-pounds.

[Amdt. 29-12, 41 FR 55471, Dec. 20, 1976, as amended by Amdt. 29-47, 66 
FR 23538, May 9, 2001]



Sec. 29.399  Dual control system.

    Each dual primary flight control system must be able to withstand 
the loads that result when pilot forces not less than 0.75 times those 
obtained under Sec. 29.395 are applied--
    (a) In opposition; and
    (b) In the same direction.



Sec. 29.411  Ground clearance: tail rotor guard.

    (a) It must be impossible for the tail rotor to contact the landing 
surface during a normal landing.
    (b) If a tail rotor guard is required to show compliance with 
paragraph (a) of this section--
    (1) Suitable design loads must be established for the guard: and
    (2) The guard and its supporting structure must be designed to 
withstand those loads.



Sec. 29.427  Unsymmetrical loads.

    (a) Horizontal tail surfaces and their supporting structure must be 
designed for unsymmetrical loads arising from yawing and rotor wake 
effects in combination with the prescribed flight conditions.
    (b) To meet the design criteria of paragraph (a) of this section, in 
the absence of more rational data, both of the following must be met:
    (1) One hundred percent of the maximum loading from the symmetrical 
flight conditions acts on the surface on one side of the plane of 
symmetry, and no loading acts on the other side.
    (2) Fifty percent of the maximum loading from the symmetrical flight 
conditions acts on the surface on each side of the plane of symmetry, in 
opposite directions.
    (c) For empennage arrangements where the horizontal tail surfaces 
are supported by the vertical tail surfaces, the vertical tail surfaces 
and supporting structure must be designed for the combined vertical and 
horizontal surface loads resulting from each prescribed flight 
condition, considered separately. The flight conditions must

[[Page 633]]

be selected so that the maximum design loads are obtained on each 
surface. In the absence of more rational data, the unsymmetrical 
horizontal tail surface loading distributions described in this section 
must be assumed.

[Amdt. 27-26, 55 FR 8002, Mar. 6, 1990, as amended by Amdt. 29-31, 55 FR 
38966, Sept. 21, 1990]

                              Ground Loads



Sec. 29.471  General.

    (a) Loads and equilibrium. For limit ground loads--
    (1) The limit ground loads obtained in the landing conditions in 
this part must be considered to be external loads that would occur in 
the rotorcraft structure if it were acting as a rigid body; and
    (2) In each specified landing condition, the external loads must be 
placed in equilibrium with linear and angular inertia loads in a 
rational or conservative manner.
    (b) Critical centers of gravity. The critical centers of gravity 
within the range for which certification is requested must be selected 
so that the maximum design loads are obtained in each landing gear 
element.



Sec. 29.473  Ground loading conditions and assumptions.

    (a) For specified landing conditions, a design maximum weight must 
be used that is not less than the maximum weight. A rotor lift may be 
assumed to act through the center of gravity throughout the landing 
impact. This lift may not exceed two-thirds of the design maximum 
weight.
    (b) Unless otherwise prescribed, for each specified landing 
condition, the rotorcraft must be designed for a limit load factor of 
not less than the limit inertia load factor substantiated under 
Sec. 29.725.
    (c) Triggering or actuating devices for additional or supplementary 
energy absorption may not fail under loads established in the tests 
prescribed in Secs. 29.725 and 29.727, but the factor of safety 
prescribed in Sec. 29.303 need not be used.

[Amdt. 29-3, 33 FR 966, Jan. 26, 1968]



Sec. 29.475  Tires and shock absorbers.

    Unless otherwise prescribed, for each specified landing condition, 
the tires must be assumed to be in their static position and the shock 
absorbers to be in their most critical position.



Sec. 29.477  Landing gear arrangement.

    Sections 29.235, 29.479 through 29.485, and 29.493 apply to landing 
gear with two wheels aft, and one or more wheels forward, of the center 
of gravity.



Sec. 29.479  Level landing conditions.

    (a) Attitudes. Under each of the loading conditions prescribed in 
paragraph (b) of this section, the rotorcraft is assumed to be in each 
of the following level landing attitudes:
    (1) An attitude in which each wheel contacts the ground 
simultaneously.
    (2) An attitude in which the aft wheels contact the ground with the 
forward wheels just clear of the ground.
    (b) Loading conditions. The rotorcraft must be designed for the 
following landing loading conditions:
    (1) Vertical loads applied under Sec. 29.471.
    (2) The loads resulting from a combination of the loads applied 
under paragraph (b)(1) of this section with drag loads at each wheel of 
not less than 25 percent of the vertical load at that wheel.
    (3) The vertical load at the instant of peak drag load combined with 
a drag component simulating the forces required to accelerate the wheel 
rolling assembly up to the specified ground speed, with--
    (i) The ground speed for determination of the spin-up loads being at 
least 75 percent of the optimum forward flight speed for minimum rate of 
descent in autorotation; and
    (ii) The loading conditions of paragraph (b) applied to the landing 
gear and its attaching structure only.
    (4) If there are two wheels forward, a distribution of the loads 
applied to those wheels under paragraphs (b)(1) and (2) of this section 
in a ratio of 40:60.
    (c) Pitching moments. Pitching moments are assumed to be resisted 
by--
    (1) In the case of the attitude in paragraph (a)(1) of this section, 
the forward landing gear; and

[[Page 634]]

    (2) In the case of the attitude in paragraph (a)(2) of this section, 
the angular inertia forces.



Sec. 29.481  Tail-down landing conditions.

    (a) The rotorcraft is assumed to be in the maximum nose-up attitude 
allowing ground clearance by each part of the rotorcraft.
    (b) In this attitude, ground loads are assumed to act perpendicular 
to the ground.



Sec. 29.483  One-wheel landing conditions.

    For the one-wheel landing condition, the rotorcraft is assumed to be 
in the level attitude and to contact the ground on one aft wheel. In 
this attitude--
    (a) The vertical load must be the same as that obtained on that side 
under Sec. 29.479(b)(1); and
    (b) The unbalanced external loads must be reacted by rotorcraft 
inertia.



Sec. 29.485  Lateral drift landing conditions.

    (a) The rotorcraft is assumed to be in the level landing attitude, 
with--
    (1) Side loads combined with one-half of the maximum ground 
reactions obtained in the level landing conditions of Sec. 29.479(b)(1); 
and
    (2) The loads obtained under paragraph (a)(1) of this section 
applied--
    (i) At the ground contact point; or
    (ii) For full-swiveling gear, at the center of the axle.
    (b) The rotorcraft must be designed to withstand, at ground 
contact--
    (1) When only the aft wheels contact the ground, side loads of 0.8 
times the vertical reaction acting inward on one side and 0.6 times the 
vertical reaction acting outward on the other side, all combined with 
the vertical loads specified in paragraph (a) of this section; and
    (2) When the wheels contact the ground simultaneously--
    (i) For the aft wheels, the side loads specified in paragraph (b)(1) 
of this section; and
    (ii) For the forward wheels, a side load of 0.8 times the vertical 
reaction combined with the vertical load specified in paragraph (a) of 
this section.



Sec. 29.493  Braked roll conditions.

    Under braked roll conditions with the shock absorbers in their 
static positions--
    (a) The limit vertical load must be based on a load factor of at 
least--
    (1) 1.33, for the attitude specified in Sec. 29.479(a)(1); and
    (2) 1.0, for the attitude specified in Sec. 29.479(a)(2); and
    (b) The structure must be designed to withstand, at the ground 
contact point of each wheel with brakes, a drag load of at least the 
lesser of--
    (1) The vertical load multiplied by a coefficient of friction of 
0.8; and
    (2) The maximum value based on limiting brake torque.



Sec. 29.497  Ground loading conditions: landing gear with tail wheels.

    (a) General. Rotorcraft with landing gear with two wheels forward 
and one wheel aft of the center of gravity must be designed for loading 
conditions as prescribed in this section.
    (b) Level landing attitude with only the forward wheels contacting 
the ground. In this attitude--
    (1) The vertical loads must be applied under Secs. 29.471 through 
29.475;
    (2) The vertical load at each axle must be combined with a drag load 
at that axle of not less than 25 percent of that vertical load; and
    (3) Unbalanced pitching moments are assumed to be resisted by 
angular inertia forces.
    (c) Level landing attitude with all wheels contacting the ground 
simultaneously. In this attitude, the rotorcraft must be designed for 
landing loading conditions as prescribed in paragraph (b) of this 
section.
    (d) Maximum nose-up attitude with only the rear wheel contacting the 
ground. The attitude for this condition must be the maximum nose-up 
attitude expected in normal operation, including autorotative landings. 
In this attitude--
    (1) The appropriate ground loads specified in paragraph (b)(1) and 
(2) of this section must be determined and applied, using a rational 
method to account for the moment arm between the rear wheel ground 
reaction and the rotorcraft center of gravity; or

[[Page 635]]

    (2) The probability of landing with initial contact on the rear 
wheel must be shown to be extremely remote.
    (e) Level landing attitude with only one forward wheel contacting 
the ground. In this attitude, the rotorcraft must be designed for ground 
loads as specified in paragraph (b)(1) and (3) of this section.
    (f) Side loads in the level landing attitude. In the attitudes 
specified in paragraphs (b) and (c) of this section, the following 
apply:
    (1) The side loads must be combined at each wheel with one-half of 
the maximum vertical ground reactions obtained for that wheel under 
paragraphs (b) and (c) of this section. In this condition, the side 
loads must be--
    (i) For the forward wheels, 0.8 times the the vertical reaction (on 
one side) acting inward, and 0.6 times the vertical reaction (on the 
other side) acting outward; and
    (ii) For the rear wheel, 0.8 times the vertical reaction.
    (2) The loads specified in paragraph (f)(1) of this section must be 
applied--
    (i) At the ground contact point with the wheel in the trailing 
position (for non-full swiveling landing gear or for full swiveling 
landing gear with a lock, steering device, or shimmy damper to keep the 
wheel in the trailing position); or
    (ii) At the center of the axle (for full swiveling landing gear 
without a lock, steering device, or shimmy damper).
    (g) Braked roll conditions in the level landing attitude. In the 
attitudes specified in paragraphs (b) and (c) of this section, and with 
the shock absorbers in their static positions, the rotorcraft must be 
designed for braked roll loads as follows:
    (1) The limit vertical load must be based on a limit vertical load 
factor of not less than--
    (i) 1.0, for the attitude specified in paragraph (b) of this 
section; and
    (ii) 1.33, for the attitude specified in paragraph (c) of this 
section.
    (2) For each wheel with brakes, a drag load must be applied, at the 
ground contact point, of not less than the lesser of--
    (i) 0.8 times the vertical load; and
    (ii) The maximum based on limiting brake torque.
    (h) Rear wheel turning loads in the static ground attitude. In the 
static ground attitude, and with the shock absorbers and tires in their 
static positions, the rotorcraft must be designed for rear wheel turning 
loads as follows:
    (1) A vertical ground reaction equal to the static load on the rear 
wheel must be combined with an equal side load.
    (2) The load specified in paragraph (h)(1) of this section must be 
applied to the rear landing gear--
    (i) Through the axle, if there is a swivel (the rear wheel being 
assumed to be swiveled 90 degrees to the longitudinal axis of the 
rotorcraft); or
    (ii) At the ground contact point if there is a lock, steering device 
or shimmy damper (the rear wheel being assumed to be in the trailing 
position).
    (i) Taxiing condition. The rotorcraft and its landing gear must be 
designed for the loads that would occur when the rotorcraft is taxied 
over the roughest ground that may reasonably be expected in normal 
operation.



Sec. 29.501  Ground loading conditions: landing gear with skids.

    (a) General. Rotorcraft with landing gear with skids must be 
designed for the loading conditions specified in this section. In 
showing compliance with this section, the following apply:
    (1) The design maximum weight, center of gravity, and load factor 
must be determined under Secs. 29.471 through 29.475.
    (2) Structural yielding of elastic spring members under limit loads 
is acceptable.
    (3) Design ultimate loads for elastic spring members need not exceed 
those obtained in a drop test of the gear with--
    (i) A drop height of 1.5 times that specified in Sec. 29.725; and
    (ii) An assumed rotor lift of not more than 1.5 times that used in 
the limit drop tests prescribed in Sec. 29.725.
    (4) Compliance with paragraph (b) through (e) of this section must 
be shown with--
    (i) The gear in its most critically deflected position for the 
landing condition being considered; and

[[Page 636]]

    (ii) The ground reactions rationally distributed along the bottom of 
the skid tube.
    (b) Vertical reactions in the level landing attitude. In the level 
attitude, and with the rotorcraft contacting the ground along the bottom 
of both skids, the vertical reactions must be applied as prescribed in 
paragraph (a) of this section.
    (c) Drag reactions in the level landing attitude. In the level 
attitude, and with the rotorcraft contacting the ground along the bottom 
of both skids, the following apply:
    (1) The vertical reactions must be combined with horizontal drag 
reactions of 50 percent of the vertical reaction applied at the ground.
    (2) The resultant ground loads must equal the vertical load 
specified in paragraph (b) of this section.
    (d) Sideloads in the level landing attitude. In the level attitude, 
and with the rotorcraft contacting the ground along the bottom of both 
skids, the following apply:
    (1) The vertical ground reaction must be--
    (i) Equal to the vertical loads obtained in the condition specified 
in paragraph (b) of this section; and
    (ii) Divided equally among the skids.
    (2) The vertical ground reactions must be combined with a horizontal 
sideload of 25 percent of their value.
    (3) The total sideload must be applied equally between skids and 
along the length of the skids.
    (4) The unbalanced moments are assumed to be resisted by angular 
inertia.
    (5) The skid gear must be investigated for--
    (i) Inward acting sideloads; and
    (ii) Outward acting sideloads.
    (e) One-skid landing loads in the level attitude. In the level 
attitude, and with the rotorcraft contacting the ground along the bottom 
of one skid only, the following apply:
    (1) The vertical load on the ground contact side must be the same as 
that obtained on that side in the condition specified in paragraph (b) 
of this section.
    (2) The unbalanced moments are assumed to be resisted by angular 
inertia.
    (f) Special conditions. In addition to the conditions specified in 
paragraphs (b) and (c) of this section, the rotorcraft must be designed 
for the following ground reactions:
    (1) A ground reaction load acting up and aft at an angle of 45 
degrees to the longitudinal axis of the rotorcraft. This load must be--
    (i) Equal to 1.33 times the maximum weight;
    (ii) Distributed symmetrically among the skids;
    (iii) Concentrated at the forward end of the straight part of the 
skid tube; and
    (iv) Applied only to the forward end of the skid tube and its 
attachment to the rotorcraft.
    (2) With the rotorcraft in the level landing attitude, a vertical 
ground reaction load equal to one-half of the vertical load determined 
under paragraph (b) of this section. This load must be--
    (i) Applied only to the skid tube and its attachment to the 
rotorcraft; and
    (ii) Distributed equally over 33.3 percent of the length between the 
skid tube attachments and centrally located midway between the skid tube 
attachments.

[Amdt. 29-3, 33 FR 966, Jan. 26, 1968; as amended by Amdt. 27-26, 55 FR 
8002, Mar. 6, 1990]



Sec. 29.505  Ski landing conditions.

    If certification for ski operation is requested, the rotorcraft, 
with skis, must be designed to withstand the following loading 
conditions (where P is the maximum static weight on each ski with the 
rotorcraft at design maximum weight, and n is the limit load factor 
determined under Sec. 29.473(b)):
    (a) Up-load conditions in which--
    (1) A vertical load of Pn and a horizontal load of Pn/4 are 
simultaneously applied at the pedestal bearings; and
    (2) A vertical load of 1.33 P is applied at the pedestal bearings.
    (b) A side load condition in which a side load of 0.35 Pn is applied 
at the pedestal bearings in a horizontal plane perpendicular to the 
centerline of the rotorcraft.
    (c) A torque-load condition in which a torque load of 1.33 P (in 
foot-pounds) is applied to the ski about the vertical

[[Page 637]]

axis through the centerline of the pedestal bearings.



Sec. 29.511  Ground load: unsymmetrical loads on multiple-wheel units.

    (a) In dual-wheel gear units, 60 percent of the total ground 
reaction for the gear unit must be applied to one wheel and 40 percent 
to the other.
    (b) To provide for the case of one deflated tire, 60 percent of the 
specified load for the gear unit must be applied to either wheel except 
that the vertical ground reaction may not be less than the full static 
value.
    (c) In determining the total load on a gear unit, the transverse 
shift in the load centroid, due to unsymmetrical load distribution on 
the wheels, may be neglected.

[Amdt. 29-3, 33 FR 966, Jan. 26, 1968]

                               Water Loads



Sec. 29.519  Hull type rotorcraft: Water-based and amphibian.

    (a) General. For hull type rotorcraft, the structure must be 
designed to withstand the water loading set forth in paragraphs (b), 
(c), and (d) of this section considering the most severe wave heights 
and profiles for which approval is desired. The loads for the landing 
conditions of paragraphs (b) and (c) of this section must be developed 
and distributed along and among the hull and auxiliary floats, if used, 
in a rational and conservative manner, assuming a rotor lift not 
exceeding two-thirds of the rotorcraft weight to act throughout the 
landing impact.
    (b) Vertical landing conditions. The rotorcraft must initially 
contact the most critical wave surface at zero forward speed in likely 
pitch and roll attitudes which result in critical design loadings. The 
vertical descent velocity may not be less than 6.5 feet per second 
relative to the mean water surface.
    (c) Forward speed landing conditions. The rotorcraft must contact 
the most critical wave at forward velocities from zero up to 30 knots in 
likely pitch, roll, and yaw attitudes and with a vertical descent 
velocity of not less than 6.5 feet per second relative to the mean water 
surface. A maximum forward velocity of less than 30 knots may be used in 
design if it can be demonstrated that the forward velocity selected 
would not be exceeded in a normal one-engine-out landing.
    (d) Auxiliary float immersion condition. In addition to the loads 
from the landing conditions, the auxiliary float, and its support and 
attaching structure in the hull, must be designed for the load developed 
by a fully immersed float unless it can be shown that full immersion of 
the float is unlikely, in which case the highest likely float buoyancy 
load must be applied that considers loading of the float immersed to 
create restoring moments compensating for upsetting moments caused by 
side wind, asymmetrical rotorcraft loading, water wave action, and 
rotorcraft inertia.

[Amdt. 29-3, 33 FR 966, Jan. 26, 196; as amended by Amdt. 27-26, 55 FR 
8002, Mar. 6, 1990]



Sec. 29.521  Float landing conditions.

    If certification for float operation (including float amphibian 
operation) is requested, the rotorcraft, with floats, must be designed 
to withstand the following loading conditions (where the limit load 
factor is determined under Sec. 29.473(b) or assumed to be equal to that 
determined for wheel landing gear):
    (a) Up-load conditions in which--
    (1) A load is applied so that, with the rotorcraft in the static 
level attitude, the resultant water reaction passes vertically through 
the center of gravity; and
    (2) The vertical load prescribed in paragraph (a)(1) of this section 
is applied simultaneously with an aft component of 0.25 times the 
vertical component
    (b) A side load condition in which--
    (1) A vertical load of 0.75 times the total vertical load specified 
in paragraph (a)(1) of this section is divided equally among the floats; 
and
    (2) For each float, the load share determined under paragraph (b)(1) 
of this section, combined with a total side load of 0.25 times the total 
vertical load specified in paragraph (b)(1) of this section, is applied 
to that float only.

[Amdt. 29-3, 33 FR 967, Jan. 26, 1968]

[[Page 638]]

                       Main Component Requirements



Sec. 29.547  Main and tail rotor structure.

    (a) A rotor is an assembly of rotating components, which includes 
the rotor hub, blades, blade dampers, the pitch control mechanisms, and 
all other parts that rotate with the assembly.
    (b) Each rotor assembly must be designed as prescribed in this 
section and must function safely for the critical flight load and 
operating conditions. A design assessment must be performed, including a 
detailed failure analysis to identify all failures that will prevent 
continued safe flight or safe landing, and must identify the means to 
minimize the likelihood of their occurrence.
    (c) The rotor structure must be designed to withstand the following 
loads prescribed in Secs. 29.337 through 29.341 and 29.351:
    (1) Critical flight loads.
    (2) Limit loads occurring under normal conditions of autorotation.
    (d) The rotor structure must be designed to withstand loads 
simulating--
    (1) For the rotor blades, hubs, and flapping hinges, the impact 
force of each blade against its stop during ground operation; and
    (2) Any other critical condition expected in normal operation.
    (e) The rotor structure must be designed to withstand the limit 
torque at any rotational speed, including zero.
    In addition:
    (1) The limit torque need not be greater than the torque defined by 
a torque limiting device (where provided), and may not be less than the 
greater of--
    (i) The maximum torque likely to be transmitted to the rotor 
structure, in either direction, by the rotor drive or by sudden 
application of the rotor brake; and
    (ii) For the main rotor, the limit engine torque specified in 
Sec. 29.361.
    (2) The limit torque must be equally and rationally distributed to 
the rotor blades.

(Secs. 604, 605, 72 Stat. 778, 49 U.S.C. 1424, 1425)

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-4, 33 
FR 14106, Sept. 18, 1968; Amdt. 29-40, 61 FR 21907, May 10, 1996]



Sec. 29.549  Fuselage and rotor pylon structures.

    (a) Each fuselage and rotor pylon structure must be designed to 
withstand--
    (1) The critical loads prescribed in Secs. 29.337 through 29.341, 
and 29.351;
    (2) The applicable ground loads prescribed in Secs. 29.235, 29.471 
through 29.485, 29.493, 29.497, 29.505, and 29.521; and
    (3) The loads prescribed in Sec. 29.547 (d)(1) and (e)(1)(i).
    (b) Auxiliary rotor thrust, the torque reaction of each rotor drive 
system, and the balancing air and inertia loads occurring under 
accelerated flight conditions, must be considered.
    (c) Each engine mount and adjacent fuselage structure must be 
designed to withstand the loads occurring under accelerated flight and 
landing conditions, including engine torque.
    (d) [Reserved]
    (e) If approval for the use of 2\1/2\-minute OEI power is requested, 
each engine mount and adjacent structure must be designed to withstand 
the loads resulting from a limit torque equal to 1.25 times the mean 
torque for 2\1/2\-minute OEI power combined with 1g flight loads.

(Secs. 604, 605, 72 Stat. 778, 49 U.S.C. 1424, 1425)

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-4, 33 
FR 14106, Sept. 18, 1968; Amdt. 29-26, 53 FR 34215, Sept. 2, 1988]



Sec. 29.551  Auxiliary lifting surfaces.

    Each auxiliary lifting surface must be designed to withstand--
    (a) The critical flight loads in Secs. 29.337 through 29.341, and 
29.351;
    (b) the applicable ground loads in Secs. 29.235, 29.471 through 
29.485, 29.493, 29.505, and 29.521; and
    (c) Any other critical condition expected in normal operation.

                      Emergency Landing Conditions



Sec. 29.561  General.

    (a) The rotorcraft, although it may be damaged in emergency landing 
conditions on land or water, must be designed as prescribed in this 
section to protect the occupants under those conditions.
    (b) The structure must be designed to give each occupant every 
reasonable

[[Page 639]]

chance of escaping serious injury in a crash landing when--
    (1) Proper use is made of seats, belts, and other safety design 
provisions;
    (2) The wheels are retracted (where applicable); and
    (3) Each occupant and each item of mass inside the cabin that could 
injure an occupant is restrained when subjected to the following 
ultimate inertial load factors relative to the surrounding structure:

    (i) Upward--4g.
    (ii) Forward--16g.
    (iii) Sideward--8g.
    (iv) Downward--20g, after the intended displacement of the seat 
device.
    (v) Rearward--1.5g.

    (c) The supporting structure must be designed to restrain under any 
ultimate inertial load factor up to those specified in this paragraph, 
any item of mass above and/or behind the crew and passenger compartment 
that could injure an occupant if it came loose in an emergency landing. 
Items of mass to be considered include, but are not limited to, rotors, 
transmission, and engines. The items of mass must be restrained for the 
following ultimate inertial load factors:
    (1) Upward--1.5g.
    (2) Forward--12g.
    (3) Sideward--6g.
    (4) Downward--12g.
    (5) Rearward--1.5g.

    (d) Any fuselage structure in the area of internal fuel tanks below 
the passenger floor level must be designed to resist the following 
ultimate inertial factors and loads, and to protect the fuel tanks from 
rupture, if rupture is likely when those loads are applied to that area:

    (1) Upward--1.5g.
    (2) Forward--4.0g.
    (3) Sideward--2.0g.
    (4) Downward--4.0g.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-29, 54 
FR 47319, Nov. 13, 1989; Amdt. 29-38, 61 FR 10438, Mar. 13, 1996]



Sec. 29.562  Emergency landing dynamic conditions.

    (a) The rotorcraft, although it may be damaged in a crash landing, 
must be designed to reasonably protect each occupant when--
    (1) The occupant properly uses the seats, safety belts, and shoulder 
harnesses provided in the design; and
    (2) The occupant is exposed to loads equivalent to those resulting 
from the conditions prescribed in this section.
    (b) Each seat type design or other seating device approved for crew 
or passenger occupancy during takeoff and landing must successfully 
complete dynamic tests or be demonstrated by rational analysis based on 
dynamic tests of a similar type seat in accordance with the following 
criteria. The tests must be conducted with an occupant simulated by a 
170-pound anthropomorphic test dummy (ATD), as defined by 49 CFR 572, 
Subpart B, or its equivalent, sitting in the normal upright position.
    (1) A change in downward velocity of not less than 30 feet per 
second when the seat or other seating device is oriented in its nominal 
position with respect to the rotorcraft's reference system, the 
rotorcraft's longitudinal axis is canted upward 60 deg. with respect to 
the impact velocity vector, and the rotorcraft's lateral axis is 
perpendicular to a vertical plane containing the impact velocity vector 
and the rotorcraft's longitudinal axis. Peak floor deceleration must 
occur in not more than 0.031 seconds after impact and must reach a 
minimum of 30g's.
    (2) A change in forward velocity of not less than 42 feet per second 
when the seat or other seating device is oriented in its nominal 
position with respect to the rotorcraft's reference system, the 
rotorcraft's longitudinal axis is yawed 10 deg. either right or left of 
the impact velocity vector (whichever would cause the greatest load on 
the shoulder harness), the rotorcraft's lateral axis is contained in a 
horizontal plane containing the impact velocity vector, and the 
rotorcraft's vertical axis is perpendicular to a horizontal plane 
containing the impact velocity vector. Peak floor deceleration must 
occur in not more than 0.071 seconds after impact and must reach a 
minimum of 18.4g's.
    (3) Where floor rails or floor or sidewall attachment devices are 
used to attach the seating devices to the airframe structure for the 
conditions of this section, the rails or devices must

[[Page 640]]

be misaligned with respect to each other by at least 10 deg. vertically 
(i.e., pitch out of parallel) and by at least a 10 deg. lateral roll, 
with the directions optional, to account for possible floor warp.
    (c) Compliance with the following must be shown:
    (1) The seating device system must remain intact although it may 
experience separation intended as part of its design.
    (2) The attachment between the seating device and the airframe 
structure must remain intact although the structure may have exceeded 
its limit load.
    (3) The ATD's shoulder harness strap or straps must remain on or in 
the immediate vicinity of the ATD's shoulder during the impact.
    (4) The safety belt must remain on the ATD's pelvis during the 
impact.
    (5) The ATD's head either does not contact any portion of the crew 
or passenger compartment or, if contact is made, the head impact does 
not exceed a head injury criteria (HIC) of 1,000 as determined by this 
equation.
[GRAPHIC] [TIFF OMITTED] TC28SE91.088

    Where: a(t) is the resultant acceleration at the center of gravity 
of the head form expressed as a multiple of g (the acceleration of 
gravity) and t2 - t1 is the time duration, in 
seconds, of major head impact, not to exceed 0.05 seconds.
    (6) Loads in individual shoulder harness straps must not exceed 
1,750 pounds. If dual straps are used for retaining the upper torso, the 
total harness strap loads must not exceed 2,000 pounds.
    (7) The maximum compressive load measured between the pelvis and the 
lumbar column of the ATD must not exceed 1,500 pounds.
    (d) An alternate approach that achieves an equivalent or greater 
level of occupant protection, as required by this section, must be 
substantiated on a rational basis.

[Amdt. 29-29, 54 FR 47320, Nov. 13, 1989, as amended by Amdt. 29-41, 62 
FR 46173, Aug. 29, 1997]



Sec. 29.563  Structural ditching provisions.

    If certification with ditching provisions is requested, structural 
strength for ditching must meet the requirements of this section and 
Sec. 29.801(e).
    (a) Forward speed landing conditions. The rotorcraft must initially 
contact the most critical wave for reasonably probable water conditions 
at forward velocities from zero up to 30 knots in likely pitch, roll, 
and yaw attitudes. The rotorcraft limit vertical descent velocity may 
not be less than 5 feet per second relative to the mean water surface. 
Rotor lift may be used to act through the center of gravity throughout 
the landing impact. This lift may not exceed two-thirds of the design 
maximum weight. A maximum forward velocity of less than 30 knots may be 
used in design if it can be demonstrated that the forward velocity 
selected would not be exceeded in a normal one-engine-out touchdown.
    (b) Auxiliary or emergency float conditions--(1) Floats fixed or 
deployed before initial water contact. In addition to the landing loads 
in paragraph (a) of this section, each auxiliary or emergency float, or 
its support and attaching structure in the airframe or fuselage, must be 
designed for the load developed by a fully immersed float unless it can 
be shown that full immersion is unlikely. If full immersion is unlikely, 
the highest likely float buoyancy load must be applied. The highest 
likely buoyancy load must include consideration of a partially immersed 
float creating restoring moments to compensate the upsetting moments 
caused by side wind, unsymmetrical rotorcraft loading, water wave 
action, rotorcraft inertia, and probable structural damage and leakage 
considered under Sec. 29.801(d). Maximum roll and pitch angles 
determined from compliance with Sec. 29.801(d) may be used, if 
significant, to determine the extent of immersion of each float. If the 
floats are deployed in flight, appropriate air loads derived from the 
flight limitations with the floats deployed shall be used in 
substantiation of the floats and their attachment to the rotorcraft. For 
this purpose, the design airspeed for limit load is the float deployed 
airspeed operating limit multiplied by 1.11.

[[Page 641]]

    (2) Floats deployed after initial water contact. Each float must be 
designed for full or partial immersion prescribed in paragraph (b)(1) of 
this section. In addition, each float must be designed for combined 
vertical and drag loads using a relative limit speed of 20 knots between 
the rotorcraft and the water. The vertical load may not be less than the 
highest likely buoyancy load determined under paragraph (b)(1) of this 
section.

[Amdt. 27-26, 55 FR 8003, Mar. 6, 1990]

                           Fatigue Evaluation



Sec. 29.571  Fatigue evaluation of structure.

    (a) General. An evaluation of the strength of principal elements, 
detail design points, and fabrication techniques must show that 
catastrophic failure due to fatigue, considering the effects of 
environment, intrinsic/discrete flaws, or accidental damage will be 
avoided. Parts to be evaluated include, but are not limited to, rotors, 
rotor drive systems between the engines and rotor hubs, controls, 
fuselage, fixed and movable control surfaces, engine and transmission 
mountings, landing gear, and their related primary attachments. In 
addition, the following apply:
    (1) Each evaluation required by this section must include--
    (i) The identification of principal structural elements, the failure 
of which could result in catastrophic failure of the rotorcraft;
    (ii) In-flight measurement in determining the loads or stresses for 
items in paragraph (a)(1)(i) of this section in all critical conditions 
throughout the range of limitations in Sec. 29.309 (including altitude 
effects), except that maneuvering load factors need not exceed the 
maximum values expected in operations; and
    (iii) Loading spectra as severe as those expected in operation based 
on loads or stresses determined under paragraph (a)(1)(ii) of this 
section, including external load operations, if applicable, and other 
high frequency power cycle operations.
    (2) Based on the evaluations required by this section, inspections, 
replacement times, combinations thereof, or other procedures must be 
established as necessary to avoid catastrophic failure. These 
inspections, replacement times, combinations thereof, or other 
procedures must be included in the airworthiness limitations section of 
the Instructions for Continued Airworthiness required by Sec. 29.1529 
and section A29.4 of appendix A of this part.
    (b) Fatigue tolerance evaluation (including tolerance to flaws). The 
structure must be shown by analysis supported by test evidence and, if 
available, service experience to be of fatigue tolerant design. The 
fatigue tolerance evaluation must include the requirements of either 
paragraph (b)(1), (2), or (3) of this section, or a combination thereof, 
and also must include a determination of the probable locations and 
modes of damage caused by fatigue, considering environmental effects, 
intrinsic/discrete flaws, or accidental damage. Compliance with the flaw 
tolerance requirements of paragraph (b)(1) or (2) of this section is 
required unless the applicant establishes that these fatigue flaw 
tolerant methods for a particular structure cannot be achieved within 
the limitations of geometry, inspectability, or good design practice. 
Under these circumstances, the safe-life evaluation of paragraph (b)(3) 
of this section is required.
    (1) Flaw tolerant safe-life evaluation. It must be shown that the 
structure, with flaws present, is able to withstand repeated loads of 
variable magnitude without detectable flaw growth for the following time 
intervals--
    (i) Life of the rotorcraft; or
    (ii) Within a replacement time furnished under section A29.4 of 
appendix A to this part.
    (2) Fail-safe (residual strength after flaw growth) evaluation. It 
must be shown that the structure remaining after a partial failure is 
able to withstand design limit loads without failure within an 
inspection period furnished under section A29.4 of appendix A to this 
part. Limit loads are defined in Sec. 29.301(a).
    (i) The residual strength evaluation must show that the remaining 
structure after flaw growth is able to withstand design limit loads 
without failure within its operational life.

[[Page 642]]

    (ii) Inspection intervals and methods must be established as 
necessary to ensure that failures are detected prior to residual 
strength conditions being reached.
    (iii) If significant changes in structural stiffness or geometry, or 
both, follow from a structural failure or partial failure, the effect on 
flaw tolerance must be further investigated.
    (3) Safe-life evaluation. It must be shown that the structure is 
able to withstand repeated loads of variable magnitude without 
detectable cracks for the following time intervals--
    (i) Life of the rotorcraft; or
    (ii) Within a replacement time furnished under section A29.4 of 
appendix A to this part.

[Amdt. 29-28, 54 FR 43930, Oct. 27, 1989]



                   Subpart D--Design and Construction

                                 General



Sec. 29.601  Design.

    (a) The rotorcraft may have no design features or details that 
experience has shown to be hazardous or unreliable.
    (b) The suitability of each questionable design detail and part must 
be established by tests.



Sec. 29.602  Critical parts.

    (a) Critical part. A critical part is a part, the failure of which 
could have a catastrophic effect upon the rotocraft, and for which 
critical characterists have been identified which must be controlled to 
ensure the required level of integrity.
    (b) If the type design includes critical parts, a critical parts 
list shall be established. Procedures shall be established to define the 
critical design characteristics, identify processes that affect those 
characteristics, and identify the design change and process change 
controls necessary for showing compliance with the quality assurance 
requirements of part 21 of this chapter.

[Doc. No. 29311, 64 FR 46232, Aug. 24, 1999]



Sec. 29.603  Materials.

    The suitability and durability of materials used for parts, the 
failure of which could adversely affect safety, must--
    (a) Be established on the basis of experience or tests;
    (b) Meet approved specifications that ensure their having the 
strength and other properties assumed in the design data; and
    (c) Take into account the effects of environmental conditions, such 
as temperature and humidity, expected in service.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424), and sec. 6(c), Dept. of 
Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55471, Dec. 20, 1976; Amdt. 29-17, 43 FR 50599, Oct. 30, 1978]



Sec. 29.605  Fabrication methods.

    (a) The methods of fabrication used must produce consistently sound 
structures. If a fabrication process (such as gluing, spot welding, or 
heat-treating) requires close control to reach this objective, the 
process must be performed according to an approved process 
specification.
    (b) Each new aircraft fabrication method must be substantiated by a 
test program.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150. Dec. 3, 1964, as amended by Amdt. 29-17, 43 
FR 50599, Oct. 30, 1978]



Sec. 29.607  Fasteners.

    (a) Each removable bolt, screw, nut, pin, or other fastener whose 
loss could jeopardize the safe operation of the rotorcraft must 
incorporate two separate locking devices. The fastener and its locking 
devices may not be adversely affected by the environmental conditions 
associated with the particular installation.
    (b) No self-locking nut may be used on any bolt subject to rotation 
in operation unless a nonfriction locking device is used in addition to 
the self-locking device.

[Amdt. 29-5, 33 FR 14533, Sept. 27, 1968]

[[Page 643]]



Sec. 29.609  Protection of structure.

    Each part of the structure must--
    (a) Be suitably protected against deterioration or loss of strength 
in service due to any cause, including--
    (1) Weathering;
    (2) Corrosion; and
    (3) Abrasion; and
    (b) Have provisions for ventilation and drainage where necessary to 
prevent the accumulation of corrosive, flammable, or noxious fluids.



Sec. 29.610  Lightning and static electricity protection.

    (a) The rotorcraft structure must be protected against catastrophic 
effects from lightning.
    (b) For metallic components, compliance with paragraph (a) of this 
section may be shown by--
    (1) Electrically bonding the components properly to the airframe; or
    (2) Designing the components so that a strike will not endanger the 
rotorcraft.
    (c) For nonmetallic components, compliance with paragraph (a) of 
this section may be shown by--
    (1) Designing the components to minmize the effect of a strike; or
    (2) Incorporating acceptable means of diverting the resulting 
electrical current to not endanger the rotorcraft.
    (d) The electric bonding and protection against lightning and static 
electricity must--
    (1) Minimize the accumulation of electrostatic charge;
    (2) Minimize the risk of electric shock to crew, passengers, and 
service and maintenance personnel using normal precautions;
    (3) Provide and electrical return path, under both normal and fault 
conditions, on rotorcraft having grounded electrical systems; and
    (4) Reduce to an acceptable level the effects of lightning and 
static electricity on the functioning of essential electrical and 
electronic equipment.

[Amdt. 29-24, 49 FR 44437, Nov. 6, 1984; Amdt. 29-40, 61 FR 21907, May 
10, 1996; 61 FR 33963, July 1, 1996]



Sec. 29.611  Inspection provisions.

    There must be means to allow close examination of each part that 
requires--
    (a) Recurring inspection;
    (b) Adjustment for proper alignment and functioning; or
    (c) Lubrication.



Sec. 29.613  Material strength properties and design values.

    (a) Material strength properties must be based on enough tests of 
material meeting specifications to establish design values on a 
statistical basis.
    (b) Design values must be chosen to minimize the probability of 
structural failure due to material variability. Except as provided in 
paragraphs (d) and (e) of this section, compliance with this paragraph 
must be shown by selecting design values that assure material strength 
with the following probability--
    (1) Where applied loads are eventually distributed through a single 
member within an assembly, the failure of which would result in loss of 
structural integrity of the component, 99 percent probability with 95 
percent confidence; and
    (2) For redundant structures, those in which the failure of 
individual elements would result in applied loads being safely 
distributed to other load-carrying members, 90 percent probability with 
95 percent confidence.
    (c) The strength, detail design, and fabrication of the structure 
must minimize the probability of disastrous fatigue failure, 
particularly at points of stress concentration.
    (d) Design values may be those contained in the following 
publications (available from the Naval Publications and Forms Center, 
5801 Tabor Avenue, Philadelphia, PA 19120) or other values approved by 
the Administrator:

    (1) MIL--HDBK-5, ``Metallic Materials and Elements for Flight 
Vehicle Structure''.
    (2) MIL--HDBK-17, ``Plastics for Flight Vehicles''.
    (3) ANC-18, ``Design of Wood Aircraft Structures''.
    (4) MIL--HDBK-23, ``Composite Construction for Flight Vehicles''.

    (e) Other design values may be used if a selection of the material 
is made in which a specimen of each individual item is tested before use 
and it is determined that the actual strength

[[Page 644]]

properties of that particular item will equal or exceed those used in 
design.


(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-17, 43 
FR 50599, Oct. 30, 1978; Amdt. 27-26, 55 FR 8003, Mar. 6, 1990]



Sec. 29.619  Special factors.

    (a) The special factors prescribed in Secs. 29.621 through 29.625 
apply to each part of the structure whose strength is--
    (1) Uncertain;
    (2) Likely to deteriorate in service before normal replacement; or
    (3) Subject to appreciable variability due to--
    (i) Uncertainties in manufacturing processes; or
    (ii) Uncertainties in inspection methods.
    (b) For each part of the rotorcraft to which Secs. 29.621 through 
29.625 apply, the factor of safety prescribed in Sec. 29.303 must be 
multiplied by a special factor equal to--
    (1) The applicable special factors prescribed in Secs. 29.621 
through 29.625; or
    (2) Any other factor great enough to ensure that the probability of 
the part being understrength because of the uncertainties specified in 
paragraph (a) of this section is extremely remote.



Sec. 29.621  Casting factors.

    (a) General. The factors, tests, and inspections specified in 
paragraphs (b) and (c) of this section must be applied in addition to 
those necessary to establish foundry quality control. The inspections 
must meet approved specifications. Paragraphs (c) and (d) of this 
section apply to structural castings except castings that are pressure 
tested as parts of hydraulic or other fluid systems and do not support 
structural loads.
    (b) Bearing stresses and surfaces. The casting factors specified in 
paragraphs (c) and (d) of this section--
    (1) Need not exceed 1.25 with respect to bearing stresses regardless 
of the method of inspection used; and
    (2) Need not be used with respect to the bearing surfaces of a part 
whose bearing factor is larger than the applicable casting factor.
    (c) Critical castings. For each casting whose failure would preclude 
continued safe flight and landing of the rotorcraft or result in serious 
injury to any occupant, the following apply:
    (1) Each critical casting must--
    (i) Have a casting factor of not less than 1.25; and
    (ii) Receive 100 percent inspection by visual, radiographic, and 
magnetic particle (for ferromagnetic materials) or penetrant (for 
nonferromagnetic materials) inspection methods or approved equivalent 
inspection methods.
    (2) For each critical casting with a casting factor less than 1.50, 
three sample castings must be static tested and shown to meet--
    (i) The strength requirements of Sec. 29.305 at an ultimate load 
corresponding to a casting factor of 1.25; and
    (ii) The deformation requirements of Sec. 29.305 at a load of 1.15 
times the limit load.
    (d) Noncritical castings. For each casting other than those 
specified in paragraph (c) of this section, the following apply:
    (1) Except as provided in paragraphs (d)(2) and (3) of this section, 
the casting factors and corresponding inspections must meet the 
following table:

------------------------------------------------------------------------
              Casting factor                         Inspection
------------------------------------------------------------------------
2.0 or greater...........................  100 percent visual.
Less than 2.0, greater than 1.5..........  100 percent visual, and
                                            magnetic particle
                                            (ferromagnetic materials),
                                            penetrant (nonferromagnetic
                                            materials), or approved
                                            equivalent inspection
                                            methods.
1.25 through 1.50........................  100 percent visual, and
                                            magnetic particle
                                            (ferromagnetic materials),
                                            penetrant (nonferromagnetic
                                            materials), and radiographic
                                            or approved equivalent
                                            inspection methods.
------------------------------------------------------------------------

    (2) The percentage of castings inspected by nonvisual methods may be 
reduced below that specified in paragraph (d)(1) of this section when an 
approved quality control procedure is established.
    (3) For castings procured to a specification that guarantees the 
mechanical properties of the material in the casting and provides for 
demonstration of these properties by test of coupons

[[Page 645]]

cut from the castings on a sampling basis--
    (i) A casting factor of 1.0 may be used; and
    (ii) The castings must be inspected as provided in paragraph (d)(1) 
of this section for casting factors of ``1.25 through 1.50'' and tested 
under paragraph (c)(2) of this section.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-41, 62 
FR 46173, Aug. 29, 1997]



Sec. 29.623  Bearing factors.

    (a) Except as provided in paragraph (b) of this section, each part 
that has clearance (free fit), and that is subject to pounding or 
vibration, must have a bearing factor large enough to provide for the 
effects of normal relative motion.
    (b) No bearing factor need be used on a part for which any larger 
special factor is prescribed.



Sec. 29.625  Fitting factors.

    For each fitting (part or terminal used to join one structural 
member to another) the following apply:
    (a) For each fitting whose strength is not proven by limit and 
ultimate load tests in which actual stress conditions are simulated in 
the fitting and surrounding structures, a fitting factor of at least 
1.15 must be applied to each part of--
    (1) The fitting;
    (2) The means of attachment; and
    (3) The bearing on the joined members.
    (b) No fitting factor need be used--
    (1) For joints made under approved practices and based on 
comprehensive test data (such as continuous joints in metal plating, 
welded joints, and scarf joints in wood); and
    (2) With respect to any bearing surface for which a larger special 
factor is used.
    (c) For each integral fitting, the part must be treated as a fitting 
up to the point at which the section properties become typical of the 
member.
    (d) Each seat, berth, litter, safety belt, and harness attachment to 
the structure must be shown by analysis, tests, or both, to be able to 
withstand the inertia forces prescribed in Sec. 29.561(b)(3) multiplied 
by a fitting factor of 1.33.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-42, 63 
FR 43285, Aug. 12, 1998]



Sec. 29.629  Flutter and divergence.

    Each aerodynamic surface of the rotorcraft must be free from flutter 
and divergence under each appropriate speed and power condition.

[Doc. No. 28008, 61 FR 21907, May 10, 1996]



Sec. 29.631  Bird strike.

    The rotorcraft must be designed to ensure capability of continued 
safe flight and landing (for Category A) or safe landing (for Category 
B) after impact with a 2.2-lb (1.0 kg) bird when the velocity of the 
rotorcraft (relative to the bird along the flight path of the 
rotorcraft) is equal to VNE or VH (whichever is 
the lesser) at altitudes up to 8,000 feet. Compliance must be shown by 
tests or by analysis based on tests carried out on sufficiently 
representative structures of similar design.

[Doc. No. 28008, 61 FR 21907, May 10, 1996; 61 FR 33963, July 1, 1996]

                                 Rotors



Sec. 29.653  Pressure venting and drainage of rotor blades.

    (a) For each rotor blade--
    (1) There must be means for venting the internal pressure of the 
blade;
    (2) Drainage holes must be provided for the blade; and
    (3) The blade must be designed to prevent water from becoming 
trapped in it.
    (b) Paragraphs (a)(1) and (2) of this section does not apply to 
sealed rotor blades capable of withstanding the maximum pressure 
differentials expected in service.

[Amdt. 29-3, 33 FR 967, Jan. 26, 1968]



Sec. 29.659  Mass balance.

    (a) The rotor and blades must be mass balanced as necessary to--
    (1) Prevent excessive vibration; and
    (2) Prevent flutter at any speed up to the maximum forward speed.

[[Page 646]]

    (b) The structural integrity of the mass balance installation must 
be substantiated.

[Amdt. 29-3, 33 FR 967, Jan. 26, 1968]



Sec. 29.661  Rotor blade clearance.

    There must be enough clearance between the rotor blades and other 
parts of the structure to prevent the blades from striking any part of 
the structure during any operating condition.

[Amdt. 29-3, 33 FR 967, Jan. 26, 1968]



Sec. 29.663  Ground resonance prevention means.

    (a) The reliability of the means for preventing ground resonance 
must be shown either by analysis and tests, or reliable service 
experience, or by showing through analysis or tests that malfunction or 
failure of a single means will not cause ground resonance.
    (b) The probable range of variations, during service, of the damping 
action of the ground resonance prevention means must be established and 
must be investigated during the test required by Sec. 29.241.

[Amdt. 27-26, 55 FR 8003, Mar. 6, 1990]

                             Control Systems



Sec. 29.671  General.

    (a) Each control and control system must operate with the ease, 
smoothness, and positiveness appropriate to its function.
    (b) Each element of each flight control system must be designed, or 
distinctively and permanently marked, to minimize the probability of any 
incorrect assembly that could result in the malfunction of the system.
    (c) A means must be provided to allow full control movement of all 
primary flight controls prior to flight, or a means must be provided 
that will allow the pilot to determine that full control authority is 
available prior to flight.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-24, 49 
FR 44437, Nov. 6, 1984]



Sec. 29.672  Stability augmentation, automatic, and power-operated systems.

    If the functioning of stability augmentation or other automatic or 
power-operated system is necessary to show compliance with the flight 
characteristics requirements of this part, the system must comply with 
Sec. 29.671 of this part and the following:
    (a) A warning which is clearly distinguishable to the pilot under 
expected flight conditions without requiring the pilot's attention must 
be provided for any failure in the stability augmentation system or in 
any other automatic or power-operated system which could result in an 
unsafe condition if the pilot is unaware of the failure. Warning systems 
must not activate the control systems.
    (b) The design of the stability augmentation system or of any other 
automatic or power-operated system must allow initial counteraction of 
failures without requiring exceptional pilot skill or strength, by 
overriding the failure by moving the flight controls in the normal 
sense, and by deactivating the failed system.
    (c) It must be show that after any single failure of the stability 
augmentation system or any other automatic or power-operated system--
    (1) The rotorcraft is safely controllable when the failure or 
malfunction occurs at any speed or altitude within the approved 
operating limitations;
    (2) The controllability and maneuverability requirements of this 
part are met within a practical operational flight envelope (for 
example, speed, altitude, normal acceleration, and rotorcraft 
configurations) which is described in the Rotorcraft Flight Manual; and
    (3) The trim and stability characteristics are not impaired below a 
level needed to allow continued safe flight and landing.

[Amdt. 29-24, 49 FR 44437, Nov. 6, 1984]



Sec. 29.673  Primary flight controls.

    Primary flight controls are those used by the pilot for immediate 
control of pitch, roll, yaw, and vertical motion of the rotorcraft.

[Amdt. 29-24, 49 FR 44437, Nov. 6, 1984]



Sec. 29.674  Interconnected controls.

    Each primary flight control system must provide for safe flight and 
landing

[[Page 647]]

and operate independently after a malfunction, failure, or jam of any 
auxiliary interconnected control.

[Amdt. 27-26, 55 FR 8003, Mar. 6, 1990]



Sec. 29.675  Stops.

    (a) Each control system must have stops that positively limit the 
range of motionof the pilot's controls.
    (b) Each stop must be located in the system so that the range of 
travel of its control is not appreciably affected by--
    (1) Wear;
    (2) Slackness; or
    (3) Takeup adjustments.
    (c) Each stop must be able to withstand the loads corresponding to 
the design conditions for the system.
    (d) For each main rotor blade--
    (1) Stops that are appropriate to the blade design must be provided 
to limit travel of the blade about its hinge points; and
    (2) There must be means to keep the blade from hitting the droop 
stops during any operation other than starting and stopping the rotor.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150. Dec. 3, 1964, as amended by Amdt. 29-17, 43 
FR 50599, Oct. 30, 1978]



Sec. 29.679  Control system locks.

    If there is a device to lock the control system with the rotorcraft 
on the ground or water, there must be means to--
    (a) Automatically disengage the lock when the pilot operates the 
controls in a normal manner, or limit the operation of the rotorcraft so 
as to give unmistakable warning to the pilot before takeoff; and
    (b) Prevent the lock from engaging in flight.



Sec. 29.681  Limit load static tests.

    (a) Compliance with the limit load requirements of this part must be 
shown by tests in which--
    (1) The direction of the test loads produces the most severe loading 
in the control system; and
    (2) Each fitting, pulley, and bracket used in attaching the system 
to the main structure is included;
    (b) Compliance must be shown (by analyses or individual load tests) 
with the special factor requirements for control system joints subject 
to angular motion.



Sec. 29.683  Operation tests.

    It must be shown by operation tests that, when the controls are 
operated from the pilot compartment with the control system loaded to 
correspond with loads specified for the system, the system is free 
from--
    (a) Jamming;
    (b) Excessive friction; and
    (c) Excessive deflection.



Sec. 29.685  Control system details.

    (a) Each detail of each control system must be designed to prevent 
jamming, chafing, and interference from cargo, passengers, loose 
objects, or the freezing of moisture.
    (b) There must be means in the cockpit to prevent the entry of 
foreign objects into places where they would jam the system.
    (c) There must be means to prevent the slapping of cables or tubes 
against other parts.
    (d) Cable systems must be designed as follows:
    (1) Cables, cable fittings, turnbuckles, splices, and pulleys must 
be of an acceptable kind.
    (2) The design of cable systems must prevent any hazardous change in 
cable tension throughout the range of travel under any operating 
conditions and temperature variations.
    (3) No cable smaller than \1/8\ inch diameter may be used in any 
primary control system.
    (4) Pulley kinds and sizes must correspond to the cables with which 
they are used. The pulley-cable combinations and strength values 
specified in MIL-HDBK-5 must be used unless they are inapplicable.
    (5) Pulleys must have close fitting guards to prevent the cables 
from being displaced or fouled.
    (6) Pulleys must lie close enough to the plane passing through the 
cable to prevent the cable from rubbing against the pulley flange.

[[Page 648]]

    (7) No fairlead may cause a change in cable direction of more than 
three degrees.
    (8) No clevis pin subject to load or motion and retained only by 
cotter pins may be used in the control system.
    (9) Turnbuckles attached to parts having angular motion must be 
installed to prevent binding throughout the range of travel.
    (10) There must be means for visual inspection at each fairlead, 
pulley, terminal, and turnbuckle.
    (e) Control system joints subject to angular motion must incorporate 
the following special factors with respect to the ultimate bearing 
strength of the softest material used as a bearing:
    (1) 3.33 for push-pull systems other than ball and roller bearing 
systems.
    (2) 2.0 for cable systems.
    (f) For control system joints, the manufacturer's static, non-
Brinell rating of ball and roller bearings may not be exceeded.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55471, Dec. 20, 1976]



Sec. 29.687  Spring devices.

    (a) Each control system spring device whose failure could cause 
flutter or other unsafe characteristics must be reliable.
    (b) Compliance with paragraph (a) of this section must be shown by 
tests simulating service conditions.



Sec. 29.691  Autorotation control mechanism.

    Each main rotor blade pitch control mechanism must allow rapid entry 
into autorotation after power failure.



Sec. 29.695  Power boost and power-operated control system.

    (a) If a power boost or power-operated control system is used, an 
alternate system must be immediately available that allows continued 
safe flight and landing in the event of--
    (1) Any single failure in the power portion of the system; or
    (2) The failure of all engines.
    (b) Each alternate system may be a duplicate power portion or a 
manually operated mechanical system. The power portion includes the 
power source (such as hydrualic pumps), and such items as valves, lines, 
and actuators.
    (c) The failure of mechanical parts (such as piston rods and links), 
and the jamming of power cylinders, must be considered unless they are 
extremely improbable.

                              Landing Gear



Sec. 29.723  Shock absorption tests.

    The landing inertia load factor and the reserve energy absorption 
capacity of the landing gear must be substantiated by the tests 
prescribed in Secs. 29.725 and 29.727, respectively. These tests must be 
conducted on the complete rotorcraft or on units consisting of wheel, 
tire, and shock absorber in their proper relation.



Sec. 29.725  Limit drop test.

    The limit drop test must be conducted as follows:
    (a) The drop height must be at least 8 inches.
    (b) If considered, the rotor lift specified in Sec. 29.473(a) must 
be introduced into the drop test by appropriate energy absorbing devices 
or by the use of an effective mass.
    (c) Each landing gear unit must be tested in the attitude simulating 
the landing condition that is most critical from the standpoint of the 
energy to be absorbed by it.
    (d) When an effective mass is used in showing compliance with 
paragraph (b) of this section, the following formulae may be used 
instead of more rational computations.
[GRAPHIC] [TIFF OMITTED] TC28SE91.089

where:

We=the effective weight to be used in the drop test (lbs.).
W=WM for main gear units (lbs.), equal to the static reaction 
          on the particular unit with the rotorcraft in the most 
          critical attitude. A rational method may be used in computing 
          a main gear static reaction, taking into consideration the 
          moment arm between the main wheel reaction and the rotorcraft 
          center of gravity.
W=WN for nose gear units (lbs.), equal to the vertical 
          component of the static reaction

[[Page 649]]

          that would exist at the nose wheel, assuming that the mass of 
          the rotorcraft acts at the center of gravity and exerts a 
          force of 1.0g downward and 0.25g forward.
W=Wt for tailwheel units (lbs.) equal to whichever of the 
          following is critical--

    (1) The static weight on the tailwheel with the rotorcraft resting 
on all wheels; or
    (2) The vertical component of the ground reaction that would occur 
at the tailwheel assuming that the mass of the rotorcraft acts at the 
center of gravity and exerts a force of 1g downward with the rotorcraft 
in the maximum nose-up attitude considered in the nose-up landing 
conditions.

h =specified free drop height (inches).
L=ratio of assumed rotor lift to the rotorcraft weight.
d=deflection under impact of the tire (at the proper inflation pressure) 
          plus the vertical component of the axle travel (inches) 
          relative to the drop mass.
n=limit inertia load factor.
nj=the load factor developed, during impact, on the mass used 
          in the drop test (i.e., the acceleration dv/dt in g' s 
          recorded in the drop test plus 1.0).

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 967, Jan. 26. 1968]



Sec. 29.727  Reserve energy absorption drop test.

    The reserve energy absorption drop test must be conducted as 
follows:
    (a) The drop height must be 1.5 times that specified in 
Sec. 29.725(a).
    (b) Rotor lift, where considered in a manner similar to that 
prescribed in Sec. 29.725(b), may not exceed 1.5 times the lift allowed 
under that paragraph.
    (c) The landing gear must withstand this test without collapsing. 
Collapse of the landing gear occurs when a member of the nose, tail, or 
main gear will not support the rotorcraft in the proper attitude or 
allows the rotorcraft structure, other than landing gear and external 
accessories, to impact the landing surface.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 27-26, 55 
FR 8003, Mar. 6, 1990]



Sec. 29.729  Retracting mechanism.

    For rotorcraft with retractable landing gear, the following apply:
    (a) Loads. The landing gear, retracting mechanism, wheel well doors, 
and supporting structure must be designed for--
    (1) The loads occurring in any maneuvering condition with the gear 
retracted;
    (2) The combined friction, inertia, and air loads occurring during 
retraction and extension at any airspeed up to the design maximum 
landing gear operating speed; and
    (3) The flight loads, including those in yawed flight, occurring 
with the gear extended at any airspeed up to the design maximum landing 
gear extended speed.
    (b) Landing gear lock. A positive means must be provided to keep the 
gear extended.
    (c) Emergency operation. When other than manual power is used to 
operate the gear, emergency means must be provided for extending the 
gear in the event of--
    (1) Any reasonably probable failure in the normal retraction system; 
or
    (2) The failure of any single source of hydraulic, electric, or 
equivalent energy.
    (d) Operation tests. The proper functioning of the retracting 
mechanism must be shown by operation tests.
    (e) Position indicator. There must be means to indicate to the pilot 
when the gear is secured in the extreme positions.
    (f) Control. The location and operation of the retraction control 
must meet the requirements of Secs. 29.777 and 29.779.
    (g) Landing gear warning. An aural or equally effective landing gear 
warning device must be provided that functions continuously when the 
rotorcraft is in a normal landing mode and the landing gear is not fully 
extended and locked. A manual shutoff capability must be provided for 
the warning device and the warning system must automatically reset when 
the rotorcraft is no longer in the landing mode.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-24, 49 
FR 44437, Nov. 6, 1984]



Sec. 29.731  Wheels.

    (a) Each landing gear wheel must be approved.
    (b) The maximum static load rating of each wheel may not be less 
than the corresponding static ground reaction with--

[[Page 650]]

    (1) Maximum weight; and
    (2) Critical center of gravity.
    (c) The maximum limit load rating of each wheel must equal or exceed 
the maximum radial limit load determined under the applicable ground 
load requirements of this part.



Sec. 29.733  Tires.

    Each landing gear wheel must have a tire--
    (a) That is a proper fit on the rim of the wheel; and
    (b) Of a rating that is not exceeded under--
    (1) The design maximum weight;
    (2) A load on each main wheel tire equal to the static ground 
reaction corresponding to the critical center of gravity; and
    (3) A load on nose wheel tires (to be compared with the dynamic 
rating established for those tires) equal to the reaction obtained at 
the nose wheel, assuming that the mass of the rotorcraft acts as the 
most critical center of gravity and exerts a force of 1.0 g downward and 
0.25 g forward, the reactions being distributed to the nose and main 
wheels according to the principles of statics with the drag reaction at 
the ground applied only at wheels with brakes.
    (c) Each tire installed on a retractable landing gear system must, 
at the maximum size of the tire type expected in service, have a 
clearance to surrounding structure and systems that is adequate to 
prevent contact between the tire and any part of the structure or 
systems.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55471, Dec. 20, 1976]



Sec. 29.735  Brakes.

    For rotorcraft with wheel-type landing gear, a braking device must 
be installed that is--
    (a) Controllable by the pilot;
    (b) Usable during power-off landings; and
    (c) Adequate to--
    (1) Counteract any normal unbalanced torque when starting or 
stopping the rotor; and
    (2) Hold the rotorcraft parked on a 10-degree slope on a dry, smooth 
pavement.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-24, 49 
FR 44437, Nov. 6, 1984]



Sec. 29.737  Skis.

    (a) The maximum limit load rating of each ski must equal or exceed 
the maximum limit load determined under the applicable ground load 
requirements of this part.
    (b) There must be a stabilizing means to maintain the ski in an 
appropriate position during flight. This means must have enough strength 
to withstand the maximum aerodynamic and inertia loads on the ski.

                            Floats and Hulls



Sec. 29.751  Main float buoyancy.

    (a) For main floats, the buoyancy necessary to support the maximum 
weight of the rotorcraft in fresh water must be exceeded by--
    (1) 50 percent, for single floats; and
    (2) 60 percent, for multiple floats.
    (b) Each main float must have enough water-tight compartments so 
that, with any single main float compartment flooded, the mainfloats 
will provide a margin of positive stability great enough to minimize the 
probability of capsizing.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 967, Jan. 26, 1968]



Sec. 29.753  Main float design.

    (a) Bag floats. Each bag float must be designed to withstand--
    (1) The maximum pressure differential that might be developed at the 
maximum altitude for which certification with that float is requested; 
and
    (2) The vertical loads prescribed in Sec. 29.521(a), distributed 
along the length of the bag over three-quarters of its projected area.
    (b) Rigid floats. Each rigid float must be able to withstand the 
vertical, horizontal, and side loads prescribed in Sec. 29.521. An 
appropriate load distribution under critical conditions must be used.

[[Page 651]]



Sec. 29.755  Hull buoyancy.

    Water-based and amphibian rotorcraft. The hull and auxiliary floats, 
if used, must have enough watertight compartments so that, with any 
single compartment of the hull or auxiliary floats flooded, the buoyancy 
of the hull and auxiliary floats, and wheel tires if used, provides a 
margin of positive water stability great enough to minimize the 
probability of capsizing the rotorcraft for the worst combination of 
wave heights and surface winds for which approval is desired.

[Amdt. 29-3, 33 FR 967, Jan. 26, 1968; as amended by Amdt. 27-26, 55 FR 
8003, Mar. 6, 1990]



Sec. 29.757  Hull and auxiliary float strength.

    The hull, and auxiliary floats if used, must withstand the water 
loads prescribed by Sec. 29.519 with a rational and conservative 
distribution of local and distributed water pressures over the hull and 
float bottom.

[Amdt. 29-3, 33 FR 967, Jan. 26, 1968]

                   Personnel and Cargo Accommodations



Sec. 29.771  Pilot compartment.

    For each pilot compartment--
    (a) The compartment and its equipment must allow each pilot to 
perform his duties without unreasonable concentration or fatigue;
    (b) If there is provision for a second pilot, the rotorcraft must be 
controllable with equal safety from either pilot position. Flight and 
powerplant controls must be designed to prevent confusion or inadvertent 
operation when the rotorcraft is piloted from either position;
    (c) The vibration and noise characteristics of cockpit appurtenances 
may not interfere with safe operation;
    (d) Inflight leakage of rain or snow that could distract the crew or 
harm the structure must be prevented.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 967, Jan. 26, 1968; Amdt. 29-24, 49 FR 44437, Nov. 6, 1984]



Sec. 29.773  Pilot compartment view.

    (a) Nonprecipitation conditions. For nonprecipitation conditions, 
the following apply:
    (1) Each pilot compartment must be arranged to give the pilots a 
sufficiently extensive, clear, and undistorted view for safe operation.
    (2) Each pilot compartment must be free of glare and reflection that 
could interfere with the pilot's view. If certification for night 
operation is requested, this must be shown by night flight tests.
    (b) Precipitation conditions. For precipitation conditions, the 
following apply:
    (1) Each pilot must have a sufficiently extensive view for safe 
operation--
    (i) In heavy rain at forward speeds up to VH; and
    (ii) In the most severe icing condition for which certification is 
requested.
    (2) The first pilot must have a window that--
    (i) Is openable under the conditions prescribed in paragraph (b)(1) 
of this section; and
    (ii) Provides the view prescribed in that paragraph.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 967, Jan. 26, 1968]



Sec. 29.775  Windshields and windows.

    Windshields and windows must be made of material that will not break 
into dangerous fragments.

[Amdt. 29-31, 55 FR 38966, Sept. 21, 1990]



Sec. 29.777  Cockpit controls.

    Cockpit controls must be--
    (a) Located to provide convenient operation and to prevent confusion 
and inadvertent operation; and
    (b) Located and arranged with respect to the pilot's seats so that 
there is full and unrestricted movement of each control without 
interference from the cockpit structure or the pilot's clothing when 
pilots from 5'2" to 6'0" in height are seated.

[[Page 652]]



Sec. 29.779  Motion and effect of cockpit controls.

    Cockpit controls must be designed so that they operate in accordance 
with the following movements and actuation:
    (a) Flight controls, including the collective pitch control, must 
operate with a sense of motion which corresponds to the effect on the 
rotorcraft.
    (b) Twist-grip engine power controls must be designed so that, for 
lefthand operation, the motion of the pilot's hand is clockwise to 
increase power when the hand is viewed from the edge containing the 
index finger. Other engine power controls, excluding the collective 
control, must operate with a forward motion to increase power.
    (c) Normal landing gear controls must operate downward to extend the 
landing gear.

[Amdt. 29-24, 49 FR 44437, Nov. 6, 1984]



Sec. 29.783  Doors.

    (a) Each closed cabin must have at least one adequate and easily 
accessible external door.
    (b) Each external door must be located, and appropriate operating 
procedures must be established, to ensure that persons using the door 
will not be endangered by the rotors, propellers, engine intakes, and 
exhausts when the operating procedures are used.
    (c) There must be means for locking crew and external passenger 
doors and for preventing their opening in flight inadvertently or as a 
result of mechanical failure. It must be possible to open external doors 
from inside and outside the cabin with the rotorcraft on the ground even 
though persons may be crowded against the door on the inside of the 
rotorcraft. The means of opening must be simple and obvious and so 
arranged and marked that it can be readily located and operated.
    (d) There must be reasonable provisions to prevent the jamming of 
any external doors in a minor crash as a result of fuselage deformation 
under the following ultimate inertial forces except for cargo or service 
doors not suitable for use as an exit in an emergency:
    (1) Upward--1.5g.
    (2) Forward--4.0g.
    (3) Sideward--2.0g.
    (4) Downward--4.0g.
    (e) There must be means for direct visual inspection of the locking 
mechanism by crewmembers to determine whether the external doors 
(including passenger, crew, service, and cargo doors) are fully locked. 
There must be visual means to signal to appropriate crewmembers when 
normally used external doors are closed and fully locked.
    (f) For outward opening external doors usable for entrance or 
egress, there must be an auxiliary safety latching device to prevent the 
door from opening when the primary latching mechanism fails. If the door 
does not meet the requirements of paragraph (c) of this section with 
this device in place, suitable operating procedures must be established 
to prevent the use of the device during takeoff and landing.
    (g) If an integral stair is installed in a passenger entry door that 
is qualified as a passenger emergency exit, the stair must be designed 
so that under the following conditions the effectiveness of passenger 
emergency egress will not be impaired:
    (1) The door, integral stair, and operating mechanism have been 
subjected to the inertial forces specified in paragraph (d) of this 
section, acting separately relative to the surrounding structure.
    (2) The rotorcraft is in the normal ground attitude and in each of 
the attitudes corresponding to collapse of one or more legs, or primary 
members, as applicable, of the landing gear.
    (h) Nonjettisonable doors used as ditching emergency exits must have 
means to enable them to be secured in the open position and remain 
secure for emergency egress in sea state conditions prescribed for 
ditching.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-20, 45 
FR 60178, Sept. 11, 1980; Amdt. 29-29, 54 FR 47320, Nov. 13, 1989; Amdt. 
27-26, 55 FR 8003, Mar. 6, 1990; Amdt. 29-31, 55 FR 38966, Sept. 21, 
1990]



Sec. 29.785  Seats, berths, litters, safety belts, and harnesses.

    (a) Each seat, safety belt, harness, and adjacent part of the 
rotorcraft at each station designated for occupancy

[[Page 653]]

during takeoff and landing must be free of potentially injurious 
objects, sharp edges, protuberances, and hard surfaces and must be 
designed so that a person making proper use of these facilities will not 
suffer serious injury in an emergency landing as a result of the 
inertial factors specified in Sec. 29.561(b) and dynamic conditions 
specified in Sec. 29.562.
    (b) Each occupant must be protected from serious head injury by a 
safety belt plus a shoulder harness that will prevent the head from 
contacting any injurious object, except as provided for in 
Sec. 29.562(c)(5). A shoulder harness (upper torso restraint), in 
combination with the safety belt, constitutes a torso restraint system 
as described in TSO-C114.
    (c) Each occupant's seat must have a combined safety belt and 
shoulder harness with a single-point release. Each pilot's combined 
safety belt and shoulder harness must allow each pilot when seated with 
safety belt and shoulder harness fastened to perform all functions 
necessary for flight operations. There must be a means to secure belt 
and harness when not in use to prevent interference with the operation 
of the rotorcraft and with rapid egress in an emergency.
    (d) If seat backs do not have a firm handhold, there must be hand 
grips or rails along each aisle to let the occupants steady themselves 
while using the aisle in moderately rough air.
    (e) Each projecting object that would injure persons seated or 
moving about in the rotorcraft in normal flight must be padded.
    (f) Each seat and its supporting structure must be designed for an 
occupant weight of at least 170 pounds, considering the maximum load 
factors, inertial forces, and reactions between the occupant, seat, and 
safety belt or harness corresponding with the applicable flight and 
ground-load conditions, including the emergency landing conditions of 
Sec. 29.561(b). In addition--
    (1) Each pilot seat must be designed for the reactions resulting 
from the application of the pilot forces prescribed in Sec. 29.397; and
    (2) The inertial forces prescribed in Sec. 29.561(b) must be 
multiplied by a factor of 1.33 in determining the strength of the 
attachment of--
    (i) Each seat to the structure; and
    (ii) Each safety belt or harness to the seat or structure.
    (g) When the safety belt and shoulder harness are combined, the 
rated strength of the safety belt and shoulder harness may not be less 
than that corresponding to the inertial forces specified in 
Sec. 29.561(b), considering the occupant weight of at least 170 pounds, 
considering the dimensional characteristics of the restraint system 
installation, and using a distribution of at least a 60-percent load to 
the safety belt and at least a 40-percent load to the shoulder harness. 
If the safety belt is capable of being used without the shoulder 
harness, the inertial forces specified must be met by the safety belt 
alone.
    (h) When a headrest is used, the headrest and its supporting 
structure must be designed to resist the inertia forces specified in 
Sec. 29.561, with a 1.33 fitting factor and a head weight of at least 13 
pounds.
    (i) Each seating device system includes the device such as the seat, 
the cushions, the occupant restraint system and attachment devices.
    (j) Each seating device system may use design features such as 
crushing or separation of certain parts of the seat in the design to 
reduce occupant loads for the emergency landing dynamic conditions of 
Sec. 29.562; otherwise, the system must remain intact and must not 
interfere with rapid evacuation of the rotorcraft.
    (k) For purposes of this section, a litter is defined as a device 
designed to carry a nonambulatory person, primarily in a recumbent 
position, into and on the rotorcraft. Each berth or litter must be 
designed to withstand the load reaction of an occupant weight of at 
least 170 pounds when the occupant is subjected to the forward inertial 
factors specified in Sec. 29.561(b). A berth or litter installed within 
15 deg. or less of the longitudinal axis of the rotorcraft must be 
provided with a padded end-board, cloth diaphragm, or equivalent means 
that can withstand the forward load reaction. A berth or litter oriented 
greater than 15 deg. with the longitudinal axis of the rotorcraft

[[Page 654]]

must be equipped with appropriate restraints, such as straps or safety 
belts, to withstand the forward reaction. In addition--
    (1) The berth or litter must have a restraint system and must not 
have corners or other protuberances likely to cause serious injury to a 
person occupying it during emergency landing conditions; and
    (2) The berth or litter attachment and the occupant restraint system 
attachments to the structure must be designed to withstand the critical 
loads resulting from flight and ground load conditions and from the 
conditions prescribed in Sec. 29.561(b). The fitting factor required by 
Sec. 29.625(d) shall be applied.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-24, 49 
FR 44437, Nov. 6, 1984; Amdt. 29-29, 54 FR 47320, Nov. 13, 1989; Amdt. 
29-42, 63 FR 43285, Aug. 12, 1998]



Sec. 29.787  Cargo and baggage compartments.

    (a) Each cargo and baggage compartment must be designed for its 
placarded maximum weight of contents and for the critical load 
distributions at the appropriate maximum load factors corresponding to 
the specified flight and ground load conditions, except the emergency 
landing conditions of Sec. 29.561.
    (b) There must be means to prevent the contents of any compartment 
from becoming a hazard by shifting under the loads specified in 
paragraph (a) of this section.
    (c) Under the emergency landing conditions of Sec. 29.561, cargo and 
baggage compartments must--
    (1) Be positioned so that if the contents break loose they are 
unlikely to cause injury to the occupants or restrict any of the escape 
facilities provided for use after an emergency landing; or
    (2) Have sufficient strength to withstand the conditions specified 
in Sec. 29.561, including the means of restraint and their attachments 
required by paragraph (b) of this section. Sufficient strength must be 
provided for the maximum authorized weight of cargo and baggage at the 
critical loading distribution.
    (d) If cargo compartment lamps are installed, each lamp must be 
installed so as to prevent contact between lamp bulb and cargo.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55472, Dec. 20, 1976; Amdt. 29-31, 55 FR 38966, Sept. 21, 1990]



Sec. 29.801  Ditching.

    (a) If certification with ditching provisions is requested, the 
rotorcraft must meet the requirements of this section and 
Secs. 29.807(d), 29.1411 and 29.1415.
    (b) Each practicable design measure, compatible with the general 
characteristics of the rotorcraft, must be taken to minimize the 
probability that in an emergency landing on water, the behavior of the 
rotorcraft would cause immediate injury to the occupants or would make 
it impossible for them to escape.
    (c) The probable behavior of the rotorcraft in a water landing must 
be investigated by model tests or by comparison with rotorcraft of 
similar configuration for which the ditching characteristics are known. 
Scoops, flaps, projections, and any other factors likely to affect the 
hydrodynamic characteristics of the rotorcraft must be considered.
    (d) It must be shown that, under reasonably probable water 
conditions, the flotation time and trim of the rotorcraft will allow the 
occupants to leave the rotorcraft and enter the liferafts required by 
Sec. 29.1415. If compliance with this provision is shown by bouyancy and 
trim computations, appropriate allowances must be made for probable 
structural damage and leakage. If the rotorcraft has fuel tanks (with 
fuel jettisoning provisions) that can reasonably be expected to 
withstand a ditching without leakage, the jettisonable volume of fuel 
may be considered as bouyancy volume.
    (e) Unless the effects of the collapse of external doors and windows 
are accounted for in the investigation of the probable behavior of the 
rotorcraft in a water landing (as prescribed in paragraphs (c) and (d) 
of this section), the external doors and windows must be designed to 
withstand the probable maximum local pressures.

[Amdt. 29-12, 41 FR 55472, Dec. 20, 1976]

[[Page 655]]



Sec. 29.803  Emergency evacuation.

    (a) Each crew and passenger area must have means for rapid 
evacuation in a crash landing, with the landing gear (1) extended and 
(2) retracted, considering the possibility of fire.
    (b) Passenger entrance, crew, and service doors may be considered as 
emergency exits if they meet the requirements of this section and of 
Secs. 29.805 through 29.815.
    (c)  [Reserved]
    (d) Except as provided in paragraph (e) of this section, the 
following categories of rotorcraft must be tested in accordance with the 
requirements of appendix D of this part to demonstrate that the maximum 
seating capacity, including the crewmembers required by the operating 
rules, can be evacuated from the rotorcraft to the ground within 90 
seconds:
    (1) Rotorcraft with a seating capacity of more than 44 passengers.
    (2) Rotorcraft with all of the following:
    (i) Ten or more passengers per passenger exit as determined under 
Sec. 29.807(b).
    (ii) No main aisle, as described in Sec. 29.815, for each row of 
passenger seats.
    (iii) Access to each passenger exit for each passenger by virtue of 
design features of seats, such as folding or break-over seat backs or 
folding seats.
    (e) A combination of analysis and tests may be used to show that the 
rotorcraft is capable of being evacuated within 90 seconds under the 
conditions specified in Sec. 29.803(d) if the Administrator finds that 
the combination of analysis and tests will provide data, with respect to 
the emergency evacuation capability of the rotorcraft, equivalent to 
that which would be obtained by actual demonstration.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 967, Jan. 26, 1968; Amdt. 27-26, 55 FR 8004, Mar. 6, 1990]



Sec. 29.805  Flight crew emergency exits.

    (a) For rotorcraft with passenger emergency exits that are not 
convenient to the flight crew, there must be flight crew emergency 
exits, on both sides of the rotorcraft or as a top hatch, in the flight 
crew area.
    (b) Each flight crew emergency exit must be of sufficient size and 
must be located so as to allow rapid evacuation of the flight crew. This 
must be shown by test.
    (c) Each exit must not be obstructed by water or flotation devices 
after a ditching. This must be shown by test, demonstration, or 
analysis.

[Amdt. 29-3, 33 FR 968, Jan. 26, 1968; as amended by Amdt. 27-26, 55 FR 
8004, Mar. 6, 1990]



Sec. 29.807  Passenger emergency exits.

    (a) Type. For the purpose of this part, the types of passenger 
emergency exit are as follows:
    (1) Type I. This type must have a rectangular opening of not less 
than 24 inches wide by 48 inches high, with corner radii not greater 
than one-third the width of the exit, in the passenger area in the side 
of the fuselage at floor level and as far away as practicable from areas 
that might become potential fire hazards in a crash.
    (2) Type II. This type is the same as Type I, except that the 
opening must be at least 20 inches wide by 44 inches high.
    (3) Type III. This type is the same as Type I, except that--
    (i) The opening must be at least 20 inches wide by 36 inches high; 
and
    (ii) The exits need not be at floor level.
    (4) Type IV. This type must have a rectangular opening of not less 
than 19 inches wide by 26 inches high, with corner radii not greater 
than one-third the width of the exit, in the side of the fuselage with a 
step-up inside the rotorcraft of not more than 29 inches.

Openings with dimensions larger than those specified in this section may 
be used, regardless of shape, if the base of the opening has a flat 
surface of not less than the specified width.
    (b) Passenger emergency exits; side-of-fuselage. Emergency exits 
must be accessible to the passengers and, except as provided in 
paragraph (d) of this section, must be provided in accordance with the 
following table:

------------------------------------------------------------------------
                                       Emergency exits for each side of
                                                 the fuselage
     Passenger seating capacity      -----------------------------------
                                                          Type
                                       Type I  Type II    III    Type IV
------------------------------------------------------------------------
1 through 10........................  .......  .......  .......        1
11 through 19.......................  .......  .......     1 or        2

[[Page 656]]

 
20 through 39.......................  .......        1  .......        1
40 through 59.......................        1  .......  .......        1
60 through 79.......................        1  .......     1 or        2
------------------------------------------------------------------------

    (c) Passenger emergency exits; other than side-of-fuselage. In 
addition to the requirements of paragraph (b) of this section--
    (1) There must be enough openings in the top, bottom, or ends of the 
fuselage to allow evacuation with the rotorcraft on its side; or
    (2) The probability of the rotorcraft coming to rest on its side in 
a crash landing must be extremely remote.
    (d) Ditching emergency exits for passengers. If certification with 
ditching provisions is requested, ditching emergency exits must be 
provided in accordance with the following requirements and must be 
proven by test, demonstration, or analysis unless the emergency exits 
required by paragraph (b) of this section already meet these 
requirements.
    (1) For rotorcraft that have a passenger seating configuration, 
excluding pilots seats, of nine seats or less, one exit above the 
waterline in each side of the rotorcraft, meeting at least the 
dimensions of a Type IV exit.
    (2) For rotorcraft that have a passenger seating configuration, 
excluding pilots seats, of 10 seats or more, one exit above the 
waterline in a side of the rotorcraft meeting at least the dimensions of 
a Type III exit, for each unit (or part of a unit) of 35 passenger 
seats, but no less than two such exits in the passenger cabin, with one 
on each side of the rotorcraft. However, where it has been shown through 
analysis, ditching demonstrations, or any other tests found necessary by 
the Administrator, that the evacuation capability of the rotorcraft 
during ditching is improved by the use of larger exits, or by other 
means, the passenger seat to exit ratio may be increased.
    (3) Flotation devices, whether stowed or deployed, may not interfere 
with or obstruct the exits.
    (e) Ramp exits. One Type I exit only, or one Type II exit only, that 
is required in the side of the fuselage under paragraph (b) of this 
section, may be installed instead in the ramp of floor ramp rotorcraft 
if--
    (1) Its installation in the side of the fuselage is impractical; and
    (2) Its installation in the ramp meets Sec. 29.813.
    (f) Tests. The proper functioning of each emergency exit must be 
shown by test.

[Amdt. 29-3, 33 FR 968, Jan. 26, 1968, as amended by Amdt. 29-12, 41 FR 
55472, Dec. 20, 1976; Amdt. 27-26, 55 FR 8004, Mar. 6, 1990]



Sec. 29.809  Emergency exit arrangement.

    (a) Each emergency exit must consist of a movable door or hatch in 
the external walls of the fuselage and must provide an unobstructed 
opening to the outside.
    (b) Each emergency exit must be openable from the inside and from 
the outside.
    (c) The means of opening each emergency exit must be simple and 
obvious and may not require exceptional effort.
    (d) There must be means for locking each emergency exit and for 
preventing opening in flight inadvertently or as a result of mechanical 
failure.
    (e) There must be means to minimize the probability of the jamming 
of any emergency exit in a minor crash landing as a result of fuselage 
deformation under the ultimate inertial forces in Sec. 29.783(d).
    (f) Except as provided in paragraph (h) of this section, each land-
based rotorcraft emergency exit must have an approved slide as stated in 
paragraph (g) of this section, or its equivalent, to assist occupants in 
descending to the ground from each floor level exit and an approved 
rope, or its equivalent, for all other exits, if the exit threshold is 
more that 6 feet above the ground--
    (1) With the rotorcraft on the ground and with the landing gear 
extended;
    (2) With one or more legs or part of the landing gear collapsed, 
broken, or not extended; and
    (3) With the rotorcraft resting on its side, if required by 
Sec. 29.803(d).
    (g) The slide for each passenger emergency exit must be a self-
supporting slide or equivalent, and must be designed to meet the 
following requirements:
    (1) It must be automatically deployed, and deployment must begin

[[Page 657]]

during the interval between the time the exit opening means is actuated 
from inside the rotorcraft and the time the exit is fully opened. 
However, each passenger emergency exit which is also a passenger 
entrance door or a service door must be provided with means to prevent 
deployment of the slide when the exit is opened from either the inside 
or the outside under nonemergency conditions for normal use.
    (2) It must be automatically erected within 10 seconds after 
deployment is begun.
    (3) It must be of such length after full deployment that the lower 
end is self-supporting on the ground and provides safe evacuation of 
occupants to the ground after collapse of one or more legs or part of 
the landing gear.
    (4) It must have the capability, in 25-knot winds directed from the 
most critical angle, to deploy and, with the assistance of only one 
person, to remain usable after full deployment to evacuate occupants 
safely to the ground.
    (5) Each slide installation must be qualified by five consecutive 
deployment and inflation tests conducted (per exit) without failure, and 
at least three tests of each such five-test series must be conducted 
using a single representative sample of the device. The sample devices 
must be deployed and inflated by the system's primary means after being 
subjected to the inertia forces specified in Sec. 29.561(b). If any part 
of the system fails or does not function properly during the required 
tests, the cause of the failure or malfunction must be corrected by 
positive means and after that, the full series of five consecutive 
deployment and inflation tests must be conducted without failure.
    (h) For rotorcraft having 30 or fewer passenger seats and having an 
exit threshold more than 6 feet above the ground, a rope or other assist 
means may be used in place of the slide specified in paragraph (f) of 
this section, provided an evacuation demonstration is accomplished as 
prescribed in Sec. 29.803(d) or (e).
    (i) If a rope, with its attachment, is used for compliance with 
paragraph (f), (g), or (h) of this section, it must--
    (1) Withstand a 400-pound static load; and
    (2) Attach to the fuselage structure at or above the top of the 
emergency exit opening, or at another approved location if the stowed 
rope would reduce the pilot's view in flight.

[Amdt. 29-3, 33 FR 968, Jan. 26, 1968, as amended by Amdt. 29-29, 54 FR 
47321, Nov. 13, 1989; Amdt. 27-26, 55 FR 8004, Mar. 6, 1990]



Sec. 29.811  Emergency exit marking.

    (a) Each passenger emergency exit, its means of access, and its 
means of opening must be conspicuously marked for the guidance of 
occupants using the exits in daylight or in the dark. Such markings must 
be designed to remain visible for rotorcraft equipped for overwater 
flights if the rotorcraft is capsized and the cabin is submerged.
    (b) The identity and location of each passenger emergency exit must 
be recognizable from a distance equal to the width of the cabin.
    (c) The location of each passenger emergency exit must be indicated 
by a sign visible to occupants approaching along the main passenger 
aisle. There must be a locating sign--
    (1) Next to or above the aisle near each floor emergency exit, 
except that one sign may serve two exits if both exists can be seen 
readily from that sign; and
    (2) On each bulkhead or divider that prevents fore and aft vision 
along the passenger cabin, to indicate emergency exits beyond and 
obscured by it, except that if this is not possible the sign may be 
placed at another appropriate location.
    (d) Each passenger emergency exit marking and each locating sign 
must have white letters 1 inch high on a red background 2 inches high, 
be self or electrically illuminated, and have a minimum luminescence 
(brightness) of at least 160 microlamberts. The colors may be reversed 
if this will increase the emergency illumination of the passenger 
compartment.
    (e) The location of each passenger emergency exit operating handle 
and instructions for opening must be shown--
    (1) For each emergency exit, by a marking on or near the exit that 
is

[[Page 658]]

readable from a distance of 30 inches; and
    (2) For each Type I or Type II emergency exit with a locking 
mechanism released by rotary motion of the handle, by--
    (i) A red arrow, with a shaft at least three-fourths inch wide and a 
head twice the width of the shaft, extending along at least 70 degrees 
of arc at a radius approximately equal to three-fourths of the handle 
length; and
    (ii) The word ``open'' in red letters 1 inch high, placed 
horizontally near the head of the arrow.
    (f) Each emergency exit, and its means of opening, must be marked on 
the outside of the rotorcraft. In addition, the following apply:
    (1) There must be a 2-inch colored band outlining each passenger 
emergency exit, except small rotorcraft with a maximum weight of 12,500 
pounds or less may have a 2-inch colored band outlining each exit 
release lever or device of passenger emergency exits which are normally 
used doors.
    (2) Each outside marking, including the band, must have color 
contrast to be readily distinguishable from the surrounding fuselage 
surface. The contrast must be such that, if the reflectance of the 
darker color is 15 percent or less, the reflectance of the lighter color 
must be at least 45 percent. ``Reflectance'' is the ratio of the 
luminous flux reflected by a body to the luminous flux it receives. When 
the reflectance of the darker color is greater than 15 percent, at least 
a 30 percent difference between its reflectance and the reflectance of 
the lighter color must be provided.
    (g) Exits marked as such, though in excess of the required number of 
exits, must meet the requirements for emergency exits of the particular 
type. Emergency exits need only be marked with the word ``Exit.''

[Amdt. 29-3, 33 FR 968, Jan. 26, 1968, as amended by Amdt. 29-24, 49 FR 
44438, Nov. 6, 1984; Amdt. 27-26, 55 FR 8004, Mar. 6, 1990; Amdt. 29-31, 
55 FR 38967, Sept. 21, 1990]



Sec. 29.812  Emergency lighting.

    For transport Category A rotorcraft, the following apply:
    (a) A source of light with its power supply independent of the main 
lighting system must be installed to--
    (1) Illuminate each passenger emergency exit marking and locating 
sign; and
    (2) Provide enough general lighting in the passenger cabin so that 
the average illumination, when measured at 40-inch intervals at seat 
armrest height on the center line of the main passenger aisle, is at 
least 0.05 foot-candle.
    (b) Exterior emergency lighting must be provided at each emergency 
exit. The illumination may not be less than 0.05 foot-candle (measured 
normal to the direction of incident light) for minimum width on the 
ground surface, with landing gear extended, equal to the width of the 
emergency exit where an evacuee is likely to make first contact with the 
ground outside the cabin. The exterior emergency lighting may be 
provided by either interior or exterior sources with light intensity 
measurements made with the emergency exits open.
    (c) Each light required by paragraph (a) or (b) of this section must 
be operable manually from the cockpit station and from a point in the 
passenger compartment that is readily accessible. The cockpit control 
device must have an ``on,'' ``off,'' and ``armed'' position so that when 
turned on at the cockpit or passenger compartment station or when armed 
at the cockpit station, the emergency lights will either illuminate or 
remain illuminated upon interruption of the rotorcraft's normal electric 
power.
    (d) Any means required to assist the occupants in descending to the 
ground must be illuminated so that the erected assist means is visible 
from the rotorcraft.
    (1) The assist means must be provided with an illumination of not 
less than 0.03 foot-candle (measured normal to the direction of the 
incident light) at the ground end of the erected assist means where an 
evacuee using the established escape route would normally make first 
contact with the ground, with the rotorcraft in each of the attitudes 
corresponding to the collapse of one or more legs of the landing gear.
    (2) If the emergency lighting subsystem illuminating the assist 
means

[[Page 659]]

is independent of the rotorcraft's main emergency lighting system, it--
    (i) Must automatically be activated when the assist means is 
erected;
    (ii) Must provide the illumination required by paragraph (d)(1); and
    (iii) May not be adversely affected by stowage.
    (e) The energy supply to each emergency lighting unit must provide 
the required level of illumination for at least 10 minutes at the 
critical ambient conditions after an emergency landing.
    (f) If storage batteries are used as the energy supply for the 
emergency lighting system, they may be recharged from the rotorcraft's 
main electrical power system provided the charging circuit is designed 
to preclude inadvertent battery discharge into charging circuit faults.

[Amdt. 29-24, 49 FR 44438, Nov. 6, 1984]



Sec. 29.813  Emergency exit access.

    (a) Each passageway between passenger compartments, and each 
passageway leading to Type I and Type II emergency exits, must be--
    (1) Unobstructed; and
    (2) At least 20 inches wide.
    (b) For each emergency exit covered by Sec. 29.809(f), there must be 
enough space adjacent to that exit to allow a crewmember to assist in 
the evacuation of passengers without reducing the unobstructed width of 
the passageway below that required for that exit.
    (c) There must be access from each aisle to each Type III and Type 
IV exit, and
    (1) For rotorcraft that have a passenger seating configuration, 
excluding pilot seats, of 20 or more, the projected opening of the exit 
provided must not be obstructed by seats, berths, or other protrusions 
(including seatbacks in any position) for a distance from that exit of 
not less than the width of the narrowest passenger seat installed on the 
rotorcraft;
    (2) For rotorcraft that have a passenger seating configuration, 
excluding pilot seats, of 19 or less, there may be minor obstructions in 
the region described in paragraph (c)(1) of this section, if there are 
compensating factors to maintain the effectiveness of the exit.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55472, Dec. 20, 1976]



Sec. 29.815  Main aisle width.

    The main passenger aisle width between seats must equal or exceed 
the values in the following table:

------------------------------------------------------------------------
                                                 Minimum main passenger
                                                       aisle width
                                               -------------------------
          Passenger seating capacity             Less than    25 Inches
                                                 25 inches     and more
                                                 from floor   from floor
                                                  (inches)     (inches)
------------------------------------------------------------------------
10 or less....................................           12           15
11 through 19.................................           12           20
20 or more....................................           15           20
------------------------------------------------------------------------
\1\ A narrower width not less than 9 inches may be approved when
  substantiated by tests found necessary by the Administrator.


[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55472, Dec. 20, 1976]



Sec. 29.831  Ventilation.

    (a) Each passenger and crew compartment must be ventilated, and each 
crew compartment must have enough fresh air (but not less than 10 cu. 
ft. per minute per crewmember) to let crewmembers perform their duties 
without undue discomfort or fatigue.
    (b) Crew and passenger compartment air must be free from harmful or 
hazardous concentrations of gases or vapors.
    (c) The concentration of carbon monoxide may not exceed one part in 
20,000 parts of air during forward flight. If the concentration exceeds 
this value under other conditions, there must be suitable operating 
restrictions.
    (d) There must be means to ensure compliance with paragraphs (b) and 
(c) of this section under any reasonably probable failure of any 
ventilating, heating, or other system or equipment.



Sec. 29.833  Heaters.

    Each combustion heater must be approved.

                             Fire Protection



Sec. 29.851  Fire extinguishers.

    (a) Hand fire extinguishers. For hand fire extinguishers the 
following apply:

[[Page 660]]

    (1) Each hand fire extinguisher must be approved.
    (2) The kinds and quantities of each extinguishing agent used must 
be appropriate to the kinds of fires likely to occur where that agent is 
used.
    (3) Each extinguisher for use in a personnel compartment must be 
designed to minimize the hazard of toxic gas concentrations.
    (b) Built-in fire extinguishers. If a built-in fire extinguishing 
system is required--
    (1) The capacity of each system, in relation to the volume of the 
compartment where used and the ventilation rate, must be adequate for 
any fire likely to occur in that compartment.
    (2) Each system must be installed so that--
    (i) No extinguishing agent likely to enter personnel compartments 
will be present in a quantity that is hazardous to the occupants; and
    (ii) No discharge of the extinguisher can cause structural damage.



Sec. 29.853  Compartment interiors.

    For each compartment to be used by the crew or passengers--
    (a) The materials (including finishes or decorative surfaces applied 
to the materials) must meet the following test criteria as applicable:
    (1) Interior ceiling panels, interior wall panels, partitions, 
galley structure, large cabinet walls, structural flooring, and 
materials used in the construction of stowage compartments (other than 
underseat stowage compartments and compartments for stowing small items 
such as magazines and maps) must be self-extinguishing when tested 
vertically in accordance with the applicable portions of appendix F of 
Part 25 of this chapter, or other approved equivalent methods. The 
average burn length may not exceed 6 inches and the average flame time 
after removal of the flame source may not exceed 15 seconds. Drippings 
from the test specimen may not continue to flame for more than an 
average of 3 seconds after falling.
    (2) Floor covering, textiles (including draperies and upholstery), 
seat cushions, padding, decorative and nondecorative coated fabrics, 
leather, trays and galley furnishings, electrical conduit, thermal and 
acoustical insulation and insulation covering, air ducting, joint and 
edge covering, cargo compartment liners, insulation blankets, cargo 
covers, and transparencies, molded and thermoformed parts, air ducting 
joints, and trim strips (decorative and chafing) that are constructed of 
materials not covered in paragraph (a)(3) of this section, must be self 
extinguishing when tested vertically in accordance with the applicable 
portion of appendix F of Part 25 of this chapter, or other approved 
equivalent methods. The average burn length may not exceed 8 inches and 
the average flame time after removal of the flame source may not exceed 
15 seconds. Drippings from the test specimen may not continue to flame 
for more than an average of 5 seconds after falling.
    (3) Acrylic windows and signs, parts constructed in whole or in part 
of elastometric materials, edge lighted instrument assemblies consisting 
of two or more instruments in a common housing, seat belts, shoulder 
harnesses, and cargo and baggage tiedown equipment, including 
containers, bins, pallets, etc., used in passenger or crew compartments, 
may not have an average burn rate greater than 2.5 inches per minute 
when tested horizontally in accordance with the applicable portions of 
appendix F of Part 25 of this chapter, or other approved equivalent 
methods.
    (4) Except for electrical wire and cable insulation, and for small 
parts (such as knobs, handles, rollers, fasteners, clips, grommets, rub 
strips, pulleys, and small electrical parts) that the Administrator 
finds would not contribute significantly to the propagation of a fire, 
materials in items not specified in paragraphs (a)(1), (a)(2), or (a)(3) 
of this section may not have a burn rate greater than 4 inches per 
minute when tested horizontally in accordance with the applicable 
portions of appendix F of Part 25 of this chapter, or other approved 
equivalent methods.
    (b) In addition to meeting the requirements of paragraph (a)(2), 
seat cushions, except those on flight crewmember seats, must meet the 
test requirements of Part II of appendix F of Part 25 of this chapter, 
or equivalent.

[[Page 661]]

    (c) If smoking is to be prohibited, there must be a placard so 
stating, and if smoking is to be allowed--
    (1) There must be an adequate number of self-contained, removable 
ashtrays; and
    (2) Where the crew compartment is separated from the passenger 
compartment, there must be at least one illuminated sign (using either 
letters or symbols) notifying all passengers when smoking is prohibited. 
Signs which notify when smoking is prohibited must--
    (i) When illuminated, be legible to each passenger seated in the 
passenger cabin under all probable lighting conditions; and
    (ii) Be so constructed that the crew can turn the illumination on 
and off.
    (d) Each receptacle for towels, paper, or waste must be at least 
fire-resistant and must have means for containing possible fires;
    (e) There must be a hand fire extinguisher for the flight 
crewmembers; and
    (f) At least the following number of hand fire extinguishers must be 
conveniently located in passenger compartments:

------------------------------------------------------------------------
                                                               Fire
                   Passenger capacity                      extinguishers
------------------------------------------------------------------------
7 through 30............................................               1
31 through 60...........................................               2
61 or more..............................................               3
------------------------------------------------------------------------


(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 969, Jan. 26, 1968; Amdt. 29-17, 43 FR 50600, Oct. 30, 1978; Amdt 29-
18, 45 FR 7756, Feb. 4, 1980; Amdt. 29-23, 49 FR 43200, Oct. 26, 1984]



Sec. 29.855  Cargo and baggage compartments.

    (a) Each cargo and baggage compartment must be construced of or 
lined with materials in accordance with the following:
    (1) For accessible and inaccessible compartments not occupied by 
passengers or crew, the material must be at least fire resistant.
    (2) Materials must meet the requirements in Sec. 29.853(a)(1), 
(a)(2), and (a)(3) for cargo or baggage compartments in which--
    (i) The presence of a compartment fire would be easily discovered by 
a crewmember while at the crewmember's station;
    (ii) Each part of the compartment is easily accessible in flight;
    (iii) The compartment has a volume of 200 cubic feet or less; and
    (iv) Notwithstanding Sec. 29.1439(a), protective breathing equipment 
is not required.
    (b) No compartment may contain any controls, wiring, lines, 
equipment, or accessories whose damage or failure would affect safe 
operation, unless those items are protected so that--
    (1) They cannot be damaged by the movement of cargo in the 
compartment; and
    (2) Their breakage or failure will not create a fire hazard.
    (c) The design and sealing of inaccessible compartments must be 
adequate to contain compartment fires until a landing and safe 
evacuation can be made.
    (d) Each cargo and baggage compartment that is not sealed so as to 
contain cargo compartment fires completely without endangering the 
safety of a rotorcraft or its occupants must be designed, or must have a 
device, to ensure detection of fires or smoke by a crewmember while at 
his station and to prevent the accumulation of harmful quantities of 
smoke, flame, extinguishing agents, and other noxious gases in any crew 
or passenger compartment. This must be shown in flight.
    (e) For rotorcraft used for the carriage of cargo only, the cabin 
area may be considered a cargo compartment and, in addition to 
paragraphs (a) through (d) of this section, the following apply:
    (1) There must be means to shut off the ventilating airflow to or 
within the compartment. Controls for this purpose must be accessible to 
the flight crew in the crew compartment.
    (2) Required crew emergency exits must be accessible under all cargo 
loading conditions.

[[Page 662]]

    (3) Sources of heat within each compartment must be shielded and 
insulated to prevent igniting the cargo.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 969, Jan 26, 1968; Amdt. 29-24, 49 FR 44438, Nov. 6, 1984; Amdt. 27-
26, 55 FR 8004, Mar. 6, 1990]



Sec. 29.859  Combustion heater fire protection.

    (a) Combustion heater fire zones. The following combustion heater 
fire zones must be protected against fire under the applicable 
provisions of Secs. 29.1181 through 29.1191, and 29.1195 through 
29.1203:
    (1) The region surrounding any heater, if that region contains any 
flammable fluid system components (including the heater fuel system), 
that could--
    (i) Be damaged by heater malfunctioning; or
    (ii) Allow flammable fluids or vapors to reach the heater in case of 
leakage.
    (2) Each part of any ventilating air passage that--
    (i) Surrounds the combustion chamber; and
    (ii) Would not contain (without damage to other rotorcraft 
components) any fire that may occur within the passage.
    (b) Ventilating air ducts. Each ventilating air duct passing through 
any fire zone must be fireproof. In addition--
    (1) Unless isolation is provided by fireproof valves or by equally 
effective means, the ventilating air duct downstream of each heater must 
be fireproof for a distance great enough to ensure that any fire 
originating in the heater can be contained in the duct; and
    (2) Each part of any ventilating duct passing through any region 
having a flammable fluid system must be so constructed or isolated from 
that system that the malfunctioning of any component of that system 
cannot introduce flammable fluids or vapors into the ventilating 
airstream.
    (c) Combustion air ducts. Each combustion air duct must be fireproof 
for a distance great enough to prevent damage from backfiring or reverse 
flame propagation. In addition--
    (1) No combustion air duct may communicate with the ventilating 
airstream unless flames from backfires or reverse burning cannot enter 
the ventilating airstream under any operating condition, including 
reverse flow or malfunction of the heater or its associated components; 
and
    (2) No combustion air duct may restrict the prompt relief of any 
backfire that, if so restricted, could cause heater failure.
    (d) Heater controls; general. There must be means to prevent the 
hazardous accumulation of water or ice on or in any heater control 
component, control system tubing, or safety control.
    (e) Heater safety controls. For each combustion heater, safety 
control means must be provided as follows:
    (1) Means independent of the components provided for the normal 
continuous control of air temperature, airflow, and fuel flow must be 
provided, for each heater, to automatically shut off the ignition and 
fuel supply of that heater at a point remote from that heater when any 
of the following occurs:
    (i) The heat exchanger temperature exceeds safe limits.
    (ii) The ventilating air temperature exceeds safe limits.
    (iii) The combustion airflow becomes inadequate for safe operation.
    (iv) The ventilating airflow becomes inadequate for safe operation.
    (2) The means of complying with paragraph (e)(1) of this section for 
any individual heater must--
    (i) Be independent of components serving any other heater whose heat 
output is essential for safe operation; and
    (ii) Keep the heater off until restarted by the crew.
    (3) There must be means to warn the crew when any heater whose heat 
output is essential for safe operation has been shut off by the 
automatic means prescribed in paragraph (e)(1) of this section.
    (f) Air intakes. Each combustion and ventilating air intake must be 
where no flammable fluids or vapors can enter the heater system under 
any operating condition--
    (1) During normal operation; or
    (2) As a result of the malfunction of any other component.

[[Page 663]]

    (g) Heater exhaust. Each heater exhaust system must meet the 
requirements of Secs. 29.1121 and 29.1123. In addition--
    (1) Each exhaust shroud must be sealed so that no flammable fluids 
or hazardous quantities of vapors can reach the exhaust systems through 
joints; and
    (2) No exhaust system may restrict the prompt relief of any backfire 
that, if so restricted, could cause heater failure.
    (h) Heater fuel systems. Each heater fuel system must meet the 
powerplant fuel system requirements affecting safe heater operation. 
Each heater fuel system component in the ventilating airstream must be 
protected by shrouds so that no leakage from those components can enter 
the ventilating airstream.
    (i) Drains. There must be means for safe drainage of any fuel that 
might accumulate in the combustion chamber or the heat exchanger. In 
addition--
    (1) Each part of any drain that operates at high temperatures must 
be protected in the same manner as heater exhausts; and
    (2) Each drain must be protected against hazardous ice accumulation 
under any operating condition.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-2, 32 
FR 6914, May 5, 1967]



Sec. 29.861  Fire protection of structure, controls, and other parts.

    Each part of the structure, controls, and the rotor mechanism, and 
other parts essential to controlled landing and (for category A) flight 
that would be affected by powerplant fires must be isolated under 
Sec. 29.1191, or must be--
    (a) For category A rotorcraft, fireproof; and
    (b) For Category B rotorcraft, fireproof or protected so that they 
can perform their essential functions for at least 5 minutes under any 
foreseeable powerplant fire conditions.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 27-26, 55 
FR 8005, Mar. 6, 1990]



Sec. 29.863  Flammable fluid fire protection.

    (a) In each area where flammable fluids or vapors might escape by 
leakage of a fluid system, there must be means to minimize the 
probability of ignition of the fluids and vapors, and the resultant 
hazards if ignition does occur.
    (b) Compliance with paragraph (a) of this section must be shown by 
analysis or tests, and the following factors must be considered:
    (1) Possible sources and paths of fluid leakage, and means of 
detecting leakage.
    (2) Flammability characteristics of fluids, including effects of any 
combustible or absorbing materials.
    (3) Possible ignition sources, including electrical faults, 
overheating of equipment, and malfunctioning of protective devices.
    (4) Means available for controlling or extinguishing a fire, such as 
stopping flow of fluids, shutting down equipment, fireproof containment, 
or use of extinguishing agents.
    (5) Ability of rotorcraft components that are critical to safety of 
flight to withstand fire and heat.
    (c) If action by the flight crew is required to prevent or 
counteract a fluid fire (e.g. equipment shutdown or actuation of a fire 
extinguisher), quick acting means must be provided to alert the crew.
    (d) Each area where flammable fluids or vapors might escape by 
leakage of a fluid system must be identified and defined.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Amdt. 29-17, 43 FR 50600, Oct. 30, 1978]

                             External Loads



Sec. 29.865  External loads.

    (a) It must be shown by analysis, test, or both, that the rotorcraft 
external load attaching means for rotorcraft-load combinations to be 
used for nonhuman external cargo applications can withstand a limit 
static load equal to 2.5, or some lower load factor approved under 
Secs. 29.337 through 29.341, multiplied by the maximum external

[[Page 664]]

load for which authorization is requested. It must be shown by analysis, 
test, or both that the rotorcraft external load attaching means and 
corresponding personnel carrying device system for rotorcraft-load 
combinations to be used for human external cargo applications can 
withstand a limit static load equal to 3.5 or some lower load factor, 
not less than 2.5, approved under Secs. 29.337 through 29.341, 
multiplied by the maximum external load for which authorization is 
requested. The load for any rotorcraft-load combination class, for any 
external cargo type, must be applied in the vertical direction. For 
jettisonable external loads of any applicable external cargo type, the 
load must also be applied in any direction making the maximum angle with 
the vertical that can be achieved in service but not less than 30 deg.. 
However, the 30 deg. angle may be reduced to a lesser angle if--
    (1) An operating limitation is established limiting external load 
operations to such angles for which compliance with this paragraph has 
been shown; or
    (2) It is shown that the lesser angle can not be exceeded in 
service.
    (b) The external load attaching means, for jettisonable rotorcraft-
load combinations, must include a quick-release system to enable the 
pilot to release the external load quickly during flight. The quick-
release system must consist of a primary quick release subsystem and a 
backup quick release subsystem that are isolated from one another. The 
quick release system, and the means by which it is controlled, must 
comply with the following:
    (1) A control for the primary quick release subsystem must be 
installed either on one of the pilot's primary controls or in an 
equivalently accessible location and must be designed and located so 
that it may be operated by either the pilot or a crewmember without 
hazardously limiting the ability to control the rotorcraft during an 
emergency situation.
    (2) A control for the backup quick release subsystem, readily 
accessible to either the pilot or another crewmember, must be provided.
    (3) Both the primary and backup quick release subsystems must--
    (i) Be reliable, durable, and function properly with all external 
loads up to and including the maximum external limit load for which 
authorization is requested.
    (ii) Be protected against electromagnetic interference (EMI) from 
external and internal sources and against lightning to prevent 
inadvertent load release.
    (A) The minimum level of protection required for jettisonable 
rotorcraft-load combinations used for nonhuman external cargo is a radio 
frequency field strength of 20 volts per meter.
    (B) The minimum level of protection required for jettisonable 
rotorcraft-load combinations used for human external cargo is a radio 
frequency field strength of 200 volts per meter.
    (iii) Be protected against any failure that could be induced by a 
failure mode of any other electrical or mechanical rotorcraft system.
    (c) For rotorcraft-load combinations to be used for human external 
cargo applications, the rotorcraft must--
    (1) For jettisonable external loads, have a quick-release system 
that meets the requirements of paragraph (b) of this section and that--
    (i) Provides a dual actuation device for the primary quick release 
subsystem, and
    (ii) Provides a separate dual actuation device for the backup quick 
release subsystem;
    (2) Have a reliable, approved personnel carrying device system that 
has the structural capability and personnel safety features essential 
for external occupant safety;
    (3) Have placards and markings at all appropriate locations that 
clearly state the essential system operating instructions and, for the 
personnel carrying device system, ingress and egress instructions;
    (4) Have equipment to allow direct intercommunication among required 
crewmembers and external occupants;
    (5) Have the appropriate limitations and procedures incorporated in 
the flight manual for conducting human external cargo operations; and
    (6) For human external cargo applications requiring use of Category 
A rotorcraft, have one-engine-inoperative hover performance data and 
procedures

[[Page 665]]

in the flight manual for the weights, altitudes, and temperatures for 
which external load approval is requested.
    (d) The critically configured jettisonable external loads must be 
shown by a combination of analysis, ground tests, and flight tests to be 
both transportable and releasable throughout the approved operational 
envelope without hazard to the rotorcraft during normal flight 
conditions. In addition, these external loads--must be shown to be 
releasable without hazard to the rotorcraft during emergency flight 
conditions.
    (e) A placard or marking must be installed next to the external-load 
attaching means clearly stating any operational limitations and the 
maximum authorized external load as demonstrated under Sec. 29.25 and 
this section.
    (f) The fatigue evaluation of Sec. 29.571 of this part does not 
apply to rotorcraft-load combinations to be used for nonhuman external 
cargo except for the failure of critical structural elements that would 
result in a hazard to the rotorcraft. For rotorcraft-load combinations 
to be used for human external cargo, the fatigue evaluation of 
Sec. 29.571 of this part applies to the entire quick release and 
personnel carrying device structural systems and their attachments.

[Amdt. 29-12, 41 FR 55472, Dec. 20, 1976, as amended by Amdt. 27-26, 55 
FR 8005, Mar. 6, 1990; Amdt. 29-43, 64 FR 43020, Aug. 6, 1999]

                              Miscellaneous



Sec. 29.871  Leveling marks.

    There must be reference marks for leveling the rotorcraft on the 
ground.



Sec. 29.873  Ballast provisions.

    Ballast provisions must be designed and constructed to prevent 
inadvertent shifting of ballast in flight.



                          Subpart E--Powerplant

                                 General



Sec. 29.901  Installation.

    (a) For the purpose of this part, the powerplant installation 
includes each part of the rotorcraft (other than the main and auxiliary 
rotor structures) that--
    (1) Is necessary for propulsion;
    (2) Affects the control of the major propulsive units; or
    (3) Affects the safety of the major propulsive units between normal 
inspections or overhauls.
    (b) For each powerplant installation--
    (1) The installation must comply with--
    (i) The installation instructions provided under Sec. 33.5 of this 
chapter; and
    (ii) The applicable provisions of this subpart.
    (2) Each component of the installation must be constructed, 
arranged, and installed to ensure its continued safe operation between 
normal inspections or overhauls for the range of temperature and 
altitude for which approval is requested.
    (3) Accessibility must be provided to allow any inspection and 
maintenance necessary for continued airworthiness; and
    (4) Electrical interconnections must be provided to prevent 
differences of potential between major components of the installation 
and the rest of the rotorcraft.
    (5) Axial and radial expansion of turbine engines may not affect the 
safety of the installation.
    (6) Design precautions must be taken to minimize the possibility of 
incorrect assembly of components and equipment essential to safe 
operation of the rotorcraft, except where operation with the incorrect 
assembly can be shown to be extremely improbable.

[[Page 666]]

    (c) For each powerplant and auxiliary power unit installation, it 
must be established that no single failure or malfunction or probable 
combination of failures will jeopardize the safe operation of the 
rotorcraft except that the failure of structural elements need not be 
considered if the probability of any such failure is extremely remote.
    (d) Each auxiliary power unit installation must meet the applicable 
provisions of this subpart.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 969, Jan. 26, 1968; Amdt, 29-13, 42 FR 15046, Mar. 17, 1977; Amdt. 
29-17, 43 FR 50600, Oct. 30, 1978; Amdt. 29-26, 53 FR 34215, Sept. 2, 
1988; Amdt. 29-36, 60 FR 55776, Nov. 2, 1995]



Sec. 29.903  Engines.

    (a) Engine type certification. Each engine must have an approved 
type certificate. Reciprocating engines for use in helicopters must be 
qualified in accordance with Sec. 33.49(d) of this chapter or be 
otherwise approved for the intended usage.
    (b) Category A; engine isolation. For each category A rotorcraft, 
the powerplants must be arranged and isolated from each other to allow 
operation, in at least one configuration, so that the failure or 
malfunction of any engine, or the failure of any system that can affect 
any engine, will not--
    (1) Prevent the continued safe operation of the remaining engines; 
or
    (2) Require immediate action, other than normal pilot action with 
primary flight controls, by any crewmember to maintain safe operation.
    (c) Category A; control of engine rotation. For each Category A 
rotorcraft, there must be a means for stopping the rotation of any 
engine individually in flight, except that, for turbine engine 
installations, the means for stopping the engine need be provided only 
where necessary for safety. In addition--
    (1) Each component of the engine stopping system that is located on 
the engine side of the firewall, and that might be exposed to fire, must 
be at least fire resistant; or
    (2) Duplicate means must be available for stopping the engine and 
the controls must be where all are not likely to be damaged at the same 
time in case of fire.
    (d) Turbine engine installation. For turbine engine installations--
    (1) Design precautions must be taken to minimize the hazards to the 
rotorcraft in the event of an engine rotor failure; and
    (2) The powerplant systems associated with engine control devices, 
systems, and instrumentation must be designed to give reasonable 
assurance that those engine operating limitations that adversely affect 
engine rotor structural integrity will not be exceeded in service.
    (e) Restart capability. (1) A means to restart any engine in flight 
must be provided.
    (2) Except for the in-flight shutdown of all engines, engine restart 
capability must be demonstrated throughout a flight envelope for the 
rotorcraft.
    (3) Following the in-flight shutdown of all engines, in-flight 
engine restart capability must be provided.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55472, Dec. 20, 1976; Amdt. 29-26, 53 FR 34215, Sept. 2, 1988; Amdt. 
29-31, 55 FR 38967, Sept. 21, 1990; 55 FR 41309, Oct. 10, 1990; Amdt. 
29-36, 60 FR 55776, Nov. 2, 1995]



Sec. 29.907  Engine vibration.

    (a) Each engine must be installed to prevent the harmful vibration 
of any part of the engine or rotorcraft.
    (b) The addition of the rotor and the rotor drive system to the 
engine may not subject the principal rotating parts of the engine to 
excessive vibration stresses. This must be shown by a vibration 
investigation.



Sec. 29.908  Cooling fans.

    For cooling fans that are a part of a powerplant installation the 
following apply:
    (a) Category A. For cooling fans installed in Category A rotorcraft, 
it must be shown that a fan blade failure will not prevent continued 
safe flight

[[Page 667]]

either because of damage caused by the failed blade or loss of cooling 
air.
    (b) Category B. For cooling fans installed in category B rotorcraft, 
there must be means to protect the rotorcraft and allow a safe landing 
if a fan blade fails. It must be shown that--
    (1) The fan blade would be contained in the case of a failure;
    (2) Each fan is located so that a fan blade failure will not 
jeopardize safety; or
    (3) Each fan blade can withstand an ultimate load of 1.5 times the 
centrifugal force expected in service, limited by either--
    (i) The highest rotational speeds achievable under uncontrolled 
conditions; or
    (ii) An overspeed limiting device.
    (c) Fatigue evaluation. Unless a fatigue evaluation under 
Sec. 29.571 is conducted, it must be shown that cooling fan blades are 
not operating at resonant conditions within the operating limits of the 
rotorcraft.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655 (c))

[Amdt. 29-13, 42 FR 15046, Mar. 17, 1977, as amended by Amdt. 29-26, 53 
FR 34215, Sept. 2, 1988]

                           Rotor Drive System



Sec. 29.917  Design.

    (a) General. The rotor drive system includes any part necessary to 
transmit power from the engines to the rotor hubs. This includes gear 
boxes, shafting, universal joints, couplings, rotor brake assemblies, 
clutches, supporting bearings for shafting, any attendant accessory pads 
or drives, and any cooling fans that are a part of, attached to, or 
mounted on the rotor drive system.
    (b) Design assessment. A design assessment must be performed to 
ensure that the rotor drive system functions safely over the full range 
of conditions for which certification is sought. The design assessment 
must include a detailed failure analysis to identify all failures that 
will prevent continued safe flight or safe landing and must identify the 
means to minimize the likelihood of their occurrence.
    (c) Arrangement. Rotor drive systems must be arranged as follows:
    (1) Each rotor drive system of multiengine rotorcraft must be 
arranged so that each rotor necessary for operation and control will 
continue to be driven by the remaining engines if any engine fails.
    (2) For single-engine rotorcraft, each rotor drive system must be so 
arranged that each rotor necessary for control in autorotation will 
continue to be driven by the main rotors after disengagement of the 
engine from the main and auxiliary rotors.
    (3) Each rotor drive system must incorporate a unit for each engine 
to automatically disengage that engine from the main and auxiliary 
rotors if that engine fails.
    (4) If a torque limiting device is used in the rotor drive system, 
it must be located so as to allow continued control of the rotorcraft 
when the device is operating.
    (5) If the rotors must be phased for intermeshing, each system must 
provide constant and positive phase relationship under any operating 
condition.
    (6) If a rotor dephasing device is incorporated, there must be means 
to keep the rotors locked in proper phase before operation.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55472, Dec. 20, 1976; Amdt. 29-40, 61 FR 21908, May 10, 1996]



Sec. 29.921  Rotor brake.

    If there is a means to control the rotation of the rotor drive 
system independently of the engine, any limitations on the use of that 
means must be specified, and the control for that means must be guarded 
to prevent inadvertent operation.



Sec. 29.923  Rotor drive system and control mechanism tests.

    (a) Endurance tests, general. Each rotor drive system and rotor 
control mechanism must be tested, as prescribed in paragraphs (b) 
through (n) and (p) of this section, for at least 200 hours plus the 
time required to meet the requirements of paragraphs (b)(2), (b)(3), and 
(k) of this section. These tests must be conducted as follows:

[[Page 668]]

    (1) Ten-hour test cycles must be used, except that the test cycle 
must be extended to include the OEI test of paragraphs (b)(2) and (k), 
of this section if OEI ratings are requested.
    (2) The tests must be conducted on the rotorcraft.
    (3) The test torque and rotational speed must be--
    (i) Determined by the powerplant limitations; and
    (ii) Absorbed by the rotors to be approved for the rotorcraft.
    (b) Endurance tests; takeoff run. The takeoff run must be conducted 
as follows:
    (1) Except as prescribed in paragraphs (b)(2) and (b)(3) of this 
section, the takeoff torque run must consist of 1 hour of alternate runs 
of 5 minutes at takeoff torque and the maximum speed for use with 
takeoff torque, and 5 minutes at as low an engine idle speed as 
practicable. The engine must be declutched from the rotor drive system, 
and the rotor brake, if furnished and so intended, must be applied 
during the first minute of the idle run. During the remaining 4 minutes 
of the idle run, the clutch must be engaged so that the engine drives 
the rotors at the minimum practical r.p.m. The engine and the rotor 
drive system must be accelerated at the maximum rate. When declutching 
the engine, it must be decelerated rapidly enough to allow the operation 
of the overrunning clutch.
    (2) For helicopters for which the use of a 2\1/2\-minute OEI rating 
is requested, the takeoff run must be conducted as prescribed in 
paragraph (b)(1) of this section, except for the third and sixth runs 
for which the takeoff torque and the maximum speed for use with takeoff 
torque are prescribed in that paragraph. For these runs, the following 
apply:
    (i) Each run must consist of at least one period of 2\1/2\ minutes 
with takeoff torque and the maximum speed for use with takeoff torque on 
all engines.
    (ii) Each run must consist of at least one period, for each engine 
in sequence, during which that engine simulates a power failure and the 
remaining engines are run at the 2\1/2\-minute OEI torque and the 
maximum speed for use with 2\1/2\-minute OEI torque for 2\1/2\ minutes.
    (3) For multiengine, turbine-powered rotorcraft for which the use of 
30-second/2-minute OEI power is requested, the takeoff run must be 
conducted as prescribed in paragraph (b)(1) of this section except for 
the following:
    (i) Immediately following any one 5-minute power-on run required by 
paragraph (b)(1) of this section, simulate a failure for each power 
source in turn, and apply the maximum torque and the maximum speed for 
use with 30-second OEI power to the remaining affected drive system 
power inputs for not less than 30 seconds. Each application of 30-second 
OEI power must be followed by two applications of the maximum torque and 
the maximum speed for use with the 2 minute OEI power for not less than 
2 minutes each; the second application must follow a period at 
stabilized continuous or 30 minute OEI power (whichever is requested by 
the applicant). At least one run sequence must be conducted from a 
simulated ``flight idle'' condition. When conducted on a bench test, the 
test sequence must be conducted following stabilization at take-off 
power.
    (ii) For the purpose of this paragraph, an affected power input 
includes all parts of the rotor drive system which can be adversely 
affected by the application of higher or asymmetric torque and speed 
prescribed by the test.
    (iii) This test may be conducted on a representative bench test 
facility when engine limitations either preclude repeated use of this 
power or would result in premature engine removals during the test. The 
loads, the vibration frequency, and the methods of application to the 
affected rotor drive system components must be representative of 
rotorcraft conditions. Test components must be those used to show 
compliance with the remainder of this section.
    (c) Endurance tests; maximum continuous run. Three hours of 
continuous operation at maximum continuous torque and the maximum speed 
for use with maximum continuous torque must be conducted as follows:
    (1) The main rotor controls must be operated at a minimum of 15 
times each hour through the main rotor pitch positions of maximum 
vertical thrust, maximum forward thrust component,

[[Page 669]]

maximum aft thrust component, maximum left thrust component, and maximum 
right thrust component, except that the control movements need not 
produce loads or blade flapping motion exceeding the maximum loads of 
motions encountered in flight.
    (2) The directional controls must be operated at a minimum of 15 
times each hour through the control extremes of maximum right turning 
torque, neutral torque as required by the power applied to the main 
rotor, and maximum left turning torque.
    (3) Each maximum control position must be held for at least 10 
seconds, and the rate of change of control position must be at least as 
rapid as that for normal operation.
    (d) Endurance tests; 90 percent of maximum continuous run. One hour 
of continuous operation at 90 percent of maximum continuous torque and 
the maximum speed for use with 90 percent of maximum continuous torque 
must be conducted.
    (e) Endurance tests; 80 percent of maximum continuous run. One hour 
of continuous operation at 80 percent of maximum continuous torque and 
the minimum speed for use with 80 percent of maximum continuous torque 
must be conducted.
    (f) Endurance tests; 60 percent of maximum continuous run. Two hours 
or, for helicopters for which the use of either 30-minute OEI power or 
continuous OEI power is requested, 1 hour of continuous operation at 60 
percent of maximum continuous torque and the minimum speed for use with 
60 percent of maximum continuous torque must be conducted.
    (g) Endurance tests; engine malfunctioning run. It must be 
determined whether malfunctioning of components, such as the engine fuel 
or ignition systems, or whether unequal engine power can cause dynamic 
conditions detrimental to the drive system. If so, a suitable number of 
hours of operation must be accomplished under those conditions, 1 hour 
of which must be included in each cycle, and the remaining hours of 
which must be accomplished at the end of the 20 cycles. If no 
detrimental condition results, an additional hour of operation in 
compliance with paragraph (b) of this section must be conducted in 
accordance with the run schedule of paragraph (b)(1) of this section 
without consideration of paragraph (b)(2) of this section.
    (h) Endurance tests; overspeed run. One hour of continuous operation 
must be conducted at maximum continuous torque and the maximum power-on 
overspeed expected in service, assuming that speed and torque limiting 
devices, if any, function properly.
    (i) Endurance tests; rotor control positions. When the rotor 
controls are not being cycled during the tie-down tests, the rotor must 
be operated, using the procedures prescribed in paragraph (c) of this 
section, to produce each of the maximum thrust positions for the 
following percentages of test time (except that the control positions 
need not produce loads or blade flapping motion exceeding the maximum 
loads or motions encountered in flight):
    (1) For full vertical thrust, 20 percent.
    (2) For the forward thrust component, 50 percent.
    (3) For the right thrust component, 10 percent.
    (4) For the left thrust component, 10 percent.
    (5) For the aft thrust component, 10 percent.
    (j) Endurance tests, clutch and brake engagements. A total of at 
least 400 clutch and brake engagements, including the engagements of 
paragraph (b) of this section, must be made during the takeoff torque 
runs and, if necessary, at each change of torque and speed throughout 
the test. In each clutch engagement, the shaft on the driven side of the 
clutch must be accelerated from rest. The clutch engagements must be 
accomplished at the speed and by the method prescribed by the applicant. 
During deceleration after each clutch engagement, the engines must be 
stopped rapidly enough to allow the engines to be automatically 
disengaged from the rotors and rotor drives. If a rotor brake is 
installed for stopping the rotor, the clutch, during brake engagements, 
must be disengaged above 40 percent of maximum continuous rotor speed 
and the rotors allowed to decelerate to 40 percent of maximum continuous 
rotor speed, at which time the rotor brake

[[Page 670]]

must be applied. If the clutch design does not allow stopping the rotors 
with the engine running, or if no clutch is provided, the engine must be 
stopped before each application of the rotor brake, and then immediately 
be started after the rotors stop.
    (k) Endurance tests; OEI power run. (1) 30-minute OEI power run. For 
rotorcraft for which the use of 30-minute OEI power is requested, a run 
at 30-minute OEI torque and the maximum speed for use with 30-minute OEI 
torque must be conducted as follows: For each engine, in sequence, that 
engine must be inoperative and the remaining engines must be run for a 
30-minute period.
    (2) Continuous OEI power run. For rotorcraft for which the use of 
continuous OEI power is requested, a run at continuous OEI torque and 
the maximum speed for use with continuous OEI torque must be conducted 
as follows: For each engine, in sequence, that engine must be 
inoperative and the remaining engines must be run for 1 hour.
    (3) The number of periods prescribed in paragraph (k)(1) or (k)(2) 
of this section may not be less than the number of engines, nor may it 
be less than two.
    (l) [Reserved]
    (m) Any components that are affected by maneuvering and gust loads 
must be investigated for the same flight conditions as are the main 
rotors, and their service lives must be determined by fatigue tests or 
by other acceptable methods. In addition, a level of safety equal to 
that of the main rotors must be provided for--
    (1) Each component in the rotor drive system whose failure would 
cause an uncontrolled landing;
    (2) Each component essential to the phasing of rotors on multirotor 
rotorcraft, or that furnishes a driving link for the essential control 
of rotors in autorotation; and
    (3) Each component common to two or more engines on multiengine 
rotorcraft.
    (n) Special tests. Each rotor drive system designed to operate at 
two or more gear ratios must be subjected to special testing for 
durations necessary to substantiate the safety of the rotor drive 
system.
    (o) Each part tested as prescribed in this section must be in a 
serviceable condition at the end of the tests. No intervening 
disassembly which might affect test results may be conducted.
    (p) Endurance tests; operating lubricants. To be approved for use in 
rotor drive and control systems, lubricants must meet the specifications 
of lubricants used during the tests prescribed by this section. 
Additional or alternate lubricants may be qualified by equivalent 
testing or by comparative analysis of lubricant specifications and rotor 
drive and control system characteristics. In addition--
    (1) At least three 10-hour cycles required by this section must be 
conducted with transmission and gearbox lubricant temperatures, at the 
location prescribed for measurement, not lower than the maximum 
operating temperature for which approval is requested;
    (2) For pressure lubricated systems, at least three 10-hour cycles 
required by this section must be conducted with the lubricant pressure, 
at the location prescribed for measurement, not higher than the minimum 
operating pressure for which approval is requested; and
    (3) The test conditions of paragraphs (p)(1) and (p)(2) of this 
section must be applied simultaneously and must be extended to include 
operation at any one-engine-inoperative rating for which approval is 
requested.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-1, 30 
FR 8778, July 13, 1965; Amdt. 29-17, 43 FR 50600, Oct. 30, 1978; Amdt. 
29-26, 53 FR 34215, Sept. 2, 1988; Amdt. 29-31, 55 FR 38967, Sept. 21, 
1990; Amdt. 29-34, 59 FR 47768, Sept. 16, 1994; Amdt. 29-40, 61 FR 
21908, May 10, 1996; Amdt. 29-42, 63 FR 43285, Aug. 12, 1998]



Sec. 29.927  Additional tests.

    (a) Any additional dynamic, endurance, and operational tests, and 
vibratory investigations necessary to determine that the rotor drive 
mechanism is safe, must be performed.
    (b) If turbine engine torque output to the transmission can exceed 
the highest engine or transmission torque limit, and that output is not 
directly

[[Page 671]]

controlled by the pilot under normal operating conditions (such as where 
the primary engine power control is accomplished through the flight 
control), the following test must be made:
    (1) Under conditions associated with all engines operating, make 200 
applications, for 10 seconds each, of torque that is at least equal to 
the lesser of--
    (i) The maximum torque used in meeting Sec. 29.923 plus 10 percent; 
or
    (ii) The maximum torque attainable under probable operating 
conditions, assuming that torque limiting devices, if any, function 
properly.
    (2) For multiengine rotorcraft under conditions associated with each 
engine, in turn, becoming inoperative, apply to the remaining 
transmission torque inputs the maximum torque attainable under probable 
operating conditions, assuming that torque limiting devices, if any, 
function properly. Each transmission input must be tested at this 
maximum torque for at least fifteen minutes.
    (c) Lubrication system failure. For lubrication systems required for 
proper operation of rotor drive systems, the following apply:
    (1) Category A. Unless such failures are extremely remote, it must 
be shown by test that any failure which results in loss of lubricant in 
any normal use lubrication system will not prevent continued safe 
operation, although not necessarily without damage, at a torque and 
rotational speed prescribed by the applicant for continued flight, for 
at least 30 minutes after perception by the flightcrew of the 
lubrication system failure or loss of lubricant.
    (2) Category B. The requirements of Category A apply except that the 
rotor drive system need only be capable of operating under autorotative 
conditions for at least 15 minutes.
    (d) Overspeed test. The rotor drive system must be subjected to 50 
overspeed runs, each 303 seconds in duration, at not less 
than either the higher of the rotational speed to be expected from an 
engine control device failure or 105 percent of the maximum rotational 
speed, including transients, to be expected in service. If speed and 
torque limiting devices are installed, are independent of the normal 
engine control, and are shown to be reliable, their rotational speed 
limits need not be exceeded. These runs must be conducted as follows:
    (1) Overspeed runs must be alternated with stabilizing runs of from 
1 to 5 minutes duration each at 60 to 80 percent of maximum continuous 
speed.
    (2) Acceleration and deceleration must be accomplished in a period 
not longer than 10 seconds (except where maximum engine acceleration 
rate will require more than 10 seconds), and the time for changing 
speeds may not be deducted from the specified time for the overspeed 
runs.
    (3) Overspeed runs must be made with the rotors in the flattest 
pitch for smooth operation.
    (e) The tests prescribed in paragraphs (b) and (d) of this section 
must be conducted on the rotorcraft and the torque must be absorbed by 
the rotors to be installed, except that other ground or flight test 
facilities with other appropriate methods of torque absorption may be 
used if the conditions of support and vibration closely simulate the 
conditions that would exist during a test on the rotorcraft.
    (f) Each test prescribed by this section must be conducted without 
intervening disassembly and, except for the lubrication system failure 
test required by paragraph (c) of this section, each part tested must be 
in a serviceable condition at the conclusion of the test.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Amdt. 29-3, 33 FR 969, Jan. 26, 1968, as amended by Amdt. 29-17, 43 FR 
50601, Oct. 30, 1978; Amdt. 29-26, 53 FR 34216, Sept. 2, 1988]



Sec. 29.931  Shafting critical speed.

    (a) The critical speeds of any shafting must be determined by 
demonstration except that analytical methods may be used if reliable 
methods of analysis are available for the particular design.
    (b) If any critical speed lies within, or close to, the operating 
ranges for idling, power-on, and autorotative conditions, the stresses 
occurring at that speed must be within safe limits. This must be shown 
by tests.

[[Page 672]]

    (c) If analytical methods are used and show that no critical speed 
lies within the permissible operating ranges, the margins between the 
calculated critical speeds and the limits of the allowable operating 
ranges must be adequate to allow for possible variations between the 
computed and actual values.

[Amdt. 29-12, 41 FR 55472, Dec. 20, 1976]



Sec. 29.935  Shafting joints.

    Each universal joint, slip joint, and other shafting joints whose 
lubrication is necessary for operation must have provision for 
lubrication.



Sec. 29.939  Turbine engine operating characteristics.

    (a) Turbine engine operating characteristics must be investigated in 
flight to determine that no adverse characteristics (such as stall, 
surge, of flameout) are present, to a hazardous degree, during normal 
and emergency operation within the range of operating limitations of the 
rotorcraft and of the engine.
    (b) The turbine engine air inlet system may not, as a result of 
airflow distortion during normal operation, cause vibration harmful to 
the engine.
    (c) For governor-controlled engines, it must be shown that there 
exists no hazardous torsional instability of the drive system associated 
with critical combinations of power, rotational speed, and control 
displacement.

[Amdt. 29-2, 32 FR 6914, May 5, 1967, as amended by Amdt. 29-12, 41 FR 
55473, Dec. 20, 1976]

                               Fuel System



Sec. 29.951  General.

    (a) Each fuel system must be constructed and arranged to ensure a 
flow of fuel at a rate and pressure established for proper engine and 
auxiliary power unit functioning under any likely operating conditions, 
including the maneuvers for which certification is requested and during 
which the engine or auxiliary power unit is permitted to be in 
operation.
    (b) Each fuel system must be arranged so that--
    (1) No engine or fuel pump can draw fuel from more than one tank at 
a time; or
    (2) There are means to prevent introducing air into the system.
    (c) Each fuel system for a turbine engine must be capable of 
sustained operation throughout its flow and pressure range with fuel 
initially saturated with water at 80 degrees F. and having 0.75cc of 
free water per gallon added and cooled to the most critical condition 
for icing likely to be encountered in operation.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-10, 39 
FR 35462, Oct. 1, 1974; Amdt. 29-12, 41 FR 55473, Dec. 20, 1976]



Sec. 29.952  Fuel system crash resistance.

    Unless other means acceptable to the Administrator are employed to 
minimize the hazard of fuel fires to occupants following an otherwise 
survivable impact (crash landing), the fuel systems must incorporate the 
design features of this section. These systems must be shown to be 
capable of sustaining the static and dynamic deceleration loads of this 
section, considered as ultimate loads acting alone, measured at the 
system component's center of gravity without structural damage to the 
system components, fuel tanks, or their attachments that would leak fuel 
to an ignition source.
    (a) Drop test requirements. Each tank, or the most critical tank, 
must be drop-tested as follows:
    (1) The drop height must be at least 50 feet.
    (2) The drop impact surface must be nondeforming.
    (3) The tanks must be filled with water to 80 percent of the normal, 
full capacity.
    (4) The tank must be enclosed in a surrounding structure 
representative of the installation unless it can be established that the 
surrounding structure is free of projections or other design features 
likely to contribute to upture of the tank.
    (5) The tank must drop freely and impact in a horizontal position 
10 deg..
    (6) After the drop test, there must be no leakage.
    (b) Fuel tank load factors. Except for fuel tanks located so that 
tank rupture with fuel release to either significant ignition sources, 
such as engines, heaters, and auxiliary power units, or occupants is 
extremely remote, each fuel

[[Page 673]]

tank must be designed and installed to retain its contents under the 
following ultimate inertial load factors, acting alone.
    (1) For fuel tanks in the cabin:
    (i) Upward--4g.
    (ii) Forward--16g.
    (iii) Sideward--8g.
    (iv) Downward--20g.
    (2) For fuel tanks located above or behind the crew or passenger 
compartment that, if loosened, could injure an occupant in an emergency 
landing:
    (i) Upward--1.5g.
    (ii) Forward--8g.
    (iii) Sideward--2g.
    (iv) Downward--4g.
    (3) For fuel tanks in other areas:
    (i) Upward--1.5g.
    (ii) Forward--4g.
    (iii) Sideward--2g.
    (iv) Downward--4g.
    (c) Fuel line self-sealing breakaway couplings. Self-sealing 
breakaway couplings must be installed unless hazardous relative motion 
of fuel system components to each other or to local rotorcraft structure 
is demonstrated to be extremely improbable or unless other means are 
provided. The couplings or equivalent devices must be installed at all 
fuel tank-to-fuel line connections, tank-to-tank interconnects, and at 
other points in the fuel system where local structural deformation could 
lead to the release of fuel.
    (1) The design and construction of self-sealing breakaway couplings 
must incorporate the following design features:
    (i) The load necessary to separate a breakaway coupling must be 
between 25 to 50 percent of the minimum ultimate failure load (ultimate 
strength) of the weakest component in the fluid-carrying line. The 
separation load must in no case be less than 300 pounds, regardless of 
the size of the fluid line.
    (ii) A breakaway coupling must separate whenever its ultimate load 
(as defined in paragraph (c)(1)(i) of this section) is applied in the 
failure modes most likely to occur.
    (iii) All breakaway couplings must incorporate design provisions to 
visually ascertain that the coupling is locked together (leak-free) and 
is open during normal installation and service.
    (iv) All breakaway couplings must incorporate design provisions to 
prevent uncoupling or unintended closing due to operational shocks, 
vibrations, or accelerations.
    (v) No breakaway coupling design may allow the release of fuel once 
the coupling has performed its intended function.
    (2) All individual breakaway couplings, coupling fuel feed systems, 
or equivalent means must be designed, tested, installed, and maintained 
so inadvertent fuel shutoff in flight is improbable in accordance with 
Sec. 29.955(a) and must comply with the fatigue evaluation requirements 
of Sec. 29.571 without leaking.
    (3) Alternate, equivalent means to the use of breakaway couplings 
must not create a survivable impact-induced load on the fuel line to 
which it is installed greater than 25 to 50 percent of the ultimate load 
(strength) of the weakest component in the line and must comply with the 
fatigue requirements of Sec. 29.571 without leaking.
    (d) Frangible or deformable structural attachments. Unless hazardous 
relative motion of fuel tanks and fuel system components to local 
rotorcraft structure is demonstrated to be extremely improbable in an 
otherwise survivable impact, frangible or locally deformable attachments 
of fuel tanks and fuel system components to local rotorcraft structure 
must be used. The attachment of fuel tanks and fuel system components to 
local rotorcraft structure, whether frangible or locally deformable, 
must be designed such that its separation or relative local deformation 
will occur without rupture or local tear-out of the fuel tank or fuel 
system component that will cause fuel leakage. The ultimate strength of 
frangible or deformable attachments must be as follows:
    (1) The load required to separate a frangible attachment from its 
support structure, or deform a locally deformable attachment relative to 
its support structure, must be between 25 and 50 percent of the minimum 
ultimate load (ultimate strength) of the weakest component in the 
attached system. In no case may the load be less than 300 pounds.

[[Page 674]]

    (2) A frangible or locally deformable attachment must separate or 
locally deform as intended whenever its ultimate load (as defined in 
paragraph (d)(1) of this section) is applied in the modes most likely to 
occur.
    (3) All frangible or locally deformable attachments must comply with 
the fatigue requirements of Sec. 29.571.
    (e) Separation of fuel and ignition sources. To provide maximum 
crash resistance, fuel must be located as far as practicable from all 
occupiable areas and from all potential ignition sources.
    (f) Other basic mechanical design criteria. Fuel tanks, fuel lines, 
electrical wires, and electrical devices must be designed, constructed, 
and installed, as far as practicable, to be crash resistant.
    (g) Rigid or semirigid fuel tanks. Rigid or semirigid fuel tank or 
bladder walls must be impact and tear resistant.

[Doc. No. 26352, 59 FR 50387, Oct. 3, 1994]



Sec. 29.953  Fuel system independence.

    (a) For category A rotorcraft--
    (1) The fuel system must meet the requirements of Sec. 29.903(b); 
and
    (2) Unless other provisions are made to meet paragraph (a)(1) of 
this section, the fuel system must allow fuel to be supplied to each 
engine through a system independent of those parts of each system 
supplying fuel to other engines.
    (b) Each fuel system for a multiengine category B rotorcraft must 
meet the requirements of paragraph (a)(2) of this section. However, 
separate fuel tanks need not be provided for each engine.



Sec. 29.954  Fuel system lightning protection.

    The fuel system must be designed and arranged to prevent the 
ignition of fuel vapor within the system by--
    (a) Direct lightning strikes to areas having a high probability of 
stroke attachment;
    (b) Swept lightning strokes to areas where swept strokes are highly 
probable; and
    (c) Corona and streamering at fuel vent outlets.

[Amdt. 29-26, 53 FR 34217, Sept. 2, 1988]



Sec. 29.955  Fuel flow.

    (a) General. The fuel system for each engine must provide the engine 
with at least 100 percent of the fuel required under all operating and 
maneuvering conditions to be approved for the rotorcraft, including, as 
applicable, the fuel required to operate the engines under the test 
conditions required by Sec. 29.927. Unless equivalent methods are used, 
compliance must be shown by test during which the following provisions 
are met, except that combinations of conditions which are shown to be 
improbable need not be considered.
    (1) The fuel pressure, corrected for accelerations (load factors), 
must be within the limits specified by the engine type certificate data 
sheet.
    (2) The fuel level in the tank may not exceed that established as 
the unusable fuel supply for that tank under Sec. 29.959, plus that 
necessary to conduct the test.
    (3) The fuel head between the tank and the engine must be critical 
with respect to rotorcraft flight attitudes.
    (4) The fuel flow transmitter, if installed, and the critical fuel 
pump (for pump-fed systems) must be installed to produce (by actual or 
simulated failure) the critical restriction to fuel flow to be expected 
from component failure.
    (5) Critical values of engine rotational speed, electrical power, or 
other sources of fuel pump motive power must be applied.
    (6) Critical values of fuel properties which adversely affect fuel 
flow are applied during demonstrations of fuel flow capability.
    (7) The fuel filter required by Sec. 29.997 is blocked to the degree 
necessary to simulate the accumulation of fuel contamination required to 
activate the indicator required by Sec. 29.1305(a)(17).
    (b) Fuel transfer system. If normal operation of the fuel system 
requires fuel to be transferred to another tank, the transfer must occur 
automatically via a system which has been shown to maintain the fuel 
level in the receiving tank within acceptable limits during flight or 
surface operation of the rotorcraft.
    (c) Multiple fuel tanks. If an engine can be supplied with fuel from 
more than one tank, the fuel system, in addition to having appropriate 
manual

[[Page 675]]

switching capability, must be designed to prevent interruption of fuel 
flow to that engine, without attention by the flightcrew, when any tank 
supplying fuel to that engine is depleted of usable fuel during normal 
operation and any other tank that normally supplies fuel to that engine 
alone contains usable fuel.

[Amdt. 29-26, 53 FR 34217, Sept. 2, 1988]



Sec. 29.957  Flow between interconnected tanks.

    (a) Where tank outlets are interconnected and allow fuel to flow 
between them due to gravity or flight accelerations, it must be 
impossible for fuel to flow between tanks in quantities great enough to 
cause overflow from the tank vent in any sustained flight condition.
    (b) If fuel can be pumped from one tank to another in flight--
    (1) The design of the vents and the fuel transfer system must 
prevent structural damage to tanks from overfilling; and
    (2) There must be means to warn the crew before overflow through the 
vents occurs.



Sec. 29.959  Unusable fuel supply.

    The unusable fuel supply for each tank must be established as not 
less than the quantity at which the first evidence of malfunction occurs 
under the most adverse fuel feed condition occurring under any intended 
operations and flight maneuvers involving that tank.



Sec. 29.961  Fuel system hot weather operation.

    Each suction lift fuel system and other fuel systems conducive to 
vapor formation must be shown to operate satisfactorily (within 
certification limits) when using fuel at the most critical temperature 
for vapor formation under critical operating conditions including, if 
applicable, the engine operating conditions defined by Sec. 29.927(b)(1) 
and (b)(2).

[Amdt. 29-26, 53 FR 34217, Sept. 2, 1988]



Sec. 29.963  Fuel tanks: general.

    (a) Each fuel tank must be able to withstand, without failure, the 
vibration, inertia, fluid, and structural loads to which it may be 
subjected in operation.
    (b) Each flexible fuel tank bladder or liner must be approved or 
shown to be suitable for the particular application and must be puncture 
resistant. Puncture resistance must be shown by meeting the TSO-C80, 
paragraph 16.0, requirements using a minimum puncture force of 370 
pounds.
    (c) Each integral fuel tank must have facilities for inspection and 
repair of its interior.
    (d) The maximum exposed surface temperature of all components in the 
fuel tank must be less by a safe margin than the lowest expected 
autoignition temperature of the fuel or fuel vapor in the tank. 
Compliance with this requirement must be shown under all operating 
conditions and under all normal or malfunction conditions of all 
components inside the tank.
    (e) Each fuel tank installed in personnel compartments must be 
isolated by fume-proof and fuel-proof enclosures that are drained and 
vented to the exterior of the rotorcraft. The design and construction of 
the enclosures must provide necessary protection for the tank, must be 
crash resistant during a survivable impact in accordance with 
Sec. 29.952, and must be adequate to withstand loads and abrasions to be 
expected in personnel compartments.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-26, 53 
FR 34217, Sept. 2, 1988; Amdt. 29-35, 59 FR 50388, Oct. 3, 1994]



Sec. 29.965  Fuel tank tests.

    (a) Each fuel tank must be able to withstand the applicable pressure 
tests in this section without failure or leakage. If practicable, test 
pressures may be applied in a manner simulating the pressure 
distribution in service.
    (b) Each conventional metal tank, each nonmetallic tank with walls 
that are not supported by the rotorcraft structure, and each integral 
tank must be subjected to a pressure of 3.5 p.s.i. unless the pressure 
developed during maximum limit acceleration or emergency deceleration 
with a full tank exceeds this value, in which case a hydrostatic head, 
or equivalent test, must be applied to duplicate the acceleration loads 
as far as possible. However, the

[[Page 676]]

pressure need not exceed 3.5 p.s.i. on surfaces not exposed to the 
acceleration loading.
    (c) Each nonmetallic tank with walls supported by the rotorcraft 
structure must be subjected to the following tests:
    (1) A pressure test of at least 2.0 p.s.i. This test may be 
conducted on the tank alone in conjunction with the test specified in 
paragraph (c)(2) of this section.
    (2) A pressure test, with the tank mounted in the rotorcraft 
structure, equal to the load developed by the reaction of the contents, 
with the tank full, during maximum limit acceleration or emergency 
deceleration. However, the pressure need not exceed 2.0 p.s.i. on 
surfaces faces not exposed to the acceleration loading.
    (d) Each tank with large unsupported or unstiffened flat areas, or 
with other features whose failure or deformation could cause leakage, 
must be subjected to the following test or its equivalent:
    (1) Each complete tank assembly and its supports must be vibration 
tested while mounted to simulate the actual installation.
    (2) The tank assembly must be vibrated for 25 hours while two-thirds 
full of any suitable fluid. The amplitude of vibration may not be less 
than one thirty-second of an inch, unless otherwise substantiated.
    (3) The test frequency of vibration must be as follows:
    (i) If no frequency of vibration resulting from any r.p.m. within 
the normal operating range of engine or rotor system speeds is critical, 
the test frequency of vibration, in number of cycles per minute, must, 
unless a frequency based on a more rational analysis is used, be the 
number obtained by averaging the maximum and minimum power-on engine 
speeds (r.p.m.) for reciprocating engine powered rotorcraft or 2,000 
c.p.m. for turbine engine powered rotorcraft.
    (ii) If only one frequency of vibration resulting from any r.p.m. 
within the normal operating range of engine or rotor system speeds is 
critical, that frequency of vibration must be the test frequency.
    (iii) If more than one frequency of vibration resulting from any 
r.p.m. within the normal operating range of engine or rotor system 
speeds is critical, the most critical of these frequencies must be the 
test frequency.
    (4) Under paragraph (d)(3)(ii) and (iii), the time of test must be 
adjusted to accomplish the same number of vibration cycles as would be 
accomplished in 25 hours at the frequency specified in paragraph 
(d)(3)(i) of this section.
    (5) During the test, the tank assembly must be rocked at the rate of 
16 to 20 complete cycles per minute through an angle of 15 degrees on 
both sides of the horizontal (30 degrees total), about the most critical 
axis, for 25 hours. If motion about more than one axis is likely to be 
critical, the tank must be rocked about each critical axis for 12\1/2\ 
hours.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655 (c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-13, 42 
FR 15046, Mar. 17, 1977]



Sec. 29.967  Fuel tank installation.

    (a) Each fuel tank must be supported so that tank loads are not 
concentrated on unsupported tank surfaces. In addition--
    (1) There must be pads, if necessary, to prevent chafing between 
each tank and its supports;
    (2) The padding must be nonabsorbent or treated to prevent the 
absorption of fuel;
    (3) If flexible tank liners are used, they must be supported so that 
they are not required to withstand fluid loads; and
    (4) Each interior surface of tank compartments must be smooth and 
free of projections that could cause wear of the liner, unless--
    (i) There are means for protection of the liner at those points; or
    (ii) The construction of the liner itself provides such protection.
    (b) Any spaces adjacent to tank surfaces must be adequately 
ventilated to avoid accumulation of fuel or fumes in those spaces due to 
minor leakage. If the tank is in a sealed compartment, ventilation may 
be limited to drain holes that prevent clogging and that prevent 
excessive pressure resulting from altitude changes. If flexible tank

[[Page 677]]

liners are installed, the venting arrangement for the spaces between the 
liner and its container must maintain the proper relationship to tank 
vent pressures for any expected flight condition.
    (c) The location of each tank must meet the requirements of 
Sec. 29.1185(b) and (c).
    (d) No rotorcraft skin immediately adjacent to a major air outlet 
from the engine compartment may act as the wall of an integral tank.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-26, 53 
FR 34217, Sept. 2, 1988; Amdt. 29-35, 59 FR 50388, Oct. 3, 1994]



Sec. 29.969  Fuel tank expansion space.

    Each fuel tank or each group of fuel tanks with interconnected vent 
systems must have an expansion space of not less than 2 percent of the 
combined tank capacity. It must be impossible to fill the fuel tank 
expansion space inadvertently with the rotorcraft in the normal ground 
attitude.

[Amdt. 29-26, 53 FR 34217, Sept. 2, 1988]



Sec. 29.971  Fuel tank sump.

    (a) Each fuel tank must have a sump with a capacity of not less than 
the greater of--
    (1) 0.10 per cent of the tank capacity; or
    (2) \1/16\ gallon.
    (b) The capacity prescribed in paragraph (a) of this section must be 
effective with the rotorcraft in any normal attitude, and must be 
located so that the sump contents cannot escape through the tank outlet 
opening.
    (c) Each fuel tank must allow drainage of hazardous quantities of 
water from each part of the tank to the sump with the rotorcraft in any 
ground attitude to be expected in service.
    (d) Each fuel tank sump must have a drain that allows complete 
drainage of the sump on the ground.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55473, Dec. 20, 1976; Amdt. 29-26, 53 FR 34217, Sept. 2, 1988]



Sec. 29.973  Fuel tank filler connection.

    (a) Each fuel tank filler connection must prevent the entrance of 
fuel into any part of the rotorcraft other than the tank itself during 
normal operations and must be crash resistant during a survivable impact 
in accordance with Sec. 29.952(c). In addition--
    (1) Each filler must be marked as prescribed in Sec. 29.1557(c)(1);
    (2) Each recessed filler connection that can retain any appreciable 
quantity of fuel must have a drain that discharges clear of the entire 
rotorcraft; and
    (3) Each filler cap must provide a fuel-tight seal under the fluid 
pressure expected in normal operation and in a survivable impact.
    (b) Each filler cap or filler cap cover must warn when the cap is 
not fully locked or seated on the filler connection.

[Doc. No. 26352, 59 FR 50388, Oct. 3, 1994]



Sec. 29.975  Fuel tank vents and carburetor vapor vents.

    (a) Fuel tank vents. Each fuel tank must be vented from the top part 
of the expansion space so that venting is effective under normal flight 
conditions. In addition--
    (1) The vents must be arranged to avoid stoppage by dirt or ice 
formation;
    (2) The vent arrangement must prevent siphoning of fuel during 
normal operation;
    (3) The venting capacity and vent pressure levels must maintain 
acceptable differences of pressure between the interior and exterior of 
the tank, during--
    (i) Normal flight operation;
    (ii) Maximum rate of ascent and descent; and
    (iii) Refueling and defueling (where applicable);
    (4) Airspaces of tanks with interconnected outlets must be 
interconnected;
    (5) There may be no point in any vent line where moisture can 
accumulate with the rotorcraft in the ground attitude or the level 
flight attitude, unless drainage is provided;
    (6) No vent or drainage provision may end at any point--
    (i) Where the discharge of fuel from the vent outlet would 
constitute a fire hazard; or
    (ii) From which fumes could enter personnel compartments; and

[[Page 678]]

    (7) The venting system must be designed to minimize spillage of fuel 
through the vents to an ignition source in the event of a rollover 
during landing, ground operations, or a survivable impact.
    (b) Carburetor vapor vents. Each carburetor with vapor elimination 
connections must have a vent line to lead vapors back to one of the fuel 
tanks. In addition--
    (1) Each vent system must have means to avoid stoppage by ice; and
    (2) If there is more than one fuel tank, and it is necessary to use 
the tanks in a definite sequence, each vapor vent return line must lead 
back to the fuel tank used for takeoff and landing.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-26, 53 
FR 34217, Sept. 2, 1988; Amdt. 29-35, 59 FR 50388, Oct. 3, 1994; Amdt. 
29-42, 63 FR 43285, Aug. 12, 1998]



Sec. 29.977  Fuel tank outlet.

    (a) There must be a fuel strainer for the fuel tank outlet or for 
the booster pump. This strainer must--
    (1) For reciprocating engine powered airplanes, have 8 to 16 meshes 
per inch; and
    (2) For turbine engine powered airplanes, prevent the passage of any 
object that could restrict fuel flow or damage any fuel system 
component.
    (b) The clear area of each fuel tank outlet strainer must be at 
least five times the area of the outlet line.
    (c) The diameter of each strainer must be at least that of the fuel 
tank outlet.
    (d) Each finger strainer must be accessible for inspection and 
cleaning.

[Amdt. 29-12, 41 FR 55473, Dec. 20, 1976]



Sec. 29.979  Pressure refueling and fueling provisions below fuel level.

    (a) Each fueling connection below the fuel level in each tank must 
have means to prevent the escape of hazardous quantities of fuel from 
that tank in case of malfunction of the fuel entry valve.
    (b) For systems intended for pressure refueling, a means in addition 
to the normal means for limiting the tank content must be installed to 
prevent damage to the tank in case of failure of the normal means.
    (c) The rotorcraft pressure fueling system (not fuel tanks and fuel 
tank vents) must withstand an ultimate load that is 2.0 times the load 
arising from the maximum pressure, including surge, that is likely to 
occur during fueling. The maximum surge pressure must be established 
with any combination of tank valves being either intentionally or 
inadvertently closed.
    (d) The rotorcraft defueling system (not including fuel tanks and 
fuel tank vents) must withstand an ultimate load that is 2.0 times the 
load arising from the maximum permissible defueling pressure (positive 
or negative) at the rotorcraft fueling connection.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55473, Dec. 20, 1976]

                         Fuel System Components



Sec. 29.991  Fuel pumps.

    (a) Compliance with Sec. 29.955 must not be jeopardized by failure 
of--
    (1) Any one pump except pumps that are approved and installed as 
parts of a type certificated engine; or
    (2) Any component required for pump operation except the engine 
served by that pump.
    (b) The following fuel pump installation requirements apply:
    (1) When necessary to maintain the proper fuel pressure--
    (i) A connection must be provided to transmit the carburetor air 
intake static pressure to the proper fuel pump relief valve connection; 
and
    (ii) The gauge balance lines must be independently connected to the 
carburetor inlet pressure to avoid incorrect fuel pressure readings.
    (2) The installation of fuel pumps having seals or diaphragms that 
may leak must have means for draining leaking fuel.
    (3) Each drain line must discharge where it will not create a fire 
hazard.

[Amdt. 29-26, 53 FR 34217, Sept. 2, 1988]



Sec. 29.993  Fuel system lines and fittings.

    (a) Each fuel line must be installed and supported to prevent 
excessive vibration and to withstand loads due to fuel pressure, valve 
actuation, and accelerated flight conditions.

[[Page 679]]

    (b) Each fuel line connected to components of the rotorcraft between 
which relative motion could exist must have provisions for flexibility.
    (c) Each flexible connection in fuel lines that may be under 
pressure or subjected to axial loading must use flexible hose 
assemblies.
    (d) Flexible hose must be approved.
    (e) No flexible hose that might be adversely affected by high 
temperatures may be used where excessive temperatures will exist during 
operation or after engine shutdown.



Sec. 29.995  Fuel valves.

    In addition to meeting the requirements of Sec. 29.1189, each fuel 
valve must--
    (a) [Reserved]
    (b) Be supported so that no loads resulting from their operation or 
from accelerated flight conditions are transmitted to the lines attached 
to the valve.

(Secs. 313(a), 601, and 603, 72 Stat. 759, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655 (c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-13, 42 
FR 15046, Mar. 17, 1977]



Sec. 29.997  Fuel strainer or filter.

    There must be a fuel strainer or filter between the fuel tank outlet 
and the inlet of the first fuel system component which is susceptible to 
fuel contamination, including but not limited to the fuel metering 
device or an engine positive displacement pump, whichever is nearer the 
fuel tank outlet. This fuel strainer or filter must--
    (a) Be accessible for draining and cleaning and must incorporate a 
screen or element which is easily removable;
    (b) Have a sediment trap and drain, except that it need not have a 
drain if the strainer or filter is easily removable for drain purposes;
    (c) Be mounted so that its weight is not supported by the connecting 
lines or by the inlet or outlet connections of the strainer or filter 
inself, unless adequate strengh margins under all loading conditions are 
provided in the lines and connections; and
    (d) Provide a means to remove from the fuel any contaminant which 
would jeopardize the flow of fuel through rotorcraft or engine fuel 
system components required for proper rotorcraft or engine fuel system 
operation.

[Amdt. No. 29-10, 39 FR 35462, Oct. 1, 1974, as amended by Amdt. 29-22, 
49 FR 6850, Feb. 23, 1984; Amdt. 29-26, 53 FR 34217, Sept. 2, 1988]



Sec. 29.999  Fuel system drains.

    (a) There must be at least one accessible drain at the lowest point 
in each fuel system to completely drain the system with the rotorcraft 
in any ground attitude to be expected in service.
    (b) Each drain required by paragraph (a) of this section including 
the drains prescribed in Sec. 29.971 must--
    (1) Discharge clear of all parts of the rotorcraft;
    (2) Have manual or automatic means to ensure positive closure in the 
off position; and
    (3) Have a drain valve--
    (i) That is readily accessible and which can be easily opened and 
closed; and
    (ii) That is either located or protected to prevent fuel spillage in 
the event of a landing with landing gear retracted.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55473, Dec. 20, 1976; Amdt. 29-26, 53 FR 34218, Sept. 2, 1988]



Sec. 29.1001  Fuel jettisoning.

    If a fuel jettisoning system is installed, the following apply:
    (a) Fuel jettisoning must be safe during all flight regimes for 
which jettisoning is to be authorized.
    (b) In showing compliance with paragraph (a) of this section, it 
must be shown that--
    (1) The fuel jettisoning system and its operation are free from fire 
hazard;
    (2) No hazard results from fuel or fuel vapors which impinge on any 
part of the rotorcraft during fuel jettisoning; and
    (3) Controllability of the rotorcraft remains satisfactory 
throughout the fuel jettisoning operation.
    (c) Means must be provided to automatically prevent jettisoning fuel 
below the level required for an all-engine climb at maximum continuous 
power from sea level to 5,000 feet altitude and cruise thereafter for 30 
minutes at maximum range engine power.

[[Page 680]]

    (d) The controls for any fuel jettisoning system must be designed to 
allow flight personnel (minimum crew) to safely interrupt fuel 
jettisoning during any part of the jettisoning operation.
    (e) The fuel jettisoning system must be designed to comply with the 
powerplant installation requirements of Sec. 29.901(c).
    (f) An auxiliary fuel jettisoning system which meets the 
requirements of paragraphs (a), (b), (d), and (e) of this section may be 
installed to jettison additional fuel provided it has separate and 
independent controls.

[Amdt. 29-26, 53 FR 34218, Sept. 2, 1988]

                               Oil System



Sec. 29.1011  Engines: general.

    (a) Each engine must have an independent oil system that can supply 
it with an appropriate quantity of oil at a temperature not above that 
safe for continuous operation.
    (b) The usable oil capacity of each system may not be less than the 
product of the endurance of the rotorcraft under critical operating 
conditions and the maximum allowable oil consumption of the engine under 
the same conditions, plus a suitable margin to ensure adequate 
circulation and cooling. Instead of a rational analysis of endurance and 
consumption, a usable oil capacity of one gallon for each 40 gallons of 
usable fuel may be used for reciprocating engine installations.
    (c) Oil-fuel ratios lower than those prescribed in paragraph (c) of 
this section may be used if they are substantiated by data on the oil 
consumption of the engine.
    (d) The ability of the engine and oil cooling provisions to maintain 
the oil temperature at or below the maximum established value must be 
shown under the applicable requirements of Secs. 29.1041 through 
29.1049.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-26, 53 
FR 34218, Sept. 2, 1988]



Sec. 29.1013  Oil tanks.

    (a) Installation. Each oil tank installation must meet the 
requirements of Sec. 29.967.
    (b) Expansion space. Oil tank expansion space must be provided so 
that--
    (1) Each oil tank used with a reciprocating engine has an expansion 
space of not less than the greater of 10 percent of the tank capacity or 
0.5 gallon, and each oil tank used with a turbine engine has an 
expansion space of not less than 10 percent of the tank capacity;
    (2) Each reserve oil tank not directly connected to any engine has 
an expansion space of not less than two percent of the tank capacity; 
and
    (3) It is impossible to fill the expansion space inadvertently with 
the rotorcraft in the normal ground attitude.
    (c) Filler connections. Each recessed oil tank filler connection 
that can retain any appreciable quantity of oil must have a drain that 
discharges clear of the entire rotorcraft. In addition--
    (1) Each oil tank filler cap must provide an oil-tight seal under 
the pressure expected in operation;
    (2) For category A rotorcraft, each oil tank filler cap or filler 
cap cover must incorporate features that provide a warning when caps are 
not fully locked or seated on the filler connection; and
    (3) Each oil filler must be marked under Sec. 29.1557(c)(2).
    (d) Vent. Oil tanks must be vented as follows:
    (1) Each oil tank must be vented from the top part of the expansion 
space to that venting is effective under all normal flight conditions.
    (2) Oil tank vents must be arranged so that condensed water vapor 
that might freeze and obstruct the line cannot accumulate at any point;
    (e) Outlet. There must be means to prevent entrance into the tank 
itself, or into the tank outlet, of any object that might obstruct the 
flow of oil through the system. No oil tank outlet may be enclosed by a 
screen or guard that would reduce the flow of oil below a safe value at 
any operating temperature. There must be a shutoff valve at the outlet 
of each oil tank used with a turbine engine unless the external portion 
of the oil system (including oil tank supports) is fireproof.
    (f) Flexible liners. Each flexible oil tank liner must be approved 
or shown

[[Page 681]]

to be suitable for the particular installation.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-10, 39 
FR 35462, Oct. 1, 1974]



Sec. 29.1015  Oil tank tests.

    Each oil tank must be designed and installed so that--
    (a) It can withstand, without failure, any vibration, inertia, and 
fluid loads to which it may be subjected in operation; and
    (b) It meets the requirements of Sec. 29.965, except that instead of 
the pressure specified in Sec. 29.965(b)--
    (1) For pressurized tanks used with a turbine engine, the test 
pressure may not be less than 5 p.s.i. plus the maximum operating 
pressure of the tank; and
    (2) For all other tanks, the test pressure may not be less than 5 
p.s.i.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-10, 39 
FR 35462, Oct. 1, 1974]



Sec. 29.1017  Oil lines and fittings.

    (a) Each oil line must meet the requirements of Sec. 29.993.
    (b) Breather lines must be arranged so that--
    (1) Condensed water vapor that might freeze and obstruct the line 
cannot accumulate at any point;
    (2) The breather discharge will not constitute a fire hazard if 
foaming occurs, or cause emitted oil to strike the pilot's windshield; 
and
    (3) The breather does not discharge into the engine air induction 
system.



Sec. 29.1019  Oil strainer or filter.

    (a) Each turbine engine installation must incorporate an oil 
strainer or filter through which all of the engine oil flows and which 
meets the following requirements:
    (1) Each oil strainer or filter that has a bypass must be 
constructed and installed so that oil will flow at the normal rate 
through the rest of the system with the strainer or filter completely 
blocked.
    (2) The oil strainer or filter must have the capacity (with respect 
to operating limitations established for the engine) to ensure that 
engine oil system functioning is not impaired when the oil is 
contaminated to a degree (with respect to particle size and density) 
that is greater than that established for the engine under Part 33 of 
this chapter.
    (3) The oil strainer or filter, unless it is installed at an oil 
tank outlet, must incorporate a means to indicate contamination before 
it reaches the capacity established in accordance with paragraph (a)(2) 
of this section.
    (4) The bypass of a strainer or filter must be constructed and 
installed so that the release of collected contaminants is minimized by 
appropriate location of the bypass to ensure that collected contaminants 
are not in the bypass flow path.
    (5) An oil strainer or filter that has no bypass, except one that is 
installed at an oil tank outlet, must have a means to connect it to the 
warning system required in Sec. 29.1305(a)(18).
    (b) Each oil strainer or filter in a powerplant installation using 
reciprocating engines must be constructed and installed so that oil will 
flow at the normal rate through the rest of the system with the strainer 
or filter element completely blocked.

[Amdt. 29-10, 39 FR 35463, Oct. 1, 1974, as amended by Amdt. 29-22, 49 
FR 6850, Feb. 23, 1984; Amdt. 29-26, 53 FR 34218, Sept. 2, 1988]



Sec. 29.1021  Oil system drains.

    A drain (or drains) must be provided to allow safe drainage of the 
oil system. Each drain must--
    (a) Be accessible; and
    (b) Have manual or automatic means for positive locking in the 
closed position.

[Amdt. 29-22, 49 FR 6850, Feb. 23, 1984]



Sec. 29.1023  Oil radiators.

    (a) Each oil radiator must be able to withstand any vibration, 
inertia, and oil pressure loads to which it would be subjected in 
operation.
    (b) Each oil radiator air duct must be located, or equipped, so 
that, in case of fire, and with the airflow as it would be with and 
without the engine operating, flames cannot directly strike the 
radiator.

[[Page 682]]



Sec. 29.1025  Oil valves.

    (a) Each oil shutoff must meet the requirements of Sec. 29.1189.
    (b) The closing of oil shutoffs may not prevent autorotation.
    (c) Each oil valve must have positive stops or suitable index 
provisions in the ``on'' and ``off'' positions and must be supported so 
that no loads resulting from its operation or from accelerated flight 
conditions are transmitted to the lines attached to the valve.



Sec. 29.1027  Transmission and gearboxes: general.

    (a) The oil system for components of the rotor drive system that 
require continuous lubrication must be sufficiently independent of the 
lubrication systems of the engine(s) to ensure--
    (1) Operation with any engine inoperative; and
    (2) Safe autorotation.
    (b) Pressure lubrication systems for transmissions and gearboxes 
must comply with the requirements of Secs. 29.1013, paragraphs (c), (d), 
and (f) only, 29.1015, 29.1017, 29.1021, 29.1023, and 29.1337(d). In 
addition, the system must have--
    (1) An oil strainer or filter through which all the lubricant flows, 
and must--
    (i) Be designed to remove from the lubricant any contaminant which 
may damage transmission and drive system components or impede the flow 
of lubricant to a hazardous degree; and
    (ii) Be equipped with a bypass constructed and installed so that--
    (A) The lubricant will flow at the normal rate through the rest of 
the system with the strainer or filter completely blocked; and
    (B) The release of collected contaminants is minimized by 
appropriate location of the bypass to ensure that collected contaminants 
are not in the bypass flowpath;
    (iii) Be equipped with a means to indicate collection of 
contaminants on the filter or strainer at or before opening of the 
bypass;
    (2) For each lubricant tank or sump outlet supplying lubrication to 
rotor drive systems and rotor drive system components, a screen to 
prevent entrance into the lubrication system of any object that might 
obstruct the flow of lubricant from the outlet to the filter required by 
paragraph (b)(1) of this section. The requirements of paragraph (b)(1) 
of this section do not apply to screens installed at lubricant tank or 
sump outlets.
    (c) Splash type lubrication systems for rotor drive system gearboxes 
must comply with Secs. 29.1021 and 29.1337(d).

[Amdt. 29-26, 53 FR 34218, Sept. 2, 1988]

                                 Cooling



Sec. 29.1041  General.

    (a) The powerplant and auxiliary power unit cooling provisions must 
be able to maintain the temperatures of powerplant components, engine 
fluids, and auxiliary power unit components and fluids within the 
temperature limits established for these components and fluids, under 
ground, water, and flight operating conditions for which certification 
is requested, and after normal engine or auxiliary power unit shutdown, 
or both.
    (b) There must be cooling provisions to maintain the fluid 
temperatures in any power transmission within safe values under any 
critical surface (ground or water) and flight operating conditions.
    (c) Except for ground-use-only auxiliary power units, compliance 
with paragraphs (a) and (b) of this section must be shown by flight 
tests in which the temperatures of selected powerplant component and 
auxiliary power unit component, engine, and transmission fluids are 
obtained under the conditions prescribed in those paragraphs.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-26, 53 
FR 34218, Sept. 2, 1988]



Sec. 29.1043  Cooling tests.

    (a) General. For the tests prescribed in Sec. 29.1041(c), the 
following apply:
    (1) If the tests are conducted under conditions deviating from the 
maximum ambient atmospheric temperature specified in paragraph (b) of 
this section, the recorded powerplant temperatures must be corrected 
under paragraphs (c) and (d) of this section, unless a more rational 
correction method is applicable.

[[Page 683]]

    (2) No corrected temperature determined under paragraph (a)(1) of 
this section may exceed established limits.
    (3) The fuel used during the cooling tests must be of the minimum 
grade approved for the engines, and the mixture settings must be those 
used in normal operation.
    (4) The test procedures must be as prescribed in Secs. 29.1045 
through 29.1049.
    (5) For the purposes of the cooling tests, a temperature is 
``stabilized'' when its rate of change is less than 2  deg.F per minute.
    (b) Maximum ambient atmospheric temperature. A maximum ambient 
atmospheric temperature corresponding to sea level conditions of at 
least 100 degrees F. must be established. The assumed temperature lapse 
rate is 3.6 degrees F. per thousand feet of altitude above sea level 
until a temperature of -69.7 degrees F. is reached, above which altitude 
the temperature is considered constant at -69.7 degrees F. However, for 
winterization installations, the applicant may select a maximum ambient 
atmospheric temperature corresponding to sea level conditions of less 
than 100 degrees F.
    (c) Correction factor (except cylinder barrels). Unless a more 
rational correction applies, temperatures of engine fluids and 
powerplant components (except cylinder barrels) for which temperature 
limits are established, must be corrected by adding to them the 
difference between the maximum ambient atmospheric temperature and the 
temperature of the ambient air at the time of the first occurrence of 
the maximum component or fluid temperature recorded during the cooling 
test.
    (d) Correction factor for cylinder barrel temperatures. Cylinder 
barrel temperatures must be corrected by adding to them 0.7 times the 
difference between the maximum ambient atmospheric temperature and the 
temperature of the ambient air at the time of the first occurrence of 
the maximum cylinder barrel temperature recorded during the cooling 
test.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c) of 
the Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55473, Dec. 20, 1976; Amdt. 29-15, 43 FR 2327, Jan. 16, 1978; Amdt. 
29-26, 53 FR 34218, Sept. 2, 1988]



Sec. 29.1045  Climb cooling test procedures.

    (a) Climb cooling tests must be conducted under this section for--
    (1) Category A rotorcraft; and
    (2) Multiengine category B rotorcraft for which certification is 
requested under the category A powerplant installation requirements, and 
under the requirements of Sec. 29.861(a) at the steady rate of climb or 
descent established under Sec. 29.67(b).
    (b) The climb or descent cooling tests must be conducted with the 
engine inoperative that produces the most adverse cooling conditions for 
the remaining engines and powerplant components.
    (c) Each operating engine must--
    (1) For helicopters for which the use of 30-minute OEI power is 
requested, be at 30-minute OEI power for 30 minutes, and then at maximum 
continuous power (or at full throttle when above the critical altitude);
    (2) For helicopters for which the use of continuous OEI power is 
requested, be at continuous OEI power (or at full throttle when above 
the critical altitude); and
    (3) For other rotorcraft, be at maximum continuous power (or at full 
throttle when above the critical altitude).
    (d) After temperatures have stabilized in flight, the climb must 
be--
    (1) Begun from an altitude not greater than the lower of--
    (i) 1,000 feet below the engine critcal altitude; and

[[Page 684]]

    (ii) 1,000 feet below the maximum altitude at which the rate of 
climb is 150 f.p.m; and
    (2) Continued for at least five minutes after the occurrence of the 
highest temperature recorded, or until the rotorcraft reaches the 
maximum altitude for which certification is requested.
    (e) For category B rotorcraft without a positive rate of climb, the 
descent must begin at the all-engine-critical altitude and end at the 
higher of--
    (1) The maximum altitude at which level flight can be maintained 
with one engine operative; and
    (2) Sea level.
    (f) The climb or descent must be conducted at an airspeed 
representing a normal operational practice for the configuration being 
tested. However, if the cooling provisions are sensitive to rotorcraft 
speed, the most critical airspeed must be used, but need not exceed the 
speeds established under Sec. 29.67(a)(2) or Sec. 29.67(b). The climb 
cooling test may be conducted in conjunction with the takeoff cooling 
test of Sec. 29.1047.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-26, 53 
FR 34218, Sept. 2, 1988]



Sec. 29.1047  Takeoff cooling test procedures.

    (a) Category A. For each category A rotorcraft, cooling must be 
shown during takeoff and subsequent climb as follows:
    (1) Each temperature must be stabilized while hovering in ground 
effect with--
    (i) The power necessary for hovering;
    (ii) The appropriate cowl flap and shutter settings; and
    (iii) The maximum weight.
    (2) After the temperatures have stabilized, a climb must be started 
at the lowest practicable altitude and must be conducted with one engine 
inoperative.
    (3) The operating engines must be at the greatest power for which 
approval is sought (or at full throttle when above the critical 
altitude) for the same period as this power is used in determining the 
takeoff climbout path under Sec. 29.59.
    (4) At the end of the time interval prescribed in paragraph (b)(3) 
of this section, the power must be changed to that used in meeting 
Sec. 29.67(a)(2) and the climb must be continued for--
    (i) Thirty minutes, if 30-minute OEI power is used; or
    (ii) At least 5 minutes after the occurrence of the highest 
temperature recorded, if continuous OEI power or maximum continuous 
power is used.
    (5) The speeds must be those used in determining the takeoff flight 
path under Sec. 29.59.
    (b) Category B. For each category B rotorcraft, cooling must be 
shown during takeoff and subsequent climb as follows:
    (1) Each temperature must be stabilized while hovering in ground 
effect with--
    (i) The power necessary for hovering;
    (ii) The appropriate cowl flap and shutter settings; and
    (iii) The maximum weight.
    (2) After the temperatures have stabilized, a climb must be started 
at the lowest practicable altitude with takeoff power.
    (3) Takeoff power must be used for the same time interval as takeoff 
power is used in determining the takeoff flight path under Sec. 29.63.
    (4) At the end of the time interval prescribed in paragraph (a)(3) 
of this section, the power must be reduced to maximum continuous power 
and the climb must be continued for at least five minutes after the 
occurence of the highest temperature recorded.
    (5) The cooling test must be conducted at an airspeed corresponding 
to normal operating practice for the configuration being tested. 
However, if the cooling provisions are sensitive to rotorcraft speed, 
the most critical airspeed must be used, but need not exceed the speed 
for best rate of climb with maximum continuous power.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-1, 30 
FR 8778, July 13, 1965; Amdt. 29-26, 53 FR 34219, Sept. 2, 1988]



Sec. 29.1049  Hovering cooling test procedures.

    The hovering cooling provisions must be shown--
    (a) At maximum weight or at the greatest weight at which the 
rotorcraft can hover (if less), at sea level, with the power required to 
hover but not

[[Page 685]]

more than maximum continuous power, in the ground effect in still air, 
until at least five minutes after the occurrence of the highest 
temperature recorded; and
    (b) With maximum continuous power, maximum weight, and at the 
altitude resulting in zero rate of climb for this configuration, until 
at least five minutes after the occurrence of the highest temperature 
recorded.

                            Induction System



Sec. 29.1091  Air induction.

    (a) The air induction system for each engine and auxiliary power 
unit must supply the air required by that engine and auxiliary power 
unit under the operating conditions for which certification is 
requested.
    (b) Each engine and auxiliary power unit air induction system must 
provide air for proper fuel metering and mixture distribution with the 
induction system valves in any position.
    (c) No air intake may open within the engine accessory section or 
within other areas of any powerplant compartment where emergence of 
backfire flame would constitute a fire hazard.
    (d) Each reciprocating engine must have an alternate air source.
    (e) Each alternate air intake must be located to prevent the 
entrance of rain, ice, or other foreign matter.
    (f) For turbine engine powered rotorcraft and rotorcraft 
incorporating auxiliary power units--
    (1) There must be means to prevent hazardous quantities of fuel 
leakage or overflow from drains, vents, or other components of flammable 
fluid systems from entering the engine or auxiliary power unit intake 
system; and
    (2) The air inlet ducts must be located or protected so as to 
minimize the ingestion of foreign matter during takeoff, landing, and 
taxiing.


(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 969, Jan. 26, 1968; Amdt. 29-17, 43 FR 50601, Oct. 30, 1978]



Sec. 29.1093  Induction system icing protection.

    (a) Reciprocating engines. Each reciprocating engine air induction 
system must have means to prevent and eliminate icing. Unless this is 
done by other means, it must be shown that, in air free of visible 
moisture at a temperature of 30 deg. F., and with the engines at 60 
percent of maximum continuous power--
    (1) Each rotorcraft with sea level engines using conventional 
venturi carburetors has a preheater that can provide a heat rise of 
90 deg. F.;
    (2) Each rotorcraft with sea level engines using carburetors tending 
to prevent icing has a preheater that can provide a heat rise of 70 deg. 
F.;
    (3) Each rotorcraft with altitude engines using conventional venturi 
carburetors has a preheater that can provide a heat rise of 120 deg. F.; 
and
    (4) Each rotorcraft with altitude engines using carburetors tending 
to prevent icing has a preheater that can provide a heat rise of 
100 deg. F.
    (b) Turbine engines. (1) It must be shown that each turbine engine 
and its air inlet system can operate throughout the flight power range 
of the engine (including idling)--
    (i) Without accumulating ice on engine or inlet system components 
that would adversely affect engine operation or cause a serious loss of 
power under the icing conditions specified in appendix C of this Part; 
and
    (ii) In snow, both falling and blowing, without adverse effect on 
engine operation, within the limitations established for the rotorcraft.
    (2) Each turbine engine must idle for 30 minutes on the ground, with 
the air bleed available for engine icing protection at its critical 
condition, without adverse effect, in an atmosphere that is at a 
temperature between 15 deg. and 30  deg.F (between -9 deg. and -1 
deg.C) and has a liquid water content not less than 0.3 grams per cubic 
meter in the form of drops having a mean effective diameter not less 
than 20 microns, followed by momentary operation at takeoff power or 
thrust. During the 30 minutes of idle operation, the engine may be run 
up periodically to a moderate power or thrust setting in a manner 
acceptable to the Administrator.

[[Page 686]]

    (c) Supercharged reciprocating engines. For each engine having a 
supercharger to pressurize the air before it enters the carburetor, the 
heat rise in the air caused by that supercharging at any altitude may be 
utilized in determining compliance with paragraph (a) of this section if 
the heat rise utilized is that which will be available, automatically, 
for the applicable altitude and operation condition because of 
supercharging.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655 (c))

[Amdt. No. 29-3, 33 FR 969, Jan. 26, 1968, as amended by Amdt. 29-12, 41 
FR 55473, Dec. 20, 1976; Amdt. 29-13, 42 FR 15046, Mar. 17, 1977; Amdt. 
29-22, 49 FR 6850, Feb. 23, 1984; Amdt. 29-26, 53 FR 34219, Sept. 2, 
1988]



Sec. 29.1101  Carburetor air preheater design.

    Each carburetor air preheater must be designed and constructed to--
    (a) Ensure ventilation of the preheater when the engine is operated 
in cold air;
    (b) Allow inspection of the exhaust manifold parts that it 
surrounds; and
    (c) Allow inspection of critical parts of the preheater itself.



Sec. 29.1103  Induction systems ducts and air duct systems.

    (a) Each induction system duct upstream of the first stage of the 
engine supercharger and of the auxiliary power unit compressor must have 
a drain to prevent the hazardous accumulation of fuel and moisture in 
the ground attitude. No drain may discharge where it might cause a fire 
hazard.
    (b) Each duct must be strong enough to prevent induction system 
failure from normal backfire conditions.
    (c) Each duct connected to components between which relative motion 
could exist must have means for flexibility.
    (d) Each duct within any fire zone for which a fire-extinguishing 
system is required must be at least--
    (1) Fireproof, if it passes through any firewall; or
    (2) Fire resistant, for other ducts, except that ducts for auxiliary 
power units must be fireproof within the auxiliary power unit fire zone.
    (e) Each auxiliary power unit induction system duct must be 
fireproof for a sufficient distance upstream of the auxiliary power unit 
compartment to prevent hot gas reverse flow from burning through 
auxiliary power unit ducts and entering any other compartment or area of 
the rotorcraft in which a hazard would be created resulting from the 
entry of hot gases. The materials used to form the remainder of the 
induction system duct and plenum chamber of the auxiliary power unit 
must be capable of resisting the maximum heat conditions likely to 
occur.
    (f) Each auxiliary power unit induction system duct must be 
constructed of materials that will not absorb or trap hazardous 
quantities of flammable fluids that could be ignited in the event of a 
surge or reverse flow condition.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-17, 43 
FR 50602, Oct. 30, 1978]



Sec. 29.1105  Induction system screens.

    If induction system screens are used--
    (a) Each screen must be upstream of the carburetor;
    (b) No screen may be in any part of the induction system that is the 
only passage through which air can reach the engine, unless it can be 
deiced by heated air;
    (c) No screen may be deiced by alcohol alone; and
    (d) It must be impossible for fuel to strike any screen.



Sec. 29.1107  Inter-coolers and after-coolers.

    Each inter-cooler and after-cooler must be able to withstand the 
vibration, inertia, and air pressure loads to which it would be 
subjected in operation.



Sec. 29.1109  Carburetor air cooling.

    It must be shown under Sec. 29.1043 that each installation using 
two-stage superchargers has means to maintain the

[[Page 687]]

air temperature, at the carburetor inlet, at or below the maximum 
established value.

                             Exhaust System



Sec. 29.1121  General.

    For powerplant and auxiliary power unit installations the following 
apply:
    (a) Each exhaust system must ensure safe disposal of exhaust gases 
without fire hazard or carbon monoxide contamination in any personnel 
compartment.
    (b) Each exhaust system part with a surface hot enough to ignite 
flammable fluids or vapors must be located or shielded so that leakage 
from any system carrying flammable fluids or vapors will not result in a 
fire caused by impingement of the fluids or vapors on any part of the 
exhaust system including shields for the exhaust system.
    (c) Each component upon which hot exhaust gases could impinge, or 
that could be subjected to high temperatures from exhaust system parts, 
must be fireproof. Each exhaust system component must be separated by a 
fireproof shield from adjacent parts of the rotorcraft that are outside 
the engine and auxiliary power unit compartments.
    (d) No exhaust gases may discharge so as to cause a fire hazard with 
respect to any flammable fluid vent or drain.
    (e) No exhaust gases may discharge where they will cause a glare 
seriously affecting pilot vision at night.
    (f) Each exhaust system component must be ventilated to prevent 
points of excessively high temperature.
    (g) Each exhaust shroud must be ventilated or insulated to avoid, 
during normal operation, a temperature high enough to ignite any 
flammable fluids or vapors outside the shroud.
    (h) If significant traps exist, each turbine engine exhaust system 
must have drains discharging clear of the rotorcraft, in any normal 
ground and flight attitudes, to prevent fuel accumulation after the 
failure of an attempted engine start.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 755, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655 (c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 970, Jan. 26, 1968; Amdt. 29-13, 42 FR 15046, Mar. 17, 1977]



Sec. 29.1123  Exhaust piping.

    (a) Exhaust piping must be heat and corrosion resistant, and must 
have provisions to prevent failure due to expansion by operating 
temperatures.
    (b) Exhaust piping must be supported to withstand any vibration and 
inertia loads to which it would be subjected in operation.
    (c) Exhaust piping connected to components between which relative 
motion could exist must have provisions for flexibility.



Sec. 29.1125  Exhaust heat exchangers.

    For reciprocating engine powered rotorcraft the following apply:
    (a) Each exhaust heat exchanger must be constructed and installed to 
withstand the vibration, inertia, and other loads to which it would be 
subjected in operation. In addition--
    (1) Each exchanger must be suitable for continued operation at high 
temperatures and resistant to corrosion from exhaust gases;
    (2) There must be means for inspecting the critical parts of each 
exchanger;
    (3) Each exchanger must have cooling provisions wherever it is 
subject to contact with exhaust gases; and
    (4) No exhaust heat exchanger or muff may have stagnant areas or 
liquid traps that would increase the probability of ignition of 
flammable fluids or vapors that might be present in case of the failure 
or malfunction of components carrying flammable fluids.
    (b) If an exhaust heat exchanger is used for heating ventilating air 
used by personnel--
    (1) There must be a secondary heat exchanger between the primary 
exhaust gas heat exchanger and the ventilating air system; or

[[Page 688]]

    (2) Other means must be used to prevent harmful contamination of the 
ventilating air.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55473, Dec. 20, 1976; Amdt. 29-41, 62 FR 46173, Aug. 29, 1997]

                   Powerplant Controls and Accessories



Sec. 29.1141  Powerplant controls: general.

    (a) Powerplant controls must be located and arranged under 
Sec. 29.777 and marked under Sec. 29.1555.
    (b) Each control must be located so that it cannot be inadvertently 
operated by persons entering, leaving, or moving normally in the 
cockpit.
    (c) Each flexible powerplant control must be approved.
    (d) Each control must be able to maintain any set position without--
    (1) Constant attention; or
    (2) Tendency to creep due to control loads or vibration.
    (e) Each control must be able to withstand operating loads without 
excessive deflection.
    (f) Controls of powerplant valves required for safety must have--
    (1) For manual valves, positive stops or in the case of fuel valves 
suitable index provisions, in the open and closed position; and
    (2) For power-assisted valves, a means to indicate to the flight 
crew when the valve--
    (i) Is in the fully open or fully closed position; or
    (ii) Is moving between the fully open and fully closed position.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-13, 42 
FR 15046, Mar. 17, 1977; Amdt. 29-26, 53 FR 34219, Sept. 2, 1988]



Sec. 29.1142  Auxiliary power unit controls.

    Means must be provided on the flight deck for starting, stopping, 
and emergency shutdown of each installed auxiliary power unit.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Amdt. 29-17, 43 FR 50602, Oct. 30, 1978]



Sec. 29.1143  Engine controls.

    (a) There must be a separate power control for each engine.
    (b) Power controls must be arranged to allow ready synchronization 
of all engines by--
    (1) Separate control of each engine; and
    (2) Simultaneous control of all engines.
    (c) Each power control must provide a positive and immediately 
responsive means of controlling its engine.
    (d) Each fluid injection control other than fuel system control must 
be in the corresponding power control. However, the injection system 
pump may have a separate control.
    (e) If a power control incorporates a fuel shutoff feature, the 
control must have a means to prevent the inadvertent movement of the 
control into the shutoff position. The means must--
    (1) Have a positive lock or stop at the idle position; and
    (2) Require a separate and distinct operation to place the control 
in the shutoff position.
    (f) For rotorcraft to be certificated for a 30-second OEI power 
rating, a means must be provided to automatically activate and control 
the 30-second OEI power and prevent any engine from exceeding the 
installed engine limits associated with the 30-second OEI power rating 
approved for the rotorcraft.

[Amdt. 29-26, 53 FR 34219, Sept. 2, 1988, as amended by Amdt. 29-34, 59 
FR 47768, Sept. 16, 1994]



Sec. 29.1145  Ignition switches.

    (a) Ignition switches must control each ignition circuit on each 
engine.
    (b) There must be means to quickly shut off all ignition by the 
grouping of switches or by a master ignition control.

[[Page 689]]

    (c) Each group of ignition switches, except ignition switches for 
turbine engines for which continuous ignition is not required, and each 
master ignition control must have a means to prevent its inadvertent 
operation.

(Secs. 313(a), 601, and 603, 72 Stat. 759, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655 (c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-13, 42 
FR 15046, Mar. 17, 1977]



Sec. 29.1147  Mixture controls.

    (a) If there are mixture controls, each engine must have a separate 
control, and the controls must be arranged to allow--
    (1) Separate control of each engine; and
    (2) Simultaneous control of all engines.
    (b) Each intermediate position of the mixture controls that 
corresponds to a normal operating setting must be identifiable by feel 
and sight.



Sec. 29.1151  Rotor brake controls.

    (a) It must be impossible to apply the rotor brake inadvertently in 
flight.
    (b) There must be means to warn the crew if the rotor brake has not 
been completely released before takeoff.



Sec. 29.1157  Carburetor air temperature controls.

    There must be a separate carburetor air temperature control for each 
engine.



Sec. 29.1159  Supercharger controls.

    Each supercharger control must be accessible to--
    (a) The pilots; or
    (b) (If there is a separate flight engineer station with a control 
panel) the flight engineer.



Sec. 29.1163  Powerplant accessories.

    (a) Each engine mounted accessory must--
    (1) Be approved for mounting on the engine involved;
    (2) Use the provisions on the engine for mounting; and
    (3) Be sealed in such a way as to prevent contamination of the 
engine oil system and the accessory system.
    (b) Electrical equipment subject to arcing or sparking must be 
installed, to minimize the probability of igniting flammable fluids or 
vapors.
    (c) If continued rotation of an engine-driven cabin supercharger or 
any remote accessory driven by the engine will be a hazard if they 
malfunction, there must be means to prevent their hazardous rotation 
without interfering with the continued operation of the engine.
    (d) Unless other means are provided, torque limiting means must be 
provided for accessory drives located on any component of the 
transmission and rotor drive system to prevent damage to these 
components from excessive accessory load.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-22, 49 
FR 6850, Feb. 23, 1984; Amdt. 29-26, 53 FR 34219, Sept. 2, 1988]



Sec. 29.1165  Engine ignition systems.

    (a) Each battery ignition system must be supplemented with a 
generator that is automatically available as an alternate source of 
electrical energy to allow continued engine operation if any battery 
becomes depleted.
    (b) The capacity of batteries and generators must be large enough to 
meet the simultaneous demands of the engine ignition system and the 
greatest demands of any electrical system components that draw from the 
same source.
    (c) The design of the engine ignition system must account for--
    (1) The condition of an inoperative generator;
    (2) The condition of a completely depleted battery with the 
generator running at its normal operating speed; and
    (3) The condition of a completely depleted battery with the 
generator operating at idling speed, if there is only one battery.
    (d) Magneto ground wiring (for separate ignition circuits) that lies 
on the engine side of any firewall must be installed, located, or 
protected, to minimize the probability of the simultaneous failure of 
two or more wires as a result of mechanical damage, electrical fault, or 
other cause.
    (e) No ground wire for any engine may be routed through a fire zone 
of

[[Page 690]]

another engine unless each part of that wire within that zone is 
fireproof.
    (f) Each ignition system must be independent of any electrical 
circuit that is not used for assisting, controlling, or analyzing the 
operation of that system.
    (g) There must be means to warn appropriate crewmembers if the 
malfunctioning of any part of the electrical system is causing the 
continuous discharge of any battery necessary for engine ignition.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55473, Dec. 20, 1976]

                       Powerplant Fire Protection



Sec. 29.1181  Designated fire zones: regions included.

    (a) Designated fire zones are--
    (1) The engine power section of reciprocating engines;
    (2) The engine accessory section of reciprocating engines;
    (3) Any complete powerplant compartment in which there is no 
isolation between the engine power section and the engine accessory 
section, for reciprocating engines;
    (4) Any auxiliary power unit compartment;
    (5) Any fuel-burning heater and other combustion equipment 
installation described in Sec. 29.859;
    (6) The compressor and accessory sections of turbine engines; and
    (7) The combustor, turbine, and tailpipe sections of turbine engine 
installations except sections that do not contain lines and components 
carrying flammable fluids or gases and are isolated from the designated 
fire zone prescribed in paragraph (a)(6) of this section by a firewall 
that meets Sec. 29.1191.
    (b) Each designated fire zone must meet the requirements of 
Secs. 29.1183 through 29.1203.

[Amdt. 29-3, 33 FR 970, Jan. 26, 1968, as amended by Amdt. 29-26, 53 FR 
34219, Sept. 2, 1988]



Sec. 29.1183  Lines, fittings, and components.

    (a) Except as provided in paragraph (b) of this section, each line, 
fitting, and other component carrying flammable fluid in any area 
subject to engine fire conditions and each component which conveys or 
contains flammable fluid in a designated fire zone must be fire 
resistant, except that flammable fluid tanks and supports in a 
designated fire zone must be fireproof or be enclosed by a fireproof 
shield unless damage by fire to any non-fireproof part will not cause 
leakage or spillage of flammable fluid. Components must be shielded or 
located so as to safeguard against the ignition of leaking flammable 
fluid. An integral oil sump of less than 25-quart capacity on a 
reciprocating engine need not be fireproof nor be enclosed by a 
fireproof shield.
    (b) Paragraph (a) of this section does not apply to--
    (1) Lines, fittings, and components which are already approved as 
part of a type certificated engine; and
    (2) Vent and drain lines, and their fittings, whose failure will not 
result in or add to, a fire hazard.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-2, 32 
FR 6914, May 5, 1967; Amdt. 29-10, 39 FR 35463, Oct. 1, 1974; Amdt. 29-
22, 49 FR 6850, Feb. 23, 1984]



Sec. 29.1185  Flammable fluids.

    (a) No tank or reservoir that is part of a system containing 
flammable fluids or gases may be in a designated fire zone unless the 
fluid contained, the design of the system, the materials used in the 
tank and its supports, the shutoff means, and the connections, lines, 
and controls provide a degree of safety equal to that which would exist 
if the tank or reservoir were outside such a zone.
    (b) Each fuel tank must be isolated from the engines by a firewall 
or shroud.
    (c) There must be at least one-half inch of clear airspace between 
each tank or reservoir and each firewall or shroud isolating a 
designated fire zone, unless equivalent means are used to prevent heat 
transfer from the fire zone to the flammable fluid.
    (d) Absorbent material close to flammable fluid system components 
that might leak must be covered or treated to prevent the absorption of 
hazardous quantities of fluids.

[[Page 691]]



Sec. 29.1187  Drainage and ventilation of fire zones.

    (a) There must be complete drainage of each part of each designated 
fire zone to minimize the hazards resulting from failure or malfunction 
of any component containing flammable fluids. The drainage means must 
be--
    (1) Effective under conditions expected to prevail when drainage is 
needed; and
    (2) Arranged so that no discharged fluid will cause an additional 
fire hazard.
    (b) Each designated fire zone must be ventilated to prevent the 
accumulation of flammable vapors.
    (c) No ventilation opening may be where it would allow the entry of 
flammable fluids, vapors, or flame from other zones.
    (d) Ventilation means must be arranged so that no discharged vapors 
will cause an additional fire hazard.
    (e) For category A rotorcraft, there must be means to allow the crew 
to shut off the sources of forced ventilation in any fire zone (other 
than the engine power section of the powerplant compartment) unless the 
amount of extinguishing agent and the rate of discharge are based on the 
maximum airflow through that zone.



Sec. 29.1189  Shutoff means.

    (a) There must be means to shut off or otherwise prevent hazardous 
quantities of fuel, oil, de-icing fluid, and other flammable fluids from 
flowing into, within, or through any designated fire zone, except that 
this means need not be provided--
    (1) For lines, fittings, and components forming an integral part of 
an engine;
    (2) For oil systems for turbine engine installations in which all 
components of the system, including oil tanks, are fireproof or located 
in areas not subject to engine fire conditions; or
    (3) For engine oil systems in category B rotorcraft using 
reciprocating engines of less than 500 cubic inches displacement.
    (b) The closing of any fuel shutoff valve for any engine may not 
make fuel unavailable to the remaining engines.
    (c) For category A rotorcraft, no hazardous quantity of flammable 
fluid may drain into any designated fire zone after shutoff has been 
accomplished, nor may the closing of any fuel shutoff valve for an 
engine make fuel unavailable to the remaining engines.
    (d) The operation of any shutoff may not interfere with the later 
emergency operation of any other equipment, such as the means for 
declutching the engine from the rotor drive.
    (e) Each shutoff valve and its control must be designed, located, 
and protected to function properly under any condition likely to result 
from fire in a designated fire zone.
    (f) Except for ground-use-only auxiliary power unit installations, 
there must be means to prevent inadvertent operation of each shutoff and 
to make it possible to reopen it in flight after it has been closed.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55473, Dec. 20, 1976; Amdt. 29-22, 49 FR 6850, Feb. 23, 1984; Amdt. 
29-26, 53 FR 34219, Sept. 2, 1988]



Sec. 29.1191  Firewalls.

    (a) Each engine, including the combustor, turbine, and tailpipe 
sections of turbine engine installations, must be isolated by a 
firewall, shroud, or equivalent means, from personnel compartments, 
structures, controls, rotor mechanisms, and other parts that are--
    (1) Essential to controlled flight and landing; and
    (2) Not protected under Sec. 29.861.
    (b) Each auxiliary power unit, combustion heater, and other 
combustion equipment to be used in flight, must be isolated from the 
rest of the rotorcraft by firewalls, shrouds, or equivalent means.
    (c) Each firewall or shroud must be constructed so that no hazardous 
quantity of air, fluid, or flame can pass from any engine compartment to 
other parts of the rotorcraft.
    (d) Each opening in the firewall or shroud must be sealed with 
close-fitting fireproof grommets, bushings, or firewall fittings.
    (e) Each firewall and shroud must be fireproof and protected against 
corrosion.
    (f) In meeting this section, account must be taken of the probable 
path of

[[Page 692]]

a fire as affected by the airflow in normal flight and in autorotation.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 970, Jan. 26, 1968]



Sec. 29.1193  Cowling and engine compartment covering.

    (a) Each cowling and engine compartment covering must be constructed 
and supported so that it can resist the vibration, inertia, and air 
loads to which it may be subjected in operation.
    (b) Cowling must meet the drainage and ventilation requirements of 
Sec. 29.1187.
    (c) On rotorcraft with a diaphragm isolating the engine power 
section from the engine accessory section, each part of the accessory 
section cowling subject to flame in case of fire in the engine power 
section of the powerplant must--
    (1) Be fireproof; and
    (2) Meet the requirements of Sec. 29.1191.
    (d) Each part of the cowling or engine compartment covering subject 
to high temperatures due to its nearness to exhaust system parts or 
exhaust gas impingement must be fireproof.
    (e) Each rotorcraft must--
    (1) Be designated and constructed so that no fire originating in any 
fire zone can enter, either through openings or by burning through 
external skin, any other zone or region where it would create additional 
hazards;
    (2) Meet the requirements of paragraph (e)(1) of this section with 
the landing gear retracted (if applicable); and
    (3) Have fireproof skin in areas subject to flame if a fire starts 
in or burns out of any designated fire zone.
    (f) A means of retention for each openable or readily removable 
panel, cowling, or engine or rotor drive system covering must be 
provided to preclude hazardous damage to rotors or critical control 
components in the event of--
    (1) Structural or mechanical failure of the normal retention means, 
unless such failure is extremely improbable; or
    (2) Fire in a fire zone, if such fire could adversely affect the 
normal means of retention.

(Secs. 313(a), 601, and 603, 72 Stat. 759, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 970, Jan. 26, 1968; Amdt. 29-13, 42 FR 15046, Mar. 17, 1977; Amdt. 
29-26, 53 FR 34219, Sept. 2, 1988]



Sec. 29.1194  Other surfaces.

    All surfaces aft of, and near, engine compartments and designated 
fire zones, other than tail surfaces not subject to heat, flames, or 
sparks emanating from a designated fire zone or engine compartment, must 
be at least fire resistant.

[Amdt. 29-3, 33 FR 970, Jan. 26, 1968]



Sec. 29.1195  Fire extinguishing systems.

    (a) Each turbine engine powered rotorcraft and Category A 
reciprocating engine powered rotorcraft, and each Category B 
reciprocating engine powered rotorcraft with engines of more than 1,500 
cubic inches must have a fire extinguishing system for the designated 
fire zones. The fire extinguishing system for a powerplant must be able 
to simultaneously protect all zones of the powerplant compartment for 
which protection is provided.
    (b) For multiengine powered rotorcraft, the fire extinguishing 
system, the quantity of extinguishing agent, and the rate of discharge 
must--
    (1) For each auxiliary power unit and combustion equipment, provide 
at least one adequate discharge; and
    (2) For each other designated fire zone, provide two adequate 
discharges.
    (c) For single engine rotorcraft, the quantity of extinguishing 
agent and the rate of discharge must provide at least one adequate 
discharge for the engine compartment.
    (d) It must be shown by either actual or simulated flight tests that 
under critical airflow conditions in flight the discharge of the 
extinguishing agent in each designated fire zone will provide an agent 
concentration capable of extinguishing fires in that zone and of

[[Page 693]]

minimizing the probability of reignition.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423, 1424), sec. 6(c), Dept. of Transportation Act (49 
U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 970, Jan. 26, 1968; Amdt. 29-13, 42 FR 15047, Mar. 17, 1977; Amdt. 
29-17, 43 FR 50602, Oct. 30, 1978]



Sec. 29.1197  Fire extinguishing agents.

    (a) Fire extinguishing agents must--
    (1) Be capable of extinguishing flames emanating from any burning of 
fluids or other combustible materials in the area protected by the fire 
extinguishing system; and
    (2) Have thermal stability over the temperature range likely to be 
experienced in the compartment in which they are stored.
    (b) If any toxic extinguishing agent is used, it must be shown by 
test that entry of harmful concentrations of fluid or fluid vapors into 
any personnel compartment (due to leakage during normal operation of the 
rotorcraft, or discharge on the ground or in flight) is prevented, even 
though a defect may exist in the extinguishing system.

(Secs. 313(a), 601, and 603, 72 Stat. 759, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55473, Dec. 20, 1976; Amdt. 29-13, 42 FR 15047, Mar. 17, 1977]



Sec. 29.1199  Extinguishing agent containers.

    (a) Each extinguishing agent container must have a pressure relief 
to prevent bursting of the container by excessive internal pressures.
    (b) The discharge end of each discharge line from a pressure relief 
connection must be located so that discharge of the fire extinguishing 
agent would not damage the rotorcraft. The line must also be located or 
protected to prevent clogging caused by ice or other foreign matter.
    (c) There must be a means for each fire extinguishing agent 
container to indicate that the container has discharged or that the 
charging pressure is below the established minimum necessary for proper 
functioning.
    (d) The temperature of each container must be maintained, under 
intended operating conditions, to prevent the pressure in the container 
from--
    (1) Falling below that necessary to provide an adequate rate of 
discharge; or
    (2) Rising high enough to cause premature discharge.

(Secs. 313(a), 601, and 603, 72 Stat. 759, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655 (c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-13, 42 
FR 15047, Mar. 17, 1977]



Sec. 29.1201  Fire extinguishing system materials.

    (a) No materials in any fire extinguishing system may react 
chemically with any extinguishing agent so as to create a hazard.
    (b) Each system component in an engine compartment must be 
fireproof.



Sec. 29.1203  Fire detector systems.

    (a) For each turbine engine powered rotorcraft and Category A 
reciprocating engine powered rotorcraft, and for each Category B 
reciprocating engine powered rotorcraft with engines of more than 900 
cubic inches displacement, there must be approved, quick-acting fire 
detectors in designated fire zones and in the combustor, turbine, and 
tailpipe sections of turbine installations (whether or not such sections 
are designated fire zones) in numbers and locations ensuring prompt 
detection of fire in those zones.
    (b) Each fire detector must be constructed and installed to 
withstand any vibration, inertia, and other loads to which it would be 
subjected in operation.
    (c) No fire detector may be affected by any oil, water, other 
fluids, or fumes that might be present.
    (d) There must be means to allow crewmembers to check, in flight, 
the functioning of each fire detector system electrical circuit.
    (e) The writing and other components of each fire detector system in 
an engine compartment must be at least fire resistant.
    (f) No fire detector system component for any fire zone may pass 
through another fire zone, unless--

[[Page 694]]

    (1) It is protected against the possibility of false warnings 
resulting from fires in zones through which it passes; or
    (2) The zones involved are simultaneously protected by the same 
detector and extinguishing systems.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 970, Jan. 26, 1968]



                          Subpart F--Equipment

                                 General



Sec. 29.1301  Function and installation.

    Each item of installed equipment must--
    (a) Be of a kind and design appropriate to its intended function;
    (b) Be labeled as to its identification, function, or operating 
limitations, or any applicable combination of these factors;
    (c) Be installed according to limitations specified for that 
equipment; and
    (d) Function properly when installed.



Sec. 29.1303  Flight and navigation instruments.

    The following are required flight and navigational instruments:
    (a) An airspeed indicator. For Category A rotorcraft with 
VNE less than a speed at which unmistakable pilot cues 
provide overspeed warning, a maximum allowable airspeed indicator must 
be provided. If maximum allowable airspeed varies with weight, altitude, 
temperature, or r.p.m., the indicator must show that variation.
    (b) A sensitive altimeter.
    (c) A magnetic direction indicator.
    (d) A clock displaying hours, minutes, and seconds with a sweep-
second pointer or digital presentation.
    (e) A free-air temperature indicator.
    (f) A non-tumbling gyroscopic bank and pitch indicator.
    (g) A gyroscopic rate-of-turn indicator combined with an integral 
slip-skid indicator (turn-and-bank indicator) except that only a slip-
skid indicator is required on rotorcraft with a third altitude 
instrument system that--
    (1) Is useable through flight altitudes of plus-minus 80 
degrees of pitch and plus-minus 120 degrees of roll;
    (2) Is powered from a source independent of the electrical 
generating system;
    (3) Continues reliable operation for a minimum of 30 minutes after 
total failure of the electrical generating system;
    (4) Operates independently of any other altitude indicating system;
    (5) Is operative without selection after total failure of the 
electrical generating system;
    (6) Is located on the instrument panel in a position acceptable to 
the Administrator that will make it plainly visible to and useable by 
any pilot at his station; and
    (7) Is appropriately lighted during all phases of operation.
    (h) A gyroscopic direction indicator.
    (i) A rate-of-climb (vertical speed) indicator.
    (j) For Category A rotorcraft, a speed warning device when 
VNE is less than the speed at which unmistakable overspeed 
warning is provided by other pilot cues. The speed warning device must 
give effective aural warning (differing distinctively from aural 
warnings used for other purposes) to the pilots whenever the indicated 
speed exceeds VNE plus 3 knots and must operate 
satisfactorily throughout the approved range of altitudes and 
temperatures.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55474, Dec. 20, 1976; Amdt. 29-14, 42 FR 36972, July 18, 1977; Amdt. 
29-24, 49 FR 44438, Nov. 6, 1984]



Sec. 29.1305  Powerplant instruments.

    The following are required powerplant instruments:
    (a) For each rotorcraft--
    (1) A carburetor air temperature indicator for each reciprocating 
engine;
    (2) A cylinder head temperature indicator for each air-cooled 
reciprocating engine, and a coolant temperature indicator for each 
liquid-cooled reciprocating engine;
    (3) A fuel quantity indicator for each fuel tank;
    (4) A low fuel warning device for each fuel tank which feeds an 
engine. This device must--

[[Page 695]]

    (i) Provide a warning to the crew when approximately 10 minutes of 
usable fuel remains in the tank; and
    (ii) Be independent of the normal fuel quantity indicating system.
    (5) A manifold pressure indicator, for each reciprocating engine of 
the altitude type;
    (6) An oil pressure indicator for each pressure-lubricated gearbox.
    (7) An oil pressure warning device for each pressure-lubricated 
gearbox to indicate when the oil pressure falls below a safe value;
    (8) An oil quantity indicator for each oil tank and each rotor drive 
gearbox, if lubricant is self-contained;
    (9) An oil temperature indicator for each engine;
    (10) An oil temperature warning device to indicate unsafe oil 
temperatures in each main rotor drive gearbox, including gearboxes 
necessary for rotor phasing;
    (11) A gas temperature indicator for each turbine engine;
    (12) A gas producer rotor tachometer for each turbine engine;
    (13) A tachometer for each engine that, if combined with the 
applicable instrument required by paragraph (a)(14) of this section, 
indicates rotor r.p.m. during autorotation.
    (14) At least one tachometer to indicate, as applicable--
    (i) The r.p.m. of the single main rotor;
    (ii) The common r.p.m. of any main rotors whose speeds cannot vary 
appreciably with respect to each other; and
    (iii) The r.p.m. of each main rotor whose speed can vary appreciably 
with respect to that of another main rotor;
    (15) A free power turbine tachometer for each turbine engine;
    (16) A means, for each turbine engine, to indicate power for that 
engine;
    (17) For each turbine engine, an indicator to indicate the 
functioning of the powerplant ice protection system;
    (18) An indicator for the filter required by Sec. 29.997 to indicate 
the occurrence of contamination of the filter to the degree established 
in compliance with Sec. 29.955;
    (19) For each turbine engine, a warning means for the oil strainer 
or filter required by Sec. 29.1019, if it has no bypass, to warn the 
pilot of the occurrence of contamination of the strainer or filter 
before it reaches the capacity established in accordance with 
Sec. 29.1019(a)(2);
    (20) An indicator to indicate the functioning of any selectable or 
controllable heater used to prevent ice clogging of fuel system 
components;
    (21) An individual fuel pressure indicator for each engine, unless 
the fuel system which supplies that engine does not employ any pumps, 
filters, or other components subject to degradation or failure which may 
adversely affect fuel pressure at the engine;
    (22) A means to indicate to the flightcrew the failure of any fuel 
pump installed to show compliance with Sec. 29.955;
    (23) Warning or caution devices to signal to the flightcrew when 
ferromagnetic particles are detected by the chip detector required by 
Sec. 29.1337(e); and
    (24) For auxiliary power units, an individual indicator, warning or 
caution device, or other means to advise the flightcrew that limits are 
being exceeded, if exceeding these limits can be hazardous, for--
    (i) Gas temperature;
    (ii) Oil pressure; and
    (iii) Rotor speed.
    (25) For rotorcraft for which a 30-second/2-minute OEI power rating 
is requested, a means must be provided to alert the pilot when the 
engine is at the 30-second and 2-minute OEI power levels, when the event 
begins, and when the time interval expires.
    (26) For each turbine engine utilizing 30-second/2-minute OEI power, 
a device or system must be provided for use by ground personnel which--
    (i) Automatically records each usage and duration of power at the 
30-second and 2-minute OEI levels;
    (ii) Permits retrieval of the recorded data;
    (iii) Can be reset only by ground maintenance personnel; and
    (iv) Has a means to verify proper operation of the system or device.
    (b) For category A rotorcraft--
    (1) An individual oil pressure indicator for each engine, and either 
an independent warning device for each engine or a master warning device 
for the engines with means for isolating

[[Page 696]]

the individual warning circuit from the master warning device;
    (2) An independent fuel pressure warning device for each engine or a 
master warning device for all engines with provision for isolating the 
individual warning device from the master warning device; and
    (3) Fire warning indicators.
    (c) For category B rotorcraft--
    (1) An individual oil pressure indicator for each engine; and
    (2) Fire warning indicators, when fire detection is required.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 970, Jan. 26, 1968; Amdt. 29-10, 39 FR 35463, Oct. 1, 1974; Amdt. 29-
26, 53 FR 34219, Sept. 2, 1988; Amdt. 29-34, 59 FR 47768, Sept. 16, 
1994; Amdt. 29-40, 61 FR 21908, May 10, 1996; 61 FR 43952, Aug. 27, 
1996]



Sec. 29.1307  Miscellaneous equipment.

    The following is required miscellaneous equipment:
    (a) An approved seat for each occupant.
    (b) A master switch arrangement for electrical circuits other than 
ignition.
    (c) Hand fire extinguishers.
    (d) A windshield wiper or equivalent device for each pilot station.
    (e) A two-way radio communication system.

[Amdt. 29-12, 41 FR 55473, Dec. 20, 1976]



Sec. 29.1309  Equipment, systems, and installations.

    (a) The equipment, systems, and installations whose functioning is 
required by this subchapter must be designed and installed to ensure 
that they perform their intended functions under any foreseeable 
operating condition.
    (b) The rotorcraft systems and associated components, considered 
separately and in relation to other systems, must be designed so that--
    (1) For Category B rotorcraft, the equipment, systems, and 
installations must be designed to prevent hazards to the rotorcraft if 
they malfunction or fail; or
    (2) For Category A rotorcraft--
    (i) The occurrence of any failure condition which would prevent the 
continued safe flight and landing of the rotorcraft is extremely 
improbable; and
    (ii) The occurrence of any other failure conditions which would 
reduce the capability of the rotorcraft or the ability of the crew to 
cope with adverse operating conditions is improbable.
    (c) Warning information must be provided to alert the crew to unsafe 
system operating conditions and to enable them to take appropriate 
corrective action. Systems, controls, and associated monitoring and 
warning means must be designed to minimize crew errors which could 
create additional hazards.
    (d) Compliance with the requirements of paragraph (b)(2) of this 
section must be shown by analysis and, where necessary, by appropriate 
ground, flight, or simulator tests. The analysis must consider--
    (1) Possible modes of failure, including malfunctions and damage 
from external sources;
    (2) The probability of multiple failures and undetected failures;
    (3) The resulting effects on the rotorcraft and occupants, 
considering the stage of flight and operating conditions; and
    (4) The crew warning cues, corrective action required, and the 
capability of detecting faults.
    (e) For Category A rotorcraft, each installation whose functioning 
is required by this subchapter and which requires a power supply is an 
``essential load'' on the power supply. The power sources and the system 
must be able to supply the following power loads in probable operating 
combinations and for probable durations:
    (1) Loads connected to the system with the system functioning 
normally.
    (2) Essential loads, after failure of any one prime mover, power 
converter, or energy storage device.
    (3) Essential loads, after failure of--
    (i) Any one engine, on rotorcraft with two engines; and
    (ii) Any two engines, on rotorcraft with three or more engines.
    (f) In determining compliance with paragraphs (e)(2) and (3) of this 
section, the power loads may be assumed to be reduced under a monitoring 
procedure consistent with safety in the kinds of operations authorized. 
Loads not required for controlled flight need not be

[[Page 697]]

considered for the two-engine-inoperative condition on rotorcraft with 
three or more engines.
    (g) In showing compliance with paragraphs (a) and (b) of this 
section with regard to the electrical system and to equipment design and 
installation, critical environmental conditions must be considered. For 
electrical generation, distribution, and utilization equipment required 
by or used in complying with this subchapter, except equipment covered 
by Technical Standard Orders containing environmental test procedures, 
the ability to provide continuous, safe service under foreseeable 
environmental conditions may be shown by environmental tests, design 
analysis, or reference to previous comparable service experience on 
other aircraft.
    (h) In showing compliance with paragraphs (a) and (b) of this 
section, the effects of lightning strikes on the rotorcraft must be 
considered.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-14, 42 
FR 36972, July 18, 1977; Amdt. 29-24, 49 FR 44438, Nov. 6, 1984; Amdt. 
29-40, 61 FR 21908, May 10, 1996]

                        Instruments: Installation



Sec. 29.1321  Arrangement and visibility.

    (a) Each flight, navigation, and powerplant instrument for use by 
any pilot must be easily visible to him from his station with the 
minimum practicable deviation from his normal position and line of 
vision when he is looking forward along the flight path.
    (b) Each instrument necessary for safe operation, including the 
airspeed indicator, gyroscopic direction indicator, gyroscopic bank-and-
pitch indicator, slip-skid indicator, altimeter, rate-of-climb 
indicator, rotor tachometers, and the indicator most representative of 
engine power, must be grouped and centered as nearly as practicable 
about the vertical plane of the pilot's forward vision. In addition, for 
rotorcraft approved for IFR flight--
    (1) The instrument that most effectively indicates attitude must be 
on the panel in the top center position;
    (2) The instrument that most effectively indicates direction of 
flight must be adjacent to and directly below the attitude instrument;
    (3) The instrument that most effectively indicates airspeed must be 
adjacent to and to the left of the attitude instrument; and
    (4) The instrument that most effectively indicates altitude or is 
most frequently utilized in control of altitude must be adjacent to and 
to the right of the attitude instrument.
    (c) Other required powerplant instruments must be closely grouped on 
the instrument panel.
    (d) Identical powerplant instruments for the engines must be located 
so as to prevent any confusion as to which engine each instrument 
relates.
    (e) Each powerplant instrument vital to safe operation must be 
plainly visible to appropriate crewmembers.
    (f) Instrument panel vibration may not damage, or impair the 
readability or accuracy of, any instrument.
    (g) If a visual indicator is provided to indicate malfunction of an 
instrument, it must be effective under all probable cockpit lighting 
conditions.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-14, 42 
FR 36972, July 18, 1977; Amdt. 29-21, 48 FR 4391, Jan. 31, 1983]



Sec. 29.1322  Warning, caution, and advisory lights.

    If warning, caution or advisory lights are installed in the cockpit 
they must, unless otherwise approved by the Administrator, be--
    (a) Red, for warning lights (lights indicating a hazard which may 
require immediate corrective action);
    (b) Amber, for caution lights (lights indicating the possible need 
for future corrective action);
    (c) Green, for safe operation lights; and
    (d) Any other color, including white, for lights not described in 
paragraphs (a) through (c) of this section, provided the color differs 
sufficiently from the colors prescribed in paragraphs (a)

[[Page 698]]

through (c) of this section to avoid possible confusion.

[Amdt. 29-12, 41 FR 55474, Dec. 20, 1976]



Sec. 29.1323  Airspeed indicating system.

    For each airspeed indicating system, the following apply:
    (a) Each airspeed indicating instrument must be calibrated to 
indicate true airspeed (at sea level with a standard atmosphere) with a 
minimum practicable instrument calibration error when the corresponding 
pitot and static pressures are applied.
    (b) Each system must be calibrated to determine system error 
excluding airspeed instrument error. This calibration must be 
determined--
    (1) In level flight at speeds of 20 knots and greater, and over an 
appropriate range of speeds for flight conditions of climb and 
autorotation; and
    (2) During takeoff, with repeatable and readable indications that 
ensure--
    (i) Consistent realization of the field lengths specified in the 
Rotorcraft Flight Manual; and
    (ii) Avoidance of the critical areas of the height-velocity envelope 
as established under Sec. 29.87.
    (c) For Category A rotorcraft--
    (1) The indication must allow consistent definition of the takeoff 
decision point; and
    (2) The system error, excluding the airspeed instrument calibration 
error, may not exceed--
    (i) Three percent or 5 knots, whichever is greater, in level flight 
at speeds above 80 percent of takeoff safety speed; and
    (ii) Ten knots in climb at speeds from 10 knots below takeoff safety 
speed to 10 knots above VY.
    (d) For Category B rotorcraft, the system error, excluding the 
airspeed instrument calibration error, may not exceed 3 percent or 5 
knots, whichever is greater, in level flight at speeds above 80 percent 
of the climbout speed attained at 50 feet when complying with 
Sec. 29.63.
    (e) Each system must be arranged, so far as practicable, to prevent 
malfunction or serious error due to the entry of moisture, dirt, or 
other substances.
    (f) Each system must have a heated pitot tube or an equivalent means 
of preventing malfunction due to icing.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964 as amended by Amdt. 29-3, 33 
FR 970, Jan. 26, 1968; Amdt. 29-24, 49 FR 44439, Nov. 6, 1984; Amdt. 29-
39, 61 FR 21901, May 10, 1996; Amdt. 29-44, 64 FR 45338, Aug. 19, 1999]



Sec. 29.1325  Static pressure and pressure altimeter systems.

    (a) Each instrument with static air case connections must be vented 
to the outside atmosphere through an appropriate piping system.
    (b) Each vent must be located where its orifices are least affected 
by airflow variation, moisture, or foreign matter.
    (c) Each static pressure port must be designed and located in such 
manner that the correlation between air pressure in the static pressure 
system and true ambient atmospheric static pressure is not altered when 
the rotorcraft encounters icing conditions. An anti-icing means or an 
alternate source of static pressure may be used in showing compliance 
with this requirement. If the reading of the altimeter, when on the 
alternate static pressure system, differs from the reading of altimeter 
when on the primary static system by more than 50 feet, a correction 
card must be provided for the alternate static system.
    (d) Except for the vent into the atmosphere, each system must be 
airtight.
    (e) Each pressure altimeter must be approved and calibrated to 
indicate pressure altitude in a standard atmosphere with a minimum 
practicable calibration error when the corresponding static pressures 
are applied.
    (f) Each system must be designed and installed so that an error in 
indicated pressure altitude, at sea level, with a standard atmosphere, 
excluding instrument calibration error, does not result in an error of 
more than 30 feet per 100 knots speed. However, the error 
need not be less than 30 feet.
    (g) Except as provided in paragraph (h) of this section, if the 
static pressure system incorporates both a primary and an alternate 
static pressure source, the means for selecting one or the other source 
must be designed so that--

[[Page 699]]

    (1) When either source is selected, the other is blocked off; and
    (2) Both sources cannot be blocked off simultaneously.
    (h) For unpressurized rotorcraft, paragraph (g)(1) of this section 
does not apply if it can be demonstrated that the static pressure system 
calibration, when either static pressure source is selected, is not 
changed by the other static pressure source being open or blocked.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-14, 42 
FR 36972, July 18, 1977; Amdt. 29-24, 49 FR 44439, Nov. 6, 1984]



Sec. 29.1327  Magnetic direction indicator.

    (a) Each magnetic direction indicator must be installed so that its 
accuracy is not excessively affected by the rotorcraft's vibration or 
magnetic fields.
    (b) The compensated installation may not have a deviation, in level 
flight, greater than 10 degrees on any heading.



Sec. 29.1329  Automatic pilot system.

    (a) Each automatic pilot system must be designed so that the 
automatic pilot can--
    (1) Be sufficiently overpowered by one pilot to allow control of the 
rotorcraft; and
    (2) Be readily and positively disengaged by each pilot to prevent it 
from interfering with the control of the rotorcraft.
    (b) Unless there is automatic synchronization, each system must have 
a means to readily indicate to the pilot the alignment of the actuating 
device in relation to the control system it operates.
    (c) Each manually operated control for the system's operation must 
be readily accessible to the pilots.
    (d) The system must be designed and adjusted so that, within the 
range of adjustment available to the pilot, it cannot produce hazardous 
loads on the rotorcraft, or create hazardous deviations in the flight 
path, under any flight condition appropriate to its use, either during 
normal operation or in the event of a malfunction, assuming that 
corrective action begins within a reasonable period of time.
    (e) If the automatic pilot integrates signals from auxiliary 
controls or furnishes signals for operation of other equipment, there 
must be positive interlocks and sequencing of engagement to prevent 
improper operation.
    (f) If the automatic pilot system can be coupled to airborne 
navigation equipment, means must be provided to indicate to the pilots 
the current mode of operation. Selector switch position is not 
acceptable as a means of indication.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-24, 49 
FR 44439, Nov. 6, 1984; Amdt. 29-24, 49 FR 47594, Dec. 6, 1984; Amdt. 
29-42, 63 FR 43285, Aug. 12, 1998]



Sec. 29.1331  Instruments using a power supply.

    For category A rotorcraft--
    (a) Each required flight instrument using a power supply must have--
    (1) Two independent sources of power;
    (2) A means of selecting either power source; and
    (3) A visual means integral with each instrument to indicate when 
the power adequate to sustain proper instrument performance is not being 
supplied. The power must be measured at or near the point where it 
enters the instrument. For electrical instruments, the power is 
considered to be adequate when the voltage is within the approved 
limits; and
    (b) The installation and power supply system must be such that 
failure of any flight instrument connected to one source, or of the 
energy supply from one source, or a fault in any part of the power 
distribution system does not interfere with the proper supply of energy 
from any other source.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-24, 49 
FR 44439, Nov. 6, 1984]



Sec. 29.1333  Instrument systems.

    For systems that operate the required flight instruments which are 
located at each pilot's station, the following apply:
    (a) Only the required flight instruments for the first pilot may be 
connected to that operating system.

[[Page 700]]

    (b) The equipment, systems, and installations must be designed so 
that one display of the information essential to the safety of flight 
which is provided by the flight instruments remains available to a 
pilot, without additional crewmember action, after any single failure or 
combination of failures that are not shown to be extremely improbable.
    (c) Additional instruments, systems, or equipment may not be 
connected to the operating system for a second pilot unless provisions 
are made to ensure the continued normal functioning of the required 
flight instruments in the event of any malfunction of the additional 
instruments, systems, or equipment which is not shown to be extremely 
improbable.

[Amdt. 29-24, 49 FR 44439, Nov. 6, 1984]



Sec. 29.1335  Flight director systems.

    If a flight director system is installed, means must be provided to 
indicate to the flight crew its current mode of operation. Selector 
switch position is not acceptable as a means of indication.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 29-14, 42 FR 36973, July 18, 1977]



Sec. 29.1337  Powerplant instruments.

    (a) Instruments and instrument lines. (1) Each powerplant and 
auxiliary power unit instrument line must meet the requirements of 
Secs. 29.993 and 29.1183.
    (2) Each line carrying flammable fluids under pressure must--
    (i) Have restricting orifices or other safety devices at the source 
of pressure to prevent the escape of excessive fluid if the line fails; 
and
    (ii) Be installed and located so that the escape of fluids would not 
create a hazard.
    (3) Each powerplant and auxiliary power unit instrument that 
utilizes flammable fluids must be installed and located so that the 
escape of fluid would not create a hazard.
    (b) Fuel quantity indicator. There must be means to indicate to the 
flight crew members the quantity, in gallons or equivalent units, of 
usable fuel in each tank during flight. In addition--
    (1) Each fuel quantity indicator must be calibrated to read ``zero'' 
during level flight when the quantity of fuel remaining in the tank is 
equal to the unusable fuel supply determined under Sec. 29.959;
    (2) When two or more tanks are closely interconnected by a gravity 
feed system and vented, and when it is impossible to feed from each tank 
separately, at least one fuel quantity indicator must be installed;
    (3) Tanks with interconnected outlets and airspaces may be treated 
as one tank and need not have separate indicators; and
    (4) Each exposed sight gauge used as a fuel quantity indicator must 
be protected against damage.
    (c) Fuel flowmeter system. If a fuel flowmeter system is installed, 
each metering component must have a means for bypassing the fuel supply 
if malfunction of that component severely restricts fuel flow.
    (d) Oil quantity indicator. There must be a stick gauge or 
equivalent means to indicate the quantity of oil--
    (1) In each tank; and
    (2) In each transmission gearbox.
    (e) Rotor drive system transmissions and gearboxes utilizing 
ferromagnetic materials must be equipped with chip detectors designed to 
indicate the presence of ferromagnetic particles resulting from damage 
or excessive wear within the transmission or gearbox. Each chip detector 
must--
    (1) Be designed to provide a signal to the indicator required by 
Sec. 29.1305(a)(22); and
    (2) Be provided with a means to allow crewmembers to check, in 
flight, the function of each detector electrical circuit and signal.

(Secs. 313(a), 601, and 603, 72 Stat. 759, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-13, 42 
FR 15047, Mar. 17, 1977; Amdt. 29-26, 53 FR 34219, Sept. 2, 1988]

                    Electrical Systems and Equipment



Sec. 29.1351  General.

    (a) Electrical system capacity. The required generating capacity and 
the

[[Page 701]]

number and kind of power sources must--
    (1) Be determined by an electrical load analysis; and
    (2) Meet the requirements of Sec. 29.1309.
    (b) Generating system. The generating system includes electrical 
power sources, main power busses, transmission cables, and associated 
control, regulation, and protective devices. It must be designed so 
that--
    (1) Power sources function properly when independent and when 
connected in combination;
    (2) No failure or malfunction of any power source can create a 
hazard or impair the ability of remaining sources to supply essential 
loads;
    (3) The system voltage and frequency (as applicable) at the 
terminals of essential load equipment can be maintained within the 
limits for which the equipment is designed, during any probable 
operating condition;
    (4) System transients due to switching, fault clearing, or other 
causes do not make essential loads inoperative, and do not cause a smoke 
or fire hazard;
    (5) There are means accessible in flight to appropriate crewmembers 
for the individual and collective disconnection of the electrical power 
sources from the main bus; and
    (6) There are means to indicate to appropriate crewmembers the 
generating system quantities essential for the safe operation of the 
system, such as the voltage and current supplied by each generator.
    (c) External power. If provisions are made for connecting external 
power to the rotorcraft, and that external power can be electrically 
connected to equipment other than that used for engine starting, means 
must be provided to ensure that no external power supply having a 
reverse polarity, or a reverse phase sequence, can supply power to the 
rotorcraft's electrical system.
    (d) Operation with the normal electrical power generating system 
inoperative.
    (1) It must be shown by analysis, tests, or both, that the 
rotorcraft can be operated safely in VFR conditions for a period of not 
less than 5 minutes, with the normal electrical power generating system 
(electrical power sources excluding the battery) inoperative, with 
critical type fuel (from the standpoint of flameout and restart 
capability), and with the rotorcraft initially at the maximum 
certificated altitude. Parts of the electrical system may remain on if--
    (i) A single malfunction, including a wire bundle or junction box 
fire, cannot result in loss of the part turned off and the part turned 
on;
    (ii) The parts turned on are electrically and mechanically isolated 
from the parts turned off; and
    (2) Additional requirements for Category A Rotorcraft.
    (i) Unless it can be shown that the loss of the normal electrical 
power generating system is extremely improbable, an emergency electrical 
power system, independent of the normal electrical power generating 
system, must be provided, with sufficient capacity to power all systems 
necessary for continued safe flight and landing.
    (ii) Failures, including junction box, control panel, or wire bundle 
fires, which would result in the loss of the normal and emergency 
systems, must be shown to be extremely improbable.
    (iii) Systems necessary for immediate safety must continue to 
operate following the loss of the normal electrical power generating 
system, without the need for flight crew action.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-14, 42 
FR 36973, July 18, 1977; Amdt. 29-40, 61 FR 21908, May 10, 1996; Amdt. 
29-42, 63 FR 43285, Aug. 12, 1998]



Sec. 29.1353  Electrical equipment and installations.

    (a) Electrical equipment, controls, and wiring must be installed so 
that operation of any one unit or system of units will not adversely 
affect the simultaneous operation of any other electrical unit or system 
essential to safe operation.
    (b) Cables must be grouped, routed, and spaced so that damage to 
essential circuits will be minimized if there are faults in heavy 
current-carrying cables.

[[Page 702]]

    (c) Storage batteries must be designed and installed as follows:
    (1) Safe cell temperatures and pressures must be maintained during 
any probable charging and discharging condition. No uncontrolled 
increase in cell temperature may result when the battery is recharged 
(after previous complete discharge)--
    (i) At maximum regulated voltage or power;
    (ii) During a flight of maximum duration; and
    (iii) Under the most adverse cooling condition likely in service.
    (2) Compliance with paragraph (a)(1) of this section must be shown 
by test unless experience with similar batteries and installations has 
shown that maintaining safe cell temperatures and pressures presents no 
problem.
    (3) No explosive or toxic gases emitted by any battery in normal 
operation, or as the result of any probable malfunction in the charging 
system or battery installation, may accumulate in hazardous quantities 
within the rotorcraft.
    (4) No corrosive fluids or gases that may escape from the battery 
may damage surrounding structures or adjacent essential equipment.
    (5) Each nickel cadmium battery installation capable of being used 
to start an engine or auxiliary power unit must have provisions to 
prevent any hazardous effect on structure or essential systems that may 
be caused by the maximum amount of heat the battery can generate during 
a short circuit of the battery or of its individual cells.
    (6) Nickel cadmium battery installations capable of being used to 
start an engine or auxiliary power unit must have--
    (i) A system to control the charging rate of the battery 
automatically so as to prevent battery overheating;
    (ii) A battery temperature sensing and over-temperature warning 
system with a means for disconnecting the battery from its charging 
source in the event of an over-temperature condition; or
    (iii) A battery failure sensing and warning system with a means for 
disconnecting the battery from its charging source in the event of 
battery failure.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-14, 42 
FR 36973, July 18, 1977; Amdt. 29-15, 43 FR 2327, Jan. 16, 1978]



Sec. 29.1355  Distribution system.

    (a) The distribution system includes the distribution busses, their 
associated feeders, and each control and protective device.
    (b) If two independent sources of electrical power for particular 
equipment or systems are required by this chapter, in the event of the 
failure of one power source for such equipment or system, another power 
source (including its separate feeder) must be provided automatically or 
be manually selectable to maintain equipment or system operation.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-14, 42 
FR 36973, July 18, 1977; Amdt. 29-24, 49 FR 44439, Nov. 6, 1984]



Sec. 29.1357  Circuit protective devices.

    (a) Automatic protective devices must be used to minimize distress 
to the electrical system and hazard to the rotorcraft system and hazard 
to the rotorcraft in the event of wiring faults or serious malfunction 
of the system or connected equipment.
    (b) The protective and control devices in the generating system must 
be designed to de-energize and disconnect faulty power sources and power 
transmission equipment from their associated buses with sufficient 
rapidity to provide protection from hazardous overvoltage and other 
malfunctioning.
    (c) Each resettable circuit protective device must be designed so 
that, when an overload or circuit fault exists, it will open the circuit 
regardless of the position of the operating control.
    (d) If the ability to reset a circuit breaker or replace a fuse is 
essential to safety in flight, that circuit breaker or fuse must be 
located and identified so

[[Page 703]]

that it can be readily reset or replaced in flight.
    (e) Each essential load must have individual circuit protection. 
However, individual protection for each circuit in an essential load 
system (such as each position light circuit in a system) is not 
required.
    (f) If fuses are used, there must be spare fuses for use in flight 
equal to at least 50 percent of the number of fuses of each rating 
required for complete circuit protection.
    (g) Automatic reset circuit breakers may be used as integral 
protectors for electrical equipment provided there is circuit protection 
for the cable supplying power to the equipment.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-24, 49 
FR 44440, Nov. 6, 1984]



Sec. 29.1359  Electrical system fire and smoke protection.

    (a) Components of the electrical system must meet the applicable 
fire and smoke protection provisions of Secs. 29.831 and 29.863.
    (b) Electrical cables, terminals, and equipment, in designated fire 
zones, and that are used in emergency procedures, must be at least fire 
resistant.
    (c) Insulation on electrical wire and cable installed in the 
rotorcraft must be self-extinguishing when tested in accordance with 
Appendix F, Part I(a)(3), of part 25 of this chapter.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-42, 63 
FR 43285, Aug. 12, 1998]



Sec. 29.1363  Electrical system tests.

    (a) When laboratory tests of the electrical system are conducted--
    (1) The tests must be performed on a mock-up using the same 
generating equipment used in the rotorcraft;
    (2) The equipment must simulate the electrical characteristics of 
the distribution wiring and connected loads to the extent necessary for 
valid test results; and
    (3) Laboratory generator drives must simulate the prime movers on 
the rotorcraft with respect to their reaction to generator loading, 
including loading due to faults.
    (b) For each flight condition that cannot be simulated adequately in 
the laboratory or by ground tests on the rotorcraft, flight tests must 
be made.

                                 Lights



Sec. 29.1381  Instrument lights.

    The instrument lights must--
    (a) Make each instrument, switch, and other device for which they 
are provided easily readable; and
    (b) Be installed so that--
    (1) Their direct rays are shielded from the pilot's eyes; and
    (2) No objectionable reflections are visible to the pilot.



Sec. 29.1383  Landing lights.

    (a) Each required landing or hovering light must be approved.
    (b) Each landing light must be installed so that--
    (1) No objectionable glare is visible to the pilot;
    (2) The pilot is not adversely affected by halation; and
    (3) It provides enough light for night operation, including hovering 
and landing.
    (c) At least one separate switch must be provided, as applicable--
    (1) For each separately installed landing light; and
    (2) For each group of landing lights installed at a common location.



Sec. 29.1385  Position light system installation.

    (a) General. Each part of each position light system must meet the 
applicable requirements of this section and each system as a whole must 
meet the requirements of Secs. 29.1387 through 29.1397.
    (b) Forward position lights. Forward position lights must consist of 
a red and a green light spaced laterally as far apart as practicable and 
installed forward on the rotorcraft so that, with the rotorcraft in the 
normal flying position, the red light is on the left side, and the green 
light is on the right side. Each light must be approved.
    (c) Rear position light. The rear position light must be a white 
light mounted as far aft as practicable, and must be approved.
    (d) Circuit. The two forward position lights and the rear position 
light must make a single circuit.

[[Page 704]]

    (e) Light covers and color filters. Each light cover or color filter 
must be at least flame resistant and may not change color or shape or 
lose any appreciable light transmission during normal use.



Sec. 29.1387  Position light system dihedral angles.

    (a) Except as provided in paragraph (e) of this section, each 
forward and rear position light must, as installed, show unbroken light 
within the dihedral angles described in this section.
    (b) Dihedral angle L (left) is formed by two intersecting vertical 
planes, the first parallel to the longitudinal axis of the rotorcraft, 
and the other at 110 degrees to the left of the first, as viewed when 
looking forward along the longitudinal axis.
    (c) Dihedral angle R (right) is formed by two intersecting vertical 
planes, the first parallel to the longitudinal axis of the rotorcraft, 
and the other at 110 degrees to the right of the first, as viewed when 
looking forward along the longitudinal axis.
    (d) Dihedral angle A (aft) is formed by two intersecting vertical 
planes making angles of 70 degrees to the right and to the left, 
respectively, to a vertical plane passing through the longitudinal axis, 
as viewed when looking aft along the longitudinal axis.
    (e) If the rear position light, when mounted as far aft as 
practicable in accordance with Sec. 29.1385(c), cannot show unbroken 
light within dihedral angle A (as defined in paragraph (d) of this 
section), a solid angle or angles of obstructed visibility totaling not 
more than 0.04 steradians is allowable within that dihedral angle, if 
such solid angle is within a cone whose apex is at the rear position 
light and whose elements make an angle of 30 deg. with a vertical line 
passing through the rear position light.

(49 U.S.C. 1655(c))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-9, 36 
FR 21279, Nov. 5, 1971]



Sec. 29.1389  Position light distribution and intensities.

    (a) General. The intensities prescribed in this section must be 
provided by new equipment with light covers and color filters in place. 
Intensities must be determined with the light source operating at a 
steady value equal to the average luminous output of the source at the 
normal operating voltage of the rotorcraft. The light distribution and 
intensity of each position light must meet the requirements of paragraph 
(b) of this section.
    (b) Forward and rear position lights. The light distribution and 
intensities of forward and rear position lights must be expressed in 
terms of minimum intensities in the horizontal plane, minimum 
intensities in any vertical plane, and maximum intensities in 
overlapping beams, within dihedral angles, L, R, and A, and must meet 
the following requirements:
    (1) Intensities in the horizontal plane. Each intensity in the 
horizontal plane (the plane containing the longitudinal axis of the 
rotorcraft and perpendicular to the plane of symmetry of the 
rotorcraft), must equal or exceed the values in Sec. 29.1391.
    (2) Intensities in any vertical plane. Each intensity in any 
vertical plane (the plane perpendicular to the horizontal plane) must 
equal or exceed the appropriate value in Sec. 29.1393 where I is the 
minimum intensity prescribed in Sec. 29.1391 for the corresponding 
angles in the horizontal plane.
    (3) Intensities in overlaps between adjacent signals. No intensity 
in any overlap between adjacent signals may exceed the values in 
Sec. 29.1395, except that higher intensities in overlaps may be used 
with the use of main beam intensities substantially greater than the 
minima specified in Secs. 29.1391 and 29.1393 if the overlap intensities 
in relation to the main beam intensities do not adversely affect signal 
clarity.



Sec. 29.1391  Minimum intensities in the horizontal plane of forward and rear position lights.

    Each position light intensity must equal or exceed the applicable 
values in the following table:

------------------------------------------------------------------------
                                        Angle from right or
                                       left of longitudinal    Intensity
   Dihedral angle (light included)      axis, measured from    (candles)
                                            dead ahead
------------------------------------------------------------------------
L and R (forward red and green).....  0 deg. to 10 deg......          40
                                      10 deg. to 20 deg.....          30
                                      20 deg. to 110 deg....           5

[[Page 705]]

 
A (rear white)......................  110 deg. to 180 deg...          20
------------------------------------------------------------------------



Sec. 29.1393  Minimum intensities in any vertical plane of forward and rear position lights.

    Each position light intensity must equal or exceed the applicable 
values in the following table:

------------------------------------------------------------------------
                                                              Intensity,
          Angle above or below the horizontal plane                I
------------------------------------------------------------------------
0 deg.......................................................        1.00
0 deg. to 5 deg.............................................         .90
5 deg. to 10 deg............................................         .80
10 deg. to 15 deg...........................................         .70
15 deg. to 20 deg...........................................         .50
20 deg. to 30 deg...........................................         .30
30 deg. to 40 deg...........................................         .10
40 deg. to 90 deg...........................................         .05
------------------------------------------------------------------------



Sec. 29.1395  Maximum intensities in overlapping beams of forward and rear position lights.

    No position light intensity may exceed the applicable values in the 
following table, except as provided in Sec. 29.1389(b)(3).

------------------------------------------------------------------------
                                                    Maximum intensity
                                               -------------------------
                   Overlaps                        Area A       Area B
                                                 (candles)    (candles)
------------------------------------------------------------------------
Green in dihedral angle L.....................           10            1
Red in dihedral angle R.......................           10            1
Green in dihedral angle A.....................            5            1
Red in dihedral angle A.......................            5            1
Rear white in dihedral angle L................            5            1
Rear white in dihedral angle R................            5            1
------------------------------------------------------------------------


Where--
    (a) Area A includes all directions in the adjacent dihedral angle 
that pass through the light source and intersect the common boundary 
plane at more than 10 degrees but less than 20 degrees; and
    (b) Area B includes all directions in the adjacent dihedral angle 
that pass through the light source and intersect the common boundary 
plane at more than 20 degrees.



Sec. 29.1397  Color specifications.

    Each position light color must have the applicable International 
Commission on Illumination chromaticity coordinates as follows:
    (a) Aviation red--

    ``y'' is not greater than 0.335; and
    ``z'' is not greater than 0.002.

    (b) Aviation green--

    ``x'' is not greater than 0.440--0.320y;
    ``x'' is not greater than y--0.170; and
    ``y'' is not less than 0.390--0.170x.

    (c) Aviation white--

    ``x'' is not less than 0.300 and not greater than 0.540;
    ``y'' is not less than ``x--0.040'' or ``yc--0.010,'' 
whichever is the smaller; and
    ``y'' is not greater than ``x+0.020'' nor ``0.636--0.400 x'';
    Where ``Ye'' is the ``y'' coordinate of the Planckian 
radiator for the value of ``x'' considered.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-7, 36 
FR 12972, July 10, 1971]



Sec. 29.1399  Riding light.

    (a) Each riding light required for water operation must be installed 
so that it can--
    (1) Show a white light for at least two miles at night under clear 
atmospheric conditions; and
    (2) Show a maximum practicable unbroken light with the rotorcraft on 
the water.
    (b) Externally hung lights may be used.



Sec. 29.1401  Anticollision light system.

    (a) General. If certification for night operation is requested, the 
rotorcraft must have an anticollision light system that--
    (1) Consists of one or more approved anticollision lights located so 
that their emitted light will not impair the crew's vision or detract 
from the conspicuity of the position lights; and
    (2) Meets the requirements of paragraphs (b) through (f) of this 
section.
    (b) Field of coverage. The system must consist of enough lights to 
illuminate the vital areas around the rotorcraft, considering the 
physical configuration and flight characteristics of the rotorcraft. The 
field of coverage must extend in each direction within at least 30 
degrees above and 30 degrees below the horizontal plane of the 
rotorcraft, except that there may be solid angles of obstructed 
visibility totaling not more than 0.5 steradians.
    (c) Flashing characteristics. The arrangement of the system, that 
is, the

[[Page 706]]

number of light sources, beam width, speed of rotation, and other 
characteristics, must give an effective flash frequency of not less than 
40, nor more than 100, cycles per minute. The effective flash frequency 
is the frequency at which the rotorcraft's complete anticollision light 
system is observed from a distance, and applies to each sector of light 
including any overlaps that exist when the system consists of more than 
one light source. In overlaps, flash frequencies may exceed 100, but not 
180, cycles per minute.
    (d) Color. Each anticollision light must be aviation red and must 
meet the applicable requirements of Sec. 29.1397.
    (e) Light intensity. The minimum light intensities in any vertical 
plane, measured with the red filter (if used) and expressed in terms of 
``effective'' intensities must meet the requirements of paragraph (f) of 
this section. The following relation must be assumed:
[GRAPHIC] [TIFF OMITTED] TC28SE91.090

where:

Ie=effective intensity (candles).
I(t)=instantaneous intensity as a function of time.
t2-tl=flash time interval (seconds).
Normally, the maximum value of effective intensity is obtained when 
t2 and t1 are chosen so that the effective 
intensity is equal to the instantaneous intensity at t2 and 
t1.
    (f) Minimum effective intensities for anticollision light. Each 
anticollision light effective intensity must equal or exceed the 
applicable values in the following table:

------------------------------------------------------------------------
                                                               Effective
          Angle above or below the horizontal plane            intensity
                                                               (candles)
------------------------------------------------------------------------
0 deg. to 5 deg.............................................         150
5 deg. to 10 deg............................................          90
10 deg. to 20 deg...........................................          30
20 deg. to 30 deg...........................................          15
------------------------------------------------------------------------


[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-7, 36 
FR 12972, July 10, 1971; Amdt. 29-11, 41 FR 5290, Feb. 5, 1976]

                            Safety Equipment



Sec. 29.1411  General.

    (a) Accessibility. Required safety equipment to be used by the crew 
in an emergency, such as automatic liferaft releases, must be readily 
accessible.
    (b) Stowage provisions. Stowage provisions for required emergency 
equipment must be furnished and must--
    (1) Be arranged so that the equipment is directly accessible and its 
location is obvious; and
    (2) Protect the safety equipment from inadvertent damage.
    (c) Emergency exit descent device. The stowage provisions for the 
emergency exit descent device required by Sec. 29.809(f) must be at the 
exits for which they are intended.
    (d) Liferafts. Liferafts must be stowed near exits through which the 
rafts can be launched during an unplanned ditching. Rafts automatically 
or remotely released outside the rotorcraft must be attached to the 
rotorcraft by the static line prescribed in Sec. 29.1415.
    (e) Long-range signaling device. The stowage provisions for the 
long-range signaling device required by Sec. 29.1415 must be near an 
exit available during an unplanned ditching.
    (f) Life preservers. Each life preserver must be within easy reach 
of each occupant while seated.



Sec. 29.1413  Safety belts: passenger warning device.

    (a) If there are means to indicate to the passengers when safety 
belts should be fastened, they must be installed to be operated from 
either pilot seat.
    (b) Each safety belt must be equipped with a metal to metal latching 
device.

(Secs. 313, 314, and 601 through 610 of the Federal Aviation Act of 1958 
(49 U.S.C. 1354, 1355, and 1421 through 1430) and sec. 6(c), Dept. of 
Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-16 43 
FR 46233, Oct. 5, 1978]

[[Page 707]]



Sec. 29.1415  Ditching equipment.

    (a) Emergency flotation and signaling equipment required by any 
operating rule of this chapter must meet the requirements of this 
section.
    (b) Each liferaft and each life preserver must be approved. In 
addition--
    (1) Provide not less than two rafts, of an approximately equal rated 
capacity and buoyancy to accommodate the occupants of the rotorcraft; 
and
    (2) Each raft must have a trailing line, and must have a static line 
designed to hold the raft near the rotorcraft but to release it if the 
rotorcraft becomes totally submerged.
    (c) Approved survival equipment must be attached to each liferaft.
    (d) There must be an approved survival type emergency locator 
transmitter for use in one life raft.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-8, 36 
FR 18722, Sept. 21, 1971; Amdt. 29-19, 45 FR 38348, June 9, 1980; Amdt. 
27-26, 55 FR 8005, Mar. 6, 1990; Amdt. 29-33, 59 FR 32057, June 21, 
1994]



Sec. 29.1419  Ice protection.

    (a) To obtain certification for flight into icing conditions, 
compliance with this section must be shown.
    (b) It must be demonstrated that the rotorcraft can be safely 
operated in the continuous maximum and intermittent maximum icing 
conditions determined under appendix C of this part within the 
rotorcraft altitude envelope. An analysis must be performed to 
establish, on the basis of the rotorcraft's operational needs, the 
adequacy of the ice protection system for the various components of the 
rotorcraft.
    (c) In addition to the analysis and physical evaluation prescribed 
in paragraph (b) of this section, the effectiveness of the ice 
protection system and its components must be shown by flight tests of 
the rotorcraft or its components in measured natural atmospheric icing 
conditions and by one or more of the following tests as found necessary 
to determine the adequacy of the ice protection system:
    (1) Laboratory dry air or simulated icing tests, or a combination of 
both, of the components or models of the components.
    (2) Flight dry air tests of the ice protection system as a whole, or 
its individual components.
    (3) Flight tests of the rotorcraft or its components in measured 
simulated icing conditions.
    (d) The ice protection provisions of this section are considered to 
be applicable primarily to the airframe. Powerplant installation 
requirements are contained in Subpart E of this part.
    (e) A means must be identified or provided for determining the 
formation of ice on critical parts of the rotorcraft. Unless otherwise 
restricted, the means must be available for nighttime as well as daytime 
operation. The rotorcraft flight manual must describe the means of 
determining ice formation and must contain information necessary for 
safe operation of the rotorcraft in icing conditions.

[Amdt. 29-21, 48 FR 4391, Jan. 31, 1983]

                         Miscellaneous Equipment



Sec. 29.1431  Electronic equipment.

    (a) Radio communication and navigation equipment installations must 
be free from hazards in themselves, in their method of operation, and in 
their effects on other components, under any critical environmental 
conditions.
    (b) Radio communication and navigation equipment, controls, and 
wiring must be installed so that operation of any one unit or system of 
units will not adversely affect the simultaneous operation of any other 
radio or electronic unit, or system of units, required by this chapter.



Sec. 29.1433  Vacuum systems.

    (a) There must be means, in addition to the normal pressure relief, 
to automatically relieve the pressure in the discharge lines from the 
vacuum air pump when the delivery temperature of the air becomes unsafe.
    (b) Each vacuum air system line and fitting on the discharge side of 
the pump that might contain flammable vapors or fluids must meet the 
requirements of Sec. 29.1183 if they are in a designated fire zone.
    (c) Other vacuum air system components in designated fire zones must 
be at least fire resistant.

[[Page 708]]



Sec. 29.1435  Hydraulic systems.

    (a) Design. Each hydraulic system must be designed as follows:
    (1) Each element of the hydraulic system must be designed to 
withstand, without detrimental, permanent deformation, any structural 
loads that may be imposed simultaneously with the maximum operating 
hydraulic loads.
    (2) Each element of the hydraulic system must be designed to 
withstand pressures sufficiently greater than those prescribed in 
paragraph (b) of this section to show that the system will not rupture 
under service conditions.
    (3) There must be means to indicate the pressure in each main 
hydraulic power system.
    (4) There must be means to ensure that no pressure in any part of 
the system will exceed a safe limit above the maximum operating pressure 
of the system, and to prevent excessive pressures resulting from any 
fluid volumetric change in lines likely to remain closed long enough for 
such a change to take place. The possibility of detrimental transient 
(surge) pressures during operation must be considered.
    (5) Each hydraulic line, fitting, and component must be installed 
and supported to prevent excessive vibration and to withstand inertia 
loads. Each element of the installation must be protected from abrasion, 
corrosion, and mechanical damage.
    (6) Means for providing flexibility must be used to connect points, 
in a hydraulic fluid line, between which relative motion or differential 
vibration exists.
    (b) Tests. Each element of the system must be tested to a proof 
pressure of 1.5 times the maximum pressure to which that element will be 
subjected in normal operation, without failure, malfunction, or 
detrimental deformation of any part of the system.
    (c) Fire protection. Each hydraulic system using flammable hydraulic 
fluid must meet the applicable requirements of Secs. 29.861, 29.1183, 
29.1185, and 29.1189.



Sec. 29.1439  Protective breathing equipment.

    (a) If one or more cargo or baggage compartments are to be 
accessible in flight, protective breathing equipment must be available 
for an appropriate crewmember.
    (b) For protective breathing equipment required by paragraph (a) of 
this section or by any operating rule of this chapter--
    (1) That equipment must be designed to protect the crew from smoke, 
carbon dioxide, and other harmful gases while on flight deck duty;
    (2) That equipment must include--
    (i) Masks covering the eyes, nose, and mouth; or
    (ii) Masks covering the nose and mouth, plus accessory equipment to 
protect the eyes; and
    (3) That equipment must supply protective oxygen of 10 minutes 
duration per crewmember at a pressure altitude of 8,000 feet with a 
respiratory minute volume of 30 liters per minute BTPD.



Sec. 29.1457  Cockpit voice recorders.

    (a) Each cockpit voice recorder required by the operating rules of 
this chapter must be approved, and must be installed so that it will 
record the following:
    (1) Voice communications transmitted from or received in the 
rotorcraft by radio.
    (2) Voice communications of flight crewmembers on the flight deck.
    (3) Voice communications of flight crewmembers on the flight deck, 
using the rotorcraft's interphone system.
    (4) Voice or audio signals identifying navigation or approach aids 
introduced into a headset or speaker.
    (5) Voice communications of flight crewmembers using the passenger 
loudspeaker system, if there is such a system, and if the fourth channel 
is available in accordance with the requirements of paragraph (c)(4)(ii) 
of this section.
    (b) The recording requirements of paragraph (a)(2) of this section 
may be met--
    (1) By installing a cockpit-mounted area microphone, located in the 
best position for recording voice communications originating at the 
first and second pilot stations and voice communications of other 
crewmembers on the flight deck when directed to those stations; or

[[Page 709]]

    (2) By installing a continually energized or voice-actuated lip 
microphone at the first and second pilot stations.

The microphone specified in this paragraph must be so located and, if 
necessary, the preamplifiers and filters of the recorder must be so 
adjusted or supplemented, that the recorded communications are 
intelligible when recorded under flight cockpit noise conditions and 
played back. The level of intelligibility must be approved by the 
Administrator. Repeated aural or visual playback of the record may be 
used in evaluating intelligibility.
    (c) Each cockpit voice recorder must be installed so that the part 
of the communication or audio signals specified in paragraph (a) of this 
section obtained from each of the following sources is recorded on a 
separate channel:
    (1) For the first channel, from each microphone, headset, or speaker 
used at the first pilot station.
    (2) For the second channel, from each microphone, headset, or 
speaker used at the second pilot station.
    (3) For the third channel, from the cockpit-mounted area microphone, 
or the continually energized or voice-actuated lip microphones at the 
first and second pilot stations.
    (4) For the fourth channel, from--
    (i) Each microphone, headset, or speaker used at the stations for 
the third and fourth crewmembers; or
    (ii) If the stations specified in paragraph (c)(4)(i) of this 
section are not required or if the signal at such a station is picked up 
by another channel, each microphone on the flight deck that is used with 
the passenger loudspeaker system if its signals are not picked up by 
another channel.
    (iii) Each microphone on the flight deck that is used with the 
rotorcraft's loudspeaker system if its signals are not picked up by 
another channel.
    (d) Each cockpit voice recorder must be installed so that--
    (1) It receives its electric power from the bus that provides the 
maximum reliability for operation of the cockpit voice recorder without 
jeopardizing service to essential or emergency loads;
    (2) There is an automatic means to simultaneously stop the recorder 
and prevent each erasure feature from functioning, within 10 minutes 
after crash impact; and
    (3) There is an aural or visual means for preflight checking of the 
recorder for proper operation.
    (e) The record container must be located and mounted to minimize the 
probability of rupture of the container as a result of crash impact and 
consequent heat damage to the record from fire.
    (f) If the cockpit voice recorder has a bulk erasure device, the 
installation must be designed to minimize the probability of inadvertent 
operation and actuation of the device during crash impact.
    (g) Each recorder container must be either bright orange or bright 
yellow.

[Amdt. 29-6, 35 FR 7293, May 9, 1970]



Sec. 29.1459  Flight recorders.

    (a) Each flight recorder required by the operating rules of 
Subchapter G of this chapter must be installed so that:
    (1) It is supplied with airspeed, altitude, and directional data 
obtained from sources that meet the accuracy requirements of 
Secs. 29.1323, 29.1325, and 29.1327 of this part, as applicable;
    (2) The vertical acceleration sensor is rigidly attached, and 
located longitudinally within the approved center of gravity limits of 
the rotorcraft;
    (3) It receives its electrical power from the bus that provides the 
maximum reliability for operation of the flight recorder without 
jeopardizing service to essential or emergency loads;
    (4) There is an aural or visual means for perflight checking of the 
recorder for proper recording of data in the storage medium; and
    (5) Except for recorders powered solely by the engine-drive 
electrical generator system, there is an automatic means to 
simultaneously stop a recorder that has a data erasure feature and 
prevent each erasure feature from functioning, within 10 minutes after 
any crash impact.
    (b) Each nonejectable recorder container must be located and mounted 
so as to minimize the probability of container rupture resulting from 
crash impact and subsequent damage to the record from fire.

[[Page 710]]

    (c) A correlation must be established between the flight recorder 
readings of airspeed, altitude, and heading and the corresponding 
readings (taking into account correction factors) of the first pilot's 
instruments. This correlation must cover the airspeed range over which 
the aircraft is to be operated, the range of altitude to which the 
aircraft is limited, and 360 degrees of heading. Correlation may be 
established on the ground as appropriate.
    (d) Each recorder container must:
    (1) Be either bright orange or bright yellow;
    (2) Have a reflective tape affixed to its external surface to 
facilitate its location under water; and
    (3) Have an underwater locating device, when required by the 
operating rules of this chapter, on or adjacent to the container which 
is secured in such a manner that it is not likely to be separated during 
crash impact.

[Amdt. 29-25, 53 FR 26145, July 11, 1988; 53 FR 26144, July 11, 1988]



Sec. 29.1461  Equipment containing high energy rotors.

    (a) Equipment containing high energy rotors must meet paragraph (b), 
(c), or (d) of this section.
    (b) High energy rotors contained in equipment must be able to 
withstand damage caused by malfunctions, vibration, abnormal speeds, and 
abnormal temperatures. In addition--
    (1) Auxiliary rotor cases must be able to contain damage caused by 
the failure of high energy rotor blades; and
    (2) Equipment control devices, systems, and instrumentation must 
reasonably ensure that no operating limitations affecting the integrity 
of high energy rotors will be exceeded in service.
    (c) It must be shown by test that equipment containing high energy 
rotors can contain any failure of a high energy rotor that occurs at the 
highest speed obtainable with the normal speed control devices 
inoperative.
    (d) Equipment containing high energy rotors must be located where 
rotor failure will neither endanger the occupants nor adversely affect 
continued safe flight.

[Amdt. 29-3, 33 FR 971, Jan. 26, 1968]



            Subpart G--Operating Limitations and Information



Sec. 29.1501  General.

    (a) Each operating limitation specified in Secs. 29.1503 through 
29.1525 and other limitations and information necessary for safe 
operation must be established.
    (b) The operating limitations and other information necessary for 
safe operation must be made available to the crewmembers as prescribed 
in Secs. 29.1541 through 29.1589.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 29-15, 43 FR 2327, Jan. 16, 1978]

                          Operating Limitations



Sec. 29.1503  Airspeed limitations: general.

    (a) An operating speed range must be established.
    (b) When airspeed limitations are a function of weight, weight 
distribution, altitude, rotor speed, power, or other factors, airspeed 
limitations corresponding with the critical combinations of these 
factors must be established.



Sec. 29.1505  Never-exceed speed.

    (a) The never-exceed speed, VNE, must be established so 
that it is--
    (1) Not less than 40 knots (CAS); and
    (2) Not more than the lesser of--
    (i) 0.9 times the maximum forward speeds established under 
Sec. 29.309;
    (ii) 0.9 times the maximum speed shown under Secs. 29.251 and 
29.629; or
    (iii) 0.9 times the maximum speed substantiated for advancing blade 
tip mach number effects under critical altitude conditions.
    (b) VNE may vary with altitude, r.p.m., temperature, and 
weight, if--
    (1) No more than two of these variables (or no more than two 
instruments integrating more than one of these variables) are used at 
one time; and
    (2) The ranges of these variables (or of the indications on 
instruments integrating more than one of these variables) are large 
enough to allow an

[[Page 711]]

operationally practical and safe variation of VNE.
    (c) For helicopters, a stabilized power-off VNE denoted 
as VNE (power-off) may be established at a speed less than 
VNE established pursuant to paragraph (a) of this section, if 
the following conditions are met:
    (1) VNE (power-off) is not less than a speed midway 
between the power-on VNE and the speed used in meeting the 
requirements of--
    (i) Sec. 29.67(a)(3) for Category A helicopters;
    (ii) Sec. 29.65(a) for Category B helicopters, except multi-engine 
helicopters meeting the requirements of Sec. 29.67(b); and
    (iii) Sec. 29.67(b) for multi-engine Category B helicopters meeting 
the requirements of Sec. 29.67(b).
    (2) VNE (power-off) is--
    (i) A constant airspeed;
    (ii) A constant amount less than power-on VNE; or
    (iii) A constant airspeed for a portion of the altitude range for 
which certification is requested, and a constant amount less than power-
on VNE for the remainder of the altitude range.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 29-3, 33 FR 971, Jan. 26, 1968, as amended by Amdt. 29-15, 43 FR 
2327, Jan. 16, 1978; Amdt. 29-24, 49 FR 44440, Nov. 6, 1984]



Sec. 29.1509  Rotor speed.

    (a) Maximum power-off (autorotation). The maximum power-off rotor 
speed must be established so that it does not exceed 95 percent of the 
lesser of--
    (1) The maximum design r.p.m. determined under Sec. 29.309(b); and
    (2) The maximum r.p.m. shown during the type tests.
    (b) Minimum power-off. The minimum power-off rotor speed must be 
established so that it is not less than 105 percent of the greater of--
    (1) The minimum shown during the type tests; and
    (2) The minimum determined by design substantiation.
    (c) Minimum power-on. The minimum power-on rotor speed must be 
established so that it is--
    (1) Not less than the greater of--
    (i) The minimum shown during the type tests; and
    (ii) The minimum determined by design substantiation; and
    (2) Not more than a value determined under Sec. 29.33 (a)(1) and 
(c)(1).



Sec. 29.1517  Limiting height-speed envelope.

    For Category A rotorcraft, if a range of heights exists at any 
speed, including zero, within which it is not possible to make a safe 
landing following power failure, the range of heights and its variation 
with forward speed must be established, together with any other 
pertinent information, such as the kind of landing surface.

[Amdt. 29-21, 48 FR 4391, Jan. 31, 1983]



Sec. 29.1519  Weight and center of gravity.

    The weight and center of gravity limitations determined under 
Secs. 29.25 and 29.27, respectively, must be established as operating 
limitations.



Sec. 29.1521  Powerplant limitations.

    (a) General. The powerplant limitations prescribed in this section 
must be established so that they do not exceed the corresponding limits 
for which the engines are type certificated.
    (b) Takeoff operation. The powerplant takeoff operation must be 
limited by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value shown during the type tests;
    (2) The maximum allowable manifold pressure (for reciprocating 
engines);
    (3) The maximum allowable turbine inlet or turbine outlet gas 
temperature (for turbine engines);
    (4) The maximum allowable power or torque for each engine, 
considering the power input limitations of the transmission with all 
engines operating;
    (5) The maximum allowable power or torque for each engine 
considering the power input limitations of the transmission with one 
engine inoperative;
    (6) The time limit for the use of the power corresponding to the 
limitations established in paragraphs (b)(1) through (5) of this 
section; and

[[Page 712]]

    (7) If the time limit established in paragraph (b)(6) of this 
section exceeds 2 minutes--
    (i) The maximum allowable cylinder head or coolant outlet 
temperature (for reciprocating engines); and
    (ii) The maximum allowable engine and transmission oil temperatures.
    (c) Continuous operation. The continuous operation must be limited 
by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value shown during the type tests;
    (2) The minimum rotational speed shown under the rotor speed 
requirements in Sec. 29.1509(c).
    (3) The maximum allowable manifold pressure (for reciprocating 
engines);
    (4) The maximum allowable turbine inlet or turbine outlet gas 
temperature (for turbine engines);
    (5) The maximum allowable power or torque for each engine, 
considering the power input limitations of the transmission with all 
engines operating;
    (6) The maximum allowable power or torque for each engine, 
considering the power input limitations of the transmission with one 
engine inoperative; and
    (7) The maximum allowable temperatures for--
    (i) The cylinder head or coolant outlet (for reciprocating engines);
    (ii) The engine oil; and
    (iii) The transmission oil.
    (d) Fuel grade or designation. The minimum fuel grade (for 
reciprocating engines) or fuel designation (for turbine engines) must be 
established so that it is not less than that required for the operation 
of the engines within the limitations in paragraphs (b) and (c) of this 
section.
    (e) Ambient temperature. Ambient temperature limitations (including 
limitations for winterization installations if applicable) must be 
established as the maximum ambient atmospheric temperature at which 
compliance with the cooling provisions of Secs. 29.1041 through 29.1049 
is shown.
    (f) Two and one-half minute OEI power operation. Unless otherwise 
authorized, the use of 2\1/2\-minute OEI power must be limited to engine 
failure operation of multiengine, turbine-powered rotorcraft for not 
longer than 2\1/2\ minutes for any period in which that power is used. 
The use of 2\1/2\-minute OEI power must also be limited by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value shown during the type tests;
    (2) The maximum allowable gas temperature;
    (3) The maximum allowable torque; and
    (4) The maximum allowable oil temperature.
    (g) Thirty-minute OEI power operation. Unless otherwise authorized, 
the use of 30-minute OEI power must be limited to multiengine, turbine-
powered rotorcraft for not longer than 30 minutes after failure of an 
engine. The use of 30-minute OEI power must also be limited by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value shown during the type tests;
    (2) The maximum allowable gas temperature;
    (3) The maximum allowable torque; and
    (4) The maximum allowable oil temperature.
    (h) Continuous OEI power operation. Unless otherwise authorized, the 
use of continuous OEI power must be limited to multiengine, turbine-
powered rotorcraft for continued flight after failure of an engine. The 
use of continuous OEI power must also be limited by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value shown during the type tests.
    (2) The maximum allowable gas temperature;
    (3) The maximum allowable torque; and
    (4) The maximum allowable oil temperature.
    (i) Rated 30-second OEI power operation. Rated 30-second OEI power 
is

[[Page 713]]

permitted only on multiengine, turbine-powered rotorcraft, also 
certificated for the use of rated 2-minute OEI power, and can only be 
used for continued operation of the remaining engine(s) after a failure 
or precautionary shutdown of an engine. It must be shown that following 
application of 30-second OEI power, any damage will be readily 
detectable by the applicable inspections and other related procedures 
furnished in accordance with Section A29.4 of appendix A of this part 
and Section A33.4 of appendix A of part 33. The use of 30-second OEI 
power must be limited to not more than 30 seconds for any period in 
which that power is used, and by--
    (1) The maximum rotational speed which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value demonstrated during the type tests;
    (2) The maximum allowable gas temperature; and
    (3) The maximum allowable torque.
    (j) Rated 2-minute OEI power operation. Rated 2-minute OEI power is 
permitted only on multiengine, turbine-powered rotorcraft, also 
certificated for the use of rated 30-second OEI power, and can only be 
used for continued operation of the remaining engine(s) after a failure 
or precautionary shutdown of an engine. It must be shown that following 
application of 2-minute OEI power, any damage will be readily detectable 
by the applicable inspections and other related procedures furnished in 
accordance with Section A29.4 of appendix a of this part and Section 
A33.4 of appendix A of part 33. The use of 2-minute OEI power must be 
limited to not more than 2 minutes for any period in which that power is 
used, and by--
    (1) The maximum rotational speed, which may not be greater than--
    (i) The maximum value determined by the rotor design; or
    (ii) The maximum value demonstrated during the type tests;
    (2) The maximum allowable gas temperature; and
    (3) The maximum allowable torque.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-1, 30 
FR 8778, July 13, 1965; Amdt. 29-3, 33 FR 971, Jan. 26, 1968; Amdt. 29-
15, 43 FR 2327, Jan. 16, 1978; Amdt. 29-26, 53 FR 34220, Sept. 2, 1988; 
Amdt. 29-34, 59 FR 47768, Sept. 16, 1994; Amdt. 29-41, 62 FR 46173, Aug. 
29, 1997]



Sec. 29.1522  Auxiliary power unit limitations.

    If an auxiliary power unit that meets the requirements of TSO-C77 is 
installed in the rotorcraft, the limitations established for that 
auxiliary power unit under the TSO including the categories of operation 
must be specified as operating limitations for the rotorcraft.

(Secs. 313(a), 601, 603, 604, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, 1423), sec. 6(c), Dept. of Transportation Act (49 U.S.C. 
1655(c)))

[Amdt. 29-17, 43 FR 50602, Oct. 30, 1978]



Sec. 29.1523  Minimum flight crew.

    The minimum flight crew must be established so that it is sufficient 
for safe operation, considering--
    (a) The workload on individual crewmembers;
    (b) The accessibility and ease of operation of necessary controls by 
the appropriate crewmember; and
    (c) The kinds of operation authorized under Sec. 29.1525.



Sec. 29.1525  Kinds of operations.

    The kinds of operations (such as VFR, IFR, day, night, or icing) for 
which the rotorcraft is approved are established by demonstrated 
compliance with the applicable certification requirements and by the 
installed equipment.

[Amdt. 29-24, 49 FR 44440, Nov. 6, 1984]



Sec. 29.1527  Maximum operating altitude.

    The maximum altitude up to which operation is allowed, as limited by

[[Page 714]]

flight, structural, powerplant, functional, or equipment 
characteristics, must be established.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 29-15, 43 FR 2327, Jan. 16, 1978]



Sec. 29.1529  Instructions for Continued Airworthiness.

    The applicant must prepare Instructions for Continued Airworthiness 
in accordance with appendix A to this part that are acceptable to the 
Administrator. The instructions may be incomplete at type certification 
if a program exists to ensure their completion prior to delivery of the 
first rotorcraft or issuance of a standard certificate of airworthiness, 
whichever occurs later.

[Amdt. 29-20, 45 FR 60178, Sept. 11, 1980]

                          Markings and Placards



Sec. 29.1541  General.

    (a) The rotorcraft must contain--
    (1) The markings and placards specified in Secs. 29.1545 through 
29.1565; and
    (2) Any additional information, instrument markings, and placards 
required for the safe operation of the rotorcraft if it has unusual 
design, operating or handling characteristics.
    (b) Each marking and placard prescribed in paragraph (a) of this 
section--
    (1) Must be displayed in a conspicuous place; and
    (2) May not be easily erased, disfig-ured, or obscured.



Sec. 29.1543  Instrument markings: general.

    For each instrument--
    (a) When markings are on the cover glass of the instrument there 
must be means to maintain the correct alignment of the glass cover with 
the face of the dial; and
    (b) Each arc and line must be wide enough, and located to be clearly 
visible to the pilot.



Sec. 29.1545  Airspeed indicator.

    (a) Each airspeed indicator must be marked as specified in paragraph 
(b) of this section, with the marks located at the corresponding 
indicated airspeeds.
    (b) The following markings must be made:
    (1) A red radial line--
    (i) For rotorcraft other than helicopters, at VNE; and
    (ii) For helicopters, at a VNE (power-on).
    (2) A red, cross-hatched radial line at VNE (power-off) 
for helicopters, if VNE (power-off) is less than VNE 
(power-on).
    (3) For the caution range, a yellow arc.
    (4) For the safe operating range, a green arc.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-15, 43 
FR 2327, Jan. 16, 1978; 43 FR 3900, Jan. 30, 1978; Amdt. 29-17, 43 FR 
50602, Oct. 30, 1978]



Sec. 29.1547  Magnetic direction indicator.

    (a) A placard meeting the requirements of this section must be 
installed on or near the magnetic direction indicator.
    (b) The placard must show the calibration of the instrument in level 
flight with the engines operating.
    (c) The placard must state whether the calibration was made with 
radio receivers on or off.
    (d) Each calibration reading must be in terms of magnetic heading in 
not more than 45 degree increments.



Sec. 29.1549  Powerplant instruments.

    For each required powerplant instrument, as appropriate to the type 
of instruments--
    (a) Each maximum and, if applicable, minimum safe operating limit 
must be marked with a red radial or a red line;
    (b) Each normal operating range must be marked with a green arc or 
green line, not extending beyond the maximum and minimum safe limits;
    (c) Each takeoff and precautionary range must be marked with a 
yellow arc or yellow line;
    (d) Each engine or propeller range that is restricted because of 
excessive vibration stresses must be marked with red arcs or red lines; 
and

[[Page 715]]

    (e) Each OEI limit or approved operating range must be marked to be 
clearly differentiated from the markings of paragraphs (a) through (d) 
of this section except that no marking is normally required for the 30-
second OEI limit.

[Amdt. 29-12, 41 FR 55474, Dec. 20, 1976, as amended by Amdt. 29-26, 53 
FR 34220, Sept. 2, 1988; Amdt. 29-34, 59 FR 47769, Sept. 16, 1994]



Sec. 29.1551  Oil quantity indicator.

    Each oil quantity indicator must be marked with enough increments to 
indicate readily and accurately the quantity of oil.



Sec. 29.1553  Fuel quantity indicator.

    If the unusable fuel supply for any tank exceeds one gallon, or five 
percent of the tank capacity, whichever is greater, a red arc must be 
marked on its indicator extending from the calibrated zero reading to 
the lowest reading obtainable in level flight.



Sec. 29.1555  Control markings.

    (a) Each cockpit control, other than primary flight controls or 
control whose function is obvious, must be plainly marked as to its 
function and method of operation.
    (b) For powerplant fuel controls--
    (1) Each fuel tank selector valve control must be marked to indicate 
the position corresponding to each tank and to each existing cross feed 
position;
    (2) If safe operation requires the use of any tanks in a specific 
sequence, that sequence must be marked on, or adjacent to, the selector 
for those tanks; and
    (3) Each valve control for any engine of a multiengine rotorcraft 
must be marked to indicate the position corresponding to each engine 
controlled.
    (c) Usable fuel capacity must be marked as follows:
    (1) For fuel systems having no selector controls, the usable fuel 
capacity of the system must be indicated at the fuel quantity indicator.
    (2) For fuel systems having selector controls, the usable fuel 
capacity available at each selector control position must be indicated 
near the selector control.
    (d) For accessory, auxiliary, and emergency controls--
    (1) Each essential visual position indicator, such as those showing 
rotor pitch or landing gear position, must be marked so that each 
crewmember can determine at any time the position of the unit to which 
it relates; and
    (2) Each emergency control must be red and must be marked as to 
method of operation.
    (e) For rotorcraft incorporating retractable landing gear, the 
maximum landing gear operating speed must be displayed in clear view of 
the pilot.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-12, 41 
FR 55474, Dec. 20, 1976; Amdt. 29-24, 49 FR 44440, Nov. 6, 1984]



Sec. 29.1557  Miscellaneous markings and placards.

    (a) Baggage and cargo compartments, and ballast location. Each 
baggage and cargo compartment, and each ballast location must have a 
placard stating any limitations on contents, including weight, that are 
necessary under the loading requirements.
    (b) Seats. If the maximum allowable weight to be carried in a seat 
is less than 170 pounds, a placard stating the lesser weight must be 
permanently attached to the seat structure.
    (c) Fuel and oil filler openings. The following apply:
    (1) Fuel filler openings must be marked at or near the filler cover 
with--
    (i) The word ``fuel'';
    (ii) For reciprocating engine powered rotorcraft, the minimum fuel 
grade;
    (iii) For turbine-engine-powered rotorcraft, the permissible fuel 
designations, except that if impractical, this information may be 
included in the rotorcraft flight manual, and the fuel filler may be 
marked with an appropriate reference to the flight manual; and
    (iv) For pressure fueling systems, the maximum permissible fueling 
supply pressure and the maximum permissible defueling pressure.
    (2) Oil filler openings must be marked at or near the filler cover 
with the word ``oil''.
    (d) Emergency exit placards. Each placard and operating control for 
each emergency exit must differ in color from the surrounding fuselage 
surface as prescribed in Sec. 29.811(h)(2). A placard

[[Page 716]]

must be near each emergency exit control and must clearly indicate the 
location of that exit and its method of operation.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 971, Jan. 26, 1968; Amdt. 29-12, 41 FR 55474, Dec. 20, 1976; Amdt. 
29-26, 53 FR 34220, Sept. 2, 1988]



Sec. 29.1559  Limitations placard.

    There must be a placard in clear view of the pilot that specifies 
the kinds of operations (VFR, IFR, day, night, or icing) for which the 
rotorcraft is approved.

[Amdt. 29-24, 49 FR 44440, Nov. 6, 1984]



Sec. 29.1561  Safety equipment.

    (a) Each safety equipment control to be operated by the crew in 
emergency, such as controls for automatic liferaft releases, must be 
plainly marked as to its method of operation.
    (b) Each location, such as a locker or compartment, that carries any 
fire extinguishing, signaling, or other life saving equipment, must be 
so marked.
    (c) Stowage provisions for required emergency equipment must be 
conspicuously marked to identify the contents and facilitate removal of 
the equipment.
    (d) Each liferaft must have obviously marked operating instructions.
    (e) Approved survival equipment must be marked for identification 
and method of operation.



Sec. 29.1565  Tail rotor.

    Each tail rotor must be marked so that its disc is conspicuous under 
normal daylight ground conditions.

[Amdt. 29-3, 33 FR 971, Jan. 26, 1968]

                        Rotorcraft Flight Manual



Sec. 29.1581  General.

    (a) Furnishing information. A Rotorcraft Flight Manual must be 
furnished with each rotorcraft, and it must contain the following:
    (1) Information required by Secs. 29.1583 through 29.1589.
    (2) Other information that is necessary for safe operation because 
of design, operating, or handling characteristics.
    (b) Approved information. Each part of the manual listed in 
Secs. 29.1583 through 29.1589 that is appropriate to the rotorcraft, 
must be furnished, verified, and approved, and must be segregated, 
indentified, and clearly distinguished from each unapproved part of that 
manual.
    (c) [Reserved]
    (d) Table of contents. Each Rotorcraft Flight Manual must include a 
table of contents if the complexity of the manual indicates a need for 
it.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 29-15, 43 FR 2327, Jan. 16, 1978]



Sec. 29.1583  Operating limitations.

    (a) Airspeed and rotor limitations. Information necessary for the 
marking of airspeed and rotor limitations on or near their respective 
indicators must be furnished. The significance of each limitation and of 
the color coding must be explained.
    (b) Powerplant limitations. The following information must be 
furnished:
    (1) Limitations required by Sec. 29.1521.
    (2) Explanation of the limitations, when appropriate.
    (3) Information necessary for marking the instruments required by 
Secs. 29.1549 through 29.1553.
    (c) Weight and loading distribution. The weight and center of 
gravity limits required by Secs. 29.25 and 29.27, respectively, must be 
furnished. If the variety of possible loading conditions warrants, 
instructions must be included to allow ready observance of the 
limitations.
    (d) Flight crew. When a flight crew of more than one is required, 
the number and functions of the minimum flight crew determined under 
Sec. 29.1523 must be furnished.
    (e) Kinds of operation. Each kind of operation for which the 
rotorcraft and its equipment installations are approved must be listed.
    (f) Limiting heights. Enough information must be furnished to allow 
compliance with Sec. 29.1517.
    (g) Maximum allowable wind. For Category A rotorcraft, the maximum 
allowable wind for safe operation near the ground must be furnished.

[[Page 717]]

    (h) Altitude. The altitude established under Sec. 29.1527 and an 
explanation of the limiting factors must be furnished.
    (i) Ambient temperature. Maximum and minimum ambient temperature 
limitations must be furnished.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-3, 33 
FR 971, Jan. 26, 1968; Amdt. 29-15, 43 FR 2327, Jan. 16, 1978; Amdt. 29-
17, 43 FR 50602, Oct. 30, 1978; Amdt. 29-24, 49 FR 44440, Nov. 6, 1984]



Sec. 29.1585  Operating procedures.

    (a) The parts of the manual containing operating procedures must 
have information concerning any normal and emergency procedures, and 
other information necessary for safe operation, including the applicable 
procedures, such as those involving minimum speeds, to be followed if an 
engine fails.
    (b) For multiengine rotorcraft, information identifying each 
operating condition in which the fuel system independence prescribed in 
Sec. 29.953 is necessary for safety must be furnished, together with 
instructions for placing the fuel system in a configuration used to show 
compliance with that section.
    (c) For helicopters for which a VNE (power-off) is 
established under Sec. 29.1505(c), information must be furnished to 
explain the VNE (power-off) and the procedures for reducing 
airspeed to not more than the VNE (power-off) following 
failure of all engines.
    (d) For each rotorcraft showing compliance with Sec. 29.1353 
(c)(6)(ii) or (c)(6)(iii), the operating procedures for disconnecting 
the battery from its charging source must be furnished.
    (e) If the unusable fuel supply in any tank exceeds 5 percent of the 
tank capacity, or 1 gallon, whichever is greater, information must be 
furnished which indicates that when the fuel quantity indicator reads 
``zero'' in level flight, any fuel remaining in the fuel tank cannot be 
used safely in flight.
    (f) Information on the total quantity of usable fuel for each fuel 
tank must be furnished.
    (g) For Category B rotorcraft, the airspeeds and corresponding rotor 
speeds for minimum rate of descent and best glide angle as prescribed in 
Sec. 29.71 must be provided.

(Secs. 313(a), 601, 603, 604, and 605 of the Federal Aviation Act of 
1958 (49 U.S.C. 1354(a), 1421, 1423, 1424, and 1425); and sec. 6(c), 
Dept. of Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 29-2, 32 FR 6914, May 5, 1967, as amended by Amdt. 29-15, 43 FR 
2328, Jan. 16, 1978; Amdt. 29-17, 43 FR 50602, Oct. 30, 1978; Amdt. 29-
24, 49 FR 44440, Nov. 6, 1984]



Sec. 29.1587  Performance information.

    Flight manual performance information which exceeds any operating 
limitation may be shown only to the extent necessary for presentation 
clarity or to determine the effects of approved optional equipment or 
procedures. When data beyond operating limits are shown, the limits must 
be clearly indicated. The following must be provided:
    (a) Category A. For each category A rotorcraft, the Rotorcraft 
Flight Manual must contain a summary of the performance data, including 
data necessary for the application of any operating rule of this 
chapter, together with descriptions of the conditions, such as 
airspeeds, under which this data was determined, and must contain--
    (1) The indicated airspeeds corresponding with those determined for 
takeoff, and the procedures to be followed if the critical engine fails 
during takeoff;
    (2) The airspeed calibrations;
    (3) The techniques, associated airspeeds, and rates of descent for 
autorotative landings;
    (4) The rejected takeoff distance determined under Sec. 29.62 and 
the takeoff distance determined under Sec. 29.61;
    (5) The landing data determined under Sec. 29.81 and Sec. 29.85;
    (6) The steady gradient of climb for each weight, altitude, and 
temperature for which takeoff data are to be scheduled, along the 
takeoff path determined in the flight conditions required in 
Sec. 29.67(a)(1) and (a)(2):
    (i) In the flight conditions required in Sec. 29.67(a)(1) between 
the end of the takeoff distance and the point at which the rotorcraft is 
200 feet above the takeoff surface (or 200 feet above the

[[Page 718]]

lowest point of the takeoff profile for elevated heliports);
    (ii) In the flight conditions required in Sec. 29.67(a)(2) between 
the points at which the rotorcraft is 200 and 1000 feet above the 
takeoff surface (or 200 and 1000 feet above the lowest point of the 
takeoff profile for elevated heliports); and
    (7) Out-of-ground effect hover performance determined under 
Sec. 29.49 and the maximum safe wind demonstrated under the ambient 
conditions for data presented.
    (b) Category B. For each category B rotorcraft, the Rotorcraft 
Flight Manual must contain--
    (1) The takeoff distance and the climbout speed together with the 
pertinent information defining the flight path with respect to 
autorotative landing if an engine fails, including the calculated 
effects of altitude and temperature;
    (2) The steady rates of climb and hovering ceiling, together with 
the corresponding airspeeds and other pertinent information, including 
the calculated effects of altitude and temperature;
    (3) The landing distance, appropriate airspeed, and type of landing 
surface, together with all pertinent information that might affect this 
distance, including the effects of weight, altitude, and temperature;
    (4) The maximum safe wind for operation near the ground;
    (5) The airspeed calibrations;
    (6) The height-speed envelope except for rotorcraft incorporating 
this as an operating limitation;
    (7) Glide distance as a function of altitude when autorotating at 
the speeds and conditions for minimum rate of descent and best glide 
angle, as determined in Sec. 29.71;
    (8) Out-of-ground effect hover performance determined under 
Sec. 29.49 and the maximum safe wind demonstrated under the ambient 
conditions for data presented; and
    (9) Any additional performance data necessary for the application of 
any operating rule in this chapter.

[Doc. No. 5084, 29 FR 16150, Dec. 3, 1964, as amended by Amdt. 29-21, 48 
FR 4392, Jan. 31, 1983; Amdt. 29-24, 49 FR 44440, Nov. 6, 1984; Amdt. 
29-39, 61 FR 21901, May 10, 1996; Amdt. 29-40, 61 FR 21908, May 10, 
1996; Amdt. 29-44, 64 FR 45338, Aug. 19, 1999]



Sec. 29.1589  Loading information.

    There must be loading instructions for each possible loading 
condition between the maximum and minimum weights determined under 
Sec. 29.25 that can result in a center of gravity beyond any extreme 
prescribed in Sec. 29.27, assuming any probable occupant weights.

     Appendix A to Part 29--Instructions for Continued Airworthiness

                             a29.1  general

    (a) This appendix specifies requirements for the preparation of 
Instructions for Continued Airworthiness as required by Sec. 29.1529.
    (b) The Instructions for Continued Airworthiness for each rotorcraft 
must include the Instructions for Continued Airworthiness for each 
engine and rotor (hereinafter designated ``products''), for each 
applicance required by this chapter, and any required information 
relating to the interface of those appliances and products with the 
rotorcraft. If Instructions for Continued Airworthiness are not supplied 
by the manufacturer of an appliance or product installed in the 
rotorcraft, the Instructions for Continued Airworthiness for the 
rotorcraft must include the information essential to the continued 
airworthiness of the rotorcraft.
    (c) The applicant must submit to the FAA a program to show how 
changes to the Instructions for Continued Airworthiness made by the 
applicant or by the manufacturers of products and appliances installed 
in the rotorcraft will be distributed.

                              a29.2  format

    (a) The Instructions for Continued Airworthiness must be in the form 
of a manual or manuals as appropriate for the quantity of data to be 
provided.
    (b) The format of the manual or manuals must provide for a practical 
arrangement.

[[Page 719]]

                             a29.3  content

    The contents of the manual or manuals must be prepared in the 
English language. The Instructions for Continued Airworthiness must 
contain the following manuals or sections, as appropriate, and 
information:
    (a) Rotorcraft maintenance manual or section. (1) Introduction 
information that includes an explanation of the rotorcraft's features 
and data to the extent necessary for maintenance or preventive 
maintenance.
    (2) A description of the rotorcraft and its systems and 
installations including its engines, rotors, and appliances.
    (3) Basic control and operation information describing how the 
rotorcraft components and systems are controlled and how they operate, 
including any special procedures and limitations that apply.
    (4) Servicing information that covers details regarding servicing 
points, capacities of tanks, reservoirs, types of fluids to be used, 
pressures applicable to the various systems, location of access panels 
for inspection and servicing, locations of lubrication points, the 
lubricants to be used, equipment required for servicing, tow 
instructions and limitations, mooring, jacking, and leveling 
information.
    (b) Maintenance Instructions. (1) Scheduling information for each 
part of the rotorcraft and its engines, auxiliary power units, rotors, 
accessories, instruments, and equipment that provides the recommended 
periods at which they should be cleaned, inspected, adjusted, tested, 
and lubricated, and the degree of inspection, the applicable wear 
tolerances, and work recommended at these periods. However, the 
applicant may refer to an accessory, instrument, or equipment 
manufacturer as the source of this information if the applicant shows 
that the item has an exceptionally high degree of complexity requiring 
specialized maintenance techniques, test equipment, or expertise. The 
recommended overhaul periods and necessary cross references to the 
Airworthiness Limitations section of the manual must also be included. 
In addition, the applicant must include an inspection program that 
includes the frequency and extent of the inspections necessary to 
provide for the continued airworthiness of the rotorcraft.
    (2) Troubleshooting information describing probable malfunctions, 
how to recognize those malfunctions, and the remedial action for those 
malfunctions.
    (3) Information describing the order and method of removing and 
replacing products and parts with any necessary precautions to be taken.
    (4) Other general procedural instructions including procedures for 
system testing during ground running, symmetry checks, weighing and 
determining the center of gravity, lifting and shoring, and storage 
limitations.
    (c) Diagrams of structural access plates and information needed to 
gain access for inspections when access plates are not provided.
    (d) Details for the application of special inspection techniques 
including radiographic and ultrasonic testing where such processes are 
specified.
    (e) Information needed to apply protective treatments to the 
structure after inspection.
    (f) All data relative to structural fasteners such as 
identification, discard recommendations, and torque values.
    (g) A list of special tools needed.

                a29.4  airworthiness limitations section

    The Instructions for Continued Airworthiness must contain a section 
titled Airworthiness Limitations that is segregated and clearly 
distinguishable from the rest of the document. This section must set 
forth each mandatory replacement time, structural inspection interval, 
and related structural inspection procedure approved under Sec. 29.571. 
If the Instructions for Continued Airworthiness consist of multiple 
documents, the section required by this paragraph must be included in 
the principal manual. This section must contain a legible statement in a 
prominent location that reads: ``The Airworthiness Limitations section 
is FAA approved and specifies maintenance required under Secs. 43.16 and 
91.403 of the Federal Aviation Regulations unless an alternative program 
has been FAA approved.''

[Amdt. 29-20, 45 FR 60178, Sept 11, 1980, as amended by Amdt. 29-27, 54 
FR 34330, Aug. 18, 1989]

Appendix B to Part 29--Airworthiness Criteria for Helicopter Instrument 
                                 Flight

    I. General. A transport category helicopter may not be type 
certificated for operation under the instrument flight rules (IFR) of 
this chapter unless it meets the design and installation requirements 
contained in this appendix.
    II. Definitions. (a) VYI means instrument climb speed, 
utilized instead of VY for compliance with the climb 
requirements for instrument flight.
    (b) VNEI means instrument flight never exceed speed, 
utilized instead of VNE for compliance with maximum limit 
speed requirements for instrument flight.
    (c) VMINI means instrument flight minimum speed, utilized 
in complying with minimum limit speed requirements for instrument 
flight.
    III. Trim. It must be possible to trim the cyclic, collective, and 
directional control forces to zero at all approved IFR airspeeds, power 
settings, and configurations appropriate to the type.

[[Page 720]]

    IV. Static longitudinal stability. (a) General. The helicopter must 
possess positive static longitudinal control force stability at critical 
combinations of weight and center of gravity at the conditions specified 
in paragraphs IV (b) through (f) of this appendix. The stick force must 
vary with speed so that any substantial speed change results in a stick 
force clearly perceptible to the pilot. The airspeed must return to 
within 10 percent of the trim speed when the control force is slowly 
released for each trim condition specified in paragraphs IV (b) through 
(f) of this appendix.
    (b) Climb. Stability must be shown in climb thoughout the speed 
range 20 knots either side of trim with--
    (1) The helicopter trimmed at VYI;
    (2) Landing gear retracted (if retractable); and
    (3) Power required for limit climb rate (at least 1,000 fpm) at 
VYI or maximum continuous power, whichever is less.
    (c) Cruise. Stability must be shown throughout the speed range from 
0.7 to 1.1 VH or VNEI, whichever is lower, not to 
exceed plus-minus20 knots from trim with--
    (1) The helicopter trimmed and power adjusted for level flight at 
0.9 VH or 0.9 VNEI, whichever is lower; and
    (2) Landing gear retracted (if retractable).
    (d) Slow cruise. Stability must be shown throughout the speed range 
from 0.9 VMINI to 1.3 VMINI or 20 knots above trim 
speed, whichever is greater, with--
    (1) The helicopter trimmed and power adjusted for level flight at 
1.1 VMINI; and
    (2) Landing gear retracted (if retractable).
    (e) Descent. Stability must be shown throughout the speed range 20 
knots either side of trim with--
    (1) The helicopter trimmed at 0.8 VH or 0.8 VNEI 
(or 0.8 VLE for the landing gear extended case), whichever is 
lower;
    (2) Power required for 1,000 fpm descent at trim speed; and
    (3) Landing gear extended and retracted, if applicable.
    (f) Approach. Stability must be shown throughout the speed range 
from 0.7 times the minimum recommended approach speed to 20 knots above 
the maximum recommended approach speed with--
    (1) The helicopter trimmed at the recommended approach speed or 
speeds;
    (2) Landing gear extended and retracted, if applicable; and
    (3) Power required to maintain a 3 deg. glide path and power 
required to maintain the steepest approach gradient for which approval 
is requested.
    V. Static lateral-directional stability. (a) Static directional 
stability must be positive throughout the approved ranges of airspeed, 
power, and vertical speed. In straight, steady sideslips up to 
10 deg. from trim, directional control position must 
increase in approximately constant proportion to angle of sideslip. At 
greater angles up to the maximum sideslip angle appropriate to the type, 
increased directional control position must produce increased angle of 
sideslip.
    (b) During sideslips up to 10 deg. from trim throughout 
the approved ranges of airspeed, power, and vertical speed there must be 
no negative dihedral stability perceptible to the pilot through lateral 
control motion or force. Longitudinal cycle movement with sideslip must 
not be excessive.
    VI. Dynamic stability. (a) Any oscillation having a period of less 
than 5 seconds must damp to 1/2 amplitude in not more than one cycle.
    (b) Any oscillation having a period of 5 seconds or more but less 
than 10 seconds must damp to 1/2 amplitude in not more than two cycles.
    (c) Any oscillation having a period of 10 seconds or more but less 
than 20 seconds must be damped.
    (d) Any oscillation having a period of 20 seconds or more may not 
achieve double amplitude in less than 20 seconds.
    (e) Any aperiodic response may not achieve double amplitude in less 
than 9 seconds.
    VII. Stability augmentation system (SAS). (a) If a SAS is used, the 
reliability of the SAS must be related to the effects of its failure. 
The occurrence of any failure condition which would prevent continued 
safe flight and landing must be extremely improbable. For any failure 
condition of the SAS which is not shown to be extremely improbable--
    (1) The helicopter must be safely controllable and capable of 
prolonged instrument flight without undue pilot effort. Additional 
unrelated probable failures affecting the control system must be 
considered; and
    (2) The flight characteristics requirements in Subpart B of Part 29 
must be met throughout a practical flight envelope.
    (b) The SAS must be designed so that it cannot create a hazardous 
deviation in flight path or produce hazardous loads on the helicopter 
during normal operation or in the event of malfunction or failure, 
assuming corrective action begins within an appropriate period of time. 
Where multiple systems are installed, subsequent malfunction conditions 
must be considered in sequence unless their occurrence is shown to be 
improbable.
    VIII. Equipment, systems, and installation. The basic equipment and 
installation must comply with Subpart F of Part 29 through Amendment 29-
14, with the following exceptions and additions:
    (a) Flight and navigation instruments. (1) A magnetic gyro-
stabilized direction indicator instead of the gyroscopic direction 
indicator required by Sec. 29.1303(h); and
    (2) A standby attitude indicator which meets the requirements of 
Secs. 29.1303(g)(1)

[[Page 721]]

through (7), instead of a rate-of-turn indicator required by 
Sec. 29.1303(g). If standby batteries are provided, they may be charged 
from the aircraft electrical system if adequate isolation is 
incorporated. The system must be designed so that the standby batteries 
may not be used for engine starting.
    (b) Miscellaneous requirements. (1) Instrument systems and other 
systems essential for IFR flight that could be adversely affected by 
icing must be provided with adequate ice protection whether or not the 
rotorcraft is certificated for operation in icing conditions.
    (2) There must be means in the generating system to automatically 
de-energize and disconnect from the main bus any power source developing 
hazardous overvoltage.
    (3) Each required flight instrument using a power supply (electric, 
vacuum, etc.) must have a visual means integral with the instrument to 
indicate the adequacy of the power being supplied.
    (4) When multiple systems performing like functions are required, 
each system must be grouped, routed, and spaced so that physical 
separation between systems is provided to ensure that a single 
malfunction will not adversely affect more than one system.
    (5) For systems that operate the required flight instruments at each 
pilot's station--
    (i) Only the required flight instruments for the first pilot may be 
connected to that operating system;
    (ii) Additional instruments, systems, or equipment may not be 
connected to an operating system for a second pilot unless provisions 
are made to ensure the continued normal functioning of the required 
instruments in the event of any malfunction of the additional 
instruments, systems, or equipment which is not shown to be extremely 
improbable;
    (iii) The equipment, systems, and installations must be designed so 
that one display of the information essential to the safety of flight 
which is provided by the instruments will remain available to a pilot, 
without additional crew-member action, after any single failure or 
combination of failures that is not shown to be extremely improbable; 
and
    (iv) For single-pilot configurations, instruments which require a 
static source must be provided with a means of selecting an alternate 
source and that source must be calibrated.
    (6) In determining compliance with the requirements of 
Sec. 29.1351(d)(2), the supply of electrical power to all systems 
necessary for flight under IFR must be included in the evaluation.
    (c) Thunderstorm lights. In addition to the instrument lights 
required by Sec. 29.1381(a), thunderstorm lights which provide high 
intensity white flood lighting to the basic flight instruments must be 
provided. The thunderstorm lights must be installed to meet the 
requirements of Sec. 29.1381(b).
    IX. Rotorcraft Flight Manual. A Rotorcraft Flight Manual or 
Rotorcraft Flight Manual IFR Supplement must be provided and must 
contain--
    (a) Limitations. The approved IFR flight envelope, the IFR 
flightcrew composition, the revised kinds of operation, and the steepest 
IFR precision approach gradient for which the helicopter is approved;
    (b) Procedures. Required information for proper operation of IFR 
systems and the recommended procedures in the event of stability 
augmentation or electrical system failures; and
    (c) Performance. If VYI differs from VY, climb 
performance at VYI and with maximum continuous power 
throughout the ranges of weight, altitude, and temperature for which 
approval is requested.

[Amdt. 29-21, 48 FR 4392, Jan. 31, 1983, as amended by Amdt. 29-31, 55 
FR 38967, Sept. 21, 1990; 55 FR 41309, Oct. 10, 1990; Amdt. 29-40, 61 FR 
21908, May 10, 1996]

               Appendix C to Part 29--Icing Certification

    (a) Continuous maximum icing. The maximum continuous intensity of 
atmospheric icing conditions (continuous maximum icing) is defined by 
the variables of the cloud liquid water content, the mean effective 
diameter of the cloud droplets, the ambient air temperature, and the 
interrelationship of these three variables as shown in Figure 1 of this 
appendix. The limiting icing envelope in terms of altitude and 
temperature is given in Figure 2 of this appendix. The interrelationship 
of cloud liquid water content with drop diameter and altitude is 
determined from Figures 1 and 2. The cloud liquid water content for 
continuous maximum icing conditions of a horizontal extent, other than 
17.4 nautical miles, is determined by the value of liquid water content 
of Figure 1, multiplied by the appropriate factor from Figure 3 of this 
appendix.
    (b) Intermittent maximum icing. The intermittent maximum intensity 
of atmospheric icing conditions (intermittent maximum icing) is defined 
by the variables of the cloud liquid water content, the mean effective 
diameter of the cloud droplets, the ambient air temperature, and the 
interrelationship of these three variables as shown in Figure 4 of this 
appendix. The limiting icing envelope in terms of altitude and 
temperature is given in Figure 5 of this appendix. The interrelationship 
of cloud liquid water content with drop diameter and altitude is 
determined from Figures 4 and 5. The cloud liquid water content for 
intermittent maximum icing conditions of a horizontal extent, other than 
2.6 nautical miles, is determined by the value of

[[Page 722]]

cloud liquid water content of Figure 4 multiplied by the appropriate 
factor in Figure 6 of this appendix.
[GRAPHIC] [TIFF OMITTED] TC28SE91.091


[[Page 723]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.092


[[Page 724]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.093


[[Page 725]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.094


[[Page 726]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.095


[[Page 727]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.096

[Amdt. 29-21, 48 FR 4393, Jan. 31, 1983]

[[Page 728]]

     Appendix D to Part 29--Criteria for Demonstration of Emergency 
                 Evacuation Procedures Under Sec. 29.803

    (a) The demonstration must be conducted either during the dark of 
the night or during daylight with the dark of night simulated. If the 
demonstration is conducted indoors during daylight hours, it must be 
conducted inside a darkened hangar having doors and windows covered. In 
addition, the doors and windows of the rotorcraft must be covered if the 
hangar illumination exceeds that of a moonless night. Illumination on 
the floor or ground may be used, but it must be kept low and shielded 
against shining into the rotorcraft's windows or doors.
    (b) The rotorcraft must be in a normal attitude with landing gear 
extended.
    (c) Safety equipment such as mats or inverted liferafts may be 
placed on the floor or ground to protect participants. No other 
equipment that is not part of the rotorcraft's emergency evacuation 
equipment may be used to aid the participants in reaching the ground.
    (d) Except as provided in paragraph (a) of this appendix, only the 
rotorcraft's emergency lighting system may provide illumination.
    (e) All emergency equipment required for the planned operation of 
the rotorcraft must be installed.
    (f) Each external door and exit and each internal door or curtain 
must be in the takeoff configuration.
    (g) Each crewmember must be seated in the normally assigned seat for 
takeoff and must remain in that seat until receiving the signal for 
commencement of the demonstration. For compliance with this section, 
each crewmember must be--
    (1) A member of a regularly scheduled line crew; or
    (2) A person having knowledge of the operation of exits and 
emergency equipment.
    (h) A representative passenger load of persons in normal health must 
be used as follows:
    (1) At least 25 percent must be over 50 years of age, with at least 
40 percent of these being females.
    (2) The remaining, 75 percent or less, must be 50 years of age or 
younger, with at least 30 percent of these being females.
    (3) Three life-size dolls, not included as part of the total 
passenger load, must be carried by passengers to simulate live infants 2 
years old or younger, except for a total passenger load of fewer than 44 
but more than 19, one doll must be carried. A doll is not required for a 
19 or fewer passenger load.
    (4) Crewmembers, mechanics, and training personnel who maintain or 
operate the rotorcraft in the normal course of their duties may not be 
used as passengers.
    (i) No passenger may be assigned a specific seat except as the 
Administrator may require. Except as required by paragraph (1) of this 
appendix, no employee of the applicant may be seated next to an 
emergency exit, except as allowed by the Administrator.
    (j) Seat belts and shoulder harnesses (as required) must be 
fastened.
    (k) Before the start of the demonstration, approximately one-half of 
the total average amount of carry-on baggage, blankets, pillows, and 
other similar articles must be distributed at several locations in the 
aisles and emergency exit access ways to create minor obstructions.
    (l) No prior indication may be given to any crewmember or passenger 
of the particular exits to be used in the demonstration.
    (m) The applicant may not practice, rehearse, or describe the 
demonstration for the participants nor may any participant have taken 
part in this type of demonstration within the preceding 6 months.
    (n) A pretakeoff passenger briefing may be given. The passengers may 
also be advised to follow directions of crewmembers, but not be 
instructed on the procedures to be followed in the demonstration.
    (o) If safety equipment, as allowed by paragraph (c) of this 
appendix, is provided, either all passenger and cockpit windows must be 
blacked out or all emergency exits must have safety equipment to prevent 
disclosure of the available emergency exits.
    (p) Not more than 50 percent of the emergency exits in the sides of 
the fuselage of a rotorcraft that meet all of the requirements 
applicable to the required emergency exits for that rotorcraft may be 
used for demonstration. Exits that are not to be used for the 
demonstration must have the exit handle deactivated or must be indicated 
by red lights, red tape, or other acceptable means placed outside the 
exits to indicate fire or other reasons why they are unusable. The exits 
to be used must be representative of all the emergency exits on the 
rotorcraft and must be designated by the applicant, subject to approval 
by the Administrator. If installed, at least one floor level exit (Type 
I; Sec. 29.807(a)(1)) must be used as required by Sec. 29.807(c).
    (q) All evacuees must leave the rotorcraft by a means provided as 
part of the rotorcraft's equipment.
    (r) Approved procedures must be fully utilized during the 
demonstration.
    (s) The evacuation time period is completed when the last occupant 
has evacuated the rotorcraft and is on the ground.

[Amdt. 27-26, 55 FR 8005, Mar. 6, 1990]

[[Page 729]]



PART 31--AIRWORTHINESS STANDARDS: MANNED FREE BALLOONS--Table of Contents




                           Subpart A--General

Sec.
31.1  Applicability.

                     Subpart B--Flight Requirements

31.12  Proof of compliance.
31.14  Weight limits.
31.16  Empty weight.
31.17  Performance: Climb.
31.19  Performance: Uncontrolled descent.
31.20  Controllability.

                    Subpart C--Strength Requirements

31.21  Loads.
31.23  Flight load factor.
31.25  Factor of safety.
31.27  Strength.

                     Subpart D--Design Construction

31.31  General.
31.33  Materials.
31.35  Fabrication methods.
31.37  Fastenings.
31.39  Protection.
31.41  Inspection provisions.
31.43  Fitting factor.
31.45  Fuel cells.
31.46  Pressurized fuel systems.
31.47  Burners.
31.49  Control systems.
31.51  Ballast.
31.53  Drag rope.
31.55  Deflation means.
31.57  Rip cords.
31.59  Trapeze, basket, or other means provided for occupants.
31.61  Static discharge.
31.63  Safety belts.
31.65  Position lights.

                          Subpart E--Equipment

31.71  Function and installation.

            Subpart F--Operating Limitations and Information

31.81  General.
31.82  Instructions for Continued Airworthiness.
31.83  Conspicuity.
31.85  Required basic equipment.

Appendix A to Part 31--Instructions for Continued Airworthiness

    Authority: 49 U.S.C. 106(g), 40113, 44701-44702, 44704.

    Source: Docket No. 1437, 29 FR 8258, July 1, 1964, as amended by 
Amdt. 31-1, 29 FR 14563, Oct. 24, 1964, unless otherwise noted.



                           Subpart A--General



Sec. 31.1  Applicability.

    (a) This part prescribes airworthiness standards for the issue of 
type certificates and changes to those certificates, for manned free 
balloons.
    (b) Each person who applies under Part 21 for such a certificate or 
change must show compliance with the applicable requirements of this 
part.
    (c) For purposes of this part--
    (1) A captive gas balloon is a balloon that derives its lift from a 
captive lighter-than-air gas;
    (2) A hot air balloon is a balloon that derives its lift from heated 
air;
    (3) The envelope is the enclosure in which the lifting means is 
contained;
    (4) The basket is the container, suspended beneath the envelope, for 
the balloon occupants;
    (5) The trapeze is a harness or is a seat consisting of a horizontal 
bar or platform suspended beneath the envelope for the balloon 
occupants; and
    (6) The design maximum weight is the maximum total weight of the 
balloon, less the lifting gas or air.

[Doc. No. 1437, 29 FR 8258, July 1, 1964, as amended by Amdt. 31-3, 41 
FR 55474, Dec. 20, 1976]



                     Subpart B--Flight Requirements



Sec. 31.12  Proof of compliance.

    (a) Each requirement of this subpart must be met at each weight 
within the range of loading conditions for which certification is 
requested. This must be shown by--
    (1) Tests upon a balloon of the type for which certification is 
requested or by calculations based on, and equal in accuracy to, the 
results of testing; and
    (2) Systematic investigation of each weight if compliance cannot be 
reasonably inferred from the weights investigated.
    (b) Except as provided in Sec. 31.17(b), allowable weight tolerances 
during flight testing are +5 percent and -10 percent.

[Amdt. 31-4, 45 FR 60179, Sept. 11, 1980]



Sec. 31.14  Weight limits.

    (a) The range of weights over which the balloon may be safely 
operated must be established.

[[Page 730]]

    (b) Maximum weight. The maximum weight is the highest weight at 
which compliance with each applicable requirement of this part is shown. 
The maximum weight must be established so that it is not more than--
    (1) The highest weight selected by the applicant;
    (2) The design maximum weight which is the highest weight at which 
compliance with each applicable structural loading condition of this 
part is shown; or
    (3) The highest weight at which compliance with each applicable 
flight requirement of this part is shown.
    (c) The information established under paragraphs (a) and (b) of this 
section must be made available to the pilot in accordance with 
Sec. 31.81.

[Amdt. 31-3, 41 FR 55474, Dec. 20, 1976]



Sec. 31.16  Empty weight.

    The empty weight must be determined by weighing the balloon with 
installed equipment but without lifting gas or heater fuel.

[Amdt. 31-4, 45 FR 60179, Sept. 11, 1980]



Sec. 31.17  Performance: Climb.

    (a) Each balloon must be capable of climbing at least 300 feet in 
the first minute after takeoff with a steady rate of climb. Compliance 
with the requirements of this section must be shown at each altitude and 
ambient temperature for which approval is sought.
    (b) Compliance with the requirements of paragraph (a) of this 
section must be shown at the maximum weight with a weight tolerance of 
+5 percent.

[Amdt. 31-4, 45 FR 60179, Sept. 11, 1980]



Sec. 31.19  Performance: Uncontrolled descent.

    (a) The following must be determined for the most critical 
uncontrolled descent that can result from any single failure of the 
heater assembly, fuel cell system, gas value system, or maneuvering vent 
system, or from any single tear in the balloon envelope between tear 
stoppers:
    (1) The maximum vertical velocity attained.
    (2) The altitude loss from the point of failure to the point at 
which maximum vertical velocity is attained.
    (3) The altitude required to achieve level flight after corrective 
action is inititated, with the balloon descending at the maximum 
vertical velocity determined in paragraph (a)(1) of this section.
    (b) Procedures must be established for landing at the maximum 
vertical velocity determined in paragraph (a)(1) of this section and for 
arresting that descent rate in accordance with paragraph (a)(3) of this 
section.

[Amdt. 31-4, 45 FR 60179, Sept. 11, 1980]



Sec. 31.20  Controllability.

    The applicant must show that the balloon is safely controllable and 
maneuverable during takeoff, ascent, descent, and landing without 
requiring exceptional piloting skill.

[Amdt. 31-3, 41 FR 55474, Dec. 20, 1976]



                    Subpart C--Strength Requirements



Sec. 31.21  Loads.

    Strength requirements are specified in terms of limit loads, that 
are the maximum load to be expected in service, and ultimate loads, that 
are limit loads multiplied by prescribed factors of safety. Unless 
otherwise specified, all prescribed loads are limit loads.



Sec. 31.23  Flight load factor.

    In determining limit load, the limit flight load factor must be at 
least 1.4.



Sec. 31.25  Factor of safety.

    (a) Except as specified in paragraphs (b) and (c) of this section, 
the factor of safety is 1.5.
    (b) A factor of safety of at least five must be used in envelope 
design. A reduced factor of safety of at least two may be used if it is 
shown that the selected factor will preclude failure due to creep or 
instantaneous rupture from lack of rip stoppers. The selected factor 
must be applied to the more critical of the maximum operating pressure 
or envelope stress.
    (c) A factor of safety of at least five must be used in the design 
of all fibrous or non-metallic parts of the rigging and related 
attachments of the envelope to basket, trapeze, or other means provided 
for carrying occupants.

[[Page 731]]

The primary attachments of the envelope to the basket, trapeze, or other 
means provided for carrying occupants must be designed so that failure 
is extremely remote or so that any single failure will not jeopardize 
safety of flight.
    (d) In applying factors of safety, the effect of temperature, and 
other operating characteristics, or both, that may affect strength of 
the balloon must be accounted for.
    (e) For design purposes, an occupant weight of at least 170 pounds 
must be assumed.

[Doc. No. 1437, 29 FR 8258, July 1, 1964, as amended by Amdt. 31-2, 30 
FR 3377, Mar. 13, 1965]



Sec. 31.27  Strength.

    (a) The structure must be able to support limit loads without 
detrimental effect.
    (b) The structure must be substantiated by test to be able to 
withstand the ultimate loads for at least three seconds without failure. 
For the envelope, a test of a representative part is acceptable, if the 
part tested is large enough to include critical seams, joints, and load 
attachment points and members.
    (c) An ultimate free-fall drop test must be made of the basket, 
trapeze, or other place provided for occupants. The test must be made at 
design maximum weight on a horizontal surface, with the basket, trapeze, 
or other means provided for carrying occupants, striking the surface at 
angles of 0, 15, and 30 degrees. The weight may be distributed to 
simulate actual conditions. There must be no distortion or failure that 
is likely to cause serious injury to the occupants. A drop test height 
of 36 inches, or a drop test height that produces, upon impact, a 
velocity equal to the maximum vertical velocity determined in accordance 
with Sec. 31.19, whichever is higher, must be used.

[Doc. No. 1437, 29 FR 8258, July 1, 1964, as amended by Amdt. 31-4, 45 
FR 60179, Sept. 11, 1980]



                     Subpart D--Design Construction



Sec. 31.31  General.

    The suitability of each design detail or part that bears on safety 
must be established by tests or analysis.



Sec. 31.33  Materials.

    (a) The suitability and durability of all materials must be 
established on the basis of experience or tests. Materials must conform 
to approved specifications that will ensure that they have the strength 
and other properties assumed in the design data.
    (b) Material strength properties must be based on enough tests of 
material conforming to specifications so as to establish design values 
on a statistical basis.



Sec. 31.35  Fabrication methods.

    The methods of fabrication used must produce a consistently sound 
structure. If a fabrication process requires close control to reach this 
objective, the process must be performed in accordance with an approved 
process specification.



Sec. 31.37  Fastenings.

    Only approved bolts, pins, screws, and rivets may be used in the 
structure. Approved locking devices or methods must be used for all 
these bolts, pins, and screws, unless the installation is shown to be 
free from vibration. Self-locking nuts may not be used on bolts that are 
subject to rotation in service.



Sec. 31.39  Protection.

    Each part of the balloon must be suitably protected against 
deterioration or loss of strength in service due to weathering, 
corrosion, or other causes.



Sec. 31.41  Inspection provisions.

    There must be a means to allow close examination of each part that 
require repeated inspection and adjustment.

[[Page 732]]



Sec. 31.43  Fitting factor.

    (a) A fitting factor of at least 1.15 must be used in the analysis 
of each fitting the strength of which is not proven by limit and 
ultimate load tests in which the actual stress conditions are simulated 
in the fitting and surrounding structure. This factor applies to all 
parts of the fitting, the means of attachment, and the bearing on the 
members joined.
    (b) Each part with an integral fitting must be treated as a fitting 
up to the point where the section properties become typical of the 
member.
    (c) The fitting factor need not be used if the joint design is made 
in accordance with approved practices and is based on comprehensive test 
data.



Sec. 31.45  Fuel cells.

    If fuel cells are used, the fuel cells, their attachments, and 
related supporting structure must be shown by tests to be capable of 
withstanding, without detrimental distortion or failure, any inertia 
loads to which the installation may be subjected, including the drop 
tests prescribed in Sec. 31.27(c). In the tests, the fuel cells must be 
loaded to the weight and pressure equivalent to the full fuel quantity 
condition.

[Amdt. 31-3, 41 FR 55474, Dec. 20, 1976]



Sec. 31.46  Pressurized fuel systems.

    For pressurized fuel systems, each element and its connecting 
fittings and lines must be tested to an ultimate pressure of at least 
twice the maximum pressure to which the system will be subjected in 
normal operation. No part of the system may fail or malfunction during 
the test. The test configuration must be representative of the normal 
fuel system installation and balloon configuration.

[Amdt. 31-3, 41 FR 55474, Dec. 20, 1976]



Sec. 31.47  Burners.

    (a) If a burner is used to provide the lifting means, the system 
must be designed and installed so as not to create a fire hazard.
    (b) There must be shielding to protect parts adjacent to the burner 
flame, and the occupants, from heat effects.
    (c) There must be controls, instruments, or other equipment 
essential to the safe control and operation of the heater. They must be 
shown to be able to perform their intended functions during normal and 
emergency operation.
    (d) The burner system (including the burner unit, controls, fuel 
lines, fuel cells, regulators, control valves, and other related 
elements) must be substantiated by an endurance test of at least 40 
hours. Each element of the system must be installed and tested to 
simulate actual balloon installation and use.
    (1) The test program for the main blast valve operation of the 
burner must include:
    (i) Five hours at the maximum fuel pressure for which approval is 
sought, with a burn time for each one minute cycle of three to ten 
seconds. The burn time must be established so that each burner is 
subjected to the maximum thermal shock for temperature affected 
elements;
    (ii) Seven and one-half hours at an intermediate fuel pressure, with 
a burn time for each one minute cycle of three to ten seconds. An 
intermediate fuel pressure is 40 to 60 percent of the range between the 
maximum fuel pressure referenced in paragraph (d)(1)(i) of this section 
and minimum fuel pressure referenced in paragraph (d)(1)(iii);
    (iii) Six hours and fifteen minutes at the minimum fuel pressure for 
which approval is sought, with a burn time for each one minute cycle of 
three to ten seconds;
    (iv) Fifteen minutes of operation on vapor, with a burn time for 
each one minute cycle of at least 30 seconds; and
    (v) Fifteen hours of normal flight operation.
    (2) The test program for the secondary or backup operation of the 
burner must include six hours of operation with a burn time for each 
five minute cycle of one minute at an intermediate fuel pressure.
    (e) The test must also include at least three flameouts and 
restarts.

[[Page 733]]

    (f) Each element of the system must be serviceable at the end of the 
test.

[Doc. No. 1437, 29 FR 8258, July 1, 1964, as amended by Amdt. 31-2, 30 
FR 3377, Mar. 13, 1965; Amdt. 31-7, 61 FR 18223, Apr. 24, 1996; 61 FR 
20877, May 8, 1996]



Sec. 31.49  Control systems.

    (a) Each control must operate easily, smoothly, and positively 
enough to allow proper performance of its functions. Controls must be 
arranged and identified to provide for convenience of operation and to 
prevent the possibility of confusion and subsequent inadvertent 
operation.
    (b) Each control system and operating device must be designed and 
installed in a manner that will prevent jamming, chafing, or 
interference from passengers, cargo, or loose objects. Precaution must 
be taken to prevent foreign objects from jamming the controls. The 
elements of the control system must have design features or must be 
distinctly and permanently marked to minimize the possibility of 
incorrect assembly that could result in malfunctioning of the control 
system.
    (c) Each balloon using a captive gas as the lifting means must have 
an automatic valve or appendix that is able to release gas automatically 
at the rate of at least three percent of the total volume per minute 
when the balloon is at its maximum operating pressure.
    (d) Each hot air balloon must have a means to allow the controlled 
release of hot air during flight.
    (e) Each hot air balloon must have a means to indicate the maximum 
envelope skin temperatures occurring during operation. The indicator 
must be readily visible to the pilot and marked to indicate the limiting 
safe temperature of the envelope material. If the markings are on the 
cover glass of the instrument, there must be provisions to maintain the 
correct alignment of the glass cover with the face of the dial.

[Doc. No. 1437, 29 FR 8258, July 1, 1964, as amended by Amdt. 31-2, 30 
FR 3377, Mar. 13, 1965]



Sec. 31.51  Ballast.

    Each captive gas balloon must have a means for the safe storage and 
controlled release of ballast. The ballast must consist of material 
that, if released during flight, is not hazardous to persons on the 
ground.



Sec. 31.53  Drag rope.

    If a drag rope is used, the end that is released overboard must be 
stiffened to preclude the probability of the rope becoming entangled 
with trees, wires, or other objects on the ground.



Sec. 31.55  Deflation means.

    There must be a means to allow emergency deflation of the envelope 
so as to allow a safe emergency landing. If a system other than a manual 
system is used, the reliability of the system used must be 
substantiated.

[Amdt. 31-2, 30 FR 3377, Mar. 13, 1965]



Sec. 31.57  Rip cords.

    (a) If a rip cord is used for emergency deflation, it must be 
designed and installed to preclude entanglement.
    (b) The force required to operate the rip cord may not be less than 
25, or more than 75, pounds.
    (c) The end of the rip cord to be operated by the pilot must be 
colored red.
    (d) The rip cord must be long enough to allow an increase of at 
least 10 percent in the vertical dimension of the envelope.



Sec. 31.59  Trapeze, basket, or other means provided for occupants.

    (a) The trapeze, basket, or other means provided for carrying 
occupants may not rotate independently of the envelope.
    (b) Each projecting object on the trapeze, basket, or other means 
provided for carrying occupants, that could cause injury to the 
occupants, must be padded.



Sec. 31.61  Static discharge.

    Unless shown not to be necessary for safety, there must be 
appropriate bonding means in the design of each balloon using flammable 
gas as a lifting means to ensure that the effects of static discharges 
will not create a hazard.

[Amdt. 31-2, 30 FR 3377, Mar. 13, 1965]

[[Page 734]]



Sec. 31.63  Safety belts.

    (a) There must be a safety belt, harness, or other restraining means 
for each occupant, unless the Administrator finds it unnecessary. If 
installed, the belt, harness, or other restraining means and its 
supporting structure must meet the strength requirements of Subpart C of 
this part.
    (b) This section does not apply to balloons that incorporate a 
basket or gondola.

[Amdt. 31-2, 30 FR 3377, Mar. 13, 1965, as amended by Amdt. 31-3, 41 FR 
55474, Dec. 20, 1976]



Sec. 31.65  Position lights.

    (a) If position lights are installed, there must be one steady 
aviation white position light and one flashing aviation red (or flashing 
aviation white) position light with an effective flash frequency of at 
least 40, but not more than 100, cycles per minute.
    (b) Each light must provide 360 deg. horizontal coverage at the 
intensities prescribed in this paragraph. The following light 
intensities must be determined with the light source operating at a 
steady state and with all light covers and color filters in place and at 
the manufacturer's rated mimimum voltage. For the flashing aviation red 
light, the measured values must be adjusted to correspond to a red 
filter temperature of at least 130 deg. F:
    (1) The intensities in the horizontal plane passing through the 
light unit must equal or exceed the following values:

------------------------------------------------------------------------
                                                                Minimum
                       Position light                          intensity
                                                               (candles)
------------------------------------------------------------------------
Steady white................................................      20
Flashing red or white.......................................      40
------------------------------------------------------------------------

    (2) The intensities in vertical planes must equal or exceed the 
following values. An intensity of one unit corresponds to the applicable 
horizontal plane intensity specified in paragraph (b)(1) of this 
section.

------------------------------------------------------------------------
                                                                Minimum
 Angles above and below the horizontal in any vertical plane   intensity
                          (degrees)                             (units)
------------------------------------------------------------------------
0...........................................................      1.00
0 to 5......................................................      0.90
5 to 10.....................................................      0.80
10 to 15....................................................      0.70
15 to 20....................................................      0.50
20 to 30....................................................      0.30
30 to 40....................................................      0.10
40 to 60....................................................      0.05
------------------------------------------------------------------------

    (c) The steady white light must be located not more than 20 feet 
below the basket, trapeze, or other means for carrying occupants. The 
flashing red or white light must be located not less than 7, nor more 
than 10, feet below the steady white light.
    (d) There must be a means to retract and store the lights.
    (e) Each position light color must have the applicable International 
Commission on Illumination chromaticity coordinates as follows:
    (1) Aviation red--

``y'' is not greater than 0.335; and ``z'' is not greater than 0.002.

    (2) Aviation white--

``x'' is not less than 0.300 and not greater than 0.540;
``y'' is not less than ``x''-0.040'' or ``yo-0.010'', 
    whichever is the smaller; and
``y'' is not greater than ``x+0.020'' nor ``0.636-0.0400 x'';
Where ``yo'' is the ``y'' coordinate of the Planckian 
    radiator for the value of ``x'' considered.

[Doc. No. 1437, 29 FR 8258, July 1, 1964, as amended by Amdt. 31-1, 29 
FR 14563, Oct. 24, 1964; Amdt. 31-4, 45 FR 60179, Sept. 11, 1980]



                          Subpart E--Equipment



Sec. 31.71  Function and installation.

    (a) Each item of installed equipment must--
    (1) Be of a kind and design appropriate to its intended function;
    (2) Be permanently and legibly marked or, if the item is too small 
to mark, tagged as to its identification, function, or operating 
limitations, or any applicable combination of those factors;
    (3) Be installed according to limitations specified for that 
equipment; and
    (4) Function properly when installed.

[[Page 735]]

    (b) No item of installed equipment, when performing its function, 
may affect the function of any other equipment so as to create an unsafe 
condition.
    (c) The equipment, systems, and installations must be designed to 
prevent hazards to the balloon in the event of a probable malfunction or 
failure.

[Amdt. 31-4, 45 FR 60180, Sept. 11, 1980]



            Subpart F--Operating Limitations and Information



Sec. 31.81  General.

    (a) The following information must be established:
    (1) Each operating limitation, including the maximum weight 
determined under Sec. 31.14.
    (2) The normal and emergency procedures.
    (3) Other information necessary for safe operation, including--
    (i) The empty weight determined under Sec. 31.16;
    (ii) The rate of climb determined under Sec. 31.17, and the 
procedures and conditions used to determine performance;
    (iii) The maximum vertical velocity, the altitude drop required to 
attain that velocity, and altitude drop required to recover from a 
descent at that velocity, determined under Sec. 31.19, and the 
procedures and conditions used to determine performance; and
    (iv) Pertinent information peculiar to the balloon's operating 
characteristics.
    (b) The information established in compliance with paragraph (a) of 
this section must be furnished by means of--
    (1) A Balloon Flight Manual; or
    (2) A placard on the balloon that is clearly visible to the pilot.

[Amdt. 31-4, 45 FR 60180, Sept. 11, 1980]



Sec. 31.82  Instructions for Continued Airworthiness.

    The applicant must prepare Instructions for Continued Airworthiness 
in accordance with appendix A to this part that are acceptable to the 
Administrator. The instructions may be incomplete at type certification 
if a program exists to ensure their completion prior to delivery of the 
first balloon or issuance of a standard certificate of airworthiness, 
whichever occurs later.

[Amdt. 31-4, 45 FR 60180, Sept. 11, 1980]



Sec. 31.83  Conspicuity.

    The exterior surface of the envelope must be of a contrasting color 
or colors so that it will be conspicuous during operation. However, 
multicolored banners or streamers are acceptable if it can be shown that 
they are large enough, and there are enough of them of contrasting 
color, to make the balloon conspicuous during flight.



Sec. 31.85  Required basic equipment.

    In addition to any equipment required by this subchapter for a 
specific kind of operation, the following equipment is required:
    (a) For all balloons:
    (1) [Reserved]
    (2) An altimeter.
    (3) A rate of climb indicator.
    (b) For hot air balloons:
    (1) A fuel quantity gauge. If fuel cells are used, means must be 
incorporated to indicate to the crew the quantity of fuel in each cell 
during flight. The means must be calibrated in appropriate units or in 
percent of fuel cell capacity.
    (2) An envelope temperature indicator.
    (c) For captive gas balloons, a compass.

[Amdt. 31-2, 30 FR 3377, Mar. 13, 1965, as amended by Amdt. 31-3, 41 FR 
55474, Dec. 20, 1976; Amdt. 31-4, 45 FR 60180, Sept. 11, 1980]

     Appendix A to Part 31--Instructions for Continued Airworthiness

                             a31.1  general

    (a) This appendix specifies requirements for the preparation of 
Instructions for Continued Airworthiness as required by Sec. 31.82.
    (b) The Instructions for Continued Airworthiness for each balloon 
must include the Instructions for Continued Airworthiness for all 
balloon parts required by this chapter and any required information 
relating to the interface of those parts with the balloon. If 
Instructions for Continued Airworthiness are not supplied by the part 
manufacturer for a balloon part, the Instructions for Continued 
Airworthiness for the balloon must include the information essential to 
the continued airworthiness of the balloon.

[[Page 736]]

    (c) The applicant must submit to the FAA a program to show how 
changes to the Instructions for Continued Airworthiness made by the 
applicant or by the manufacturers of balloon parts will be distributed.

                              a31.2  format

    (a) The Instructions for Continued Airworthiness must be in the form 
of a manual or manuals as appropriate for the quantity of data to be 
provided.
    (b) The format of the manual or manuals must provide for a practical 
arrangement.

                             a31.3  content

    The contents of the manual or manuals must be prepared in the 
English language. The Instructions for Continued Airworthiness must 
contain the following information:
    (a) Introduction information that includes an explanation of the 
balloon's features and data to the extent necessary for maintenance or 
preventive maintenance.
    (b) A description of the balloon and its systems and installations.
    (c) Basic control and operation information for the balloon and its 
components and systems.
    (d) Servicing information that covers details regarding servicing of 
balloon components, including burner nozzles, fuel tanks, and valves 
during operations.
    (e) Maintenance information for each part of the balloon and its 
envelope, controls, rigging, basket structure, fuel systems, 
instruments, and heater assembly that provides the recommended periods 
at which they should be cleaned, adjusted, tested, and lubricated, the 
applicable wear tolerances, and the degree of work recommended at these 
periods. However, the applicant may refer to an accessory, instrument, 
or equipment manufacturer as the source of this information if the 
applicant shows that the item has an exceptionally high degree of 
complexity requiring specialized maintenance techniques, test equipment, 
or expertise. The recommended overhaul periods and necessary cross 
references to the Airworthiness Limitations section of the manual must 
also be included. In addition, the applicant must include an inspection 
program that includes the frequency and extent of the inspections 
necessary to provide for the continued airworthiness of the balloon.
    (f) Troubleshooting information describing probable malfunctions, 
how to recognize those malfunctions, and the remedial action for those 
malfunctions.
    (g) Details of what, and how, to inspect after a hard landing.
    (h) Instructions for storage preparation including any storage 
limits.
    (i) Instructions for repair on the balloon envelope and its basket 
or trapeze.

                a31.4  airworthiness limitations section

    The Instructions for Continued Airworthiness must contain a section 
titled Airworthiness Limitations that is segregated and clearly 
distinguishable from the rest of the document. This section must set 
forth each mandatory replacement time, structural inspection interval, 
and related structural inspection procedure, including envelope 
structural integrity, required for type certification. If the 
Instructions for Continued Airworthiness consist of multiple documents, 
the section required by this paragraph must be included in the principal 
manual. This section must contain a legible statement in a prominent 
location that reads: ``The Airworthiness Limitations section is FAA 
approved and specifies maintenance required under Secs. 43.16 and 91.403 
of the Federal Aviation Regulations.''

[Amdt. 31-4, 45 FR 60180, Sept. 11, 1980, as amended by Amdt. 31-5, 54 
FR 34330, Aug. 18, 1989]



PART 33--AIRWORTHINESS STANDARDS: AIRCRAFT ENGINES--Table of Contents




                           Subpart A--General

Sec.
33.1  Applicability.
33.3  General.
33.4  Instructions for Continued Airworthiness.
33.5  Instruction manual for installing and operating the engine.
33.7  Engine ratings and operating limitations.
33.8  Selection of engine power and thrust ratings.

               Subpart B--Design and Construction; General

33.11  Applicability.
33.13  [Reserved]
33.14  Start-stop cyclic stress (low-cycle fatigue).
33.15  Materials.
33.17  Fire prevention.
33.19  Durability.
33.21  Engine cooling.
33.23  Engine mounting attachments and structure.
33.25  Accessory attachments.
33.27  Turbine, compressor, fan, and turbosupercharger rotors.
33.28  Electrical and electronic engine control systems.
33.29  Instrument connection.

   Subpart C--Design and Construction; Reciprocating Aircraft Engines

33.31  Applicability.

[[Page 737]]

33.33  Vibration.
33.35  Fuel and induction system.
33.37  Ignition system.
33.39  Lubrication system.

         Subpart D--Block Tests; Reciprocating Aircraft Engines

33.41  Applicability.
33.42  General.
33.43  Vibration test.
33.45  Calibration tests.
33.47  Detonation test.
33.49  Endurance test.
33.51  Operation test.
33.53  Engine component tests.
33.55  Teardown inspection.
33.57  General conduct of block tests.

      Subpart E--Design and Construction; Turbine Aircraft Engines

33.61  Applicability.
33.62  Stress analysis.
33.63  Vibration.
33.65  Surge and stall characteristics.
33.66  Bleed air system.
33.67  Fuel system.
33.68  Induction system icing.
33.69  Ignitions system.
33.71  Lubrication system.
33.72  Hydraulic actuating systems.
33.73  Power or thrust response.
33.74  Continued rotation.
33.75  Safety analysis.
33.76  Bird ingestion.
33.77  Foreign object ingestion--ice.
33.78  Rain and hail ingestion.
33.79  Fuel burning thrust augmentor.

            Subpart F--Block Tests; Turbine Aircraft Engines

33.81  Applicability.
33.82  General.
33.83  Vibration test.
33.85  Calibration tests.
33.87  Endurance test.
33.88  Engine overtemperature test.
33.89  Operation test.
33.90  Initial maintenance inspection.
33.91  Engine component tests.
33.92  Rotor locking tests.
33.93  Teardown inspection.
33.94  Blade containment and rotor unbalance tests.
33.95  Engine-propeller systems tests.
33.96  Engine tests in auxiliary power unit (APU) mode.
33.97  Thrust reversers.
33.99  General conduct of block tests.

Appendix A to Part 33--Instructions for Continued Airworthiness
Appendix B to Part 33--Certification Standard Atmospheric Concentrations 
          of Rain and Hail

    Authority: 49 U.S.C. 106(g), 40113, 44701-44702, 44704.

    Source: Docket No. 3025, 29 FR 7453, June 10, 1964, unless otherwise 
noted.
    Note: For miscellaneous amendments to cross references in this Part 
33, see Amdt. 33-2, 31 FR 9211, July 6, 1966.



                           Subpart A--General



Sec. 33.1  Applicability.

    (a) This part prescribes airworthiness standards for the issue of 
type certificates and changes to those certificates, for aircraft 
engines.
    (b) Each person who applies under part 21 for such a certificate or 
change must show compliance with the applicable requirements of this 
part and the applicable requirements of part 34 of this chapter.

[Amdt. 33-7, 41 FR 55474, Dec. 20, 1976, as amended by Amdt. 33-14, 55 
FR 32861, Aug. 10, 1990]



Sec. 33.3  General.

    Each applicant must show that the aircraft engine concerned meets 
the applicable requirements of this part.



Sec. 33.4  Instructions for Continued Airworthiness.

    The applicant must prepare Instructions for Continued Airworthiness 
in accordance with appendix A to this part that are acceptable to the 
Administrator. The instructions may be incomplete at type certification 
if a program exists to ensure their completion prior to delivery of the 
first aircraft with the engine installed, or upon issuance of a standard 
certificate of airworthiness for the aircraft with the engine installed, 
whichever occurs later.

[Amdt. 33-9, 45 FR 60181, Sept. 11, 1980]



Sec. 33.5  Instruction manual for installing and operating the engine.

    Each applicant must prepare and make available to the Administrator 
prior to the issuance of the type certificate, and to the owner at the 
time of delivery of the engine, approved instructions for installing and 
operating the engine. The instructions must include at least the 
following:

[[Page 738]]

    (a) Installation instructions. (1) The location of engine mounting 
attachments, the method of attaching the engine to the aircraft, and the 
maximum allowable load for the mounting attachments and related 
structure.
    (2) The location and description of engine connections to be 
attached to accessories, pipes, wires, cables, ducts, and cowling.
    (3) An outline drawing of the engine including overall dimensions.
    (b) Operation instructions. (1) The operating limitations 
established by the Administrator.
    (2) The power or thrust ratings and procedures for correcting for 
nonstandard atmosphere.
    (3) The recommended procedures, under normal and extreme ambient 
conditions for--
    (i) Starting;
    (ii) Operating on the ground; and
    (iii) Operating during flight.

[Amdt. 33-6, 39 FR 35463, Oct. 1, 1974, as amended by Amdt. 33-9, 45 FR 
60181, Sept. 11, 1980]



Sec. 33.7  Engine ratings and operating limitations.

    (a) Engine ratings and operating limitations are established by the 
Administrator and included in the engine certificate data sheet 
specified in Sec. 21.41 of this chapter, including ratings and 
limitations based on the operating conditions and information specified 
in this section, as applicable, and any other information found 
necessary for safe operation of the engine.
    (b) For reciprocating engines, ratings and operating limitations are 
established relating to the following:
    (1) Horsepower or torque, r.p.m., manifold pressure, and time at 
critical pressure altitude and sea level pressure altitude for--
    (i) Rated maximum continuous power (relating to unsupercharged 
operation or to operation in each supercharger mode as applicable); and
    (ii) Rated takeoff power (relating to unsupercharged operation or to 
operation in each supercharger mode as applicable).
    (2) Fuel grade or specification.
    (3) Oil grade or specification.
    (4) Temperature of the--
    (i) Cylinder;
    (ii) Oil at the oil inlet; and
    (iii) Turbosupercharger turbine wheel inlet gas.
    (5) Pressure of--
    (i) Fuel at the fuel inlet; and
    (ii) Oil at the main oil gallery.
    (6) Accessory drive torque and overhang moment.
    (7) Component life.
    (8) Turbosupercharger turbine wheel r.p.m.
    (c) For turbine engines, ratings and operating limitations are 
established relating to the following:
    (1) Horsepower, torque, or thrust, r.p.m., gas temperature, and time 
for--
    (i) Rated maximum continuous power or thrust (augmented);
    (ii) Rated maximum continuous power or thrust (unaugmented);
    (iii) Rated takeoff power or thrust (augmented);
    (iv) Rated takeoff power or thrust (unaugmented);
    (v) Rated 30-minute OEI power;
    (vi) Rated 2\1/2\-minute OEI power;
    (vii) Rated continuous OEI power; and
    (viii) Rated 2-minute OEI Power;
    (ix) Rated 30-second OEI power; and
    (x) Auxiliary power unit (APU) mode of operation.
    (2) Fuel designation or specification.
    (3) Oil grade or specification.
    (4) Hydraulic fluid specification.
    (5) Temperature of--
    (i) Oil at a location specified by the applicant;
    (ii) Induction air at the inlet face of a supersonic engine, 
including steady state operation and transient over-temperature and time 
allowed;
    (iii) Hydraulic fluid of a supersonic engine;
    (iv) Fuel at a location specified by the applicant; and
    (v) External surfaces of the engine, if specified by the applicant.
    (6) Pressure of--
    (i) Fuel at the fuel inlet;
    (ii) Oil at a location specified by the applicant;
    (iii) Induction air at the inlet face of a supersonic engine, 
including steady state operation and transient overpressure and time 
allowed; and
    (iv) Hydraulic fluid.
    (7) Accessory drive torque and overhang moment.

[[Page 739]]

    (8) Component life.
    (9) Fuel filtration.
    (10) Oil filtration.
    (11) Bleed air.
    (12) The number of start-stop stress cycles approved for each rotor 
disc and spacer.
    (13) Inlet air distortion at the engine inlet.
    (14) Transient rotor shaft overspeed r.p.m., and number of overspeed 
occurrences.
    (15) Transient gas overtemperature, and number of overtemperature 
occurrences.
    (16) For engines to be used in supersonic aircraft, engine rotor 
windmilling rotational r.p.m.

[Amdt. 33-6, 39 FR 35463, Oct. 1, 1974, as amended by Amdt. 33-10, 49 FR 
6850, Feb. 23, 1984; Amdt. 33-11, 51 FR 10346, Mar. 25, 1986; Amdt. 33-
12, 53 FR 34220, Sept. 2, 1988; Amdt. 33-18, 61 FR 31328, June 19, 1996]



Sec. 33.8  Selection of engine power and thrust ratings.

    (a) Requested engine power and thrust ratings must be selected by 
the applicant.
    (b) Each selected rating must be for the lowest power or thrust that 
all engines of the same type may be expected to produce under the 
conditions used to determine that rating.

[Amdt. 33-3, 32 FR 3736, Mar. 4, 1967]



               Subpart B--Design and Construction; General



Sec. 33.11  Applicability.

    This subpart prescribes the general design and construction 
requirements for reciprocating and turbine aircraft engines.



Sec. 33.13  [Reserved]



Sec. 33.14  Start-stop cyclic stress (low-cycle fatigue).

    By a procedure approved by the FAA, operating limitations must be 
established which specify the maximum allowable number of start-stop 
stress cycles for each rotor structural part (such as discs, spacers, 
hubs, and shafts of the compressors and turbines), the failure of which 
could produce a hazard to the aircraft. A start-stop stress cycle 
consists of a flight cycle profile or an equivalent representation of 
engine usage. It includes starting the engine, accelerating to maximum 
rated power or thrust, decelerating, and stopping. For each cycle, the 
rotor structural parts must reach stabilized temperature during engine 
operation at a maximum rate power or thrust and after engine shutdown, 
unless it is shown that the parts undergo the same stress range without 
temperature stabilization.

[Amdt. 33-10, 49 FR 6850, Feb. 23, 1984]



Sec. 33.15  Materials.

    The suitability and durability of materials used in the engine 
must--
    (a) Be established on the basis of experience or tests; and
    (b) Conform to approved specifications (such as industry or military 
specifications) that ensure their having the strength and other 
properties assumed in the design data.

Secs. 313(a), 601, and 603, 72 Stat. 759, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Amdt. 33-8, 42 FR 15047, Mar. 17, 1977, as amended by Amdt. 33-10, 49 
FR 6850, Feb. 23, 1984]



Sec. 33.17  Fire prevention.

    (a) The design and construction of the engine and the materials used 
must minimize the probability of the occurrence and spread of fire. In 
addition, the design and construction of turbine engines must minimize 
the probability of the occurrence of an internal fire that could result 
in structural failure, overheating, or other hazardous conditions.
    (b) Except as provided in paragraphs (c), (d), and (e) of this 
section, each external line, fitting, and other component, which 
contains or conveys flammable fluid must be fire resistant. Components 
must be shielded or located to safeguard against the ignition of leaking 
flammable fluid.
    (c) Flammable fluid tanks and supports which are part of and 
attached to the engine must be fireproof or be enclosed by a fireproof 
shield unless damage by fire to any non-fireproof part will not cause 
leakage or spillage of flammable fluid. For a reciprocating engine 
having an integral oil sump of

[[Page 740]]

less than 25-quart capacity, the oil sump need not be fireproof nor be 
enclosed by fireproof shield.
    (d) For turbine engines type certificated for use in supersonic 
aircraft, each external component which conveys or contains flammable 
fluid must be fireproof.
    (e) Unwanted accumulation of flammable fluid and vapor must be 
prevented by draining and venting.

(Secs. 313(a), 601, and 603, 72 Stat. 759, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Amdt. 33-6, 39 FR 35464, Oct. 1, 1974, as amended by Amdt. 33-8, 42 FR 
15047, Mar. 17, 1977; Amdt. 33-10, 49 FR 6850, Feb. 23, 1984]



Sec. 33.19  Durability.

    (a) Engine design and construction must minimize the development of 
an unsafe condition of the engine between overhaul periods. The design 
of the compressor and turbine rotor cases must provide for the 
containment of damage from rotor blade failure. Energy levels and 
trajectories of fragments resulting from rotor blade failure that lie 
outside the compressor and turbine rotor cases must be defined.
    (b) Each component of the propeller blade pitch control system which 
is a part of the engine type design must meet the requirements of 
Sec. 35.42 of this chapter.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-9, 45 
FR 60181, Sept. 11, 1980; Amdt. 33-10, 49 FR 6851, Feb. 23, 1984]



Sec. 33.21  Engine cooling.

    Engine design and construction must provide the necessary cooling 
under conditions in which the airplane is expected to operate.



Sec. 33.23  Engine mounting attachments and structure.

    (a) The maximum allowable limit and ultimate loads for engine 
mounting attachments and related engine structure must be specified.
    (b) The engine mounting attachments and related engine structure 
must be able to withstand--
    (1) The specified limit loads without permanent deformation; and
    (2) The specified ultimate loads without failure, but may exhibit 
permanent deformation.

[Amdt. 33-10, 49 FR 6851, Feb. 23, 1984]



Sec. 33.25  Accessory attachments.

    The engine must operate properly with the accessory drive and 
mounting attachments loaded. Each engine accessory drive and mounting 
attachment must include provisions for sealing to prevent contamination 
of, or unacceptable leakage from, the engine interior. A drive and 
mounting attachment requiring lubrication for external drive splines, or 
coupling by engine oil, must include provisions for sealing to prevent 
unacceptable loss of oil and to prevent contamination from sources 
outside the chamber enclosing the drive connection. The design of the 
engine must allow for the examination, adjustment, or removal of each 
accessory required for engine operation.

[Amdt. 33-10, 49 FR 6851, Feb. 23, 1984]



Sec. 33.27  Turbine, compressor, fan, and turbosupercharger rotors.

    (a) Turbine, compressor, fan, and turbosupercharger rotors must have 
sufficient strength to withstand the test conditions specified in 
paragraph (c) of this section.
    (b) The design and functioning of engine control devices, systems, 
and instruments must give reasonable assurance that those engine 
operating limitations that affect turbine, compressor, fan, and 
turbosupercharger rotor structural integrity will not be exceeded in 
service.
    (c) The most critically stressed rotor component (except blades) of 
each turbine, compressor, and fan, including integral drum rotors and 
centrifugal compressors in an engine or turbosupercharger, as determined 
by analysis or other acceptable means, must be tested for a period of 5 
minutes--
    (1) At its maximum operating temperature, except as provided in 
paragraph (c)(2)(iv) of this section; and
    (2) At the highest speed of the following, as applicable:
    (i) 120 percent of its maximum permissible r.p.m. if tested on a rig 
and equipped with blades or blade weights.

[[Page 741]]

    (ii) 115 percent of its maximum permissible r.p.m. if tested on an 
engine.
    (iii) 115 percent of its maximum permissible r.p.m. if tested on 
turbosupercharger driven by a hot gas supply from a special burner rig.
    (iv) 120 percent of the r.p.m. at which, while cold spinning, it is 
subject to operating stresses that are equivalent to those induced at 
the maximum operating temperature and maximum permissible r.p.m.
    (v) 105 percent of the highest speed that would result from failure 
of the most critical component or system in a representative 
installation of the engine.
    (vi) The highest speed that would result from the failure of any 
component or system in a representative installation of the engine, in 
combination with any failure of a component or system that would not 
normally be detected during a routine preflight check or during normal 
flight operation.

Following the test, each rotor must be within approved dimensional 
limits for an overspeed condition and may not be cracked.

[Amdt. 33-10, 49 FR 6851, Feb. 23, 1984]



Sec. 33.28  Electrical and electronic engine control systems.

    Each control system which relies on electrical and electronic means 
for normal operation must:
    (a) Have the control system description, the percent of available 
power or trust controlled in both normal operation and failure 
conditions, and the range of control of other controlled functions, 
specified in the instruction manual required by Sec. 33.5 for the 
engine;
    (b) Be designed and constructed so that any failure of aircraft-
supplied power or data will not result in an unacceptable change in 
power or thrust, or prevent continued safe operation of the engine;
    (c) Be designed and constructed so that no single failure or 
malfunction, or probable combination of failures of electrical or 
electronic components of the control system, results in an unsafe 
condition;
    (d) Have environmental limits, including transients caused by 
lightning strikes, specified in the instruction manual; and
    (e) Have all associated software designed and implemented to prevent 
errors that would result in an unacceptable loss of power or thrust, or 
other unsafe condition, and have the method used to design and implement 
the software approved by the Administrator.

[Doc. No. 24466, 58 FR 29095, May 18, 1993]



Sec. 33.29  Instrument connection.

    (a) Unless it is constructed to prevent its connection to an 
incorrect instrument, each connection provided for powerplant 
instruments required by aircraft airworthiness regulations or necessary 
to insure operation of the engine in compliance with any engine 
limitation must be marked to identify it with its corresponding 
instrument.
    (b) A connection must be provided on each turbojet engine for an 
indicator system to indicate rotor system unbalance.
    (c) Each rotorcraft turbine engine having a 30-second OEI rating and 
a 2-minute OEI rating must have a provision for a means to:
    (1) Alert the pilot when the engine is at the 30-second OEI and the 
2-minute OEI power levels, when the event begins, and when the time 
interval expires;
    (2) Determine, in a positive manner, that the engine has been 
operated at each rating; and
    (3) Automatically record each usage and duration of power at each 
rating.

[Amdt. 33-5, 39 FR 1831, Jan. 15, 1974, as amended by Amdt. 33-6, 39 FR 
35465, Oct. 1, 1974; Amdt. 33-18, 61 FR 31328, June 19, 1996]



   Subpart C--Design and Construction; Reciprocating Aircraft Engines



Sec. 33.31  Applicability.

    This subpart prescribes additional design and construction 
requirements for reciprocating aircraft engines.



Sec. 33.33  Vibration.

    The engine must be designed and constructed to function throughout 
its normal operating range of crankshaft rotational speeds and engine 
powers without inducing excessive stress in

[[Page 742]]

any of the engine parts because of vibration and without imparting 
excessive vibration forces to the aircraft structure.



Sec. 33.35  Fuel and induction system.

    (a) The fuel system of the engine must be designed and constructed 
to supply an appropriate mixture of fuel to the cylinders throughout the 
complete operating range of the engine under all flight and atmospheric 
conditions.
    (b) The intake passages of the engine through which air or fuel in 
combination with air passes for combustion purposes must be designed and 
constructed to minimize the danger of ice accretion in those passages. 
The engine must be designed and constructed to permit the use of a means 
for ice prevention.
    (c) The type and degree of fuel filtering necessary for protection 
of the engine fuel system against foreign particles in the fuel must be 
specified. The applicant must show that foreign particles passing 
through the prescribed filtering means will not critically impair engine 
fuel system functioning.
    (d) Each passage in the induction system that conducts a mixture of 
fuel and air must be self-draining, to prevent a liquid lock in the 
cylinders, in all attitudes that the applicant establishes as those the 
engine can have when the aircraft in which it is installed is in the 
static ground attitude.
    (e) If provided as part of the engine, the applicant must show for 
each fluid injection (other than fuel) system and its controls that the 
flow of the injected fluid is adequately controlled.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-10, 49 
FR 6851, Feb. 23, 1984]



Sec. 33.37  Ignition system.

    Each spark ignition engine must have a dual ignition system with at 
least two spark plugs for each cylinder and two separate electric 
circuits with separate sources of electrical energy, or have an ignition 
system of equivalent in-flight reliability.



Sec. 33.39  Lubrication system.

    (a) The lubrication system of the engine must be designed and 
constructed so that it will function properly in all flight attitudes 
and atmospheric conditions in which the airplane is expected to operate. 
In wet sump engines, this requirement must be met when only one-half of 
the maximum lubricant supply is in the engine.
    (b) The lubrication system of the engine must be designed and 
constructed to allow installing a means of cooling the lubricant.
    (c) The crankcase must be vented to the atmosphere to preclude 
leakage of oil from excessive pressure in the crankcase.



         Subpart D--Block Tests; Reciprocating Aircraft Engines



Sec. 33.41  Applicability.

    This subpart prescribes the block tests and inspections for 
reciprocating aircraft engines.



Sec. 33.42  General.

    Before each endurance test required by this subpart, the adjustment 
setting and functioning characteristic of each component having an 
adjustment setting and a functioning characteristic that can be 
established independent of installation on the engine must be 
established and recorded.

[Amdt. 33-6, 39 FR 35465, Oct. 1, 1974]



Sec. 33.43  Vibration test.

    (a) Each engine must undergo a vibration survey to establish the 
torsional and bending vibration characteristics of the crankshaft and 
the propeller shaft or other output shaft, over the range of crankshaft 
speed and engine power, under steady state and transient conditions, 
from idling speed to either 110 percent of the desired maximum 
continuous speed rating or 103 percent of the maximum desired takeoff 
speed rating, whichever is higher. The survey must be conducted using, 
for airplane engines, the same configuration of the propeller type which 
is used for the endurance test, and using, for other engines, the same 
configuration of the loading device type which is used for the endurance 
test.
    (b) The torsional and bending vibration stresses of the crankshaft 
and the

[[Page 743]]

propeller shaft or other output shaft may not exceed the endurance limit 
stress of the material from which the shaft is made. If the maximum 
stress in the shaft cannot be shown to be below the endurance limit by 
measurement, the vibration frequency and amplitude must be measured. The 
peak amplitude must be shown to produce a stress below the endurance 
limit; if not, the engine must be run at the condition producing the 
peak amplitude until, for steel shafts, 10 million stress reversals have 
been sustained without fatigue failure and, for other shafts, until it 
is shown that fatigue will not occur within the endurance limit stress 
of the material.
    (c) Each accessory drive and mounting attachment must be loaded, 
with the loads imposed by each accessory used only for an aircraft 
service being the limit load specified by the applicant for the drive or 
attachment point.
    (d) The vibration survey described in paragraph (a) of this section 
must be repeated with that cylinder not firing which has the most 
adverse vibration effect, in order to establish the conditions under 
which the engine can be operated safely in that abnormal state. However, 
for this vibration survey, the engine speed range need only extend from 
idle to the maximum desired takeoff speed, and compliance with paragraph 
(b) of this section need not be shown.

[Amdt. 33-6, 39 FR 35465, Oct. 1, 1974, as amended by Amdt. 33-10, 49 FR 
6851, Feb. 23, 1984]



Sec. 33.45  Calibration tests.

    (a) Each engine must be subjected to the calibration tests necessary 
to establish its power characteristics and the conditions for the 
endurance test specified in Sec. 33.49. The results of the power 
characteristics calibration tests form the basis for establishing the 
characteristics of the engine over its entire operating range of 
crankshaft rotational speeds, manifold pressures, fuel/air mixture 
settings, and altitudes. Power ratings are based upon standard 
atmospheric conditions with only those accessories installed which are 
essential for engine functioning.
    (b) A power check at sea level conditions must be accomplished on 
the endurance test engine after the endurance test. Any change in power 
characteristics which occurs during the endurance test must be 
determined. Measurements taken during the final portion of the endurance 
test may be used in showing compliance with the requirements of this 
paragraph.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-6, 39 
FR 35465, Oct. 1, 1974]



Sec. 33.47  Detonation test.

    Each engine must be tested to establish that the engine can function 
without detonation throughout its range of intended conditions of 
operation.



Sec. 33.49  Endurance test.

    (a) General. Each engine must be subjected to an endurance test that 
includes a total of 150 hours of operation (except as provided in 
paragraph (e)(1)(iii) of this section) and, depending upon the type and 
contemplated use of the engine, consists of one of the series of runs 
specified in paragraphs (b) through (e) of this section, as applicable. 
The runs must be made in the order found appropriate by the 
Administrator for the particular engine being tested. During the 
endurance test the engine power and the crankshaft rotational speed must 
be kept within plus-minus3 percent of the rated values. 
During the runs at rated takeoff power and for at least 35 hours at 
rated maximum continuous power, one cylinder must be operated at not 
less than the limiting temperature, the other cylinders must be operated 
at a temperature not lower than 50 degrees F. below the limiting 
temperature, and the oil inlet temperature must be maintained within 
plus-minus10 degrees F. of the limiting temperature. An 
engine that is equipped with a propeller shaft must be fitted for the 
endurance test with a propeller that thrust-loads the engine to the 
maximum thrust which the engine is designed to resist at each applicable 
operating condition specified in this section. Each accessory drive and 
mounting attachment must be loaded. During operation at rated takeoff 
power and rated maximum continuous power, the load imposed by each 
accessory used only for an aircraft service must be the limit load 
specified by the applicant

[[Page 744]]

for the engine drive or attachment point.
    (b) Unsupercharged engines and engines incorporating a gear-driven 
single-speed supercharger. For engines not incorporating a supercharger 
and for engines incorporating a gear-driven single-speed supercharger 
the applicant must conduct the following runs:
    (1) A 30-hour run consisting of alternate periods of 5 minutes at 
rated takeoff power with takeoff speed, and 5 minutes at maximum best 
economy cruising power or maximum recommended cruising power.
    (2) A 20-hour run consisting of alternate periods of 1\1/2\ hours at 
rated maximum continuous power with maximum continuous speed, and \1/2\ 
hour at 75 percent rated maximum continuous power and 91 percent maximum 
continuous speed.
    (3) A 20-hour run consisting of alternate periods of 1\1/2\ hours at 
rated maximum continuous power with maximum continuous speed, and \1/2\ 
hour at 70 percent rated maximum continuous power and 89 percent maximum 
continuous speed.
    (4) A 20-hour run consisting of alternate periods of 1\1/2\ hours at 
rated maximum continuous power with maximum continuous speed, and \1/2\ 
hour at 65 percent rated maximum continuous power and 87 percent maximum 
continuous speed.
    (5) A 20-hour run consisting of alternate periods of 1\1/2\ hours at 
rated maximum continuous power with maximum continuous speed, and \1/2\ 
hour at 60 percent rated maximum continuous power and 84.5 percent 
maximum continuous speed.
    (6) A 20-hour run consisting of alternate periods of 1\1/2\ hours at 
rated maximum continuous power with maximum continuous speed, and \1/2\ 
hour at 50 percent rated maximum continuous power and 79.5 percent 
maximum continuous speed.
    (7) A 20-hour run consisting of alternate periods of 2\1/2\ hours at 
rated maximum continuous power with maximum continuous speed, and 2\1/2\ 
hours at maximum best economy cruising power or at maximum recommended 
cruising power.
    (c) Engines incorporating a gear-driven two-speed supercharger. For 
engines incorporating a gear-driven two-speed supercharger the applicant 
must conduct the following runs:
    (1) A 30-hour run consisting of alternate periods in the lower gear 
ratio of 5 minutes at rated takeoff power with takeoff speed, and 5 
minutes at maximum best economy cruising power or at maximum recommended 
cruising power. If a takeoff power rating is desired in the higher gear 
ratio, 15 hours of the 30-hour run must be made in the higher gear ratio 
in alternate periods of 5 minutes at the observed horsepower obtainable 
with the takeoff critical altitude manifold pressure and takeoff speed, 
and 5 minutes at 70 percent high ratio rated maximum continuous power 
and 89 percent high ratio maximum continuous speed.
    (2) A 15-hour run consisting of alternate periods in the lower gear 
ratio of 1 hour at rated maximum continuous power with maximum 
continuous speed, and \1/2\ hour at 75 percent rated maximum continuous 
power and 91 percent maximum continuous speed.
    (3) A 15-hour run consisting of alternate periods in the lower gear 
ratio of 1 hour at rated maximum continuous power with maximum 
continuous speed, and \1/2\ hour at 70 percent rated maximum continuous 
power and 89 percent maximum continuous speed.
    (4) A 30-hour run in the higher gear ratio at rated maximum 
continuous power with maximum continuous speed.
    (5) A 5-hour run consisting of alternate periods of 5 minutes in 
each of the supercharger gear ratios. The first 5 minutes of the test 
must be made at maximum continuous speed in the higher gear ratio and 
the observed horsepower obtainable with 90 percent of maximum continuous 
manifold pressure in the higher gear ratio under sea level conditions. 
The condition for operation for the alternate 5 minutes in the lower 
gear ratio must be that obtained by shifting to the lower gear ratio at 
constant speed.
    (6) A 10-hour run consisting of alternate periods in the lower gear 
ratio of 1 hour at rated maximum continuous power with maximum 
continuous speed, and 1 hour at 65 percent rated maximum continuous 
power and 87 percent maximum continuous speed.

[[Page 745]]

    (7) A 10-hour run consisting of alternate periods in the lower gear 
ratio of 1 hour at rated maximum continuous power with maximum 
continuous speed, and 1 hour at 60 percent rated maximum continuous 
power and 84.5 percent maximum continuous speed.
    (8) A 10-hour run consisting of alternate periods in the lower gear 
ratio of 1 hour at rated maximum continuous power with maximum 
continuous speed, and 1 hour at 50 percent rated maximum continuous 
power and 79.5 percent maximum continuous speed.
    (9) A 20-hour run consisting of alternate periods in the lower gear 
ratio of 2 hours at rated maximum continuous power with maximum 
continuous speed, and 2 hours at maximum best economy cruising power and 
speed or at maximum recommended cruising power.
    (10) A 5-hour run in the lower gear ratio at maximum best economy 
cruising power and speed or at maximum recommended cruising power and 
speed.

Where simulated altitude test equipment is not available when operating 
in the higher gear ratio, the runs may be made at the observed 
horsepower obtained with the critical altitude manifold pressure or 
specified percentages thereof, and the fuel-air mixtures may be adjusted 
to be rich enough to suppress detonation.
    (d) Helicopter engines. To be eligible for use on a helicopter each 
engine must either comply with paragraphs (a) through (j) of Sec. 29.923 
of this chapter, or must undergo the following series of runs:
    (1) A 35-hour run consisting of alternate periods of 30 minutes each 
at rated takeoff power with takeoff speed, and at rated maximum 
continuous power with maximum continuous speed.
    (2) A 25-hour run consisting of alternate periods of 2\1/2\ hours 
each at rated maximum continuous power with maximum continuous speed, 
and at 70 percent rated maximum continuous power with maximum continuous 
speed.
    (3) A 25-hour run consisting of alternate periods of 2\1/2\ hours 
each at rated maximum continuous power with maximum continuous speed, 
and at 70 percent rated maximum continuous power with 80 to 90 percent 
maximum continuous speed.
    (4) A 25-hour run consisting of alternate periods of 2\1/2\ hours 
each at 30 percent rated maximum continuous power with takeoff speed, 
and at 30 percent rated maximum continuous power with 80 to 90 percent 
maximum continuous speed.
    (5) A 25-hour run consisting of alternate periods of 2\1/2\ hours 
each at 80 percent rated maximum continuous power with takeoff speed, 
and at either rated maximum continuous power with 110 percent maximum 
continuous speed or at rated takeoff power with 103 percent takeoff 
speed, whichever results in the greater speed.
    (6) A 15-hour run at 105 percent rated maximum continuous power with 
105 percent maximum continuous speed or at full throttle and 
corresponding speed at standard sea level carburetor entrance pressure, 
if 105 percent of the rated maximum continuous power is not exceeded.
    (e) Turbosupercharged engines. For engines incorporating a 
turbosupercharger the following apply except that altitude testing may 
be simulated provided the applicant shows that the engine and 
supercharger are being subjected to mechanical loads and operating 
temperatures no less severe than if run at actual altitude conditions:
    (1) For engines used in airplanes the applicant must conduct the 
runs specified in paragraph (b) of this section, except--
    (i) The entire run specified in paragraph (b)(1) of this section 
must be made at sea level altitude pressure;
    (ii) The portions of the runs specified in paragraphs (b)(2) through 
(7) of this section at rated maximum continuous power must be made at 
critical altitude pressure, and the portions of the runs at other power 
must be made at 8,000 feet altitude pressure; and
    (iii) The turbosupercharger used during the 150-hour endurance test 
must be run on the bench for an additional 50 hours at the limiting 
turbine wheel inlet gas temperature and rotational speed for rated 
maximum continuous power operation unless the limiting temperature and 
speed are maintained

[[Page 746]]

during 50 hours of the rated maximum continuous power operation.
    (2) For engines used in helicopters the applicant must conduct the 
runs specified in paragraph (d) of this section, except--
    (i) The entire run specified in paragraph (d)(1) of this section 
must be made at critical altitude pressure;
    (ii) The portions of the runs specified in paragraphs (d)(2) and (3) 
of this section at rated maximum continuous power must be made at 
critical altitude pressure and the portions of the runs at other power 
must be made at 8,000 feet altitude pressure;
    (iii) The entire run specified in paragraph (d)(4) of this section 
must be made at 8,000 feet altitude pressure;
    (iv) The portion of the runs specified in paragraph (d)(5) of this 
section at 80 percent of rated maximum continuous power must be made at 
8,000 feet altitude pressure and the portions of the runs at other power 
must be made at critical altitude pressure;
    (v) The entire run specified in paragraph (d)(6) of this section 
must be made at critical altitude pressure; and
    (vi) The turbosupercharger used during the endurance test must be 
run on the bench for 50 hours at the limiting turbine wheel inlet gas 
temperature and rotational speed for rated maximum continuous power 
operation unless the limiting temperature and speed are maintained 
during 50 hours of the rated maximum continuous power operation.

[Amdt. 33-3, 32 FR 3736, Mar. 4, 1967, as amended by Amdt. 33-6, 39 FR 
35465, Oct. 1, 1974; Amdt. 33-10, 49 FR 6851, Feb. 23, 1984]



Sec. 33.51  Operation test.

    The operation test must include the testing found necessary by the 
Administrator to demonstrate backfire characteristics, starting, idling, 
acceleration, overspeeding, functioning of propeller and ignition, and 
any other operational characteristic of the engine. If the engine 
incorporates a multispeed supercharger drive, the design and 
construction must allow the supercharger to be shifted from operation at 
the lower speed ratio to the higher and the power appropriate to the 
manifold pressure and speed settings for rated maximum continuous power 
at the higher supercharger speed ratio must be obtainable within five 
seconds.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-3, 32 
FR 3737, Mar. 4, 1967]



Sec. 33.53  Engine component tests.

    (a) For each engine that cannot be adequately substantiated by 
endurance testing in accordance with Sec. 33.49, the applicant must 
conduct additional tests to establish that components are able to 
function reliably in all normally anticipated flight and atmospheric 
conditions.
    (b) Temperature limits must be established for each component that 
requires temperature controlling provisions in the aircraft installation 
to assure satisfactory functioning, reliability, and durability.



Sec. 33.55  Teardown inspection.

    After completing the endurance test--
    (a) Each engine must be completely disassembled;
    (b) Each component having an adjustment setting and a functioning 
characteristic that can be established independent of installation on 
the engine must retain each setting and functioning characteristic 
within the limits that were established and recorded at the beginning of 
the test; and
    (c) Each engine component must conform to the type design and be 
eligible for incorporation into an engine for continued operation, in 
accordance with information submitted in compliance with Sec. 33.4.

[Amdt. 33-6, 39 FR 35466, Oct. 1, 1974, as amended by Amdt. 33-9, 45 FR 
60181, Sept. 11, 1980]



Sec. 33.57  General conduct of block tests.

    (a) The applicant may, in conducting the block tests, use separate 
engines of identical design and construction in the vibration, 
calibration, detonation, endurance, and operation tests, except that, if 
a separate engine is used for the endurance test it must be subjected to 
a calibration check before starting the endurance test.
    (b) The applicant may service and make minor repairs to the engine 
during the block tests in accordance with

[[Page 747]]

the service and maintenance instructions submitted in compliance with 
Sec. 33.4. If the frequency of the service is excessive, or the number 
of stops due to engine malfunction is excessive, or a major repair, or 
replacement of a part is found necessary during the block tests or as 
the result of findings from the teardown inspection, the engine or its 
parts may be subjected to any additional test the Administrator finds 
necessary.
    (c) Each applicant must furnish all testing facilities, including 
equipment and competent personnel, to conduct the block tests.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-6, 39 
FR 35466, Oct. 1, 1974; Amdt. 33-9, 45 FR 60181, Sept. 11, 1980]



      Subpart E--Design and Construction; Turbine Aircraft Engines



Sec. 33.61  Applicability.

    This subpart prescribes additional design and construction 
requirements for turbine aircraft engines.



Sec. 33.62  Stress analysis.

    A stress analysis must be performed on each turbine engine showing 
the design safety margin of each turbine engine rotor, spacer, and rotor 
shaft.

[Amdt. 33-6, 39 FR 35466, Oct. 1, 1974]



Sec. 33.63  Vibration.

    Each engine must be designed and constructed to function throughout 
its declared flight envelope and operating range of rotational speeds 
and power/thrust, without inducing excessive stress in any engine part 
because of vibration and without imparting excessive vibration forces to 
the aircraft structure.

[Doc. No. 28107, 61 FR 28433, June 4, 1996]



Sec. 33.65  Surge and stall characteristics.

    When the engine is operated in accordance with operating 
instructions required by Sec. 33.5(b), starting, a change of power or 
thrust, power or thrust augmentation, limiting inlet air distortion, or 
inlet air temperature may not cause surge or stall to the extent that 
flameout, structural failure, overtemperature, or failure of the engine 
to recover power or thrust will occur at any point in the operating 
envelope.

[Amdt. 33-6, 39 FR 35466, Oct. 1, 1974]



Sec. 33.66  Bleed air system.

    The engine must supply bleed air without adverse effect on the 
engine, excluding reduced thrust or power output, at all conditions up 
to the discharge flow conditions established as a limitation under 
Sec. 33.7(c)(11). If bleed air used for engine anti-icing can be 
controlled, provision must be made for a means to indicate the 
functioning of the engine ice protection system.

[Amdt. 33-10, 49 FR 6851, Feb. 23, 1984]



Sec. 33.67  Fuel system.

    (a) With fuel supplied to the engine at the flow and pressure 
specified by the applicant, the engine must function properly under each 
operating condition required by this part. Each fuel control adjusting 
means that may not be manipulated while the fuel control device is 
mounted on the engine must be secured by a locking device and sealed, or 
otherwise be inaccessible. All other fuel control adjusting means must 
be accessible and marked to indicate the function of the adjustment 
unless the function is obvious.
    (b) There must be a fuel strainer or filter between the engine fuel 
inlet opening and the inlet of either the fuel metering device or the 
engine-driven positive displacement pump whichever is nearer the engine 
fuel inlet. In addition, the following provisions apply to each strainer 
or filter required by this paragraph (b):
    (1) It must be accessible for draining and cleaning and must 
incorporate a screen or element that is easily removable.
    (2) It must have a sediment trap and drain except that it need not 
have a drain if the strainer or filter is easily removable for drain 
purposes.
    (3) It must be mounted so that its weight is not supported by the 
connecting lines or by the inlet or outlet connections of the strainer 
or filter, unless adequate strength margins under all loading conditions 
are provided in the lines and connections.
    (4) It must have the type and degree of fuel filtering specified as 
necessary

[[Page 748]]

for protection of the engine fuel system against foreign particles in 
the fuel. The applicant must show:
    (i) That foreign particles passing through the specified filtering 
means do not impair the engine fuel system functioning; and
    (ii) That the fuel system is capable of sustained operation 
throughout its flow and pressure range with the fuel initially saturated 
with water at 80  deg.F (27  deg.C) and having 0.025 fluid ounces per 
gallon (0.20 milliliters per liter) of free water added and cooled to 
the most critical condition for icing likely to be encountered in 
operation. However, this requirement may be met by demonstrating the 
effectiveness of specified approved fuel anti-icing additives, or that 
the fuel system incorporates a fuel heater which maintains the fuel 
temperature at the fuel strainer or fuel inlet above 32  deg.F (0 
deg.C) under the most critical conditions.
    (5) The applicant must demonstrate that the filtering means has the 
capacity (with respect to engine operating limitations) to ensure that 
the engine will continue to operate within approved limits, with fuel 
contaminated to the maximum degree of particle size and density likely 
to be encountered in service. Operation under these conditions must be 
demonstrated for a period acceptable to the Administrator, beginning 
when indication of impending filter blockage is first given by either:
    (i) Existing engine instrumentation; or
    (ii) Additional means incorporated into the engine fuel system.
    (6) Any strainer or filter bypass must be designed and constructed 
so that the release of collected contaminants is minimized by 
appropriate location of the bypass to ensure that collected contaminants 
are not in the bypass flow path.
    (c) If provided as part of the engine, the applicant must show for 
each fluid injection (other than fuel) system and its controls that the 
flow of the injected fluid is adequately controlled.
    (d) Engines having a 30-second OEI rating must incorporate means for 
automatic availability and automatic control of a 30-second OEI power.

[Amdt. 33-6, 39 FR 35466, Oct. 1, 1974, as amended by Amdt. 33-10, 49 FR 
6851, Feb. 23, 1984; Amdt. 33-18, 61 FR 31328, June 19, 1996]



Sec. 33.68  Induction system icing.

    Each engine, with all icing protection systems operating, must--
    (a) Operate throughout its flight power range (including idling) 
without the accumulation of ice on the engine components that adversely 
affects engine operation or that causes a serious loss of power or 
thrust in continuous maximum and intermittent maximum icing conditions 
as defined in appendix C of Part 25 of this chapter; and
    (b) Idle for 30 minutes on the ground, with the available air bleed 
for icing protection at its critical condition, without adverse effect, 
in an atmosphere that is at a temperature between 15 deg. and 30  deg.F 
(between -9 deg. and -1  deg.C) and has a liquid water content not less 
than 0.3 grams per cubic meter in the form of drops having a mean 
effective diameter not less than 20 microns, followed by a momentary 
operation at takeoff power or thrust. During the 30 minutes of idle 
operation the engine may be run up periodically to a moderate power or 
thrust setting in a manner acceptable to the Administrator.

[Amdt. 33-6, 39 FR 35466, Oct. 1, 1974, as amended by Amdt. 33-10, 49 FR 
6852, Feb. 23, 1984]



Sec. 33.69  Ignitions system.

    Each engine must be equipped with an ignition system for starting 
the engine on the ground and in flight. An electric ignition system must 
have at least two igniters and two separate secondary electric circuits, 
except that only one igniter is required for fuel burning augmentation 
systems.

[Amdt. 33-6, 39 FR 35466, Oct. 1, 1974]



Sec. 33.71  Lubrication system.

    (a) General. Each lubrication system must function properly in the 
flight attitudes and atmospheric conditions in which an aircraft is 
expected to operate.
    (b) Oil strainer or filter. There must be an oil strainer or filter 
through which all of the engine oil flows. In addition:

[[Page 749]]

    (1) Each strainer or filter required by this paragraph that has a 
bypass must be constructed and installed so that oil will flow at the 
normal rate through the rest of the system with the strainer or filter 
element completely blocked.
    (2) The type and degree of filtering necessary for protection of the 
engine oil system against foreign particles in the oil must be 
specified. The applicant must demonstrate that foreign particles passing 
through the specified filtering means do not impair engine oil system 
functioning.
    (3) Each strainer or filter required by this paragraph must have the 
capacity (with respect to operating limitations established for the 
engine) to ensure that engine oil system functioning is not impaired 
with the oil contaminated to a degree (with respect to particle size and 
density) that is greater than that established for the engine in 
paragraph (b)(2) of this section.
    (4) For each strainer or filter required by this paragraph, except 
the strainer or filter at the oil tank outlet, there must be means to 
indicate contamination before it reaches the capacity established in 
accordance with paragraph (b)(3) of this section.
    (5) Any filter bypass must be designed and constructed so that the 
release of collected contaminants is minimized by appropriate location 
of the bypass to ensure that the collected contaminants are not in the 
bypass flow path.
    (6) Each strainer or filter required by this paragraph that has no 
bypass, except the strainer or filter at an oil tank outlet or for a 
scavenge pump, must have provisions for connection with a warning means 
to warn the pilot of the occurence of contamination of the screen before 
it reaches the capacity established in accordance with paragraph (b)(3) 
of this section.
    (7) Each strainer or filter required by this paragraph must be 
accessible for draining and cleaning.
    (c) Oil tanks. (1) Each oil tank must have an expansion space of not 
less than 10 percent of the tank capacity.
    (2) It must be impossible to inadvertently fill the oil tank 
expansion space.
    (3) Each recessed oil tank filler connection that can retain any 
appreciable quantity of oil must have provision for fitting a drain.
    (4) Each oil tank cap must provide an oil-tight seal.
    (5) Each oil tank filler must be marked with the word ``oil.''
    (6) Each oil tank must be vented from the top part of the expansion 
space, with the vent so arranged that condensed water vapor that might 
freeze and obstruct the line cannot accumulate at any point.
    (7) There must be means to prevent entrance into the oil tank or 
into any oil tank outlet, of any object that might obstruct the flow of 
oil through the system.
    (8) There must be a shutoff valve at the outlet of each oil tank, 
unless the external portion of the oil system (including oil tank 
supports) is fireproof.
    (9) Each unpressurized oil tank may not leak when subjected to a 
maximum operating temperature and an internal pressure of 5 p.s.i., and 
each pressurized oil tank may not leak when subjected to maximum 
operating temperature and an internal pressure that is not less than 5 
p.s.i. plus the maximum operating pressure of the tank.
    (10) Leaked or spilled oil may not accumulate between the tank and 
the remainder of the engine.
    (11) Each oil tank must have an oil quantity indicator or provisions 
for one.
    (12) If the propeller feathering system depends on engine oil--
    (i) There must be means to trap an amount of oil in the tank if the 
supply becomes depleted due to failure of any part of the lubricating 
system other than the tank itself;
    (ii) The amount of trapped oil must be enough to accomplish the 
feathering opeation and must be available only to the feathering pump; 
and
    (iii) Provision must be made to prevent sludge or other foreign 
matter from affecting the safe operation of the propeller feathering 
system.
    (d) Oil drains. A drain (or drains) must be provided to allow safe 
drainage of the oil system. Each drain must--
    (1) Be accessible; and
    (2) Have manual or automatic means for positive locking in the 
closed position.

[[Page 750]]

    (e) Oil radiators. Each oil radiator must withstand, without 
failure, any vibration, inertia, and oil pressure load to which it is 
subjected during the block tests.

[Amdt. 33-6, 39 FR 35466, Oct. 1, 1974, as amended by Amdt. 33-10, 49 FR 
6852, Feb. 23, 1984]



Sec. 33.72  Hydraulic actuating systems.

    Each hydraulic actuating system must function properly under all 
conditions in which the engine is expected to operate. Each filter or 
screen must be accessible for servicing and each tank must meet the 
design criteria of Sec. 33.71.

[Amdt. 33-6, 39 FR 35467, Oct. 1, 1974]



Sec. 33.73  Power or thrust response.

    The design and construction of the engine must enable an increase--
    (a) From minimum to rated takeoff power or thrust with the maximum 
bleed air and power extraction to be permitted in an aircraft, without 
overtemperature, surge, stall, or other detrimental factors occurring to 
the engine whenever the power control lever is moved from the minimum to 
the maximum position in not more than 1 second, except that the 
Administrator may allow additional time increments for different regimes 
of control operation requiring control scheduling; and
    (b) From the fixed minimum flight idle power lever position when 
provided, or if not provided, from not more than 15 percent of the rated 
takeoff power or thrust available to 95 percent rated takeoff power or 
thrust in not over 5 seconds. The 5-second power or thrust response must 
occur from a stabilized static condition using only the bleed air and 
accessories loads necessary to run the engine. This takeoff rating is 
specified by the applicant and need not include thrust augmentation.

[Amdt. 33-1, 36 FR 5493, Mar. 24, 1971]



Sec. 33.74  Continued rotation.

    If any of the engine main rotating systems will continue to rotate 
after the engine is shutdown for any reason while in flight, and where 
means to prevent that continued rotation are not provided; then any 
continued rotation during the maximum period of flight, and in the 
flight conditions expected to occur with that engine inoperative, must 
not result in any condition described in Sec. 33.75 (a) through (c).

[Doc. No. 28107, 61 FR 28433, June 4, 1996]



Sec. 33.75  Safety analysis.

    It must be shown by analysis that any probable malfunction or any 
probable single or multiple failure, or any probable improper operation 
of the engine will not cause the engine to--
    (a) Catch fire;
    (b) Burst (release hazardous fragments through the engine case);
    (c) Generate loads greater than those ultimate loads specified in 
Sec. 33.23(a); or
    (d) Lose the capability of being shut down.

[Amdt. 33-6, 39 FR 35467, Oct. 1, 1974, as amended by Amdt. 33-10, 49 FR 
6852, Feb. 23, 1984]



Sec. 33.76  Bird ingestion.

    (a) General. Compliance with paragraphs (b) and (c) of this section 
shall be in accordance with the following:
    (1) All ingestion tests shall be conducted with the engine 
stabilized at no less than 100-percent takeoff power or thrust, for test 
day ambient conditions prior to the ingestion. In addition, the 
demonstration of compliance must account for engine operation at sea 
level takeoff conditions on the hottest day that a minimum engine can 
achieve maximum rated takeoff thrust or power.
    (2) The engine inlet throat area as used in this section to 
determine the bird quantity and weights will be established by the 
applicant and identified as a limitation in the installation 
instructions required under Sec. 33.5.
    (3) The impact to the front of the engine from the single large bird 
and the single largest medium bird which can enter the inlet must be 
evaluated. It must be shown that the associated components when struck 
under the conditions prescribed in paragraphs (b) or (c) of this 
section, as applicable, will not affect the engine to the extent that it 
cannot comply with the requirements of paragraphs (b)(3) and (c)(6) of 
this section.
    (4) For an engine that incorporates an inlet protection device, 
compliance with this section shall be established

[[Page 751]]

with the device functioning. The engine approval will be endorsed to 
show that compliance with the requirements has been established with the 
device functioning.
    (5) Objects that are accepted by the Administrator may be 
substituted for birds when conducting the bird ingestion tests required 
by paragraphs (b) and (c) of this section.
    (6) If compliance with the requirements of this section is not 
established, the engine type certification documentation will show that 
the engine shall be limited to aircraft installations in which it is 
shown that a bird cannot strike the engine, or be ingested into the 
engine, or adversely restrict airflow into the engine.
    (b) Large birds. Compliance with the large bird ingestion 
requirements shall be in accordance with the following:
    (1) The large bird ingestion test shall be conducted using one bird 
of a weight determined from Table 1 aimed at the most critical exposed 
location on the first stage rotor blades and ingested at a bird speed of 
200-knots for engines to be installed on airplanes, or the maximum 
airspeed for normal rotocraft flight operations for engines to be 
installed on rotocraft.
    (2) Power lever movement is not permitted within 15 seconds 
following ingestion of the large bird.
    (3) Ingestion of a single large bird tested under the conditions 
prescribed in this section may not cause the engine to:
    (i) Catch fire;
    (ii) Release hazardous fragments through the engine casing;
    (iii) Generate loads greater than those ultimate loads specified 
under Sec. 33.23(a); or
    (iv) Lose the ability to be shut down.
    (4) Compliance with the large bird ingestion requirements of this 
paragraph may be shown by demonstrating that the requirements of 
Sec. 33.94(a) constitute a more severe demonstration of blade 
containment and rotor unbalance than the requirements of this paragraph.

         Table 1 to Sec.  33.76.--Large Bird Weight Requirements
------------------------------------------------------------------------
   Engine Inlet Throat Area (A)--Square/
          meters (square-inches)                Bird weight kg. (lb.)
------------------------------------------------------------------------
1.35 (2,092)> A...........................  1.85 (4.07) minimum, unless
                                             a smaller bird is
                                             determined to be a more
                                             severe demonstration.
1.35 (2,029) A 3.90 (6,045)....  2.75 (6.05)
3.90 (6,045) A.................  3.65 (8.03)
------------------------------------------------------------------------

    (c) Small and medium birds. Compliance with the small and medium 
bird ingestion requirements shall be in accordance with the following:
    (1) Analysis or component test, or both, acceptable to the 
Administrator, shall be conducted to determine the critical ingestion 
parameters affecting power loss and damage. Critical ingestion 
parameters shall include, but are not limited to, the affects of bird 
speed, critical target location, and first stage roto speed. The 
critical bird ingestion speed should reflect the most critical condition 
within the range of airspeeds used for normal flight operations up to 
1,500 feet above ground level, but not less than V1 minimum 
for airplanes.
    (2) Medium bird engine tests shall be conducted so as to simulate a 
flock encounter, and will use the bird weights and quantities specified 
in Table 2. When only one bird is specified, that bird will be aimed at 
the engine core primary flow path; the other critical locations on the 
engine face area must be addressed, as necessary, by appropriate tests 
or analysis, or both. When two or more birds are specified in Table 2, 
the largest of those birds must be aimed at the engine core primary flow 
path, and a second bird must be aimed at the most critical exposed 
location on the first stage rotor blades. Any remaining birds must be 
evenly distributed over the engine face area.
    (3) In addition, except for rotorcraft engines, it must also be 
substantiated by appropriate tests or analysis or both, that when the 
full fan assembly is subjected to the ingestion of the quantity and 
weights of bird from Table 3, aimed at the fan assembly's most critical 
location outboard of the

[[Page 752]]

primary core flowpath, and in accordance with the applicable test 
conditions of this paragraph, that the engine can comply with the 
acceptance criteria of this paragraph.
    (4) A small bird ingestion test is not required if the prescribed 
number of medium birds pass into the engine rotor blades during the 
medium bird test.
    (5) Small bird ingestion tests shall be conducted so as to simulate 
a flock encounter using one 85 gram (0.187 lb.) bird for each 0.032 
square-meter (49.6 square-inches) of inlet area, or fraction thereof, up 
to a maximum of 16 birds. The birds will be aimed so as to account for 
any critical exposed locations on the first stage rotor blades, with any 
remaining birds evenly distributed over the engine face area.
    (6) Ingestion of small and medium birds tested under the conditions 
prescribed in this paragraph may not cause any of the following:
    (i) More than a sustained 25-percent power or thrust loss;
    (ii) The engine to be shut down during the required run-on 
demonstration prescribed in paragraphs (c)(7) or (c)(8) of this section;
    (iii) The conditions defined in paragraph (b)(3) of this section.
    (iv) Unacceptable deterioration of engine handling characteristics.
    (7) Except for rotorcraft engines, the following test schedule shall 
be used:
    (i) Ingestion so as to simulate a flock encounter, with 
approximately 1 second elapsed time from the moment of the first bird 
ingestion to the last.
    (ii) Followed by 2 minutes without power level movement after the 
ingestion.
    (iii) Followed by 3 minutes at 175-percent of the test condition.
    (iv) Followed by 6 minutes at 60-percent of the test condition.
    (v) Followed by 6 minutes at 40-percent of the test condition.
    (vi) Followed by 1 minute at approach idle.
    (vii) Followed by 2 minutes at 75-percent of the test condition.
    (viii) Followed by stabilizing at idle and engine shut down.
    The durations specified are times at the defined conditions with the 
power lever being moved between each condition in less than 10 seconds.
    (8) For rotorcraft engines, the following test schedule shall be 
used:
    (i) Ingestion so as to simulate a flock encounter within 
approximately 1 second elapsed time between the first ingestion and the 
last.
    (ii) Followed by 3 minutes at 75-percent of the test condition.
    (iii) Followed by 90 seconds at descent flight idle.
    (iv) Followed by 30 seconds at 75-percent of the test condition.
    (v) Followed by stabilizing at idle and engine shut down. The 
duration specified are times at the defined conditions with the power 
being changed between each condition in less than 10 seconds.
    (9) Engines intended for use in multi-engine rotorcraft are not 
required to comply with the medium bird ingestion portion of this 
section, providing that the appropriate type certificate documentation 
is so endorsed.
    (10) If any engine operating limit(s) is exceeded during the initial 
2 minutes without power lever movement, as provided by paragraph 
(c)(7)(ii) of this section, then it shall be established that the limit 
exceedence will not result in an unsafe condition.

    Table 2 to Sec.  33.76.--Medium Flocking Bird Weight and Quantity
                              Requirements
------------------------------------------------------------------------
 Engine Inlet Throat Area (A)--
  Square-meters (square-inches)      Bird quantity      Bird weight kg.
                                                             (lb.)
------------------------------------------------------------------------
0.05 (77.5)> A..................  none..............  ..................
.05 (77.5) A 0.10      1.................  0.35 (0.77)
 (155).
0.10 (155) A 0.20      1.................  0.45 (0.99)
 (310).
0.20 (310) A 0.40      2.................  0.45 (0.99)
 (620).
0.40 (620) A 0.60      2.................  0.70 (1.54)
 (930).
0.60 (930) A 1.00      3.................  0.70 (1.54)
 (1,550).
1.00 (1,550) A 1.35    4.................  0.70 (1.54)
 (2,092).
1.35 (2,092) A 1.70    1.................  1.15 (2.53)
 (2,635).
                                  plus 3............  0.70 (1.54)
1.70 (2,635) A 2.10    1.................  1.15 (2,53)
 (3,255).
                                  plus 4............  0.70 (1.54)
2.10 (3,255) A 2.50    1.................  1.15 (2.53)
 (3,875).

[[Page 753]]

 
                                  plus 5............  0.70 (1.54)
2.50 (3,875) A 3.90    1.................  1.15 (2.53)
 (6045).
                                  plus 6............  0.70 (1.54)
3.90 (6045) A 4.50     3.................  1.15 (2.53)
 (6975).
4.50 (6975) A........  4.................  1.15 (2.53)
------------------------------------------------------------------------


        Table 3 to Sec.  33.76.--Additional Integrity Assessment
------------------------------------------------------------------------
 Engine Inlet Throat Area (A)--
  square-meters (square-inches)      Bird quantity      Bird weight kg.
                                                             (lb.)
------------------------------------------------------------------------
1.35 (2,092)> A.................  none..............  ..................
1.35 (2,092) A 2.90    1.................  1.15 (2.53)
 (4,495).
2.90 (4,495) A 3.90    2.................  1.15 (2.53)
 (6,045).
3.90 (6,045) A.......  1.................  1.15 (2.53)
                                  plus 6............  0.70 (1.54)
------------------------------------------------------------------------


[Doc. No. FAA-1998-4815, 65 FR 55854, Sept. 14, 2000]



Sec. 33.77  Foreign object ingestion--ice.

    (a)-(b) [Reserved]
    (c) Ingestion of ice under the conditions of paragraph (e) of this 
section may not--
    (1) Cause a sustained power or thrust loss; or
    (2) Require the engine to be shutdown.
    (d) For an engine that incorporates a protection device, compliance 
with this section need not be demonstrated with respect to foreign 
objects to be ingested under the conditions prescribed in paragraph (e) 
of this section if it is shown that--
    (1) Such foreign objects are of a size that will not pass through 
the protective device;
    (2) The protective device will withstand the impact of the foreign 
objects; and
    (3) The foreign object, or objects, stopped by the protective device 
will not obstruct the flow of induction air into the engine with a 
resultant sustained reduction in power or thrust greater than those 
values required by paragraph (c) of this section.
    (e) Compliance with paragraph (c) of this section must be shown by 
engine test under the following ingestion conditions:
    (1) Ice quantity will be the maximum accumulation on a typical inlet 
cowl and engine face resulting from a 2-minute delay in actuating the 
anti-icing system; or a slab of ice which is comparable in weight or 
thickness for that size engine.
    (2) The ingestion velocity will simulate ice being sucked into the 
engine inlet.
    (3) Engine operation will be maximum cruise power or thrust.
    (4) The ingestion will simulate a continuous maximum icing encounter 
at 25 degrees Fahrenheit.

[Doc. No. 16919, 49 FR 6852, Feb. 23, 1984, as amended by Amdt. 33-19, 
63 FR 14798, Mar. 26, 1998; 63 FR 53278, Oct. 5, 1998; Amdt. 33-20, 65 
FR 55856, Sept. 14, 2000]



Sec. 33.78  Rain and hail ingestion.

    (a) All engines. (1) The ingestion of large hailstones (0.8 to 0.9 
specific gravity) at the maximum true air speed, up to 15,000 feet 
(4,500 meters), associated with a representative aircraft operating in 
rough air, with the engine at maximum continuous power, may not cause 
unacceptable mechanical damage or unacceptable power or thrust loss 
after the ingestion, or require the engine to be shut down. One-half the 
number of hailstones shall be aimed randomly over the inlet face area 
and the other half aimed at the critical inlet face area. The hailstones 
shall be ingested in a rapid sequence to simulate a hailstone encounter 
and the number and size of the hailstones shall be determined as 
follows:
    (i) One 1-inch (25 millimeters) diameter hailstone for engines with 
inlet areas of not more than 100 square inches (0.0645 square meters).
    (ii) One 1-inch (25 millimeters) diameter and one 2-inch (50 
millimeters)

[[Page 754]]

diameter hailstone for each 150 square inches (0.0968 square meters) of 
inlet area, or fraction thereof, for engines with inlet areas of more 
than 100 square inches (0.0645 square meters).
    (2) In addition to complying with paragraph (a)(1) of this section 
and except as provided in paragraph (b) of this section, it must be 
shown that each engine is capable of acceptable operation throughout its 
specified operating envelope when subjected to sudden encounters with 
the certification standard concentrations of rain and hail, as defined 
in appendix B to this part. Acceptable engine operation precludes 
flameout, run down, continued or non-recoverable surge or stall, or loss 
of acceleration and deceleration capability, during any three minute 
continuous period in rain and during any 30 second continuous period in 
hail. It must also be shown after the ingestion that there is no 
unacceptable mechanical damage, unacceptable power or thrust loss, or 
other adverse engine anomalies.
    (b) Engines for rotorcraft. As an alternative to the requirements 
specified in paragraph (a)(2) of this section, for rotorcraft turbine 
engines only, it must be shown that each engine is capable of acceptable 
operation during and after the ingestion of rain with an overall ratio 
of water droplet flow to airflow, by weight, with a uniform distribution 
at the inlet plane, of at least four percent. Acceptable engine 
operation precludes flameout, run down, continued or non-recoverable 
surge or stall, or loss of acceleration and deceleration capability. It 
must also be shown after the ingestion that there is no unacceptable 
mechanical damage, unacceptable power loss, or other adverse engine 
anomalies. The rain ingestion must occur under the following static 
ground level conditions:
    (1) A normal stabilization period at take-off power without rain 
ingestion, followed immediately by the suddenly commencing ingestion of 
rain for three minutes at takeoff power, then
    (2) Continuation of the rain ingestion during subsequent rapid 
deceleration to minimum idle, then
    (3) Continuation of the rain ingestion during three minutes at 
minimum idle power to be certified for flight operation, then
    (4) Continuation of the rain ingestion during subsequent rapid 
acceleration to takeoff power.
    (c) Engines for supersonic airplanes. In addition to complying with 
paragraphs (a)(1) and (a)(2) of this section, a separate test for 
supersonic airplane engines only, shall be conducted with three 
hailstones ingested at supersonic cruise velocity. These hailstones 
shall be aimed at the engine's critical face area, and their ingestion 
must not cause unacceptable mechanical damage or unacceptable power or 
thrust loss after the ingestion or require the engine to be shut down. 
The size of these hailstones shall be determined from the linear 
variation in diameter from 1-inch (25 millimeters) at 35,000 feet 
(10,500 meters) to \1/4\-inch (6 millimeters) at 60,000 feet (18,000 
meters) using the diameter corresponding to the lowest expected 
supersonic cruise altitude. Alternatively, three larger hailstones may 
be ingested at subsonic velocities such that the kinetic energy of these 
larger hailstones is equivalent to the applicable supersonic ingestion 
conditions.
    (d) For an engine that incorporates or requires the use of a 
protection device, demonstration of the rain and hail ingestion 
capabilities of the engine, as required in paragraphs (a), (b), and (c) 
of this section, may be waived wholly or in part by the Administrator if 
the applicant shows that:
    (1) The subject rain and hail constituents are of a size that will 
not pass through the protection device;
    (2) The protection device will withstand the impact of the subject 
rain and hail constituents; and
    (3) The subject of rain and hail constituents, stopped by the 
protection device, will not obstruct the flow of induction air into the 
engine, resulting in damage, power or thrust loss, or other adverse 
engine anomalies in excess of what would be accepted in paragraphs (a), 
(b), and (c) of this section.

[Doc. No. 28652, 63 FR 14799, Mar. 26, 1998]



Sec. 33.79  Fuel burning thrust augmentor.

    Each fuel burning thrust augmentor, including the nozzle, must--

[[Page 755]]

    (a) Provide cutoff of the fuel burning thrust augmentor;
    (b) Permit on-off cycling;
    (c) Be controllable within the intended range of operation;
    (d) Upon a failure or malfunction of augmentor combustion, not cause 
the engine to lose thrust other than that provided by the augmentor; and
    (e) Have controls that function compatibly with the other engine 
controls and automatically shut off augmentor fuel flow if the engine 
rotor speed drops below the minimum rotational speed at which the 
augmentor is intended to function.

[Amdt. 33-6, 39 FR 35468, Oct. 1, 1974]



            Subpart F--Block Tests; Turbine Aircraft Engines



Sec. 33.81  Applicability.

    This subpart prescribes the block tests and inspections for turbine 
engines.

[Doc. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-6, 39 FR 
35468, Oct. 1, 1974]



Sec. 33.82  General.

    Before each endurance test required by this subpart, the adjustment 
setting and functioning characteristic of each component having an 
adjustment setting and a functioning characteristic that can be 
established independent of installation on the engine must be 
established and recorded.

[Amdt. 36-6, 39 FR 35468, Oct. 1, 1974]



Sec. 33.83  Vibration test.

    (a) Each engine must undergo vibration surveys to establish that the 
vibration characteristics of those components that may be subject to 
mechanically or aerodynamically induced vibratory excitations are 
acceptable throughout the declared flight envelope. The engine surveys 
shall be based upon an appropriate combination of experience, analysis, 
and component test and shall address, as a minimum, blades, vanes, rotor 
discs, spacers, and rotor shafts.
    (b) The surveys shall cover the ranges of power or thrust, and both 
the physical and corrected rotational speeds for each rotor system, 
corresponding to operations throughout the range of ambient conditions 
in the declared flight envelope, from the minimum rotational speed up to 
103 percent of the maximum physical and corrected rotational speed 
permitted for rating periods of two minutes or longer, and up to 100 
percent of all other permitted physical and corrected rotational speeds, 
including those that are overspeeds. If there is any indication of a 
stress peak arising at the highest of those required physical or 
corrected rotational speeds, the surveys shall be extended sufficiently 
to reveal the maximum stress values present, except that the extension 
need not cover more than a further 2 percentage points increase beyond 
those speeds.
    (c) Evaluations shall be made of the following:
    (1) The effects on vibration characteristics of operating with 
scheduled changes (including tolerances) to variable vane angles, 
compressor bleeds, accessory loading, the most adverse inlet air flow 
distortion pattern declared by the manufacturer, and the most adverse 
conditions in the exhaust duct(s); and
    (2) The aerodynamic and aeromechanical factors which might induce or 
influence flutter in those systems susceptible to that form of 
vibration.
    (d) Except as provided by paragraph (e) of this section, the 
vibration stresses associated with the vibration characteristics 
determined under this section, when combined with the appropriate steady 
stresses, must be less than the endurance limits of the materials 
concerned, after making due allowances for operating conditions for the 
permitted variations in properties of the materials. The suitability of 
these stress margins must be justified for each part evaluated. If it is 
determined that certain operating conditions, or ranges, need to be 
limited, operating and installation limitations shall be established.
    (e) The effects on vibration characteristics of excitation forces 
caused by fault conditions (such as, but not limited to, out-of balance, 
local blockage or enlargement of stator vane passages,

[[Page 756]]

fuel nozzle blockage, incorrectly schedule compressor variables, etc.) 
shall be evaluated by test or analysis, or by reference to previous 
experience and shall be shown not to create a hazardous condition.
    (f) Compliance with this section shall be substantiated for each 
specific installation configuration that can affect the vibration 
characteristics of the engine. If these vibration effects cannot be 
fully investigated during engine certification, the methods by which 
they can be evaluated and methods by which compliance can be shown shall 
be substantiated and defined in the installation instructions required 
by Sec. 33.5.

[Doc. No. 28107, 61 FR 28433, June 4, 1996]



Sec. 33.85  Calibration tests.

    (a) Each engine must be subjected to those calibration tests 
necessary to establish its power characteristics and the conditions for 
the endurance test specified Sec. 33.87. The results of the power 
characteristics calibration tests form the basis for establishing the 
characteristics of the engine over its entire operating range of speeds, 
pressures, temperatures, and altitudes. Power ratings are based upon 
standard atmospheric conditions with no airbleed for aircraft services 
and with only those accessories installed which are essential for engine 
functioning.
    (b) A power check at sea level conditions must be accomplished on 
the endurance test engine after the endurance test and any change in 
power characteristics which occurs during the endurance test must be 
determined. Measurements taken during the final portion of the endurance 
test may be used in showing compliance with the requirements of this 
paragraph.
    (c) In showing compliance with this section, each condition must 
stabilize before measurements are taken, except as permitted by 
paragraph (d) of this section.
    (d) In the case of engines having 30-second OEI, and 2-minute OEI 
ratings, measurements taken during the applicable endurance test 
prescribed in Sec. 33.87(f) (1) through (8) may be used in showing 
compliance with the requirements of this section for these OEI ratings.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-6, 39 
FR 35468, Oct. 1, 1974; Amdt. 33-18, 61 FR 31328, June 19, 1996]



Sec. 33.87  Endurance test.

    (a) General. Each engine must be subjected to an endurance test that 
includes a total of at least 150 hours of operation and, depending upon 
the type and contemplated use of the engine, consists of one of the 
series of runs specified in paragraphs (b) through (g) of this section, 
as applicable. For engines tested under paragraphs (b), (c), (d), (e) or 
(g) of this section, the prescribed 6-hour test sequence must be 
conducted 25 times to complete the required 150 hours of operation. 
Engines for which the 30-second OEI and 2-minute OEI ratings are desired 
must be further tested under paragraph (f) of this section. The 
following test requirements apply:
    (1) The runs must be made in the order found appropriate by the 
Administrator for the particular engine being tested.
    (2) Any automatic engine control that is part of the engine must 
control the engine during the endurance test except for operations where 
automatic control is normally overridden by manual control or where 
manual control is otherwise specified for a particular test run.
    (3) Except as provided in paragraph (a)(5) of this section, power or 
thrust, gas temperature, rotor shaft rotational speed, and, if limited, 
temperature of external surfaces of the engine must be at least 100 
percent of the value associated with the particular engine operation 
being tested. More than one test may be run if all parameters cannot be 
held at the 100 percent level simultaneously.
    (4) The runs must be made using fuel, lubricants and hydraulic fluid 
which conform to the specifications specified in complying with 
Sec. 33.7(c).
    (5) Maximum air bleed for engine and aircraft services must be used 
during at least one-fifth of the runs. However, for these runs, the 
power or thrust or the rotor shaft rotational speed may be less than 100 
percent of the value associated with the particular operation

[[Page 757]]

being tested if the Administrator finds that the validity of the 
endurance test is not compromised.
    (6) Each accessory drive and mounting attachment must be loaded. The 
load imposed by each accessory used only for aircraft service must be 
the limit load specified by the applicant for the engine drive and 
attachment point during rated maximum continuous power or thrust and 
higher output. The endurance test of any accessory drive and mounting 
attachment under load may be accomplished on a separate rig if the 
validity of the test is confirmed by an approved analysis.
    (7) During the runs at any rated power or thrust the gas temperature 
and the oil inlet temperature must be maintained at the limiting 
temperature except where the test periods are not longer than 5 minutes 
and do not allow stabilization. At least one run must be made with fuel, 
oil, and hydraulic fluid at the minimum pressure limit and at least one 
run must be made with fuel, oil, and hydraulic fluid at the maximum 
pressure limit with fluid temperature reduced as necessary to allow 
maximum pressure to be attained.
    (8) If the number of occurrences of either transient rotor shaft 
overspeed or transient gas overtemperature is limited, that number of 
the accelerations required by paragraphs (b) through (g) of this section 
must be made at the limiting overspeed or overtemperature. If the number 
of occurrences is not limited, half the required accelerations must be 
made at the limiting overspeed or overtemperature.
    (9) For each engine type certificated for use on supersonic aircraft 
the following additional test requirements apply:
    (i) To change the thrust setting, the power control lever must be 
moved from the initial position to the final position in not more than 
one second except for movements into the fuel burning thrust augmentor 
augmentation position if additional time to confirm ignition is 
necessary.
    (ii) During the runs at any rated augmented thrust the hydraulic 
fluid temperature must be maintained at the limiting temperature except 
where the test periods are not long enough to allow stabilization.
    (iii) During the simulated supersonic runs the fuel temperature and 
induction air temperature may not be less than the limiting temperature.
    (iv) The endurance test must be conducted with the fuel burning 
thrust augmentor installed, with the primary and secondary exhaust 
nozzles installed, and with the variable area exhaust nozzles operated 
during each run according to the methods specified in complying with 
Sec. 33.5(b).
    (v) During the runs at thrust settings for maximum continuous thrust 
and percentages thereof, the engine must be operated with the inlet air 
distortion at the limit for those thrust settings.
    (b) Engines other than certain rotorcraft engines. For each engine 
except a rotorcraft engine for which a rating is desired under paragraph 
(c), (d), or (e) of this section, the applicant must conduct the 
following runs:
    (1) Takeoff and idling. One hour of alternate five-minute periods at 
rated takeoff power and thrust and at idling power and thrust. The 
developed powers and thrusts at takeoff and idling conditions and their 
corresponding rotor speed and gas temperature conditions must be as 
established by the power control in accordance with the schedule 
established by the manufacturer. The applicant may, during any one 
period, manually control the rotor speed, power, and thrust while taking 
data to check performance. For engines with augmented takeoff power 
ratings that involve increases in turbine inlet temperature, rotor 
speed, or shaft power, this period of running at takeoff must be at the 
augmented rating. For engines with augmented takeoff power ratings that 
do not materially increase operating severity, the amount of running 
conducted at the augmented rating is determined by the Administrator. In 
changing the power setting after each period, the power-control lever 
must be moved in the manner prescribed in paragraph (b)(5) of this 
section.
    (2) Rated maximum continuous and takeoff power and thrust. Thirty 
minutes at--

[[Page 758]]

    (i) Rated maximum continuous power and thrust during fifteen of the 
twenty-five 6-hour endurance test cycles; and
    (ii) Rated takeoff power and thrust during ten of the twenty-five 6-
hour endurance test cycles.
    (3) Rated maximum continuous power and thrust. One hour and 30 
minutes at rated maximum continuous power and thrust.
    (4) Incremental cruise power and thrust. Two hours and 30 minutes at 
the successive power lever positions corresponding to at least 15 
approximately equal speed and time increments between maximum continuous 
engine rotational speed and ground or minimum idle rotational speed. For 
engines operating at constant speed, the thrust and power may be varied 
in place of speed. If there is significant peak vibration anywhere 
between ground idle and maximum continuous conditions, the number of 
increments chosen may be changed to increase the amount of running made 
while subject to the peak vibrations up to not more than 50 percent of 
the total time spent in incremental running.
    (5) Acceleration and deceleration runs. 30 minutes of accelerations 
and decelerations, consisting of six cycles from idling power and thrust 
to rated takeoff power and thrust and maintained at the takeoff power 
lever position for 30 seconds and at the idling power lever position for 
approximately four and one-half minutes. In complying with this 
paragraph, the power-control lever must be moved from one extreme 
poition to the other in not more than one second, except that, if 
different regimes of control operations are incorporated necessitating 
scheduling of the power-control lever motion in going from one extreme 
position to the other, a longer period of time is acceptable, but not 
more than two seconds.
    (6) Starts. One hundred starts must be made, of which 25 starts must 
be preceded by at least a two-hour engine shutdown. There must be at 
least 10 false engine starts, pausing for the applicant's specified 
minimum fuel drainage time, before attempting a normal start. There must 
be at least 10 normal restarts with not longer than 15 minutes since 
engine shutdown. The remaining starts may be made after completing the 
150 hours of endurance testing.
    (c) Rotorcraft engines for which a 30-minute OEI power rating is 
desired. For each rotorcraft engine for which a 30-minute OEI power 
rating is desired, the applicant must conduct the following series of 
tests:
    (1) Takeoff and idling. One hour of alternate 5-minute periods at 
rated takeoff power and at idling power. The developed powers at takeoff 
and idling conditions and their corresponding rotor speed and gas 
temperature conditions must be as established by the power control in 
accordance with the schedule established by the manufacturer. During any 
one period, the rotor speed and power may be controlled manually while 
taking data to check performance. For engines with augmented takeoff 
power ratings that involve increases in turbine inlet temperature, rotor 
speed, or shaft power, this period of running at rated takeoff power 
must be at the augmented power rating. In changing the power setting 
after each period, the power control lever must be moved in the manner 
prescribed in paragraph (c)(5) of this section.
    (2) Rated 30-minute OEI power. Thirty minutes at rated 30-minute OEI 
power.
    (3) Rated maximum continuous power. Two hours at rated maximum 
continuous power.
    (4) Incremental cruise power. Two hours at the successive power 
lever positions corresponding with not less than 12 approximately equal 
speed and time increments between maximum continuous engine rotational 
speed and ground or minimum idle rotational speed. For engines operating 
at constant speed, power may be varied in place of speed. If there are 
significant peak vibrations anywhere between ground idle and maximum 
continuous conditions, the number of increments chosen must be changed 
to increase the amount of running conducted while being subjected to the 
peak vibrations up to not more than 50 percent of the total time spent 
in incremental running.
    (5) Acceleration and deceleration runs. Thirty minutes of 
accelerations and decelerations, consisting of six cycles

[[Page 759]]

from idling power to rated takeoff power and maintained at the takeoff 
power lever position for 30 seconds and at the idling power lever 
position for approximately 4\1/2\ minutes. In complying with this 
paragraph, the power control lever must be moved from one extreme 
position to the other in not more than 1 second, except that if 
different regimes of control operations are incorporated necessitating 
scheduling of the power control lever motion in going from one extreme 
position to the other, a longer period of time is acceptable, but not 
more than 2 seconds.
    (6) Starts. One hundred starts, of which 25 starts must be preceded 
by at least a two-hour engine shutdown. There must be at least 10 false 
engine starts, pausing for the applicant's specified minimum fuel 
drainage time, before attempting a normal start. There must be at least 
10 normal restarts with not longer than 15 minutes since engine 
shutdown. The remaining starts may be made after completing the 150 
hours of endurance testing.
    (d) Rotorcraft engines for which a continuous OEI rating is desired. 
For each rotorcraft engine for which a continuous OEI power rating is 
desired, the applicant must conduct the following series of tests:
    (1) Takeoff and idling. One hour of alternate 5-minute periods at 
rated takeoff power and at idling power. The developed powers at takeoff 
and idling conditions and their corresponding rotor speed and gas 
temperature conditions must be as established by the power control in 
accordance with the schedule established by the manufacturer. During any 
one period the rotor speed and power may be controlled manually while 
taking data to check performance. For engines with augmented takeoff 
power ratings that involve increases in turbine inlet temperature, rotor 
speed, or shaft power, this period of running at rated takeoff power 
must be at the augmented power rating. In changing the power setting 
after each period, the power control lever must be moved in the manner 
prescribed in paragraph (c)(5) of this section.
    (2) Rated maximum continuous and takeoff power. Thirty minutes at--
    (i) Rated maximum continuous power during fifteen of the twenty-five 
6-hour endurance test cycles; and
    (ii) Rated takeoff power during ten of the twenty-five 6-hour 
endurance test cycles.
    (3) Rated continuous OEI power. One hour at rated continuous OEI 
power.
    (4) Rated maximum continuous power. One hour at rated maximum 
continuous power.
    (5) Incremental cruise power. Two hours at the successive power 
lever positions corresponding with not less than 12 approximately equal 
speed and time increments between maximum continuous engine rotational 
speed and ground or minimum idle rotational speed. For engines operating 
at constant speed, power may be varied in place of speed. If there are 
significant peak vibrations anywhere between ground idle and maximum 
continuous conditions, the number of increments chosen must be changed 
to increase the amount of running conducted while being subjected to the 
peak vibrations up to not more than 50 percent of the total time spent 
in incremental running.
    (6) Acceleration and deceleration runs. Thirty minutes of 
accelerations and decelerations, consisting of six cycles from idling 
power to rated takeoff power and maintained at the takeoff power lever 
position for 30 seconds and at the idling power lever position for 
approximately 4\1/2\ minutes. In complying with this paragraph, the 
power control lever must be moved from one extreme position to the other 
in not more than 1 second, except that if different regimes of control 
operations are incorporated necessitating scheduling of the power 
control lever motion in going from one extreme position to the other, a 
longer period of time is acceptable, but not more than 2 seconds.
    (7) Starts. One hundred starts, of which 25 starts must be preceded 
by at least a 2-hour engine shutdown. There must be at least 10 false 
engine starts, pausing for the applicant's specified minimum fuel 
drainage time, before attempting a normal start. There must be at least 
10 normal restarts with not longer than 15 minutes since engine 
shutdown. The remaining starts may

[[Page 760]]

be made after completing the 150 hours of endurance testing.
    (e) Rotorcraft engines for which a 2\1/2\-minute OEI power rating is 
desired. For each rotorcraft engine for which a 2\1/2\-minute OEI power 
rating is desired, the applicant must conduct the following series of 
tests:
    (1) Takeoff, 2\1/2\-minute OEI, and idling. One hour of alternate 5-
minute periods at rated takeoff power and at idling power except that, 
during the third and sixth takeoff power periods, only 2\1/2\ minutes 
need be conducted at rated takeoff power, and the remaining 2\1/2\ 
minutes must be conducted at rated 2\1/2\-minute OEI power. The 
developed powers at takeoff, 2\1/2\-minute OEI, and idling conditions 
and their corresponding rotor speed and gas temperature conditions must 
be as established by the power control in accordance with the schedule 
established by the manufacturer. The applicant may, during any one 
period, control manually the rotor speed and power while taking data to 
check performance. For engines with augmented takeoff power ratings that 
involve increases in turbine inlet temperature, rotor speed, or shaft 
power, this period of running at rated takeoff power must be at the 
augmented rating. In changing the power setting after or during each 
period, the power control lever must be moved in the manner prescribed 
in paragraph (d)(6) of this section.
    (2) The tests required in paragraphs (b)(2) through (b)(6), or 
(c)(2) through (c)(6), or (d)(2) through (d)(7) of this section, as 
applicable, except that in one of the 6-hour test sequences, the last 5 
minutes of the 30 minutes at takeoff power test period of paragraph 
(b)(2) of this section, or of the 30 minutes at 30-minute OEI power test 
period of paragraph (c)(2) of this section, or of the l hour at 
continuous OEI power test period of paragraph (d)(3) of this section, 
must be run at 2\1/2\-minute OEI power.
    (f) Rotorcraft engines for which 30-second OEI and 2-minute OEI 
ratings are desired. For each rotorcraft engine for which 30-second OEI 
and 2-minute OEI power ratings are desired, and following completion of 
the tests under paragraphs (b), (c), (d), or (e) of this section, the 
applicant may disassemble the tested engine to the extent necessary to 
show compliance with the requirements of Sec. 33.93(a). The tested 
engine must then be reassembled using the same parts used during the 
test runs of paragraphs (b), (c), (d), or (e) of this section, except 
those parts described as consumables in the Instructions for Continued 
Airworthiness. The applicant must then conduct the following test 
sequence four times, for a total time of not less than 120 minutes:
    (1) Takeoff power. Three minutes at rated takeoff power.
    (2)30-second OEI power. Thirty seconds at rated 30-second OEI power.
    (3) 2-minute OEI power. Two minutes at rated 2-minute OEI power.
    (4) 30-minute OEI power, continuous OEI power, or maximum continuous 
power. Five minutes at rated 30-minute OEI power, rated continuous OEI 
power, or rated maximum continuous power, whichever is greatest, except 
that, during the first test sequence, this period shall be 65 minutes.
    (5) 50 percent takeoff power. One minute at 50 percent takeoff 
power.
    (6) 30-second OEI power. Thirty seconds at rated 30-second OEI 
power.
    (7) 2-minute OEI power. Two minutes at rated 2-minute OEI power.
    (8) Idle. One minute at idle.
    (g) Supersonic aircraft engines. For each engine type certificated 
for use on supersonic aircraft the applicant must conduct the following:
    (1) Subsonic test under sea level ambient atmospheric conditions. 
Thirty runs of one hour each must be made, consisting of--
    (i) Two periods of 5 minutes at rated takeoff augmented thrust each 
followed by 5 minutes at idle thrust;
    (ii) One period of 5 minutes at rated takeoff thrust followed by 5 
minutes at not more than 15 percent of rated takeoff thrust;
    (iii) One period of 10 minutes at rated takeoff augmented thrust 
followed by 2 minutes at idle thrust, except that if rated maximum 
continuous augmented thrust is lower than rated takeoff augmented 
thrust, 5 of the 10-minute periods must be at rated maximum continuous 
augmented thrust; and

[[Page 761]]

    (iv) Six periods of 1 minute at rated takeoff augmented thrust each 
followed by 2 minutes, including acceleration and deceleration time, at 
idle thrust.
    (2) Simulated supersonic test. Each run of the simulated supersonic 
test must be preceded by changing the inlet air temperature and pressure 
from that attained at subsonic condition to the temperature and pressure 
attained at supersonic velocity, and must be followed by a return to the 
temperature attained at subsonic condition. Thirty runs of 4 hours each 
must be made, consisting of--
    (i) One period of 30 minutes at the thrust obtained with the power 
control lever set at the position for rated maximum continuous augmented 
thrust followed by 10 minutes at the thrust obtained with the power 
control lever set at the position for 90 percent of rated maximum 
continuous augmented thrust. The end of this period in the first five 
runs must be made with the induction air temperature at the limiting 
condition of transient overtemperature, but need not be repeated during 
the periods specified in paragraphs (g)(2)(ii) through (iv) of this 
section;
    (ii) One period repeating the run specified in paragraph (g)(2)(i) 
of this section, except that it must be followed by 10 minutes at the 
thrust obtained with the power control lever set at the position for 80 
percent of rated maximum continuous augmented thrust;
    (iii) One period repeating the run specified in paragraph (g)(2)(i) 
of this section, except that it must be followed by 10 minutes at the 
thrust obtained with the power control lever set at the position for 60 
percent of rated maximum continuous augmented thrust and then 10 minutes 
at not more than 15 percent of rated takeoff thrust;
    (iv) One period repeating the runs specified in paragraphs (g)(2)(i) 
and (ii) of this section; and
    (v) One period of 30 minutes with 25 of the runs made at the thrust 
obtained with the power control lever set at the position for rated 
maximum continuous augmented thrust, each followed by idle thrust and 
with the remaining 5 runs at the thrust obtained with the power control 
lever set at the position for rated maximum continuous augmented thrust 
for 25 minutes each, followed by subsonic operation at not more than 15 
percent or rated takeoff thrust and accelerated to rated takeoff thrust 
for 5 minutes using hot fuel.
    (3) Starts. One hundred starts must be made, of which 25 starts must 
be preceded by an engine shutdown of at least 2 hours. There must be at 
least 10 false engine starts, pausing for the applicant's specified 
minimum fuel drainage time before attempting a normal start. At least 10 
starts must be normal restarts, each made no later than 15 minutes after 
engine shutdown. The starts may be made at any time, including the 
period of endurance testing.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-3, 32 
FR 3737, Mar. 4, 1967; Amdt. 33-6, 39 FR 35468, Oct. 1, 1974; Amdt. 33-
10, 49 FR 6853, Feb. 23, 1984; Amdt. 33-12, 53 FR 34220, Sept. 2, 1988; 
Amdt. 33-18, 61 FR 31328, June 19, 1996]



Sec. 33.88  Engine overtemperature test.

    (a) Each engine must run for 5 minutes at maximum permissible rpm 
with the gas temperature at least 75  deg.F (42  deg.C) higher than the 
maximum rating's steady-state operating limit, excluding maximum values 
of rpm and gas temperature associated with the 30-second OEI and 2-
minute OEI ratings. Following this run, the turbine assembly must be 
within serviceable limits.
    (b) Each engine for which 30-second OEI and 2-minute OEI ratings are 
desired, that does not incorporate a means to limit temperature, must be 
run for a period of 5 minutes at the maximum power-on rpm with the gas 
temperature at least 75  deg.F (42  deg.C) higher than the 30-second OEI 
rating operating limit. Following this run, the turbine assembly may 
exhibit distress beyond the limits for an overtemperature condition 
provided the engine is shown by analysis or test, as found necessary by 
the Administrator, to maintain the integrity of the turbine assembly.
    (c) Each engine for which 30-second OEI and 2-minute OEI ratings are 
desired, that incorporates a means to limit temperature, must be run for 
a period of 4 minutes at the maximum

[[Page 762]]

power-on rpm with the gas temperature at least 35  deg.F (20  deg.C) 
higher than the maximum operating limit. Following this run, the turbine 
assembly may exhibit distress beyond the limits for an overtemperature 
condition provided the engine is shown by analysis or test, as found 
necessary by the Administrator, to maintain the integrity of the turbine 
assembly.
    (d) A separate test vehicle may be used for each test condition.

[Doc. No. 26019, 61 FR 31329, June 19, 1996]



Sec. 33.89  Operation test.

    (a) The operation test must include testing found necessary by the 
Administrator to demonstrate--
    (1) Starting, idling, acceleration, overspeeding, ignition, 
functioning of the propeller (if the engine is designated to operate 
with a propeller);
    (2) Compliance with the engine response requirements of Sec. 33.73; 
and
    (3) The minimum power or thrust response time to 95 percent rated 
takeoff power or thrust, from power lever positions representative of 
minimum idle and of minimum flight idle, starting from stabilized idle 
operation, under the following engine load conditions:
    (i) No bleed air and power extraction for aircraft use.
    (ii) Maximum allowable bleed air and power extraction for aircraft 
use.
    (iii) An intermediate value for bleed air and power extraction 
representative of that which might be used as a maximum for aircraft 
during approach to a landing.
    (4) If testing facilities are not available, the determination of 
power extraction required in paragraph (a)(3)(ii) and (iii) of this 
section may be accomplished through appropriate analytical means.
    (b) The operation test must include all testing found necessary by 
the Administrator to demonstrate that the engine has safe operating 
characteristics throughout its specified operating envelope.

[Amdt. 33-4, 36 FR 5493, Mar. 24, 1971, as amended by Amdt. 33-6, 39 FR 
35469, Oct. 1, 1974; Amdt. 33-10, 49 FR 6853, Feb. 23, 1984]



Sec. 33.90  Initial maintenance inspection.

    Each engine, except engines being type certificated through 
amendment of an existing type certificate or through supplemental type 
certification procedures, must undergo an approved test run that 
simulates the conditions in which the engine is expected to operate in 
service, including typical start-stop cycles, to establish when the 
initial maintenance inspection is required. The test run must be 
accomplished on an engine which substantially conforms to the final type 
design.

[Amdt. 33-10, 49 FR 6854, Feb. 23, 1984]



Sec. 33.91  Engine component tests.

    (a) For those systems that cannot be adequately substantiated by 
endurance testing in accordance with the provisions of Sec. 33.87, 
additional tests must be made to establish that components are able to 
function reliably in all normally anticipated flight and atmospheric 
conditions.
    (b) Temperature limits must be established for those components that 
require temperature controlling provisions in the aircraft installation 
to assure satisfactory functioning, reliability, and durability.
    (c) Each unpressurized hydraulic fluid tank may not fail or leak 
when subjected to maximum operating temperature and an internal pressure 
of 5 p.s.i., and each pressurized hydraulic fluid tank may not fail or 
leak when subjected to maximum operating temperature and an internal 
pressure not less than 5 p.s.i. plus the maximum operating pressure of 
the tank.
    (d) For an engine type certificated for use in supersonic aircraft, 
the systems, safety devices, and external components that may fail 
because of operation at maximum and minimum operating temperatures must 
be identified and tested at maximum and minimum operating temperatures 
and while temperature and other operating conditions are cycled between 
maximum and minimum operating values.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-6, 39 
FR 35469, Oct. 1, 1974]

[[Page 763]]



Sec. 33.92  Rotor locking tests.

    If continued rotation is prevented by a means to lock the rotor(s), 
the engine must be subjected to a test that includes 25 operations of 
this means under the following conditions:
    (a) The engine must be shut down from rated maximum continuous 
thrust or power; and
    (b) The means for stopping and locking the rotor(s) must be operated 
as specified in the engine operating instructions while being subjected 
to the maximum torque that could result from continued flight in this 
condition; and
    (c) Following rotor locking, the rotor(s) must be held stationary 
under these conditions for five minutes for each of the 25 operations.

[Doc. No. 28107, 61 FR 28433, June 4, 1996]



Sec. 33.93  Teardown inspection.

    (a) After completing the endurance testing of Sec. 33.87 (b), (c), 
(d), (e), or (g) of this part, each engine must be completely 
disassembled, and
    (1) Each component having an adjustment setting and a functioning 
characteristic that can be established independent of installation on 
the engine must retain each setting and functioning characteristic 
within the limits that were established and recorded at the beginning of 
the test; and
    (2) Each engine part must conform to the type design and be eligible 
for incorporation into an engine for continued operation, in accordance 
with information submitted in compliance with Sec. 33.4.
    (b) After completing the endurance testing of Sec. 33.87(f), each 
engine must be completely disassembled, and
    (1) Each component having an adjustment setting and a functioning 
characteristic that can be established independent of installation on 
the engine must retain each setting and functioning characteristic 
within the limits that were established and recorded at the beginning of 
the test; and
    (2) Each engine may exhibit deterioration in excess of that 
permitted in paragraph (a)(2) of this section including some engine 
parts or components that may be unsuitable for further use. The 
applicant must show by analysis and/or test, as found necessary by the 
Administrator, that structural integrity of the engine including mounts, 
cases, bearing supports, shafts, and rotors, is maintained; or
    (c) In lieu of compliance with paragraph (b) of this section, each 
engine for which the 30-second OEI and 2-minute OEI ratings are desired, 
may be subjected to the endurance testing of Secs. 33.87 (b), (c), (d), 
or (e) of this part, and followed by the testing of Sec. 33.87(f) 
without intervening disassembly and inspection. However, the engine must 
comply with paragraph (a) of this section after completing the endurance 
testing of Sec. 33.87(f).

[Doc. No. 26019, 61 FR 31329, June 19, 1996]



Sec. 33.94  Blade containment and rotor unbalance tests.

    (a) Except as provided in paragraph (b) of this section, it must be 
demonstrated by engine tests that the engine is capable of containing 
damage without catching fire and without failure of its mounting 
attachments when operated for at least 15 seconds, unless the resulting 
engine damage induces a self shutdown, after each of the following 
events:
    (1) Failure of the most critical compressor or fan blade while 
operating at maximum permissible r.p.m. The blade failure must occur at 
the outermost retention groove or, for integrally-bladed rotor discs, at 
least 80 percent of the blade must fail.
    (2) Failure of the most critical turbine blade while operating at 
maximum permissible r.p.m. The blade failure must occur at the outermost 
retention groove or, for integrally-bladed rotor discs, at least 80 
percent of the blade must fail. The most critical turbine blade must be 
determined by considering turbine blade weight and the strength of the 
adjacent turbine case at case temperatures and pressures associated with 
operation at maximum permissible r.p.m.
    (b) Analysis based on rig testing, component testing, or service 
experience may be substitute for one of the engine tests prescribed in 
paragraphs (a)(1) and (a)(2) of this section if--
    (1) That test, of the two prescribed, produces the least rotor 
unbalance; and

[[Page 764]]

    (2) The analysis is shown to be equivalent to the test.

Secs. 313(a), 601, and 603, Federal Aviation Act of 1958 (49 U.S.C. 
1354(a), 1421, and 1423); and 49 U.S.C. 106(g) Revised, Pub. L. 97-449, 
Jan. 12, 1983)

[Amdt. 33-10, 49 FR 6854, Feb. 23, 1984]



Sec. 33.95  Engine-propeller systems tests.

    If the engine is designed to operate with a propeller, the following 
tests must be made with a representative propeller installed by either 
including the tests in the endurance run or otherwise performing them in 
a manner acceptable to the Administrator:
    (a) Feathering operation: 25 cycles.
    (b) Negative torque and thrust system operation: 25 cycles from 
rated maximum continuous power.
    (c) Automatic decoupler operation: 25 cycles from rated maximum 
continuous power (if repeated decoupling and recoupling in service is 
the intended function of the device).
    (d) Reverse thrust operation: 175 cycles from the flight-idle 
position to full reverse and 25 cycles at rated maximum continuous power 
from full forward to full reverse thrust. At the end of each cycle the 
propeller must be operated in reverse pitch for a period of 30 seconds 
at the maximum rotational speed and power specified by the applicant for 
reverse pitch operation.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-3, 32 
FR 3737, Mar. 4, 1967]



Sec. 33.96  Engine tests in auxiliary power unit (APU) mode.

    If the engine is designed with a propeller brake which will allow 
the propeller to be brought to a stop while the gas generator portion of 
the engine remains in operation, and remain stopped during operation of 
the engine as an auxiliary power unit (``APU mode''), in addition to the 
requirements of Sec. 33.87, the applicant must conduct the following 
tests:
    (a) Ground locking: A total of 45 hours with the propeller brake 
engaged in a manner which clearly demonstrates its ability to function 
without adverse effects on the complete engine while the engine is 
operating in the APU mode under the maximum conditions of engine speed, 
torque, temperature, air bleed, and power extraction as specified by the 
applicant.
    (b) Dynamic braking: A total of 400 application-release cycles of 
brake engagements must be made in a manner which clearly demonstrates 
its ability to function without adverse effects on the complete engine 
under the maximum conditions of engine acceleration/deceleration rate, 
speed, torque, and temperature as specified by the applicant. The 
propeller must be stopped prior to brake release.
    (c) One hundred engine starts and stops with the propeller brake 
engaged.
    (d) The tests required by paragraphs (a), (b), and (c) of this 
section must be performed on the same engine, but this engine need not 
be the same engine used for the tests required by Sec. 33.87.
    (e) The tests required by paragraphs (a), (b), and (c) of this 
section must be followed by engine disassembly to the extent necessary 
to show compliance with the requirements of Sec. 33.93(a) and 
Sec. 33.93(b).

[Amdt. 33-11, 51 FR 10346, Mar. 25, 1986]



Sec. 33.97  Thrust reversers.

    (a) If the engine incorporates a reverser, the endurance 
calibration, operation, and vibration tests prescribed in this subpart 
must be run with the reverser installed. In complying with this section, 
the power control lever must be moved from one extreme position to the 
other in not more than one second except, if regimes of control 
operations are incorporated necessitating scheduling of the power-
control lever motion in going from one extreme position to the other, a 
longer period of time is acceptable but not more than three seconds. In 
addition, the test prescribed in paragraph (b) of this section must be 
made. This test may be scheduled as part of the endurance run.
    (b) 175 reversals must be made from flight-idle forward thrust to 
maximum reverse thrust and 25 reversals must be made from rated takeoff 
thrust to maximum reverse thrust. After each reversal the reverser must 
be operated at full reverse thrust for a period of one minute, except 
that, in the case of a reverser intended for use only as a braking means 
on the ground, the reverser

[[Page 765]]

need only be operated at full reverse thrust for 30 seconds.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-3, 32 
FR 3737, Mar. 4, 1967]



Sec. 33.99  General conduct of block tests.

    (a) Each applicant may, in making a block test, use separate engines 
of identical design and construction in the vibration, calibration, 
endurance, and operation tests, except that, if a separate engine is 
used for the endurance test it must be subjected to a calibration check 
before starting the endurance test.
    (b) Each applicant may service and make minor repairs to the engine 
during the block tests in accordance with the service and maintenance 
instructions submitted in compliance with Sec. 33.4. If the frequency of 
the service is excessive, or the number of stops due to engine 
malfunction is excessive, or a major repair, or replacement of a part is 
found necessary during the block tests or as the result of findings from 
the teardown inspection, the engine or its parts must be subjected to 
any additional tests the Administrator finds necessary.
    (c) Each applicant must furnish all testing facilities, including 
equipment and competent personnel, to conduct the block tests.

[Doc. No. 3025, 29 FR 7453, June 10, 1964, as amended by Amdt. 33-6, 39 
FR 35470, Oct. 1, 1974; Amdt. 33-9, 45 FR 60181, Sept. 11, 1980]

     Appendix A to Part 33--Instructions for Continued Airworthiness

                             a33.1  general

    (a) This appendix specifies requirements for the preparation of 
Instructions for Continued Airworthiness as required by Sec. 33.4.
    (b) The Instructions for Continued Airworthiness for each engine 
must include the Instructions for Continued Airworthiness for all engine 
parts. If Instructions for Continued Airworthiness are not supplied by 
the engine part manufacturer for an engine part, the Instructions for 
Continued Airworthiness for the engine must include the information 
essential to the continued airworthiness of the engine.
    (c) The applicant must submit to the FAA a program to show how 
changes to the Instructions for Continued Airworthiness made by the 
applicant or by the manufacturers of engine parts will be distributed.

                              a33.2  format

    (a) The Instructions for Continued Airworthiness must be in the form 
of a manual or manuals as appropriate for the quantity of data to be 
provided.
    (b) The format of the manual or manuals must provide for a practical 
arrangement.

                             a33.3  content

    The contents of the manual or manuals must be prepared in the 
English language. The Instructions for Continued Airworthiness must 
contain the following manuals or sections, as appropriate, and 
information:
    (a) Engine Maintenance Manual or Section. (1) Introduction 
information that includes an explanation of the engine's features and 
data to the extent necessary for maintenance or preventive maintenance.
    (2) A detailed description of the engine and its components, 
systems, and installations.
    (3) Installation instructions, including proper procedures for 
uncrating, deinhibiting, acceptance checking, lifting, and attaching 
accessories, with any necessary checks.
    (4) Basic control and operating information describing how the 
engine components, systems, and installations operate, and information 
describing the methods of starting, running, testing, and stopping the 
engine and its parts including any special procedures and limitations 
that apply.
    (5) Servicing information that covers details regarding servicing 
points, capacities of tanks, reservoirs, types of fluids to be used, 
pressures applicable to the various systems, locations of lubrication 
points, lubricants to be used, and equipment required for servicing.
    (6) Scheduling information for each part of the engine that provides 
the recommended periods at which it should be cleaned, inspected, 
adjusted, tested, and lubricated, and the degree of inspection the 
applicable wear tolerances, and work recommended at these periods. 
However, the applicant may refer to an accessory, instrument, or 
equipment manufacturer as the source of this information if the 
applicant shows that the item has an exceptionally high degree of 
complexity requiring specialized maintenance techniques, test equipment, 
or expertise. The recommended overhaul periods and necessary cross 
references to the Airworthiness Limitations section of the manual must 
also be included. In addition, the applicant must include an inspection 
program that includes the frequency and extent of the inspections 
necessary to provide for the continued airworthiness of the engine.
    (7) Troubleshooting information describing probable malfunctions, 
how to recognize those malfunctions, and the remedial action for those 
malfunctions.

[[Page 766]]

    (8) Information describing the order and method of removing the 
engine and its parts and replacing parts, with any necessary precautions 
to be taken. Instructions for proper ground handling, crating, and 
shipping must also be included.
    (9) A list of the tools and equipment necessary for maintenance and 
directions as to their method of use.
    (b) Engine Overhaul Manual or Section. (1) Disassembly information 
including the order and method of disassembly for overhaul.
    (2) Cleaning and inspection instructions that cover the materials 
and apparatus to be used and methods and precautions to be taken during 
overhaul. Methods of overhaul inspection must also be included.
    (3) Details of all fits and clearances relevant to overhaul.
    (4) Details of repair methods for worn or otherwise substandard 
parts and components along with the information necessary to determine 
when replacement is necessary.
    (5) The order and method of assembly at overhaul.
    (6) Instructions for testing after overhaul.
    (7) Instructions for storage preparation, including any storage 
limits.
    (8) A list of tools needed for overhaul.

                a33.4  airworthiness limitations section

    The Instructions for Continued Airworthiness must contain a section 
titled Airworthiness Limitations that is segregated and clearly 
distinguishable from the rest of the document. This section must set 
forth each mandatory replacement time, inspection interval, and related 
procedure required for type certification. If the Instructions for 
Continued Airworthiness consist of multiple documents, the section 
required by this paragraph must be included in the principal manual. 
This section must contain a legible statement in a prominent location 
that reads: ``The Airworthiness Limitations section is FAA approved and 
specifies maintenance required under Secs. 43.16 and 91.403 of the 
Federal Aviation Regulations unless an alternative program has been FAA 
approved.''


[Amdt. 33-9, 45 FR 60181, Sept. 11, 1980, as amended by Amdt. 33-13, 54 
FR 34330, Aug. 18, 1989]

Appendix B to Part 33--Certification Standard Atmospheric Concentrations 
                            of Rain and Hail

    Figure B1, Table B1, Table B2, Table B3, and Table B4 specify the 
atmospheric concentrations and size distributions of rain and hail for 
establishing certification, in accordance with the requirements of 
Sec. 33.78(a)(2). In conducting tests, normally by spraying liquid water 
to simulate rain conditions and by delivering hail fabricated from ice 
to simulate hail conditions, the use of water droplets and hail having 
shapes, sizes and distributions of sizes other than those defined in 
this appendix B, or the use of a single size or shape for each water 
droplet or hail, can be accepted, provided that applicant shows that the 
substitution does not reduce the severity of the test.
[GRAPHIC] [TIFF OMITTED] TR26MR98.000


[[Page 767]]



    Table B1--Certification Standard Atmospheric Rain Concentrations
------------------------------------------------------------------------
                                                                  Rain
                                                                 water
                                                                content
                                                                 (RWC)
                       Altitude (feet)                           (grams
                                                                 water/
                                                               meter \3\
                                                                  air)
------------------------------------------------------------------------
0............................................................       20.0
20,000.......................................................       20.0
26,300.......................................................       15.2
32,700.......................................................       10.8
39,300.......................................................        7.7
46,000.......................................................        5.2
------------------------------------------------------------------------
RWC values at other altitudes may be determined by linear interpolation.
Note: Source of data--Results of the Aerospace Industries Association
  (AIA) Propulsion Committee Study, Project PC 338-1, June 1990.


    Table B2--Certification Standard Atmospheric Hail Concentrations
------------------------------------------------------------------------
                                                                  Hail
                                                                 water
                                                                content
                                                                 (HWC)
                       Altitude (feet)                           (grams
                                                                 water/
                                                               meter \3\
                                                                  air)
------------------------------------------------------------------------
0............................................................        6.0
7,300........................................................        8.9
8,500........................................................        9.4
10,000.......................................................        9.9
12,000.......................................................       10.0
15,000.......................................................       10.0
16,000.......................................................        8.9
17,700.......................................................        7.8
19,300.......................................................        6.6
21,500.......................................................        5.6
24,300.......................................................        4.4
29,000.......................................................        3.3
46,000.......................................................        0.2
------------------------------------------------------------------------
HWC values at other altitudes may be determined by linear interpolation.
  The hail threat below 7,300 feet and above 29,000 feet is based on
  linearly extrapolated data.
Note: Source of data--Results of the Aerospace Industries Association
  (AIA Propulsion Committee (PC) Study, Project PC 338-1, June 1990.


     Table B3--Certification Standard Atmospheric Rain Droplet Size
                              Distribution
------------------------------------------------------------------------
                                                            Contribution
                Rain droplet diameter (mm)                    total RWC
                                                                 (%)
------------------------------------------------------------------------
0-0.49....................................................            0
0.50-0.99.................................................         2.25
1.00-1.49.................................................         8.75
1.50-1.99.................................................        16.25
2.00-2.49.................................................        19.00
2.50-2.99.................................................        17.75
3.00-3.49.................................................        13.50
3.50-3.99.................................................         9.50
4.00-4.49.................................................         6.00
4.50-4.99.................................................         3.00
5.00-5.49.................................................         2.00
5.50-5.99.................................................         1.25
6.00-6.49.................................................         0.50
6.50-7.00.................................................         0.25
                                                           -------------
    Total.................................................       100.00
------------------------------------------------------------------------
Median diameter of rain droplets in 2.66 mm
Note: Source of data--Results of the Aerospace Industries Association
  (AIA Propulsion Committee (PC) Study, Project PC 338-1, June 1990.


   Table B4--Certification Standard Atmospheric Hail Size Distribution
------------------------------------------------------------------------
                                                            Contribution
                    Hail diameter (mm)                        total HWC
                                                                 (%)
------------------------------------------------------------------------
0-4.9.....................................................            0
5.0-9.9...................................................        17.00
10.0-14.9.................................................        25.00
15.0-19.9.................................................        22.50
20.0-24.9.................................................        16.00
25.0-29.9.................................................         9.75
30.0-34.9.................................................         4.75
35.0-39.9.................................................         2.50
40.0-44.9.................................................         1.50
45.0-49.9.................................................         0.75
50.0-55.0.................................................         0.25
                                                           -------------
    Total.................................................       100.00
------------------------------------------------------------------------
Median diameter of hail is 16 mm
Note: Source of data--Results of the Aerospace Industries Association
  (AIA Propulsion Committee (PC) Study, Project PC 338-1, June 1990.


[Doc. No. 28652, 63 FR 14799, Mar. 26, 1998]



PART 34--FUEL VENTING AND EXHAUST EMISSION REQUIREMENTS FOR TURBINE ENGINE POWERED AIRPLANES--Table of Contents




                      Subpart A--General Provisions

Sec.
34.1  Definitions.
34.2  Abbreviations.
34.3  General requirements.
34.4  [Reserved]
34.5  Special test procedures.
34.6  Aircraft safety.
34.7  Exemptions.

 Subpart B--Engine Fuel Venting Emissions (New and In-Use Aircraft Gas 
                            Turbine Engines)

34.10  Applicability.
34.11  Standard for fuel venting emissions.

     Subpart C--Exhaust Emissions (New Aircraft Gas Turbine Engines)

34.20  Applicability.
34.21  Standards for exhaust emissions.

[[Page 768]]

   Subpart D--Exhaust Emissions (In-Use Aircraft Gas Turbine Engines)

34.30  Applicability.
34.31  Standards for exhaust emissions.

Subparts E-F [Reserved]

    Subpart G--Test Procedures for Engine Exhaust Gaseous Emissions 
               (Aircraft and Aircraft Gas Turbine Engines)

34.60  Introduction.
34.61  Turbine fuel specifications.
34.62  Test procedure (propulsion engines).
34.63  [Reserved]
34.64  Sampling and analytical procedures for measuring gaseous exhaust 
          emissions.
34.65-34.70  [Reserved]
34.71  Compliance with gaseous emission standards.

  Subpart H--Test Procedures for Engine Smoke Emissions (Aircraft Gas 
                            Turbine Engines)

34.80  Introduction.
34.81  Fuel specifications.
34.82  Sampling and analytical procedures for measuring smoke exhaust 
          emissions.
34.83-34.88  [Reserved]
34.89  Compliance with smoke emission standards.

    Authority: 42 U.S.C. 4321 et seq., 7572; 49 U.S.C. 106(g), 40113, 
44701-44702, 44704, 44714.

    Source: Docket No. 25613, 55 FR 32861, Aug. 10, 1990, unless 
otherwise noted.



                      Subpart A--General Provisions



Sec. 34.1  Definitions.

    As used in this part, all terms not defined herein shall have the 
meaning given them in the Clean Air Act, as amended (42 U.S.C. 7401 et. 
seq.):
    Act means the Clean Air Act, as amended (42 U.S.C. 7401 et. seq.).
    Administrator means the Administrator of the Federal Aviation 
Administration or any person to whom he has delegated his authority in 
the matter concerned.
    Administrator of the EPA means the Administrator of the 
Environmental Protection Agency and any other officer or employee of the 
Environmental Protection Agency to whom the authority involved may be 
delegated.
    Aircraft as used in this part means any airplane as defined in 14 
CFR part 1 for which a U.S. standard airworthiness certificate or 
equivalent foreign airworthiness certificate is issued.
    Aircraft engine means a propulsion engine which is installed in, or 
which is manufactured for installation in, an aircraft.
    Aircraft gas turbine engine means a turboprop, turbofan, or turbojet 
aircraft engine.
    Class TP means all aircraft turboprop engines.
    Class TF means all turbofan or turbojet aircraft engines or aircraft 
engines designed for applications that otherwise would have been 
fulfilled by turbojet and turbofan engines except engines of class T3, 
T8, and TSS.
    Class T3 means all aircraft gas turbine engines of the JT3D model 
family.
    Class T8 means all aircraft gas turbine engines of the JT8D model 
family.
    Class TSS means all aircraft gas turbine engines employed for 
propulsion of aircraft designed to operate at supersonic flight speeds.
    Commercial aircraft engine means any aircraft engine used or 
intended for use by an ``air carrier'' (including those engaged in 
``intrastate air transportation'') or a ``commercial operator'' 
(including those engaged in ``intrastate air transportation'') as these 
terms are defined in the Federal Aviation Act and the Federal Aviation 
Regulations.
    Commercial aircraft gas turbine engine means a turboprop, turbofan, 
or turbojet commercial aircraft engine.
    Date of manufacture of an engine is the date the inspection 
acceptance records reflect that the engine is complete and meets the FAA 
approved type design.
    Emission measurement system means all of the equipment necessary to 
transport the emission sample and measure the level of emissions. This 
includes the sample system and the instrumentation system.
    Engine model means all commercial aircraft turbine engines which are 
of the same general series, displacement, and design characteristics and 
are approved under the same type certificate.
    Exhaust emissions means substances emitted into the atmosphere from 
the exhaust discharge nozzle of an aircraft or aircraft engine.

[[Page 769]]

    Fuel venting emissions means raw fuel, exclusive of hydrocarbons in 
the exhaust emissions, discharged from aircraft gas turbine engines 
during all normal ground and flight operations.
    In-use aircraft gas turbine engine means an aircraft gas turbine 
engine which is in service.
    New aircraft turbine engine means an aircraft gas turbine engine 
which has never been in service.
    Power setting means the power or thrust output of an engine in terms 
of kilonewtons thrust for turbojet and turbofan engines or shaft power 
in terms of kilowatts for turboprop engines.
    Rated output (r0) means the maximum power/thrust available for 
takeoff at standard day conditions as approved for the engine by the 
Federal Aviation Administration, including reheat contribution where 
applicable, but excluding any contribution due to water injection and 
excluding any emergency power/thrust rating.
    Rated pressure ratio (rPR) means the ratio between the combustor 
inlet pressure and the engine inlet pressure achieved by an engine 
operation at rated output.
    Reference day conditions means the reference ambient conditions to 
which the gaseous emissions (HC and smoke) are to be corrected. The 
reference day conditions are as follows: Temperature=15 deg.C, specific 
humidity=0.00629 kg H2 O/kg of dry air, and pressure=101325 
Pa.
    Sample system means the system which provides for the transportation 
of the gaseous emission sample from the sample probe to the inlet of the 
instrumentation system.
    Shaft power means only the measured shaft power output of a 
turboprop engine.
    Smoke means the matter in exhaust emissions which obscures the 
transmission of light.
    Smoke number (SN) means the dimensionless term quantifying smoke 
emissions.
    Standard day conditions means standard ambient conditions as 
described in the United States Standard Atmosphere 1976, (i.e., 
temperature=15 deg. C, specific humidity=0.00 kg H20/kg dry 
air, and pressure=101325 Pa.)
    Taxi/idle (in) means those aircraft operations involving taxi and 
idle between the time of landing roll-out and final shutdown of all 
propulsion engines.
    Taxi/idle (out) means those aircraft operations involving taxi and 
idle between the time of initial starting of the propulsion engine(s) 
used for the taxi and the turn onto the duty runway.

[Doc. No. 25613, 55 FR 32861, Aug. 10, 1990; 55 FR 37287, Sept. 10, 
1990, as amended by Amdt. 34-3, 64 FR 5558, Feb. 3, 1999]



Sec. 34.2  Abbreviations.

    The abbreviations used in this part have the following meanings in 
both upper and lower case:
CO  Carbon monoxide
EPA  United States Environmental Protection Agency
FAA  Federal Aviation Administration, United States Department of 
    Transportation
HC  Hydrocarbon(s)
HP  Horsepower
hr  Hour(s)
H20  water
kg  Kilogram(s)
kJ  Kilojoule(s)
LTO  Landing and takeoff
min  Minute(s)
NOX  Oxides of nitrogen
Pa  Pascal(s)
rO  Rated output
rPR  Rated pressure ratio
sec  Second(s)
SP  Shaft power
SN  Smoke number
T  Temperature, degrees Kelvin
TIM  Time in mode
W  Watt(s)
 deg.C  Degrees Celsius
%  Percent

Doc. No. 25613, 55 FR 32861, Aug. 10, 1990, as amended by Amdt. 34-3, 64 
FR 5559, Feb. 3, 1999]



Sec. 34.3  General requirements.

    (a) This part provides for the approval or acceptance by the 
Administrator or the Administrator of the EPA of testing and sampling 
methods, analytical techniques, and related equipment not identical to 
those specified in this part. Before either approves or accepts any such 
alternate, equivalent, or otherwise nonidentical procedures

[[Page 770]]

or equipment, the Administrator or the Administrator of the EPA shall 
consult with the other in determining whether or not the action requires 
rulemaking under sections 231 and 232 of the Clean Air Act, as amended, 
consistent with the responsibilities of the Administrator of the EPA and 
the Secretary of Transportation under sections 231 and 232 of the Clean 
Air Act.
    (b) Under section 232 of the Act, the Secretary of Transportation 
issues regulations to ensure compliance with 40 CFR part 87. This 
authority has been delegated to the Administrator of the FAA (49 CFR 
1.47).
    (c) U.S. airplanes. This Federal Aviation Regulation (FAR) applies 
to civil airplanes that are powered by aircraft gas turbine engines of 
the classes specified herein and that have U.S. standard airworthiness 
certificates.
    (d) Foreign airplanes. Pursuant to the definition of ``aircraft'' in 
40 CFR 87.1(c), this FAR applies to civil airplanes that are powered by 
aircraft gas turbine engines of the classes specified herein and that 
have foreign airworthiness certificates that are equivalent to U.S. 
standard airworthiness certificates. This FAR applies only to those 
foreign civil airplanes that, if registered in the United States, would 
be required by applicable Federal Aviation Regulations to have a U.S. 
standard airworthiness certificate in order to conduct the operations 
intended for the airplane. Pursuant to 40 CFR 87.3(c), this FAR does not 
apply where it would be inconsistent with an obligation assumed by the 
United States to a foreign country in a treaty, convention, or 
agreement.
    (e) Reference in this regulation to 40 CFR part 87 refers to title 
40 of the Code of Federal Regulations, chapter I--Environmental 
Protection Agency, part 87, Control of Air Pollution from Aircraft and 
Aircraft Engines (40 CFR part 87).
    (f) This part contains regulations to ensure compliance with certain 
standards contained in 40 CFR part 87. If EPA takes any action, 
including the issuance of an exemption or issuance of a revised or 
alternate procedure, test method, or other regulation, the effect of 
which is to relax or delay the effective date of any provision of 40 CFR 
part 87 that is made applicable to an aircraft under this FAR, the 
Administrator of FAA will grant a general administrative waiver of its 
more stringent requirements until this FAR is amended to reflect the 
more relaxed requirements prescribed by EPA.
    (g) Unless otherwise stated, all terminology and abbreviations in 
this FAR that are defined in 40 CFR part 87 have the meaning specified 
in that part, and all terms in 40 CFR part 87 that are not defined in 
that part but that are used in this FAR have the meaning given them in 
the Clean Air Act, as amended by Public Law 91-604.
    (h) All interpretations of 40 CFR part 87 that are rendered by the 
EPA also apply to this FAR.
    (i) If the EPA, under 40 CFR 87.3(a), approves or accepts any 
testing and sampling procedures or methods, analytical techniques, or 
related equipment not identical to those specified in that part, this 
FAR requires an applicant to show that such alternate, equivalent, or 
otherwise nonidentical procedures have been complied with, and that such 
alternate equipment was used to show compliance, unless the applicant 
elects to comply with those procedures, methods, techniques, and 
equipment specified in 40 CFR part 87.
    (j) If the EPA, under 40 CFR 87.5, prescribes special test 
procedures for any aircraft or aircraft engine that is not susceptible 
to satisfactory testing by the procedures in 40 CFR part 87, the 
applicant must show the Administrator that those special test procedures 
have been complied with.
    (k) Wherever 40 CFR part 87 requires agreement, acceptance, or 
approval by the Administrator of the EPA, this FAR requires a showing 
that such agreement or approval has been obtained.
    (l) Pursuant to 42 U.S.C. 7573, no state or political subdivision 
thereof may adopt or attempt to enforce any standard respecting 
emissions of any air pollutant from any aircraft or engine thereof 
unless that standard is identical to a standard made applicable to the 
aircraft by the terms of this FAR.
    (m) If EPA, by regulation or exemption, relaxes a provision of 40 
CFR part 87 that is implemented in this FAR, no

[[Page 771]]

state or political subdivision thereof may adopt or attempt to enforce 
the terms of this FAR that are superseded by the relaxed requirement.
    (n) If any provision of this FAR is rendered inapplicable to a 
foreign aircraft as provided in 40 CFR 87.3(c) (international 
agreements), and Sec. 34.3(d) of this FAR, that provision may not be 
adopted or enforced against that foreign aircraft by a state or 
political subdivision thereof.
    (o) For exhaust emissions requirements of this FAR that apply 
beginning February 1, 1974, January 1, 1976, January 1, 1978, January 1, 
1984, and August 9, 1985, continued compliance with those requirements 
is shown for engines for which the type design has been shown to meet 
those requirements, if the engine is maintained in accordance with 
applicable maintenance requirements for 14 CFR chapter I. All methods of 
demonstrating compliance and all model designations previously found 
acceptable to the Administrator shall be deemed to continue to be an 
acceptable demonstration of compliance with the specific standards for 
which they were approved.
    (p) Each applicant must allow the Administrator to make, or witness, 
any test necessary to determine compliance with the applicable 
provisions of this FAR.

[Doc. No. 25613, 55 FR 32861, Aug. 10, 1990; 55 FR 37287, Sept. 10, 
1990]



Sec. 34.4  [Reserved]



Sec. 34.5  Special test procedures.

    The Administrator or the Administrator of the EPA may, upon written 
application by a manufacturer or operator of aircraft or aircraft 
engines, approve test procedures for any aircraft or aircraft engine 
that is not susceptible to satisfactory testing by the procedures set 
forth herein. Prior to taking action on any such application, the 
Administrator or the Administrator of the EPA shall consult with the 
other.



Sec. 34.6  Aircraft safety.

    (a) The provisions of this part will be revised if at any time the 
Administrator determines that an emission standard cannot be met within 
the specified time without creating a safety hazard.
    (b) Consistent with 40 CFR 87.6, if the FAA Administrator determines 
that any emission control regulation in this part cannot be safely 
applied to an aircraft, that provision may not be adopted or enforced 
against that aircraft by any state or political subdivision thereof.



Sec. 34.7  Exemptions.

    Notwithstanding part 11 of the Federal Aviation Regulations (14 CFR 
part 11), all petitions for rulemaking involving either the substance of 
an emission standard or test procedure prescribed by the EPA that is 
incorporated in this FAR, or the compliance date for such standard or 
procedure, must be submitted to the EPA. Information copies of such 
petitions are invited by the FAA. Petitions for rulemaking or exemption 
involving provisions of this FAR that do not affect the substance or the 
compliance date of an emission standard or test procedure that is 
prescribed by the EPA, and petitions for exemptions under the provisions 
for which the EPA has specifically granted exemption authority to the 
Secretary of Transportation are subject to part 11 of the Federal 
Aviation Regulations (14 CFR part 11). Petitions for rulemaking or 
exemptions involving these FARs must be submitted to the FAA.
    (a) Exemptions based on flights for short durations at infrequent 
intervals. The emission standards of this part do not apply to engines 
which power aircraft operated in the United States for short durations 
at infrequent intervals. Such operations are limited to:
    (1) Flights of an aircraft for the purpose of export to a foreign 
country, including any flights essential to demonstrate the integrity of 
an aircraft prior to a flight to a point outside the United States.
    (2) Flights to a base where repairs, alterations or maintenance are 
to be performed, or to a point of storage, or for the purpose of 
returning an aircraft to service.
    (3) Official visits by representatives of foreign governments.
    (4) Other flights the Administrator determines, after consultation 
with the Administrator of the EPA, to be for

[[Page 772]]

short durations at infrequent intervals. A request for such a 
determination shall be made before the flight takes place.
    (b) Exemptions for very low production engine models. The emissions 
standards of this part do not apply to engines of very low production 
after the date of applicability. For the purpose of this part, ``very 
low production'' is limited to a maximum total production for United 
States civil aviation applications of no more than 200 units covered by 
the same type certificate after January 1, 1984. Engines manufactured 
under this provision must be reported to the FAA by serial number on or 
before the date of manufacture and exemptions granted under this 
provision are not transferable to any other engine.
    (c) Exemptions for new engines in other categories. The emissions 
standards of this part do not apply to engines for which the 
Administrator determines, with the concurrence of the Administrator of 
the EPA, that application of any standard under Sec. 34.21 is not 
justified, based upon consideration of--
    (1) Adverse economic impact on the manufacturer;
    (2) Adverse economic impact on the aircraft and airline industries 
at large;
    (3) Equity in administering the standards among all economically 
competing parties;
    (4) Public health and welfare effects; and
    (5) Other factors which the Administrator, after consultation with 
the Administrator of the EPA, may deem relevant to the case in question.
    (d) Time-limited exemptions for in-use engines. The emissions 
standards of this part do not apply to aircraft or aircraft engines for 
time periods which the Administrator determines, with the concurrence of 
the Administrator of the EPA, that any applicable standard under 
Sec. 34.11(a), or Sec. 34.31(a), should not be applied based upon 
consideration of--
    (1) Documentation demonstrating that all good faith efforts to 
achieve compliance with such standard have been made;
    (2) Documentation demonstrating that the inability to comply with 
such standard is due to circumstances beyond the control of the owner or 
operator of the aircraft; and
    (3) A plan in which the owner or operator of the aircraft shows that 
he will achieve compliance in the shortest time which is feasible.
    (e) Applications for exemption from this part shall be submitted in 
duplicate to the Administrator in accordance with the procedures 
established by the Administrator in part 11.
    (f) The Administrator shall publish in the Federal Register the name 
of the organization to whom exemptions are granted and the period of 
such exemptions.
    (g) No state or political subdivision thereof may attempt to enforce 
a standard respecting emissions from an aircraft or engine if such 
aircraft or engine has been exempted from such standard under this part.



 Subpart B--Engine Fuel Venting Emissions (New and In-Use Aircraft Gas 
                            Turbine Engines)



Sec. 34.10  Applicability.

    (a) The provisions of this subpart are applicable to all new 
aircraft gas turbine engines of classes T3, T8, TSS, and TF equal to or 
greater than 36 kilonewtons (8090 pounds) rated output, manufactured on 
or after January 1, 1974, and to all in-use aircraft gas turbine engines 
of classes T3, T8, TSS, and TF equal to or greater than 36 kilonewtons 
(8090 pounds) rated output manufactured after February 1, 1974.
    (b) The provisions of this subpart are also applicable to all new 
aircraft gas turbine engines of class TF less than 36 kilonewtons (8090 
pounds) rated output and class TP manufactured on or after January 1, 
1975, and to all in-use aircraft gas turbine engines of class TF less 
than 36 kilonewtons (8090 pounds) rated output and class TP manufactured 
after January 1, 1975.



Sec. 34.11  Standard for fuel venting emissions.

    (a) No fuel venting emissions shall be discharged into the 
atmosphere from any new or in-use aircraft gas turbine engine subject to 
the subpart. This paragraph is directed at the elimination of 
intentional discharge to the atmosphere of fuel drained from fuel

[[Page 773]]

nozzle manifolds after engines are shut down and does not apply to 
normal fuel seepage from shaft seals, joints, and fittings.
    (b) Conformity with the standard set forth in paragraph (a) of this 
section shall be determined by inspection of the method designed to 
eliminate these emissions.
    (c) As applied to an airframe or an engine, any manufacturer or 
operator may show compliance with the fuel venting and emissions 
requirements of this section that were effective beginning February 1, 
1974 or January 1, 1975, by any means that prevents the intentional 
discharge of fuel from fuel nozzle manifolds after the engines are shut 
down. Acceptable means of compliance include one of the following:
    (1) Incorporation of an FAA-approved system that recirculates the 
fuel back into the fuel system.
    (2) Capping or securing the pressurization and drain valve.
    (3) Manually draining the fuel from a holding tank into a container.



     Subpart C--Exhaust Emissions (New Aircraft Gas Turbine Engines)



Sec. 34.20  Applicability.

    The provisions of this subpart are applicable to all aircraft gas 
turbine engines of the classes specified beginning on the dates 
specified in Sec. 34.21.



Sec. 34.21  Standards for exhaust emissions.

    (a) Exhaust emissions of smoke from each new aircraft gas turbine 
engine of class T8 manufactured on or after February 1, 1974, shall not 
exceed a smoke number (SN) of 30.
    (b) Exhaust emissions of smoke from each new aircraft gas turbine 
engine of class TF and of rated output of 129 kilonewtons (29,000 
pounds) thrust or greater, manufactured on or after January 1, 1976, 
shall not exceed

SN=83.6 (rO) -0.274 (rO is in kilonewtons).

    (c) Exhaust emission of smoke from each new aircraft gas turbine 
engine of class T3 manufactured on or after January 1, 1978, shall not 
exceed a smoke number (SN) of 25.
    (d) Gaseous exhaust emissions from each new aircraft gas turbine 
engine shall not exceed:
    (1) For Classes TF, T3, T8 engines greater than 26.7 kilonewtons 
(6000 pounds) rated output:
    (i) Engines manufactured on or after January 1, 1984:

Hydrocarbons: 19.6 grams/kilonewton r0.

    (ii) Engines manufactured on or after July 7, 1997.

Carbon Monoxide: 118 grams/kilonewton r0.

    (iii) Engines of a type or model of which the date of manufacture of 
the first individual production model was on or before December 31, 
1995, and for which the date of manufacture of the individual engine was 
on or before December 31, 1999:

Oxides of Nitrogen: (40+2(rPR)) grams/kilonewtons r0.

    (iv) Engines of a type or model of which the date of manufacture of 
the first individual production model was after December 31, 1995, or 
for which the date of manufacture of the individual engine was after 
December 31, 1999:

Oxides of Nitrogen: (32+1.6 (rPR)) grams/kilonewtons r0.

    (v) The emission standards prescribed in paragraphs (d)(1)(iii) and 
(iv) of this section apply as prescribed beginning July 7, 1997.
    (2) For Class TSS Engines manufactured on or after January 1, 1984:

Hydrocarbons=140 (0.92) rPR grams/kilonewtons r0.

    (e) Smoke exhaust emissions from each gas turbine engine of the 
classes specified below shall not exceed:
    (1) Class TF of rated output less than 26.7 kilonewtons (6000 
pounds) manufactured on or after August 9, 1985

SN=83.6(rO)-0.274 (rO is in kilonewtons) not to exceed a 
          maximum of SN=50.

    (2) Classes T3, T8, TSS, and TF of rated output equal to or greater 
than 26.7 kilonewtons (6000 pounds) manufactured on or after January 1, 
1984

SN=83.6(rO)-0.274 (rO is in kilonewtons) not to exceed a 
          maximum of SN=50.

    (3) For Class TP of rated output equal to or greater than 1,000 
kilowatts

[[Page 774]]

manufactured on or after January 1, 1984:

SN=187(ro)-0.168 (ro is in kilowatts)

    (f) The standards set forth in paragraphs (a), (b), (c), (d), and 
(e) of this section refer to a composite gaseous emission sample 
representing the operating cycles set forth in the applicable sections 
of subpart G of this part, and exhaust smoke emissions emitted during 
operations of the engine as specified in the applicable sections of 
subpart H of this part, measured and calculated in accordance with the 
procedures set forth in those subparts.

[Doc. No. 25613, 55 FR 32861, Aug. 10, 1990; 55 FR 37287, Sept. 10, 
1990, as amended by Amdt. 34-3, 64 FR 5559, Feb. 3, 1999]



   Subpart D--Exhaust Emissions (In-use Aircraft Gas Turbine Engines)



Sec. 34.30  Applicability.

    The provisions of this subpart are applicable to all in-use aircraft 
gas turbine engines certificated for operation within the United States 
of the classes specified, beginning on the dates specified in 
Sec. 34.31.



Sec. 34.31  Standards for exhaust emissions.

    (a) Exhaust emissions of smoke from each in-use aircraft gas turbine 
engine of Class T8, beginning February 1, 1974, shall not exceed a smoke 
number (SN) of 30.
    (b) Exhaust emissions of smoke from each in-use aircraft gas turbine 
engine of Class TF and of rated output of 129 kilonewtons (29,000 
pounds) thrust or greater, beginning January l, 1976, shall not exceed

SN=83.6(rO)-0.274 (rO is in kilonewtons).

    (c) The standards set forth in paragraphs (a) and (b) of this 
section refer to exhaust smoke emissions emitted during operations of 
the engine as specified in the applicable section of subpart H of this 
part, and measured and calculated in accordance with the procedure set 
forth in this subpart.

Subparts E-F  [Reserved]



    Subpart G--Test Procedures for Engine Exhaust Gaseous Emissions 
               (Aircraft and Aircraft Gas Turbine Engines)



Sec. 34.60  Introduction.

    (a) Except as provided under Sec. 34.5, the procedures described in 
this subpart shall constitute the test program used to determine the 
conformity of new aircraft gas turbine engines with the applicable 
standards set forth in this part.
    (b) The test consists of operating the engine at prescribed power 
settings on an engine dynamometer (for engines producing primarily shaft 
power) or thrust measuring test stand (for engines producing primarily 
thrust). The exhaust gases generated during engine operation must be 
sampled continuously for specific component analysis through the 
analytical train.
    (c) The exhaust emission test is designed to measure concentrations 
of hydrocarbons, carbon monoxide, carbon dioxide, and oxides of 
nitrogen, and to determine mass emissions through calculations during a 
simulated aircraft landing-takeoff cycle (LTO). The LTO cycle is based 
on time in mode data during high activity periods at major airports. The 
test for propulsion engines consists of at least the following four 
modes of engine operation: taxi/idle, takeoff, climbout, and approach. 
The mass emission for the modes are combined to yield the reported 
values.
    (d) When an engine is tested for exhaust emissions on an engine 
dynamometer or test stand, the complete engine (with all accessories 
which might reasonably be expected to influence emissions to the 
atmosphere installed and functioning), shall be used if not otherwise 
prohibited by Sec. 34.62(a)(2). Use of service air bleed and shaft power 
extraction to power auxiliary, gearbox-mounted components required to 
drive aircraft systems is not permitted.
    (e) Other gaseous emissions measurement systems may be used if shown 
to yield equivalent results and if approved

[[Page 775]]

in advance by the Administrator or the Administrator of the EPA.

[Doc. No. 25613, 55 FR 32861, Aug. 10, 1990, as amended by Amdt. 34-3, 
64 FR 5559, Feb. 3, 1999]



Sec. 34.61  Turbine fuel specifications.

    For exhaust emission testing, fuel that meets the specifications 
listed in this section shall be used. Additives used for the purpose of 
smoke suppression (such as organometallic compounds) shall not be 
present.

  Specification for Fuel To Be Used in Aircraft Turbine Engine Emission
                                 Testing
------------------------------------------------------------------------
                 Property                     Allowable range of values
------------------------------------------------------------------------
Density at 15 deg.C.......................  780-820.
Distillation Temperature,  deg.C 10%        155-201.
 Boiling Point.
Final Boiling Point.......................  235-285.
Net Heat of Combustion, MJ/Kg.............  42.86-43.50.
Aromatics, Volume %.......................  15-23.
Naphthalenes, Volume %....................  1.0-3.5.
Smoke point, mm...........................  20-28.
Hydrogen, Mass %..........................  13.4-14.1.
Sulfur Mass %.............................  Less than 0.3%.
Kinematic viscosity at--20 deg. C, mm \2\ / 2.5-6.5.
 sec.
------------------------------------------------------------------------


[Doc. No. FAA-1999-5018, 64 FR 5559, Feb. 3, 1999]



Sec. 34.62  Test procedure (propulsion engines).

    (a)(1) The engine shall be tested in each of the following engine 
operating modes which simulate aircraft operation to determine its mass 
emission rates. The actual power setting, when corrected to standard day 
conditions, should correspond to the following percentages of rated 
output. Analytical correction for variations from reference day 
conditions and minor variations in actual power setting should be 
specified and/or approved by the Administrator:

------------------------------------------------------------------------
                                                     Class
                Mode                 -----------------------------------
                                          TP      TF, T3, T8      TSS
------------------------------------------------------------------------
Taxi/idle...........................         (*)         (*)         (*)
Takeoff.............................         100         100         100
Climbout............................          90          85          65
Descent.............................          NA          NA          15
Approach............................          30          30          34
------------------------------------------------------------------------
*See paragraph (a) of this section.

    (2) The taxi/idle operating modes shall be carried out at a power 
setting of 7% rated thrust unless the Administrator determines that the 
unique characteristics of an engine model undergoing certification 
testing at 7% would result in substantially different HC and CO 
emissions than if the engine model were tested at the manufacturers 
recommended idle power setting. In such cases the Administrator shall 
specify an alternative test condition.
    (3) The times in mode (TIM) shall be as specified below:

------------------------------------------------------------------------
                                                     Class
                Mode                 -----------------------------------
                                          TP      TF, T3, T8      TSS
------------------------------------------------------------------------
Taxi/idle...........................   26.0 Min.   26.0 Min.   26.0 Min.
Takeoff.............................         0.5         0.7         1.2
Climbout............................         2.5         2.2         2.0
Descent.............................         N/A         N/A         1.2
Approach............................         4.5         4.0         2.3
------------------------------------------------------------------------

    (b) Emissions testing shall be conducted on warmed-up engines which 
have achieved a steady operating temperature.

[Doc. No. 25613, 55 FR 32861, Aug. 10, 1990; 55 FR 37287, Sept. 10, 
1990, as amended by Amdt. 34-3, 64 FR 5559, Feb. 3, 1999]



Sec. 34.63  [Reserved]



Sec. 34.64   Sampling and analytical procedures for measuring gaseous exhaust emissions.

    The system and procedures for sampling and measurement of gaseous 
emissions shall be as specified in Appendices 3 and 5 to the 
International Civil Aviation Organization (ICAO) Annex 16, Environmental 
Protection, Volume II, Aircraft Engine Emissions, Second Edition, July 
1993, effective March 20, 1997. This incorporation by reference was 
approved by the Director of the Federal Register in accordance with 5 
U.S.C. 552(a) and 1 CFR part 51. This document can be obtained from the 
International Civil Aviation Organization (ICAO), Document Sales Unit, 
P.O. Box 400, Succursale: Place de L'Aviation Internationale, 1000 
Sherbrooke Street West, Suite 400, Montreal, Quebec, Canada H3A 2R2. 
Copies may be reviewed at the FAA Office of the Chief Counsel, Rules 
Docket, Room 916, Federal Aviation Administration Headquarters Building, 
800 Independence Avenue, SW., Washington, DC, or at the FAA New England 
Regional Office, 12 New England Executive Park, Burlington, 
Massachusetts,

[[Page 776]]

or at the Office of Federal Register, 800 North Capitol Street, NW., 
Suite 700, Washington, DC.

[Doc. No. FAA-1999-5018, 64 FR 5559, Feb. 3, 1999; Amdt. 34-3, 64 FR 
60336, Nov. 5, 1999]



Secs. 34.65-34.70  [Reserved]



Sec. 34.71  Compliance with gaseous emission standards.

    Compliance with each gaseous emission standard by an aircraft engine 
shall be determined by comparing the pollutant level in grams/
kilonewton/thrust/cycle or grams/kilowatt/cycle as calculated in 
Sec. 34.64 with the applicable emission standard under this part. An 
acceptable alternative to testing every engine is described in Appendix 
6 to ICAO Annex 16, Environmental Protection, Volume II, Aircraft Engine 
Emissions, Second Edition, July 1993, effective July 26, 1993. This 
incorporation by reference was approved by the Director of the Federal 
Register in accordance with 5 U.S.C. 552(a) and 1 CFR part 51. This 
document can be obtained from, and copies may be reviewed at, the 
respective addresses listed in Sec. 34.64. Other methods of 
demonstrating compliance may be approved by the FAA Administrator with 
the concurrence of the Administrator of the EPA.

[Doc. No. FAA-1999-5018, 64 FR 5559, Feb. 3, 1999; Amdt. 34-3, 64 FR 
60336, Nov. 5, 1999]



  Subpart H--Test Procedures for Engine Smoke Emissions (Aircraft Gas 
                            Turbine Engines)



Sec. 34.80  Introduction.

    Except as provided under Sec. 34.5, the procedures described in this 
subpart shall constitute the test program to be used to determine the 
conformity of new and in-use gas turbine engines with the applicable 
standards set forth in this part. The test is essentially the same as 
that described in Secs. 34.60-34.62, except that the test is designed to 
determine the smoke emission level at various operating points 
representative of engine usage in aircraft. Other smoke measurement 
systems may be used if shown to yield equivalent results and if approved 
in advance by the Administrator or the Administrator of the EPA.



Sec. 34.81  Fuel specifications.

    Fuel having specifications as provided in Sec. 34.61 shall be used 
in smoke emission testing.



Sec. 34.82   Sampling and analytical procedures for measuring smoke exhaust emissions.

    The system and procedures for sampling and measurement of smoke 
emissions shall be as specified in Appendix 2 to ICAO Annex 16, Volume 
II, Environmental Protection, Aircraft Engine Emissions, Second Edition, 
July 1993, effective July 26, 1993. This incorporation by reference was 
approved by the Director of the Federal Register in accordance with 5 
U.S.C. 552(a) and 1 CFR part 51. This document can be obtained from, and 
copies may be reviewed at, the respective addresses listed in 
Sec. 34.64.

[Doc. No. FAA-1999-5018, 64 FR 5560, Feb. 3, 1999; Amdt. 34-3, 64 FR 
60336, Nov. 5, 1999]



Secs. 34.83-34.88  [Reserved]



Sec. 34.89   Compliance with smoke emission standards.

    Compliance with each smoke emission standard shall be determined by 
comparing the plot of SN as a function of power setting with the 
applicable emission standard under this part. The SN at every power 
setting must be such that there is a high degree of confidence that the 
standard will not be exceeded by any engine of the model being tested. 
An acceptable alternative to testing every engine is described in 
Appendix 6 to ICAO Annex 16, Environmental Protection, Volume II, 
Aircraft Engine Emissions, Second Edition, July 1993, effective July 26, 
1993. This incorporation by reference was approved by the Director of 
the Federal Register in accordance with 5 U.S.C. 552(a) and 1 CFR part 
51. This document can be obtained from the address listed in Sec. 34.64. 
Other methods of demonstrating compliance may be approved by the 
Administrator with the concurrence of the Administrator of the EPA.

[Doc. No. FAA-1999-5018, 64 FR 5560, Feb. 3, 1999; Amdt. 34-3, 64 FR 
60336, Nov. 5, 1999]

[[Page 777]]



PART 35--AIRWORTHINESS STANDARDS: PROPELLERS--Table of Contents




                           Subpart A--General

Sec.
35.1  Applicability.
35.3  Instruction manual for installing and operating the propeller.
35.4  Instructions for Continued Airworthiness.
35.5  Propeller operating limitations.

                   Subpart B--Design and Construction

35.11  Applicability.
35.13  General.
35.15  Design features.
35.17  Materials.
35.19  Durability.
35.21  Reversible propellers.
35.23  Pitch control and indication.

                    Subpart C--Tests and Inspections

35.31  Applicability.
35.33  General.
35.35  Blade retention test.
35.37  Fatigue limit tests.
35.39  Endurance test.
35.41  Functional test.
35.42  Blade pitch control system component test.
35.43  Special tests.
35.45  Teardown inspection.
35.47  Propeller adjustments and parts replacements.

Appendix A to Part 35--Instructions for Continued Airworthiness

    Authority: 49 U.S.C. 106(g), 40113, 44701-44702, 44704.

    Source: Docket No. 2095, 29 FR 7458, June 10, 1964, unless otherwise 
noted.



                           Subpart A--General



Sec. 35.1  Applicability.

    (a) This part prescribes airworthiness standards for the issue of 
type certificates and changes to those certificates, for propellers.
    (b) Each person who applies under Part 21 for such a certificate or 
change must show compliance with the applicable requirements of this 
part.

[Amdt. 35-3, 41 FR 55475, Dec. 20, 1976]



Sec. 35.3  Instruction manual for installing and operating the propeller.

    Each applicant must prepare and make available an approved manual or 
manuals containing instructions for installing and operating the 
propeller.

[Amdt. 35-5, 45 FR 60181, Sept. 11, 1980]



Sec. 35.4  Instructions for Continued Airworthiness.

    The applicant must prepare Instructions for Continued Airworthiness 
in accordance with appendix A to this part that are acceptable to the 
Administrator. The instructions may be incomplete at type certification 
if a program exists to ensure their completion prior to delivery of the 
first aircraft with the propeller installed, or upon issuance of a 
standard certificate of airworthiness for an aircraft with the propeller 
installed, whichever occurs later.

[Amdt. 35-5, 45 FR 60181, Sept. 11, 1980]



Sec. 35.5  Propeller operating limitations.

    Propeller operating limitations are established by the 
Administrator, are included in the propeller type certificate data sheet 
specified in Sec. 21.41 of this chapter, and include limitations based 
on the operating conditions demonstrated during the tests required by 
this part and any other information found necessary for the safe 
operation of the propeller.

[Amdt. 35-5, 45 FR 60182, Sept. 11, 1980]



                   Subpart B--Design and Construction



Sec. 35.11  Applicability.

    This subpart prescribes the design and construction requirements for 
propellers.



Sec. 35.13  General.

    Each applicant must show that the propeller concerned meets the 
design and construction requirements of this subpart.



Sec. 35.15  Design features.

    The propeller may not have design features that experience has shown 
to be hazardous or unreliable. The suitability of each questionable 
design detail or part must be established by tests.

[[Page 778]]



Sec. 35.17  Materials.

    The suitability and durability of materials used in the propeller 
must--
    (a) Be established on the basis of experience or tests; and
    (b) Conform to approved specifications (such as industry or military 
specifications, or Technical Standard Orders) that ensure their having 
the strength and other properties assumed in the design data.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Amdt. 35-4, 42 FR 15047, Mar. 17, 1977]



Sec. 35.19  Durability.

    Each part of the propeller must be designed and constructed to 
minimize the development of any unsafe condition of the propeller 
between overhaul periods.



Sec. 35.21  Reversible propellers.

    A reversible propeller must be adaptable for use with a reversing 
system in an airplane so that no single failure or malfunction in that 
system during normal or emergency operation will result in unwanted 
travel of the propeller blades to a position substantially below the 
normal flight low-pitch stop. Failure of structural elements need not be 
considered if the occurrence of such a failure is expected to be 
extremely remote. For the purposes of this section the term ``reversing 
system'' means that part of the complete reversing system that is in the 
propeller itself and those other parts that are supplied by the 
applicant for installation in the aircraft.



Sec. 35.23  Pitch control and indication.

    (a) No loss of normal propeller pitch control may cause hazardous 
overspeeding of the propeller under intended operating conditions.
    (b) Each pitch control system that is within the propeller, or 
supplied with the propeller, and that uses engine oil for feathering, 
must incorporate means to override or bypass the normally operative 
hydraulic system components so as to allow feathering if those 
components fail or malfunction.
    (c) Each propeller approved for installation on a turbopropeller 
engine must incorporate a provision for an indicator to indicate when 
the propeller blade angle is below the flight low pitch position. The 
provision must directly sense the blade position and be arranged to 
cause an indicator to indicate that the blade angle is below the flight 
low pitch position before the blade moves more than 8 deg. below the 
flight low pitch stop.

[Amdt. 35-2, 32 FR 3737, Mar. 4, 1967, as amended by Amdt. 35--5, 45 FR 
60182, Sept. 11, 1980]



                    Subpart C--Tests and Inspections



Sec. 35.31  Applicability.

    This subpart prescribes the tests and inspections for propellers and 
their essential accessories.



Sec. 35.33  General.

    (a) Each applicant must show that the propeller concerned and its 
essential accessories complete the tests and inspections of this subpart 
without evidence of failure or malfunction.
    (b) Each applicant must furnish testing facilities, including 
equipment, and competent personnel, to conduct the required tests.



Sec. 35.35  Blade retention test.

    The hub and blade retention arrangement of propellers with 
detachable blades must be subjected to a centrifugal load of twice the 
maximum centrifugal force to which the propeller would be subjected 
during operations within the limitations established for the propeller. 
This may be done by either a whirl test or a static pull test.

(Secs. 313(a), 601, and 603, 72 Stat. 752, 775, 49 U.S.C. 1354(a), 1421, 
and 1423; sec. 6(c), 49 U.S.C. 1655(c))

[Amdt. 35-4, 42 FR 15047, Mar. 17, 1977]



Sec. 35.37  Fatigue limit tests.

    A fatigue evalution must be made and the fatigue limits determined 
for each metallic hub and blade, and each primary load carrying metal 
component of nonmetallic blades. The fatigue evaluation must include 
consideration of all reasonably foreseeable vibration load patterns. The 
fatigue limits must account for the permissible service deteriortion 
(such as nicks, grooves,

[[Page 779]]

galling, bearing wear, and variations in material properties).

[Amdt. 35-5, 45 FR 60182, Sept. 11, 1980]



Sec. 35.39  Endurance test.

    (a) Fixed-pitch wood propellers. Fixed-pitch wood propellers must be 
subjected to one of the following tests:
    (1) A 10-hour endurance block test on an engine with a propeller of 
the greatest pitch and diameter for which certification is sought at the 
rated rotational speed.
    (2) A 50-hour flight test in level flight or in climb. At least five 
hours of this flight test must be with the propeller operated at the 
rated rotational speed, and the remainder of the 50 hours must be with 
the propeller operated at not less than 90 percent of the rated 
rotational speed. This test must be conducted on a propeller of the 
greatest diameter for which certification is requested.
    (3) A 50-hour endurance block test on an engine at the power and 
propeller rotational speed for which certification is sought. This test 
must be conducted on a propeller of the greatest diameter for which 
certification is requested.
    (b) Fixed-pitch metal propellers and ground adjustable-pitch 
propellers. Each fixed-pitch metal propeller or ground adjustable-pitch 
propeller must be subjected to the test prescribed in either paragraph 
(a)(2) or (a)(3) of this section.
    (c) Variable-pitch propellers. Compliance with this paragraph must 
be shown for a propeller of the greatest diameter for which 
certification is requested. Each variable-pitch propeller (a propeller 
the pitch setting of which can be changed by the flight crew or by 
automatic means while the propeller is rotating) must be subjected to 
one of the following tests:
    (1) A 100-hour test on a representative engine with the same or 
higher power and rotational speed and the same or more severe vibration 
characteristics as the engine with which the propeller is to be used. 
Each test must be made at the maximum continuous rotational speed and 
power rating of the propeller. If a takeoff rating greater than the 
maximum continuous rating is to be established, and additional 10-hour 
block test must be made at the maximum power and rotational speed for 
the takeoff rating.
    (2) Operation of the propeller throughout the engine endurance tests 
prescribed in Part 33 of this subchapter.

[Doc. No. 2095, 29 FR 7458, June 10, 1964, as amended by Amdt. 35-2, 32 
FR 3737, Mar. 4, 1967; Amdt. 35-3, 41 FR 55475, Dec. 20, 1976]



Sec. 35.41  Functional test.

    (a) Each variable-pitch propeller must be subjected to the 
applicable functional tests of this section. The same propeller used in 
the endurance test must be used in the functional tests and must be 
driven by an engine on a test stand or on an aircraft.
    (b) Manually controllable propellers. 500 complete cycles of control 
must be made throughout the pitch and rotational speed ranges.
    (c) Automatically controllable propellers. 1,500 complete cycles of 
control must be made throughout the pitch and rotational speed ranges.
    (d) Feathering propellers. 50 cycles of feathering operation must be 
made.
    (e) Reversible-pitch propellers. Two hundred complete cycles of 
control must be made from lowest normal pitch to maximum reverse pitch, 
and, while in maximum reverse pitch, during each cycle, the propeller 
must be run for 30 seconds at the maximum power and rotational speed 
selected by the applicant for maximum reverse pitch.

[Doc. No. 2095, 29 FR 7458, June 10, 1964, as amended by Amdt. 35-3, 41 
FR 55475, Dec. 20, 1976]



Sec. 35.42  Blade pitch control system component test.

    The following durability requirements apply to propeller blade pitch 
control system components:
    (a) Except as provided in paragraph (b) of this section, each 
propeller blade pitch control system component, including governors, 
pitch change assemblies, pitch locks, mechanical stops, and feathering 
system components, must be subjected in tests to cyclic loadings that 
simulate the frequency and amplitude those to which the component would 
be subjected during 1,000 hours of propeller operation.

[[Page 780]]

    (b) Compliance with paragraph (a) of this section may be shown by a 
rational analysis based on the results of tests on similar components.

[Amdt. 35-5, 45 FR 60182, Sept. 11, 1980]



Sec. 35.43  Special tests.

    The Administrator may require any additional tests he finds 
necessary to substantiate the use of any unconventional features of 
design, material, or construction.



Sec. 35.45  Teardown inspection.

    (a) After completion of the tests prescribed in this subpart, the 
propeller must be completely disassembled and a detailed inspection must 
be made of the propeller parts for cracks, wear, distortion, and any 
other unusual conditions.
    (b) After the inspection the applicant must make any changes to the 
design or any additional tests that the Administrator finds necessary to 
establish the airworthiness of the propeller.

[Doc. No. 3095, 29 FR 7458, June 10, 1964, as amended by Amdt. 35-3, 41 
FR 55475, Dec. 20, 1976]



Sec. 35.47  Propeller adjustments and parts replacements.

    The applicant may service and make minor repairs to the propeller 
during the tests. If major repairs or replacement of parts are found 
necessary during the tests or in the teardown inspection, the parts in 
question must be subjected to any additional tests the Administrator 
finds necessary.

     Appendix A to Part 35--Instructions for Continued Airworthiness

                             a35.1  general

    (a) This appendix specifies requirements for the preparation of 
Instructions for Continued Airworthiness as required by Sec. 35.4.
    (b) The Instructions for Continued Airworthiness for each propeller 
must include the Instructions for Continued Airworthiness for all 
propeller parts. If Instructions for Continued Airworthiness are not 
supplied by the propeller part manufacturer for a propeller part, the 
Instructions for Continued Airworthiness for the propeller must include 
the information essential to the continued airworthiness of the 
propeller.
    (c) The applicant must submit to the FAA a program to show how 
changes to the Instructions for Continued Airworthiness made by the 
applicant or by the manufacturers of propeller parts will be 
distributed.

                              a35.2  format

    (a) The Instructions for Continued Airworthiness must be in the form 
of a manual or manuals as appropriate for the quantity of data to be 
provided.
    (b) The format of the manual or manuals must provide for a practical 
arrangement.

                             a35.3  content

    The contents of the manual must be prepared in the English language. 
The Instructions for Continued Airworthiness must contain the following 
sections and information:
    (a) Propeller Maintenance Section. (1) Introduction information that 
includes an explanation of the propeller's features and data to the 
extent necessary for maintenance or preventive maintenance.
    (2) A detailed description of the propeller and its systems and 
installations.
    (3) Basic control and operation information describing how the 
propeller components and systems are controlled and how they operate, 
including any special procedures that apply.
    (4) Instructions for uncrating, acceptance checking, lifting, and 
installing the propeller.
    (5) Instructions for propeller operational checks.
    (6) Scheduling information for each part of the propeller that 
provides the recommended periods at which it should be cleaned, 
adjusted, and tested, the applicable wear tolerances, and the degree of 
work recommended at these periods. However, the applicant may refer to 
an accessory, instrument, or equipment manufacturer as the source of 
this information if it shows that the item has an exceptionally high 
degree of complexity requiring specialized maintenance techniques, test 
equipment, or expertise. The recommended overhaul periods and necessary 
cross-references to the Airworthiness Limitations section of the manual 
must also be included. In addition, the applicant must include an 
inspection program that includes the frequency and extent of the 
inspections necessary to provide for the continued airworthiness of the 
propeller.
    (7) Troubleshooting information describing probable malfunctions, 
how to recognize those malfunctions, and the remedial action for those 
malfunctions.
    (8) Information describing the order and method of removing and 
replacing propeller parts with any necessary precautions to be taken.
    (9) A list of the special tools needed for maintenance other than 
for overhauls.

[[Page 781]]

    (b) Propeller Overhaul Section. (1) Disassembly information 
including the order and method of disassembly for overhaul.
    (2) Cleaning and inspection instructions that cover the materials 
and apparatus to be used and methods and precautions to be taken during 
overhaul. Methods of overhaul inspection must also be included.
    (3) Details of all fits and clearances relevant to overhaul.
    (4) Details of repair methods for worn or otherwise substandard 
parts and components along with information necessary to determine when 
replacement is necessary.
    (5) The order and method of assembly at overhaul.
    (6) Instructions for testing after overhaul.
    (7) Instructions for storage preparation including any storage 
limits.
    (8) A list of tools needed for overhaul.

                a35.4  airworthiness limitations section

    The Instructions for Continued Airworthiness must contain a section 
titled Airworthiness Limitations that is segregated and clearly 
distinguishable from the rest of the document. This section must set 
forth each mandatory replacement time, inspection interval, and related 
procedure required for type certification. This section must contain a 
legible statement in a prominent location that reads: ``The 
Airworthiness Limitations section is FAA approved and specifies 
maintenance required under Secs. 43.16 and 91.403 of the Federal 
Aviation Regulations unless an alternative program has been FAA 
approved.''


[Amdt. 35-5, 45 FR 60182, Sept. 11, 1980, as amended by Amdt. 35-6, 54 
FR 34330, Aug. 18, 1989]



PART 36--NOISE STANDARDS: AIRCRAFT TYPE AND AIRWORTHINESS CERTIFICATION--Table of Contents




Special Federal Aviation Regulation No. 41 [Note]

                           Subpart A--General

Sec.
36.1  Applicability and definitions.
36.2  Special retroactive requirements.
36.3  Compatibility with airworthiness requirements.
36.5  Limitation of part.
36.6  Incorporations by reference.
36.7  Acoustical change: Transport category large airplanes and turbojet 
          powered airplanes.
36.9  Acoustical change: Propeller-driven small airplanes and propeller-
          driven commuter category airplanes.
36.11  Acoustical change: Helicopters.

Subpart B--Noise Measurement and Evaluation for Transport Category Large 
                Airplanes and Turbojet Powered Airplanes

36.101  Noise measurement.
36.103  Noise evaluation.

Subpart C--Noise Limits for Subsonic Transport Category Large Airplanes 
                 and Subsonic Turbojet Powered Airplanes

36.201  Noise limits.

   Subpart D--Noise Limits for Supersonic Transport Category Airplanes

36.301  Noise limits: Concorde.

Subpart E [Reserved]

   Subpart F--Propeller Driven Small Airplanes and Propeller-Driven, 
                       Commuter Category Airplanes

36.501  Noise limits.

Subpart G [Reserved]

                         Subpart H--Helicopters

36.801  Noise measurement.
36.803  Noise evaluation and calculation.
36.805  Noise limits.

Subparts I-N  [Reserved]

            Subpart O--Operating Limitations and Information

36.1501  Procedures, noise levels and other information.
36.1581  Manuals, markings, and placards.
36.1583  Noncomplying agricultural and fire fighting airplanes.

Appendix A to Part 36--Aircraft Noise Measurement Under Sec. 36.101
Appendix B to Part 36--Aircraft Noise Evaluation Under Sec. 36.103
Appendix C to Part 36--Noise Levels for Transport Category and Turbojet 
          Powered Airplanes under Sec. 36.201
Appendixes D-E to Part 36  [Reserved]
Appendix F to Part 36--Flyover Noise Requirements for Propeller-Driven 
          Small Airplane and Propeller-Driven, Commuter Category 
          Airplane Certification Tests Prior to December 22, 1988
Appendix G to Part 36--Takeoff Noise Requirements for Propeller-Driven 
          Small Airplane and Propeller-Driven, Commuter Category 
          Airplane Certification Tests on or After December 22, 1988
Appendix H to Part 36--Noise Requirements for Helicopters Under Subpart 
          H
Appendix I to Part 36  [Reserved]

[[Page 782]]

Appendix J to Part 36--Alternative Noise Certification Procedure For 
          Helicopters Under Subpart H Having A Maximum Certificated 
          Takeoff Weight Of Not More Than 6,000 Pounds

    Authority: 42 U.S.C. 4321 et seq.; 49 U.S.C. 106(g), 40113, 44701-
44702, 44704, 44715; sec. 305, Pub. L. 96-193, 94 Stat. 50, 57; E.O. 
11514, 35 FR 4247, 3 CFR, 1966-1970 Comp., p. 902.

    Source: Docket No. 9337, 34 FR 18364, Nov. 18, 1969, unless 
otherwise noted.

               Special Federal Aviation Regulation No. 41

    Editorial Note: For the text of SFAR No. 41 see Part 21 of this 
chapter.



                           Subpart A--General



Sec. 36.1  Applicability and definitions.

    (a) This part prescribes noise standards for the issue of the 
following certificates:
    (1) Type certificates, and changes to those certificates, and 
standard airworthiness certificates, for subsonic transport category 
large airplanes, and for subsonic turbojet powered airplanes regardless 
of category.
    (2) Type certificates and changes to those certificates, standard 
airworthiness certificates, and restricted category airworthiness 
certificates, for propeller-driven, small airplanes, and for propeller-
driven, commuter category airplanes except those airplanes that are 
designed for ``agricultural aircraft operations'' (as defined in 
Sec. 137.3 of this chapter, as effective on January 1, 1966) or for 
dispersing fire fighting materials to which Sec. 36.1583 of this part 
does not apply.
    (3) A type certificate and changes to that certificate, and standard 
airworthiness certificates, for Concorde airplanes.
    (4) Type certificates, and changes to those certificates, for 
helicopters except those helicopters that are designated exclusively for 
``argicultural aircraft operations'' (as defined in Sec. 137.3 of this 
chapter, as effective on January 1, 1966), for dispensing fire fighting 
materials, or for carrying external loads (as defined in Sec. 133.1(b) 
of this chapter, as effective on December 20, 1976).
    (b) Each person who applies under Part 21 of this chapter for a type 
of airworthiness certificate specified in this part must show compliance 
with the applicable requirements of this part, in addition to the 
applicable airworthiness requirements of this chapter.
    (c) Each person who applies under Part 21 of this chapter for 
approval of an acoustical change described in Sec. 21.93(b) of this 
chapter must show that the aircraft complies with the applicable 
provisions of Secs. 36.7, 36.9, or 36.11 of this part in addition to the 
applicable airworthiness requirements of this chapter.
    (d) Each person who applies for the original issue of a standard 
airworthiness certificate for a transport category large airplane or for 
a turbojet powered airplane under Sec. 21.183 must, regardless of date 
of application, show compliance with the following provisions of this 
part (including appendix C):
    (1) The provisions of this part in effect on December 1, 1969, for 
subsonic airplanes that have not had any flight time before--
    (i) December 1, 1973, for airplanes with maximum weights greater 
than 75,000 pounds, except for airplanes that are powered by Pratt & 
Whitney Turbo Wasp JT3D series engines;
    (ii) December 31, 1974, for airplanes with maximum weights greater 
than 75,000 pounds and that are powered by Pratt & Whitney Turbo Wasp 
JT3D series engines; and
    (iii) December 31, 1974, for airplanes with maximum weights of 
75,000 pounds and less.
    (2) The provisions of this part in effect on October 13, 1977, 
including the stage 2 noise limits, for Concorde airplanes that have not 
had flight time before January 1, 1980.
    (3) December 31, 1974, for airplanes with maximum weights of 75,000 
lbs. and less.
    (e) Each person who applies for the original issue of a standard 
airworthiness certificate under Sec. 21.183, or for the original issue 
of a restricted category airworthiness certificate under Sec. 21.185, 
for propeller-driven, commuter category airplanes for a propeller driven 
small airplane that has not had any flight time before January 1, 1980, 
must show compliance with the applicable provisions of this part.

[[Page 783]]

    (f) For the purpose of showing compliance with this part for 
transport category large airplanes and turbojet powered airplanes 
regardless of category, the following terms have the following meanings:
    (1) A ``Stage 1 noise level'' means a takeoff, sideline or approach 
noise level greater than the Stage 2 noise limits prescribed in section 
C36.5(a)(2) of appendix C of this part.
    (2) A ``Stage 1 airplane'' means an airplane that has not been shown 
under this part to comply with the takeoff, sideline, and approach noise 
levels required for Stage 2 or Stage 3 airplanes.
    (3) A ``Stage 2 noise level'' means a noise level at or below the 
Stage 2 noise limits prescribed in section C36.5(a)(2) of appendix C of 
this part but higher than the Stage 3 noise limits prescribed in section 
C36.5(a)(3) of appendix C of this part.
    (4) A ``Stage 2 airplane'' means an airplane that has been shown 
under this part to comply with Stage 2 noise levels prescribed in 
section C36.5 of appendix C of this part (including use of the 
applicable tradeoff provisions) and that does not comply with the 
requirements for a Stage 3 airplane.
    (5) A ``Stage 3 noise level'' means a noise level at or below the 
Stage 3 noise limits prescribed in section C36.5(a)(3) of appendix C of 
this part.
    (6) A ``Stage 3 airplane'' means an airplane that has been shown 
under this part to comply with Stage 3 noise levels prescribed in 
section C36.5 of appendix C of this part (including use of the 
applicable tradeoff provisions).
    (7) A ``subsonic airplane'' means an airplane for which the maximum 
operating limit speed, Mmo, does not exceed a Mach number of 
1.
    (8) A ``supersonic airplane'' means an airplane for which the 
maximum operating limit speed, Mmo, exceeds a Mach number of 
1.
    (g) For the purpose of showing compliance with this part for 
transport category large airplanes and turbojet airplanes regardless of 
category, each airplane may not be identified as complying with more 
than one stage or configuration simultaneously.
    (h) For the purpose of showing compliance with this part, for 
helicopters in the primary, normal, transport, and restricted 
categories, the following terms have the specified meanings:
    (1) Stage 1 noise level means a takeoff, flyover, or approach noise 
level greater than the Stage 2 noise limits prescribed in section 
H36.305 of appendix H of this part, or a flyover noise level greater 
than the Stage 2 noise limits prescribed in section J36.305 of appendix 
J of this part.
    (2) Stage 1 helicopter means a helicopter that has not been shown 
under this part to comply with the takeoff, flyover, and approach noise 
levels required for Stage 2 helicopters as prescribed in section H36.305 
of appendix H of this part, or a helicopter that has not been shown 
under this part to comply with the flyover noise level required for 
Stage 2 helicopters as prescribed in section J36.305 of appendix J of 
this part.
    (3) Stage 2 noise level means a takeoff, flyover, or approach noise 
level at or below the Stage 2 noise limits prescribed in section H36.305 
of appendix H of this part, or a flyover noise level at or below the 
Stage 2 limit prescribed in section J36.305 of appendix J of this part.
    (4) Stage 2 helicopter means a helicopter that has been shown under 
this part to comply with Stage 2 noise limits (including applicable 
tradeoffs) prescribed in section H36.305 of appendix H of this part, or 
a helicopter that has been shown under this part to comply with the 
Stage 2 noise limit prescribed in section J36.305 of appendix J of this 
part.

[Doc. No. 13243, Amdt. 36-4, 40 FR 1034, Jan. 6, 1975 as amended by 
Amdt. 36-7, 42 FR 12370, Mar. 3, 1977; Amdt. 36-10, 43 FR 28419, June 
29, 1978; Amdt. 36-11, 45 FR 67066, Oct. 9, 1980; Amdt. 36-13, 52 FR 
1836, Jan. 15, 1987; Amdt. 36-14, 53 FR 3540, Feb. 5, 1988; 53 FR 7728, 
Mar. 10, 1988; Amdt. 36-15, 53 FR 16366, May 6, 1988; Amdt. 36-20, 57 FR 
42854, Sept. 16, 1992]



Sec. 36.2  Special retroactive requirements.

    (a) Notwithstanding Sec. 21.17 of this chapter, each person who 
applies for a type certificate:
    (1) For an airplane covered by this part, irrespective of the date 
of application for the type certificate, or
    (2) For a helicopter covered by this part, on or after March 6, 
1986,

[[Page 784]]


must show compliance with the applicable provisions of this part.
    (b) Notwithstanding Sec. 21.101(a) of this chapter, each person who 
applies for an acoustical change to a type design specified in 
Sec. 21.93(b) of this chapter must show compliance with the applicable 
provisions of this part.

[Doc. No. 9337, 34 FR 18364, Nov. 18, 1969, as amended by Amdt. 36-14, 
53 FR 3540, Feb. 5, 1988]



Sec. 36.3  Compatibility with airworthiness requirements.

    It must be shown that the aircraft meets the airworthiness 
regulations constituting the type certification basis of the aircraft 
under all conditions in which compliance with this part is shown, and 
that all procedures used in complying with this part, and all procedures 
and information for the flight crew developed under this part, are 
consistent with the airworthiness regulations constituting the type 
certification basis of the aircraft.

[Doc. No. 9337, 34 FR 18364, Nov. 18, 1969, as amended by Amdt. 36-14, 
53 FR 3540, Feb. 5, 1988]



Sec. 36.5  Limitation of part.

    Pursuant to 49 U.S.C. 1431(b)(4), the noise levels in this part have 
been determined to be as low as is economically reasonable, 
technologically practicable, and appropriate to the type of aircraft to 
which they apply. No determination is made, under this part, that these 
noise levels are or should be acceptable or unacceptable for operation 
at, into, or out of, any airport.



Sec. 36.6  Incorporation by reference.

    (a) General. This part prescribes certain standards and procedures 
which are not set forth in full text in the rule. Those standards and 
procedures are contained in published material which is reasonably 
available to the class of persons affected and has been approved for 
incorporation by reference by the Director of the Federal Register under 
5 U.S.C. 552 (a) and 1 CFR Part 51.
    (b) Incorporated matter. (1) Each publication, or part of a 
publication, which is referenced but not set forth in full-text in this 
part and which is identified in paragraph (c) of this section is hereby 
incorporated by reference and made a part of Part 36 of this chapter 
with the approval of the Director of the Federal Register.
    (2) Incorporated matter which is subject to subsequent change is 
incorporated by reference according to the specific reference and to the 
identification statement. Adoption of any subsequent change in 
incorporated matter is made under Part 11 of this chapter and 1 CFR Part 
51.
    (c) Identification statement. The complete title or description 
which identifies each published matter incorporated by reference in this 
part is as follows:
    (1) International Electrotechnical Commission (IEC) Publications. 
(i) IEC Publication No. 179, entitled ``Precision Sound Level Meters,'' 
dated 1973.
    (ii) IEC Publication No. 225, entitled ``Octave, Half-Octave, Third 
Octave Band Filters Intended for the Analysis of Sounds and 
Vibrations,'' dated 1966.
    (iii) IEC Publication No. 651, entitled ``Sound Level Meters,'' 
first edition, dated 1979.
    (iv) IEC Publication No. 561, entitled ``Electro-acoustical 
Measuring Equipment for Aircraft Noise Certification,'' first edition, 
dated 1976.
    (v) IEC Publication No. 804, entitled ``Integrating-averaging Sound 
Level Meters,'' first edition, dated 1985.
    (2) Society of Automotive Engineers (SAE) Publications. (i) SAE ARP 
866A, entitled ``Standard Values at Atmospheric Absorption as a Function 
of Temperature and Humidity for Use in Evaluating Aircraft Flyover 
Noise,'' dated March 15, 1975.
    (d) Availability for purchase. Published material incorporated by 
reference in this part may be purchased at the price established by the 
publisher or distributor at the following mailing addresses:
    (1) IEC publications. (i) The Bureau Central de la Commission 
Electrotechnique, Internationale, 1, rue de Varembe, Geneva, 
Switzerland.
    (ii) American National Standard Institute, 1430 Broadway, New York 
City, New York 10018.
    (2) SAE publications. Society of Automotive Engineers, Inc., 400 
Commonwealth Drive, Warrentown, Pennsylvania 15096.

[[Page 785]]

    (e) Availability for inspection. A copy of each publication 
incorporated by reference in this part is available for public 
inspection at the following locations:

    (1) FAA Office of the Chief Counsel, Rules Docket, Room 916, Federal 
Aviation Administration Headquarters Building, 800 Independence Avenue, 
SW., Washington, DC.
    (2) Department of Transportation, Branch Library, Room 930, Federal 
Aviation Administration Headquarters Building, 800 Independence Avenue, 
SW., Washington, DC.
    (3) The respective Region Headquarters of the Federal Aviation 
Administration as follows:
    (i) New England Region Headquarters, 12 New England Executive Park, 
Burlington, Massachusetts 01803.
    (ii) Eastern Region Headquarters, Federal Building, John F. Kennedy 
(JFK) International Airport, Jamaica, New York 11430.
    (iii) Southern Region Headquarters, 3400 Norman Berry Drive, East 
Point, Georgia 30344.
    (iv) Great Lakes Region Headquarters, O'Hare Lake Office Center, 
2300 East Devon Avenue, Des Plaines, Illinois 60018.
    (v) Central Region Headquarters, Federal Building, 601 East 12th 
Street, Kanasa City Missouri 64106.
    (vi) Southwest Region Headquarters, 4400 Blue Mound Road, Fort 
Worth, Texas 76193-0000.
    (vii) Northwest Mountain Region Headquarters, 17900 Pacific Highway 
South, Seattle, Washington 98168.
    (viii) Western-Pacific Region Headquarters, 15000 Aviation 
Boulevard, Hawthorne, California 92007.
    (ix) Alaskan Region Headquarters, 701 C Street, Anchorage, Alaska 
99513.
    (x) European Office Headquarters, 15, Rue de la Loi (3rd Floor), B-
1040 Brussels, Belgium.


[Amdt. 36-9, 43 FR 8739, Mar. 3, 1978, as amended by Amdt. 36-16, 53 FR 
47400, Nov. 22, 1988; Amdt. 36-20, 57 FR 42854, Sept. 16, 1992]



Sec. 36.7  Acoustical change: Transport category large airplanes and turbojet powered airplanes.

    (a) Applicability. This section applies to all transport category 
large airplanes and turbojet powered airplanes for which an acoustical 
change approval is applied for under Sec. 21.93(b) of this chapter.
    (b) General requirements. Except as otherwise specifically provided, 
for each airplane covered by this section, the acoustical change 
approval requirements are as follows:
    (1) In showing compliance, noise levels must be measured and 
evaluated in accordance with the applicable procedures and conditions 
prescribed in Appendices A and B of this part.
    (2) Compliance with the noise limits prescribed in section C36.5 of 
appendix C must be shown in accordance with the applicable provisions of 
sections C36.7 and C36.9 of appendix C of this part.
    (c) Stage 1 airplanes. For each Stage 1 airplane prior to the change 
in type design, in addition to the provisions of paragraph (b) of this 
section, the following apply:
    (1) If an airplane is a Stage 1 airplane prior to the change in type 
design, it may not, after the change in type design, exceed the noise 
levels created prior to the change in type design. The tradeoff 
provisions of section C36.5(b) of appendix C of this part may not be 
used to increase the Stage 1 noise levels, unless the aircraft qualifies 
as a Stage 2 airplane.
    (2) In addition, for an airplane for which application is made after 
September 17, 1971--
    (i) There may be no reduction in power or thrust below the highest 
airworthiness approved power or thrust, during the tests conducted 
before and after the change in type design; and
    (ii) During the takeoff and sideline noise tests conducted before 
the change in type design, the quietest airworthiness approved 
configuration available for the highest approved takeoff weight must be 
used.
    (d) Stage 2 airplanes. If an airplane is a Stage 2 airplane prior to 
the change in type design, the following apply, in addition to the 
provisions of paragraph (b) of this section:
    (1) Airplanes with high bypass ratio turbojet engines. For an 
airplane that has turbojet engines with a bypass ratio of 2 or more 
before a change in type design--
    (i) The airplane, after the change in type design, may not exceed 
either (A) each Stage 3 noise limit by more than 3 EPNdB, or (B) each 
Stage 2 noise limit, whichever is lower:
    (ii) The tradeoff provisions of section C36.5(b) of appendix C of 
this part may be used in determining compliance under this paragraph 
with respect to

[[Page 786]]

the Stage 2 noise limit or to the Stage 3 plus 3 EPNdB noise limits, as 
applicable; and
    (iii) During the takeoff and sideline noise test conducted before 
the change in type design, the quietest airworthiness approved 
configuration available for the highest approved takeoff weight must be 
used.
    (2) Airplanes that do not have high bypass ratio turbojet engines. 
For an airplane that does not have turbojet engines with a bypass ratio 
of 2 or more before a change in type design--
    (i) The airplane may not be a Stage 1 airplane after the change in 
type design; and
    (ii) During the takeoff and sideline noise tests conducted before 
the change in type design, the quietest airworthiness approved 
configuration available for the highest approved takeoff weight must be 
used.
    (e) Stage 3 airplanes. If an airplane is a Stage 3 airplane prior to 
the change in type design, the following apply, in addition to the 
provisions of paragraph (b) of this section:
    (1) If compliance with Stage 3 noise levels is not required before 
the change in type design, the airplane must--
    (i) Be a Stage 2 airplane after the change in type design and 
compliance must be shown under the provisions of paragraph (d)(1) or 
(d)(2) of this section, as appropriate; or
    (ii) Remain a Stage 3 airplane after the change in type design. 
Compliance must be shown under the provisions of paragraph (e)(2) of 
this section.
    (2) If compliance with Stage 3 noise levels is required before the 
change in type design, the airplane must be a Stage 3 airplane after the 
change in type design.
    (3) Applications on or after [August 14, 1989.] The airplane must 
remain a Stage 3 airplane after the change in type design.

[Amdt. 36-7, 42 FR 12371, Mar. 3, 1977; Amdt. 36-8, 43 FR 8730, Mar. 2, 
1978; Amdt. 36-10, 43 FR 28420, June 29, 1978; Amdt. 36-12, 46 FR 33464, 
June 29, 1981; Amdt. 36-15, 53 FR 16366, May 6, 1988; 53 FR 18950, May 
25, 1988; Amdt. 36-17, 54 FR 21042, May 15, 1989]



Sec. 36.9  Acoustical change: Propeller-driven small airplanes and propeller-driven commuter category airplanes.

    For propeller-driven small airplanes in the primary, normal, 
utility, acrobatic, transport, and restricted categories and for 
propeller-driven, commuter category airplanes for which an acoustical 
change approval is applied for under Sec. 21.93(b) of this chapter after 
January 1, 1975, the following apply:
    (a) If the airplane was type certificated under this part prior to a 
change in type design, it may not subsequently exceed the noise limits 
specified in Sec. 36.501 of this part.
    (b) If the airplane was not type certificated under this part prior 
to a change in type design, it may not exceed the higher of the two 
following values:
    (1) The noise limit specified in Sec. 36.501 of this part, or
    (2) The noise level created prior to the change in type design, 
measured and corrected as prescribed in Sec. 36.501 of this part.

[Amdt. 36-16, 53 FR 47400, Nov. 22, 1988; 53 FR 50157, Dec. 13, 1988; 
Amdt. 36-19, 57 FR 41369, Sept. 9, 1992]



Sec. 36.11  Acoustical change: Helicopters.

    This section applies to all helicopters in the primary, normal, 
transport, and restricted categories for which an acoustical change 
approval is applied for under Sec. 21.93(b) of this chapter on or after 
March 6, 1986. Compliance with the requirements of this section must be 
demonstrated under appendix H of this part, or, for helicopters having a 
maximum certificated takeoff weight of not more than 6,000 pounds, 
compliance with this section may be demonstrated under appendix J of 
this part.
    (a) General requirements. Except as otherwise provided, for 
helicopters covered by this section, the acoustical change approval 
requirements are as follows:
    (1) In showing compliance with the requirements of appendix H of 
this part, noise levels must be measured, evaluated, and calculated in 
accordance with the applicable procedures and conditions prescribed in 
parts B

[[Page 787]]

and C of appendix H of this part. For helicopters having a maximum 
certificated takeoff weight of not more than 6,000 pounds that 
alternatively demonstrate compliance under appendix J of this part, the 
flyover noise level prescribed in appendix J of this part must be 
measured, evaluated, and calculated in accordance with the applicable 
procedures and conditions prescribed in parts B and C of appendix J of 
this part.
    (2) Compliance with the noise limits prescribed in section H36.305 
of appendix H of this part must be shown in accordance with the 
applicable provisions of part D of appendix H of this part. For those 
helicopters that demonstrate compliance with the requirements of 
appendix J of this part, compliance with the noise levels prescribed in 
section J36.305 of appendix J of this part must be shown in accordance 
with the applicable provisions of part D of appendix J of this part.
    (b) Stage 1 helicopters. Except as provided in Sec. 36.805(c), for 
each Stage 1 helicopter prior to a change in type design, the helicopter 
noise levels may not, after a change in type design, exceed the noise 
levels specified in section H36.305(a)(1) of appendix H of this part 
where the demonstration of compliance is under appendix H of this part. 
The tradeoff provisions under section H36.305(b) of appendix H of this 
part may not be used to increase any Stage 1 noise level beyond these 
limits. If an applicant chooses to demonstrate compliance under appendix 
J of this part, for each Stage 1 helicopter prior to a change in type 
design, the helicopter noise levels may not, after a change in type 
design, exceed the Stage 2 noise levels specified in section J36.305(a) 
of appendix J of this part.
    (c) Stage 2 helicopters. For each helicopter that is Stage 2 prior 
to a change in type design, the helicopter must be a Stage 2 helicopter 
after a change in type design.

[Doc. No. 26910, 57 FR 42854, Sept. 16, 1992]



Subpart B--Noise Measurement and Evaluation for Transport Category Large 
                Airplanes and Turbojet Powered Airplanes



Sec. 36.101  Noise measurement.

    For transport category large airplanes and turbojet powered 
airplanes the noise generated by the airplane must be measured under 
appendix A of this part or under an approved equivalent procedure.

[Doc. No. 9337, 34 FR 18364, Nov. 18, 1969, as amended by Amdt. 36-10, 
43 FR 28420, June 29, 1968]



Sec. 36.103  Noise evaluation.

    For transport category large airplanes and turbojet powered 
airplanes noise measurement information obtained under Sec. 36.101 must 
be evaluated under appendix B of this part or under an approved 
equivalent procedure.

[Doc. No. 9337, 34 FR 18364, Nov. 18, 1969, as amended by Amdt. 36-10, 
43 FR 28420, June 29, 1978]



Subpart C--Noise Limits for Subsonic Transport Category Large Airplanes 
                 and Subsonic Turbojet Powered Airplanes



Sec. 36.201  Noise limits.

    (a) For subsonic transport category large airplanes and subsonic 
turbojet powered airplanes compliance with this section must be shown 
with noise levels measured and evaluated as prescribed in Subpart B of 
this part, and demonstrated at the measuring points, and in accordance 
with the flight test conditions under sections C36.7 and C36.9 (or an 
approved equivalent procedure), prescribed under appendix C of this 
part.
    (b) Type certification applications for subsonic transport category 
large airplanes and all subsonic turbojet powered airplanes must show 
that the noise levels of the airplane are no greater than the Stage 3 
noise limits

[[Page 788]]

prescribed in section C36.5(a)(3) of appendix C of this part.

[Doc. No. 9337, 34 FR 18364, Nov. 18, 1969, as amended by Amdt. 36-7, 42 
FR 12371, Mar. 3, 1977; Amdt. 36-8, 43 FR 8730, Mar. 2, 1978; Amdt. 36-
10, 43 FR 28420, June 29, 1978; Amdt. 36-12, 46 FR 33464, June 29, 1981; 
Amdt. 36-15, 53 FR 16366, May 6, 1988]



   Subpart D--Noise Limits for Supersonic Transport Category Airplanes



Sec. 36.301  Noise limits: Concorde.

    (a) General. For the Concorde airplane, compliance with this subpart 
must be shown with noise levels measured and evaluated as prescribed in 
Subpart B of this part, and demonstrated at the measuring points 
prescribed in appendix C of this part.
    (b) Noise limits. It must be shown, in accordance with the 
provisions of this part in effect on October 13, 1977, that the noise 
levels of the airplane are reduced to the lowest levels that are 
economically reasonable, technologically practicable, and appropriate 
for the Concorde type design.

[Amdt. 36-10, 43 FR 28420, June 29, 1978]

Subpart E [Reserved]



   Subpart F--Propeller Driven Small Airplanes and Propeller-Driven, 
                       Commuter Category Airplanes



Sec. 36.501  Noise limits.

    (a) Compliance with this subpart must be shown for--
    (1) Propeller driven small airplanes for which application for the 
issuance of a new, amended, or supplemental type certificate in the 
normal, utility, acrobatic, transport, or restricted category is made on 
or after October 10, 1973; and propeller-driven, commuter category 
airplanes for which application for the issuance of a type certificate 
in the commuter category is made on or after January 15, 1987.
    (2) Propeller driven small airplanes and propeller-driven, commuter 
category airplanes for which application is made for the original 
issuance of a standard airworthiness certificate or restricted category 
airworthiness certificate, and that have not had any flight time before 
January 1, 1980 (regardless of date of application).
    (3) Airplanes in the primary category:
    (i) Except as provided in paragraph (a)(3)(ii) of this section, for 
an airplane for which application for a type certificate in the primary 
category is made, and that was not previously certificated under 
appendix F of this part, compliance with appendix G of this part must be 
shown.
    (ii) For an airplane in the normal, utility or acrobatic category 
that (A) has a type certificate issued under this chapter, (B) has a 
standard airworthiness certificate issued under this chapter, (C) has 
not undergone an acoustical change from its type design, (D) has not 
previously been certificated under appendix F or G of this part, and (E) 
for which application for conversion to the primary category is made, no 
further showing of compliance with this part is required.
    (b) For aircraft covered by this subpart for which certification 
tests are completed before December 22, 1988, compliance must be shown 
with noise levels as measured and prescribed in Parts B and C of 
appendix F, or under approved equivalent procedures. It must be shown 
that the noise level of the airplane is no greater than the applicable 
limit set in Part D of appendix F.
    (c) For aircraft covered by this subpart for which certification 
tests are not completed before December 22, 1988, compliance must be 
shown with noise levels as measured and prescribed in Parts B and C of 
appendix G, or under approved equivalent procedures. It must be shown 
that the noise level of the airplane is no greater than the applicable 
limits set in Part D of appendix G.

[Doc. No. 13243, 40 FR 1034, Jan. 6, 1975, as amended by Amdt. 36-13, 52 
FR 1836, Jan. 15, 1987; Amdt. 36-16, 53 FR 47400, Nov. 22, 1988; Amdt. 
36-19, 57 FR 41369, Sept. 9, 1992]

Subpart G [Reserved]

[[Page 789]]



                         Subpart H--Helicopters

    Source: Amdt. 36-14, 53 FR 3540, Feb. 5, 1988; 53 FR 7728, Mar. 10, 
1988, unless otherwise noted.



Sec. 36.801  Noise measurement.

    For primary, normal, transport, or restricted category helicopters 
for which certification is sought under appendix H of this part, the 
noise generated by the helicopter must be measured at the noise 
measuring points and under the test conditions prescribed in part B of 
appendix H of this part, or under an FAA-approved equivalent procedure. 
For those primary, normal, transport, and restricted category 
helicopters having a maximum certificated takeoff weight of not more 
than 6,000 pounds for which compliance with appendix J of this part is 
demonstrated, the noise generated by the helicopter must be measured at 
the noise measuring point and under the test conditions prescribed in 
part B of appendix J of this part, or an FAA-approved equivalent 
procedure.

[Doc. No. 26910, 57 FR 42854, Sept. 16, 1992]



Sec. 36.803  Noise evaluation and calculation.

    The noise measurement data required under Sec. 36.801 and obtained 
under appendix H of this part must be corrected to the reference 
conditions contained in part A of appendix H of this part, and evaluated 
under the procedures of part C of appendix H of this part, or an FAA-
approved equivalent procedure. The noise measurement data required under 
Sec. 36.801 and obtained under appendix J of this part must be corrected 
to the reference conditions contained in part A of appendix J of this 
part, and evaluated under the procedures of part C of appendix J of this 
part, or an FAA-approved equivalent procedure.

[Doc. No. 26910, 57 FR 42854, Sept. 16, 1992]



Sec. 36.805  Noise limits.

    (a) Compliance with the noise levels prescribed under part D of 
appendix H of this part, or under part D of appendix J of this part, 
must be shown for helicopters for which application for issuance of a 
type certificate in the primary, normal, transport, or restricted 
category is made on or after March 6, 1986.
    (b) For helicopters covered by this section, except as provided in 
paragraph (c) or (d)(2) of this section, it must be shown either:
    (1) For those helicopters demonstrating compliance under appendix H 
of this part, the noise levels of the helicopter are no greater than the 
applicable limits prescribed under section H36.305 of appendix H of this 
part, or
    (2) For helicopters demonstrating compliance under appendix J of 
this part, the noise level of the helicopter is no greater than the 
limit prescribed under section J36.305 of appendix J of this part.
    (c) For helicopters for which application for issuance of an 
original type certificate in the primary, normal, transport, or 
restricted category is made on or after March 6, 1986, and which the FAA 
finds to be the first civil version of a helicopter that was designed 
and constructed for, and accepted for operational use by, an Armed Force 
of the United States or the U.S. Coast Guard on or before March 6, 1986, 
it must be shown that the noise levels of the helicopter are no greater 
than the noise limits for a change in type design as specified in 
section H36.305(a)(1)(ii) of appendix H of this part for compliance 
demonstrated under appendix H of this part, or as specified in section 
J36.305 of appendix J of this part for compliance demonstrated under 
appendix J of this part. Subsequent civil versions of any such 
helicopter must meet the Stage 2 requirements.
    (d) Helicopters in the primary category:
    (1) Except as provided in paragraph (d)(2) of this section, for a 
helicopter for which application for a type certificate in the primary 
category is made, and that was not previously certificated under 
appendix H of this part, compliance with appendix H of this part must be 
shown.
    (2) For a helicopter that:
    (i) Has a normal or transport type certificate issued under this 
chapter,
    (ii) Has a standard airworthiness certificate issued under this 
chapter,
    (iii) Has not undergone an acoustical change from its type design,

[[Page 790]]

    (iv) Has not previously been certificated under appendix H of this 
part, and
    (v) For which application for conversion to the primary category is 
made, no further showing of compliance with this part is required.

[Doc. No. 26910, 57 FR 42855, Sept. 16, 1992]

Subparts I-N  [Reserved]



            Subpart O--Operating Limitations and Information



Sec. 36.1501  Procedures, noise levels and other information.

    (a) All procedures, weights, configurations, and other information 
or data employed for obtaining the certified noise levels prescribed by 
this part, including equivalent procedures used for flight, testing, and 
analysis, must be developed and approved. Noise levels achieved during 
type certification must be included in the approved airplane 
(rotorcraft) flight manual.
    (b) Where supplemental test data are approved for modification or 
extension of an existing flight data base, such as acoustic data from 
engine static tests used in the certification of acoustical changes, the 
test procedures, physical configuration, and other information and 
procedures that are employed for obtaining the supplemental data must be 
developed and approved.

[Amdt. 36-15, 53 FR 16366, May 6, 1988]



Sec. 36.1581  Manuals, markings, and placards.

    (a) If an Airplane Flight Manual or Rotorcraft Flight Manual is 
approved, the approved portion of the Airplane Flight Manual or 
Rotorcraft Flight Manual must contain the following information, in 
addition to that specified under Sec. 36.1583 of this part. If an 
Airplane Flight Manual or Rotorcraft Flight Manual is not approved, the 
procedures and information must be furnished in any combination of 
approved manual material, markings, and placards.
    (1) For transport category large airplanes and turbojet powered 
airplanes, the noise level information must be one value for each 
takeoff, sideline, and approach as defined and required by appendix C of 
this part, along with the maximum takeoff weight, maximum landing 
weight, and configuration.
    (2) For propeller driven small airplanes the noise level information 
must be one value for flyover as defined and required by appendix F of 
this part, along with the maximum takeoff weight and configuration.
    (b) If supplemental operational noise level information is included 
in the approved portion of the Airplane Flight Manual, it must be 
segregated, identified as information in addition to the certificated 
noise levels, and clearly distinguished from the information required 
under Sec. 36.1581(a).
    (c) The following statement must be furnished near the listed noise 
levels:

No determination has been made by the Federal Aviation Administration 
that the noise levels of this aircraft are or should be acceptable or 
unacceptable for operation at, into, or out of, any airport.

    (d) For transport category large airplanes and turbojet powered 
airplanes, for which the weight used in meeting the takeoff or landing 
noise requirements of this part is less than the maximum weight 
established under the applicable airworthiness requirements, those 
lesser weights must be furnished, as operating limitations in the 
operating limitations section of the Airplane Flight Manual. Further, 
the maximum takeoff weight must not exceed the takeoff weight that is 
most critical from a takeoff noise standpoint.
    (e) For propeller driven small airplanes and for propeller-driven, 
commuter category airplanes for which the weight used in meeting the 
flyover noise requirements of this part is less than the maximum weight 
by an amount exceeding the amount of fuel needed to conduct the test, 
that lesser weight must be furnished, as an operating limitation, in the 
operating limitations section of an approved Airplane Flight Manual, in 
approved manual material, or on an approved placard.
    (f) For primary, normal, transport, and restricted category 
helicopters, if the weight used in meeting the takeoff, flyover, or 
approach noise requirements of appendix H of this part, or the weight 
used in meeting the flyover

[[Page 791]]

noise requirement of appendix J of this part, is less than the 
certificated maximum takeoff weight established under either 
Sec. 27.25(a) or Sec. 29.25(a) of this chapter, that lesser weight must 
be furnished as an operating limitation in the operating limitations 
section of the Rotorcraft Flight Manual, in FAA-approved manual 
material, or on an FAA-approved placard.
    (g) Except as provided in paragraphs (d), (e), and (f) of this 
section, no operating limitations are furnished under this part.

[Doc. 13243, 40 FR 1035, Jan. 6, 1975 as amended by Amdt. 36-10, 43 FR 
28420, June 29, 1978; Amdt. 36-11, 45 FR 67066, Oct. 9, 1980; Amdt. 36-
13, 52 FR 1836, Jan. 15, 1987. Redesignated and amended by Amdt. 36-14, 
53 FR 3540, Feb. 5, 1988; 53 FR 7728, Mar. 10, 1988; Amdt. 36-15, 53 FR 
16366, May 6, 1988; 53 FR 18950, May 25, 1988; Amdt. 36-20, 57 FR 42855, 
Sept. 16, 1992]



Sec. 36.1583  Noncomplying agricultural and fire fighting airplanes.

    (a) This section applies to propeller-driven, small airplanes that--
    (1) Are designed for ``agricultural aircraft operations'' (as 
defined in Sec. 137.3 of this chapter, effective on January 1, 1966) or 
for dispensing fire fighting materials; and
    (2) Have not been shown to comply with the noise levels prescribed 
under appendix F of this part--
    (i) For which application is made for the original issue of a 
standard airworthiness certificate and that do not have any flight time 
before January 1, 1980; or
    (ii) For which application is made for an acoustical change 
approval, for airplanes which have a standard airworthiness certificate 
after the change in the type design, and that do not have any flight 
time in the changed configuration before January 1, 1980.
    (b) For airplanes covered by this section an operating limitation 
reading as follows must be furnished in the manner prescribed in 
Sec. 36.1581:

    Noise abatement: This airplane has not been shown to comply with the 
noise limits in FAR Part 36 and must be operated in accordance with the 
noise operating limitation prescribed under FAR Sec. 91.815.

[Amdt. 36-11, 45 FR 67066, Oct. 9, 1980. Redesignated by Amdt. 36-14, 53 
FR 3540, Feb. 5, 1988; Amdt. 36-18, 54 FR 34330, Aug. 18, 1989]

   Appendix A to Part 36--Aircraft Noise Measurement Under Sec. 36.101

Sec.
A36.1  Noise certification test and measurement conditions.
A36.3  Measurement of aircraft noise received on the ground.
A36.5  Reporting and correcting measured data.
A36.7  Symbols and units.
A36.9  Atmospheric attenuation of sound.
A36.11  Detailed correction procedures.

Section A36.1  Noise certification test and measurement conditions.

    (a) General. This section prescribes the conditions under which 
aircraft noise certification tests must be conducted and the measurement 
procedures that must be used to measure aircraft noise during each test 
conducted on or after April 3, 1978.
    (b) Test site requirements. (1) Tests to show compliance with 
established aircraft noise certification levels must consist of a series 
of takeoffs and approaches (or stabilized flight path segments thereof) 
during which measurements must be taken at noise measuring stations 
located at the measuring points prescribed in section C36.3 of appendix 
C of this part. Each recorded segment must include measurements 
throughout the entire time period in which the recorded signal is within 
10 dB of PNLTM.
    (2) During each test takeoff, simultaneous measurements should be 
made at the sideline noise measuring stations on each side of the runway 
and also at the takeoff noise measuring station. However, if test site 
conditions make it impractical to simultaneously measure takeoff and 
sideline noise, and if each of the other sideline measurement 
requirements is met, independent measurements may be made of the 
sideline noise under simulated flight path techniques. If the reference 
flight path includes a power cutback before the maximum possible 
sideline noise level is developed, the reduced sideline noise level 
which is the maximum value developed by the simulated flight path 
technique must be the certificated sideline noise value.
    (3) If the height of the ground at a noise measuring station differs 
from that of the nearest point on the runway by more than 20 feet, 
corrections must be made as prescribed in section A36.5(d) of this 
appendix.
    (4) The location of each noise measuring station must be surrounded 
by relatively flat terrain having no excessive sound absorption 
characteristics, such as might be caused by thick, matted, or tall 
grass, shrubs, or wooded areas.
    (5) An airport tower, or other facility, used to obtain required 
measurements of meteorological conditions at the test site must be 
approved in accordance with section A36.9(b)(1) of this appendix.

[[Page 792]]

    (6) During the period when the flyover noise/time record indicates 
the noise measurement is within 10 dB of PNLTM, no obstruction that 
significantly influences the sound field from the aircraft may exist--
    (i) For a takeoff, approach, or sideline measuring station, within a 
conical space above the measuring position (the point on the ground 
vertically below the microphone), the cone being defined by an axis 
normal to the ground and by a half-angle 80 degrees from this axis; and
    (ii) For a sideline noise measuring station, above the line of sight 
between the microphone and the aircraft.
    (7) A minimum of two noise measuring stations, symmetrically 
positioned about the test flight track, must be used to define the 
maximum sideline noise with respect to location and level as required by 
section C36.3 of appendix C of this part. For turbojet powered aircraft, 
when approved by the FAA, the maximum sideline noise at takeoff thrust 
may be assumed to occur at the point (or its approved equivalent) along 
the extended centerline of the runway where the aircraft reaches 1000 
feet (305 meters) altitude above ground level. A height of 1440 feet 
(439 meters) may be assumed for Stage 1 or Stage 2 four engine 
airplanes. The altitude of the aircraft as it passes the microphone 
stations must be within +500 to -0 feet (+150 to -0 meters) of the 
target altitude. For aircraft powered by other than turbojet engines, 
the altitude for maximum sideline noise must be determined 
experimentally.
    (c) Weather restrictions. The tests must be conducted under the 
following atmospheric conditions:
    (1) No rain or other precipitation.
    (2) Ambient air temperature between 36 degrees F and 95 degrees F 
(2.2 degrees C and 35 degrees C), inclusively, over that portion of the 
sound propagation path between the aircraft and a point 10 meters above 
the ground at the noise measuring station.
    (3) Relative humidity and ambient temperature over that portion of 
the sound propagation path between the aircraft and a point 10 meters 
above the ground at the noise measuring station is such that the sound 
attenuation in the one-third octave band centered a 8 kHz is not greater 
than 12 dB/100 meters and the relative humidity is between 20 and 95 
percent, inclusively. However, if the dew point and dry bulb temperature 
used for obtaining relative humidity are measured with a device which is 
accurate to within 0.5  deg.C, the sound attenuation rate 
shall not exceed 14 dB/100 meters in the one-third octave band centered 
at 8kHz.
    (4) Average wind velocity 10 meters above ground is not to exceed 12 
knots and the crosswind velocity for the airplane is not to exceed 7 
knots. The average wind velocity shall be determined using a thirty-
second averaging period spanning the 10 dB down time interval. Maximum 
wind velocity 10 meters above ground is not to exceed 15 knots and the 
crosswind velocity is not to exceed 10 knots during the 10 dB down time 
interval.
    (5) No anomalous wind conditions (including turbulence) which will 
significantly affect the noise level of the aircraft when the noise is 
recorded at each noise measuring station.
    (d) Aircraft testing procedures.--(1) The aircraft testing 
procedures and noise measurements must be conducted and processed in an 
approved manner which yields the noise evaluation measure designated as 
Effective Perceived Noise Level (EPNL) in units of EPNdB, as prescribed 
in appendix B of this part.
    (2) The aircraft height and lateral position relative to the 
extended centerline of the runway must be determined by an FAA approved 
method which is independent of normal flight instrumentation, such as 
radar tracking, theodolite triangulation, laser trajectography, or 
photographic scaling techniques.
    (3) The aircraft position along the flight path must be related to 
the noise recorded at the noise measuring stations by means of 
synchronizing signals at an approved sampling rate. The position of the 
aircraft must be recorded relative to the runway during the entire time 
period in which the recorded signal is within 10 dB of PNLTM. Measuring 
and sampling equipment must be approved by the FAA.
    (4) Each takeoff test must meet the conditions of section C36.7 of 
appendix C of this part.
    (5) If a takeoff test series is conducted at weights other than the 
maximum takeoff weight for which noise certification is requested, the 
following additional requirements apply:
    (i) At least one takeoff test must be conducted at a weight at, or 
above, the maximum certification weight.
    (ii) Each test weight must be within +5 percent or -10 percent of 
the maximum certification weight.
    (6) Each approach test must be conducted with the aircraft 
stabilized and following a 3.0 degree plus-minus0.5 degree 
approach angle and must meet the requirements of section C36.9 of 
appendix C of this part.
    (7) If an approach test series is conducted at weights other than 
the maximum landing weight for which certification is requested, the 
following additional requirements apply:
    (i) At least one approach test must be conducted at a weight at, or 
above, the maximum landing weight.
    (ii) Each test weight must exceed 90 percent of the maximum landing 
weight.
    (8) Aircraft performance data sufficient to make the correction 
required under section A36.5 of this appendix must be recorded at an

[[Page 793]]

approved sampling rate using FAA approved equipment.

Section A36.3  Measurement of aircraft noise received on the ground.

    (a) General. (1) The measurements prescribed in this section provide 
the data for determining the one-third octave band noise produced by 
aircraft during testing at specific noise measuring stations, as a 
function of time.
    (2) Sound pressure level data for aircraft noise certification 
purposes must be obtained with approved acoustical equipment and 
measurement practices.
    (3) Paragraphs (b), (c), and (d) of this section prescribe the 
required equipment specifications. Paragraphs (e) and (f) prescribe the 
calibration and measurement procedures required for each certification 
test series.
    (b) Measurement system. The acoustical measurement system must 
consist of approved equipment equivalent to the following:
    (1) A microphone system with frequency response and directivity 
which are compatible with the measurement and analysis system accuracy 
prescribed in paragraph (c) of this section.
    (2) Tripods or similar microphone mountings that minimize 
interference with the sound energy being measured.
    (3) Recording and reproducing equipment whose characteristics, 
frequency response, and dynamic range are compatible with the response 
and accuracy requirements of paragraph (c) of this section.
    (4) Calibrators using sine wave, or pink noise, of known levels. 
When pink noise (defined in paragraph (e)(1) of this section) is used, 
the signal must be described in terms of its root-mean-square (rms) 
value.
    (5) Analysis equipment with the response and accuracy which meets or 
exceeds the requirements of paragraph (d) of this section.
    (6) Attenuators used for range changing in sensing, recording, 
reproducing, or analyzing aircraft sound must be capable of being 
operated in equal-interval decibel steps with no error between any two 
settings which exceeds 0.2 dB.
    (c) Sensing, recording, and reproducing equipment. (1) The sound 
produced by the aircraft must be recorded in such a way that the 
complete information, including time history, is retained. A magnetic 
tape recorder is acceptable.
    (2) The microphone must be a pressure sensitive capacitive type, or 
its approved equivalent, such as free field type with incidence 
corrector.
    (i) After an adequate ``warm-up'' period, at least as long as that 
specified by the equipment manufacturer, the system output for constant 
acoustical input shall change by not more than 0.3 dB within any one 
hour nor by more than 0.4 dB within 5 hours.
    (ii) The variation of microphone and preamplifier system sensitivity 
within an angle of 30 degrees of grazing (60-120 degrees 
from the normal to the diaphragm) must not exceed the following values:

------------------------------------------------------------------------
             Frequency (HZ)                 Change in sensitivity (dB)
------------------------------------------------------------------------
45 to 1,120............................  1.0
1,120 to 2,240.........................  1.5
2,240 to 4,500.........................  2.5
4,500 to 7,100.........................  4.0
7,100 to 11,200........................  5.0
------------------------------------------------------------------------

    With the wind screen in place, the variation in sensitivity in the 
plane of the diaphragm of the microphone system shall not exceed 1.0 dB 
over the frequency range 45 to 11,200 Hz.
    (iii) The free-field frequency response of the microphone system at 
the reference incidence direction shall lie within an envelope having 
the following values:

------------------------------------------------------------------------
             Frequency (HZ)                  Change in Tolerance (dB)
------------------------------------------------------------------------
45 to 4,500............................  1.0
4,500 to 5,600.........................  1.5
5,600 to 7,100.........................  +1.5 to -2.0
7,100 to 9,000.........................  +1.5 to -3.0
9,000 to 11,200........................  +2.0 to -4.0
------------------------------------------------------------------------

    Note: The requirements of this paragraph may be determined by a 
pressure response calibration (which may be obtained from an 
electrostatic calibrator in combination with manufacturer provided 
corrections) or an anechoic free-field facility.
    (iv) Specifications concerning sensitivity to environmental factors 
such as temperature, relative humidity, and vibration must in conformity 
with the recommendations of International Electrotechnical Commission 
(IEC) Publication No. 179, entitled ``Precision Sound Level Meters'' (as 
incorporated by reference under Sec. 36.6 of this part).
    (v) If the wind speed exceeds 6 knots, a windscreen must be employed 
with the microphone during each measurement of aircraft noise. 
Correction for any insertion loss produced by the windscreen as a 
function of frequency, must be applied to the measured data and any 
correction applied must be reported.
    (3) If a magnetic tape recorder is used to store data for subsequent 
analysis, the record/replay system (including tape) must conform to the 
following:
    (i) The electric background noise produced by the system in each 
one-third octave must be at least 35 dB below the standand recording 
level, which is defined as that level which is either 10 dB below the 3 
pecent harmonic distortion level for direct recording or 40 
percent deviation for frequency modulation (FM) recording.

[[Page 794]]

    (ii) At the standard recording level, the corrected frequency 
response in each selected one-third octave band between 44 Hz and 180 Hz 
must be flat within 0.75 dB, and in each band between 180 Hz 
and 11,200 Hz must be flat within 0.25 dB.
    (iii) If the overall system satisfies the requirements of paragraph 
(c)(2)(ii) of this section, and if the limitations of the dynamic range 
of the equipment are insufficient to obtain adequate spectral 
information, high frequency pre-emphasis may be added to the recording 
channel with the converse de-emphasis on playback. If pre-emphasis is 
added, the instantaneously recorded sound pressure level between 800 Hz 
and 11,200 Hz of the maximum measured noise signal must not vary more 
than 20 dB between the levels of the maximum and minimum one-third 
octave bands.
    (d) Analysis equipment. (1) A frequency analysis of the acoustic 
signal must be performed using one-third octave filters which conform to 
the recommendations of International Electrotechnical Commission (IEC) 
Publication No. 225, entitled ``Octave, Half-Octave, and Third-Octave 
Band Filters Intended for Analysis of Sounds and Vibrations'' (as 
incorporated by reference under Sec. 36.6 of this part).
    (2) A set of 24 consecutive one-third octave filters must be used. 
The first filter of the set must be centered at a geometric mean 
frequency of 50 Hz and the last filter at 10,000 Hz.
    (i) The output of each filter must contain less than 0.5 dB ripple.
    (ii) The correction for effective bandwidth relative to the response 
at the center frequency response for each one-third octave band filter 
must be determined by measuring the filter response to sinusoidal 
signals at a minimum of 20 frequencies equally spaced between the two 
adjacent preferred one-third octave frequencies or by using an approved 
equivalent procedure.
    (3) The analyzer indicating device may be either analog or digital, 
or a combination of both. The preferred sequence of signal processing 
is:
    (i) Squaring the one-third octave filter outputs;
    (ii) Averaging or intergrating; and
    (iii) Coverting linear formulation to logarithmic.
    (4) Each detector must operate over a minimum dynamic range of 60 dB 
and perform as a true-mean-square device for sinusoidal tone bursts 
having crest factors of at least 3 over the following dynamic range:
    (i) Up to 30 dB below full-scale reading must be accurate within 
plus-minus0.5 dB;
    (ii) Between 30 dB and 40 dB below full-scale reading must be 
accurate within plus-minus1.0 dB; and
    (iii) In excess of 40 dB below full-scale reading must be accurate 
within plus-minus2.5 dB.
    (5) The averaging properties of the integrator must be tested as 
follows:
    (i) White noise must be passed through the 200 Hz one-third octave 
band filter and the output fed in turn to each detector/integrator. The 
standard deviation of the measured levels must then be determined from a 
large number of samples of the filtered white noise taken at intervals 
of not less than 5 seconds. The value of the standard deviation must be 
within the interval 0.480.06 dB for a probability limit of 
95 percent. (An approved equivalent method may be substituted for this 
test on those analyzers where the test signal cannot readily be fed 
directly to each detector/integrator.)
    (ii) For each detector/integrator, the response to a sudden onset or 
interruption of a constant amplitude sinusoidal signal at the respective 
one-third octave band center, frequency must be measured at sampling 
times 0.5, 1.0, 1.5, and 2.0 seconds after the onset or interruption. 
The rising responses must be the following amounts before the steady-
state level:

                                               0.5 seconds..............
                  .................................4.01.0 dB
                                             1.0 seconds................
                    .............................1.750.75 dB
                                               1.5 seconds..............
                  .................................1.00.5 dB
                                               2.0 seconds..............
                  .................................0.60.5 dB

    (iii) The falling response must be such that the sum of the decibel 
readings (below the initial steady-state level) and the corresponding 
rising response reading are 6.51.0 dB, at each sampling 
time.
    (iv) Analyzers using true integration cannot meet the requirements 
of paragraphs (d)(5)(i), (ii), and (iii) of this section directly, 
because their overall average time is greater than the sampling 
interval. For these analyzers, compliance must be demonstrated in terms 
of the equivalent output of the data processor. Further, in cases where 
readout and resetting require a dead-time during acquisition, the 
percentage loss of the total data must not exceed one percent.
    (6) The sampling interval between successive readouts shall not 
exceed 500 milliseconds and its precise value must be known to within 
 one (1) percent. The instant in time by which a readout is 
characterized, shall be the midpoint of the average period. (The 
averaging period is defined as twice the effective time constant of the 
analyzer.)
    (7) The amplitude resolution of the analyzer must be at least 0.25 
dB.
    (8) After all systematic errors have been eliminated, each output 
level from the analyzer must be accurate within plus-minus1.0 
dB of the level of the input signal. The total systematic errors for 
each of the output levels must not exceed plus-minus3.0 dB. 
For contiguous filter systems, the systematic correction between 
adjacent one-third octave channels must not exceed 4.0 dB.
    (9) The dynamic range capability of the analyzer for display of a 
single aircraft noise

[[Page 795]]

event (in terms of the difference between full-scale output level and 
the maximum noise level of the analyzer equipment) must be at least 60 
dB.
    (e) Calibrations. (1) Within the five days before the beginning of 
each test series, the complete electronic system (as installed in the 
field, including cables) must be electronically calibrated for frequency 
and amplitude by the use of a pink noise signal of known amplitudes 
covering the range of signal levels furnished by the microphone. For 
purposes of this section, a ``pink noise'' means a noise whose noise-
power/unit-frequency is inversely proportional to frequency at 
frequencies within the range of 44 Hz to 11,200 Hz. The signal used must 
be described in terms of its average root-mean-square (rms) values for a 
nonoverload signal level. This system calibration must be repeated 
within five days of the end of each test series, or as required by the 
FAA.
    (2) Immediately before and after each day's testing, a recorded 
acoustic calibration of the system must be made in the field with an 
acoustic calibrator to check the system sensitivity and provide an 
acoustic reference level for the analysis of the sound level data. The 
performance of equipment in the system will be considered satisfactory 
if, during each day's testing, the variation does not exceed 0.5 dB.
    (3) A normal incidence pressure calibration of the combined 
microphone/preamplifier must be performed with pure tones at each 
preferred one-third octave frequency from 50 Hz to 10,000 Hz. This 
calibration must be completed within the 90 days before the beginning of 
each test series.
    (4) Each reel of magnetic tape must:
    (i) Be pistonphone calibrated; and
    (ii) At its beginning and end, carry a calibration signal consisting 
of at least a 15 second burst of pink noise, as defined in paragraph 
(e)(1) of this section.
    (5) Data obtained from tape recorded signals are not considered 
reliable if the difference between the pink noise signal levels, before 
and after the tests in each one-third octave band, exceeds 0.75 dB.
    (6) The one-third octave filters must have been demonstrated to be 
in conformity with the recommendations of IEC Publication 225 (as 
incorporated by reference under Sec. 36.6 of this part) during the six 
calendar months preceding the beginning of each test series. However, 
the correction for effective bandwidth relative to the center frequency 
response may be determined for each filter--
    (i) By measuring the filter response to sinusoidal signals at a 
minimum of twenty frequencies equally spaced between the two adjacent 
preferred one-third octave frequencies; or
    (ii) By using an approved alternative technique.
    (7) A performance calibration analysis of each piece of calibration 
equipment, including piston phones, reference microphones, and voltage 
insert devices, must have been made during the six calendar months 
preceding the beginning of each day's test series. Each calibration must 
be traceable to the National Bureau of Standards.
    (f) Noise measurement procedures. (1) Each microphone must be 
oriented so that the diaphragm is substantially in the plane defined by 
the flight path of the aircraft and the measuring station. The 
microphone located at each noise measuring station must be placed so 
that its sensing element is approximately 4 feet above ground.
    (2) Immediately before and immediately after each series of test 
runs and each day's testing, a recorded acoustic calibration of the 
system prescribed in section A36.3(e)(2) of this appendix must be made 
in the field to check the acoustic reference level for the analysis of 
the sound level data. Ambient noise must be recorded for at least 10 
seconds and be representative of the acoustical background, including 
systemic noise, that exists during the flyover test run. During that 
recorded period, each component of the system must be set at the gain-
levels used for aircraft noise measurement.
    (3) The mean background noise spectrum must contain the sound 
pressure levels, which, in each preferred third octave band in the range 
of 50 Hz to 10,000 Hz, are the averages of the energy of the sound 
pressure levels in every preferred third octave. When analyzed in PNL, 
the resulting mean background noise level must be at least 20 PNdB below 
the maximum PNL of the aircraft.
    (4) Corrections for recorded levels of background noise are allowed, 
within the limits prescribed in Sec. A36.5(d)(3) of this appendix.

Section A36.5 Reporting and correcting measured data.

    (a) General. Data representing physical measurements, or corrections 
to measured data, including corrections to measurements for equipment 
response deviations, must be recorded in permanent form and appended to 
the record. Each correction must be reported and is subject to FAA 
approval. An estimate must be made of each individual error inherent in 
each of the operations employed in obtaining the final data.
    (b) Data reporting. (1) Measured and corrected sound pressure levels 
must be presented in one-third octave band levels obtained with 
equipment conforming to the standards prescribed in section A36.3 of 
this appendix.
    (2) The type of equipment used for measurement and analysis of all 
acoustics, aircraft performance, and meteorological data must be 
reported.
    (3) The atmospheric environmental data required to demonstrate 
compliance with

[[Page 796]]

section A36.1(c) of this appendix, measured throughout the test period 
under section A36.9(b)(3) of this appendix, must be reported.
    (4) Conditions of local topography, ground cover, or events which 
may interfere with sound recording must be reported.
    (5) The following aircraft information must be reported:
    (i) Type, model, and serial numbers (if any) of aircraft engines.
    (ii) Gross dimensions of aircraft and location of engines.
    (iii) Aircraft gross weight for each test run.
    (iv) Aircraft configuration, including flap and landing gear 
positions.
    (v) Airspeed in knots.
    (vi) Engine performance parameters relevant to noise generation, 
such as net thrust, engine pressure ratio, exhaust temperatures, and fan 
or compressor rotational speeds.
    (vii) Aircraft flight path (above ground level in feet) determined 
by an FAA approved method which is independent of normal flight 
instrumentation, such as radar tracking, theodolite triangulation, laser 
trajectography, or photographic scaling techniques.
    (6) Aircraft speed and position, and engine performance parameters 
must be recorded at an approved sampling rate sufficient to correct to 
the noise certification reference conditions prescribed in paragraph (c) 
of this section. Lateral position relative to the extended centerline of 
the runway, configuration, and gross weight must be reported.
    (c) Noise certification reference conditions. (1) Meteorological 
conditions. Aircraft position and performance data and the noise 
measurements must be corrected to the following homogeneous noise 
certification reference atmospheric conditions:
    (i) Sea level pressure of 2116 psf (76 cm mercury).
    (ii) Ambient temperature of 77 degrees F (25 degrees C).
    (iii) Relative humidity of 70 percent.
    (iv) Zero wind.
    (2) Aircraft conditions. The reference condition for takeoff is the 
maximum weight, except as provided in Sec. 36.1581(b) of this part. The 
reference conditions for approach tests consist of--
    (i) Maximum landing weight, except as provided in Sec. 36.1581(d) of 
this part;
    (ii) Approach angle of 3 degrees; and
    (iii) Aircraft height of 394 feet above the ground at the noise 
measuring station.
    (d) Data corrections. (1) Aircraft position and performance data and 
the noise measurement must be corrected to the noise certification 
reference conditions as prescribed in paragraph (c) of this section. The 
measured atmospheric conditions must be those obtained in accordance 
with section A36.1(c) of this appendix and paragraph (b)(3) of this 
section. Atmospheric attenuation sound corrections must be made under 
section A36.9 of this appendix.
    (2) The measured flight path must be corrected by an amount equal to 
the difference between the applicants predicted flight path for the 
certification reference conditions and the measured flight path at the 
test conditions. Necessary corrections relating to aircraft flight path 
or performance may be derived from approved data other than 
certification test data. The source noise must be corrected from 
approved data for the difference between measured and reference engine 
conditions, together with appropriate allowances for sound attenuation 
with distance. The Effective Perceived Noise Level (EPNL) correction 
must be less than 2.0 EPNdB for any combination of the following:
    (i) The aircraft's not passing vertically above the measuring 
station.
    (ii) Any difference between 394 feet and the actual minimum distance 
of the aircraft's ILS antenna from the approach measuring station.
    (iii) Any difference between the actual approach angle and the noise 
certification reference approach flight path.
    (iv) Any correction of the measured noise levels which accounts for 
any difference between the test engine thrust or power and the reference 
engine thrust or power.
    Detailed correction requirements are prescribed in section A36.11 of 
this appendix.
    (3) Aircraft sound pressure levels within the 10 dB-down points 
(described in section B36.9 of appendix B) must exceed the mean 
background sound pressure levels determined under section A36.3(f)(3) by 
at least 3 dB in each one-third octave band (or be corrected under an 
FAA approved method) to be included in the computation of the overall 
noise level of the aircraft. An EPNL may not be computed or reported 
from data from which more than four one-third octave bands in any 
spectrum within the 10 dB-down points have been excluded under this 
paragraph.
    (4) Where more than seven one-third octaves are within 3 dB of the 
ambient noise levels, a time/frequency interpolation of the noise data 
shall be performed using an approved procedure.
    (5) If equivalent test procedures, different from the reference 
procedures, are used, the test procedures and all methods for adjusting 
the results to the reference procedures must be approved by the FAA. The 
amounts of adjustments must not exceed 16 EPNdB on takeoff and 8 EPNdB 
on approach, and if the adjustments are more than 8 EPNdB and 4 EPNdB 
respectively, the resulting numbers must not be within 2 EPNdB of the 
appropriate appendix C noise levels including tradeoffs.

[[Page 797]]

    (e) Validity of results. (1) The test results must produce three 
mean EPNL values within the 90 percent confidence limits, each value 
consisting of the arithmetic mean of the corrected noise measurements 
for all valid test runs at the takeoff, approach, and sideline measuring 
stations, respectively. If more than one noise measurement system is 
used at any single measuring station, the resulting data for each test 
run (after correction) must be averaged as a single measurement. If more 
than one test site or noise measuring station location is used, each 
valid test run must be included in the computation of the mean EPNL 
values and their confidence limits.
    (2) The minimum sample size acceptable for each of the three 
certification measurements (takeoff, approaches, and sideline) is six. 
The number of samples must be large enough to establish statistically 
for each of the three mean noise certification levels a 90 percent 
confidence limit which does not exceed plus-minus1.5 EPNdB. 
No test result may be omitted from the averaging process, unless 
otherwise specified by the FAA.
    (3) The mean EPNL values and their 90 percent confidence limits 
obtained by the procedure described in this paragraph must be those by 
which the noise emission of the aircraft is assessed against the noise 
certification criteria, and must be reported.
    (4) If equivalent procedures are to be used to certificate several 
airplane configurations of the same type from noise tests of a single 
airplane, the test procedures and analysis methods must be approved by 
the FAA. The request for approval must identify the noise measurement 
test procedures and data base, the airplane configurations, procedures 
and analysis methods, the method for establishing the 90 percent 
confidence limit for each noise certification level, and the proposed 
equivalent procedures.

Section A36.7  Symbols and units.

    (a) General. The symbols used in appendixes A and B of this part 
have the following meanings.

------------------------------------------------------------------------
        Symbol                   Unit                    Meaning
------------------------------------------------------------------------
ant...................  ......................  Antilogarithm to the
                                                 Base 10.
C(k)..................  dB....................  Tone Correction. The
                                                 factor to be added to
                                                 PLN(k) to account for
                                                 the presence of
                                                 spectral irregularities
                                                 such as tones at the k-
                                                 th increment of time.
d.....................  Sec...................  Duration Time. The
                                                 length of the
                                                 significant noise time
                                                 history being the time
                                                 interval between the
                                                 limits of t(1) and t(2)
                                                 to the nearest second.
D.....................  dB....................  Duration Correction. The
                                                 factor to be added to
                                                 PNLM to account for the
                                                 duration of the noise.
EPNL..................  EPNdB.................  Effective Perceived
                                                 Noise Level. The value
                                                 of PNL adjusted for
                                                 both the presence or
                                                 discrete frequencies
                                                 and the time history.
                                                 (The unit EPNdB is used
                                                 instead of the unit
                                                 dB.)
f(i) or fi............  Hz....................  Frequency. The
                                                 geometrical mean
                                                 frequency for the i-th
                                                 one-third octave band.
F(i,k)................  dB....................  Delta-dB. The difference
                                                 between the original
                                                 and background sound
                                                 pressure levels in the
                                                 i-th one-third octave
                                                 band at the k-th
                                                 interval of time.
h.....................  dB....................  dB-Down. The level to be
                                                 subtracted from PNLTM
                                                 that defines the
                                                 duration of the noise.
H.....................  %.....................  Relative Humidity. The
                                                 ambient atmospheric
                                                 relative humidity.
(i) or i..............  ......................  Frequency Band Index.
                                                 The numerical indicator
                                                 that denotes any one of
                                                 the 24 one-third octave
                                                 bands with geometrical
                                                 mean frequencies from
                                                 50 to 10,000 Hz.
(k)...................  ......................  Time Increment Index.
                                                 The numerical indicator
                                                 that denotes the number
                                                 of equal time
                                                 increments that have
                                                 elapsed from a
                                                 reference zero.
log...................  ......................  Logarithm to the Base
                                                 10.
log n (a).............  ......................  Noy discontinuity
                                                 Coordinate. The log n
                                                 value of the
                                                 intersection point of
                                                 the straight lines
                                                 representing the
                                                 variation of SPL with
                                                 log n.
M(b), M(c)............  ......................  Noy Inverse Slope. The
                                                 reciprocals of the
                                                 slopes of the straight
                                                 lines representing the
                                                 variation of SPL with
                                                 log n.
n.....................  noy...................  Perceived Noisiness. The
                                                 perceived noisiness at
                                                 any instant of time
                                                 that occurs in a
                                                 specified frequency
                                                 range.
n(i, k)...............  noy...................  Perceived Noisiness. The
                                                 perceived noisiness at
                                                 the k-th instant of
                                                 time that occurs in the
                                                 i-th one-third octave
                                                 band.
n(k)..................  noy...................  Maximum Perceived
                                                 Noisiness. The maximum
                                                 value of all of the 24
                                                 values of n(i) that
                                                 occurs at the k-th
                                                 instant of time.
N(k)..................  noy...................  Total Perceived
                                                 Noisiness. The total
                                                 perceived noisiness at
                                                 the k-th instant of
                                                 time calculated from
                                                 the 24-instantaneous
                                                 values of n(i, k).
p(b), p(c)............  ......................  Noy Slope. The slopes of
                                                 the straight lines
                                                 representing the
                                                 variation of SPL with
                                                 log n.

[[Page 798]]

 
PNL...................  PNdB..................  Perceived Noise Level.
                                                 The perceived noise
                                                 level at any instant of
                                                 time (the unit PNdB is
                                                 used instead of the
                                                 unit dB).
PNL(k)................  PNdB..................  Perceived Noise Level.
                                                 The perceived noise
                                                 level calculated from
                                                 the 24 values of SPL
                                                 (i, k) at the k-th
                                                 increment of time. (The
                                                 unit PNdB is used
                                                 instead of the unit
                                                 dB.)
PNLM..................  PNdB..................  Maximum Perceived Noise
                                                 Level. The maximum
                                                 value of PNL(k) that
                                                 occurs during the
                                                 aircraft flyover. (The
                                                 unit PNdB is used
                                                 instead of the unit
                                                 dB.)
PNLT..................  PNdB..................  Tone Corrected Perceived
                                                 Noise Level. The value
                                                 of PNL adjusted for the
                                                 presence of spectral
                                                 irregularities
                                                 (discrete frequencies)
                                                 at any instant of time.
                                                 (The unit PNdB is used
                                                 instead of the unit
                                                 dB.)
PNLT(k)...............  PNdB..................  Tone Corrected Perceived
                                                 Noise Level. The value
                                                 of PNL(k) adjusted for
                                                 the presence of
                                                 discrete frequencies
                                                 that occurs at the k-th
                                                 increment of time. (The
                                                 unit PNdB is used
                                                 instead of the unit
                                                 dB.)
PNLTM.................  PNdB..................  Maximum tone Corrected
                                                 Perceived Noise Level.
                                                 The maximum value of
                                                 PNLT(k) that occurs
                                                 during the aircraft
                                                 flyover. (The unit PNdB
                                                 is used instead of the
                                                 unit dB.)
s(i, k)...............  dB....................  Slope of Sound Pressure
                                                 Level. The change in
                                                 level between adjacent
                                                 one-third octave band
                                                 sound pressure levels
                                                 at the i-th band for
                                                 the k-th instant of
                                                 time.
 s(i, k).....  dB....................  Change in Slope of Sound
                                                 Pressure Level.
s'(i, k)..............  dB....................  Adjusted Slope of Sound
                                                 Pressure Level. The
                                                 change in level between
                                                 adjacent adjusted one-
                                                 third octave band sound
                                                 pressure levels at the
                                                 i-th band for the k-th
                                                 instant of time.
s(i, k)...............  dB....................  Average Slope of Sound
                                                 Pressure Level.
SPL...................  dB re 0.0002 microbar.  Sound Pressure Level.
                                                 The sound pressure
                                                 level at any instant of
                                                 time that occurs in a
                                                 specified frequency
                                                 range.
SPL(a)................  dB re 0.002 microbar..  Noy Discontinuity
                                                 Coordinate. The SPL
                                                 value of the
                                                 intersection point of
                                                 the straight lines
                                                 representing the
                                                 variation of SPL with
                                                 log n.
SPL(b)................  dB re 0.002 microbar..  Noy Intercept. The
SPL(c)................                           intercepts on the SPL-
                                                 axis of the straight
                                                 lines representing the
                                                 variation of SPL with
                                                 log n.
SPL(l, k).............  dB re 0.002 microbar..  Sound Pressure Level.
                                                 The sound pressure
                                                 level at the k-th
                                                 instant of time that
                                                 occurs in the i-th one-
                                                 third octave band.
SPL'(l, k)............  dB re 0.002 microbar..  Adjusted Sound Pressure
                                                 Level. The first
                                                 approximation to
                                                 background level in the
                                                 i-th one-third octave
                                                 band for the k-th
                                                 instant of time.
SPL"(l, k)............  dB re 0.002 microbar..  Background Sound
                                                 Pressure Level. The
                                                 final approximation to
                                                 background level in the
                                                 i-th one-third octave
                                                 band for the k-th
                                                 instant of time.
SPLi..................  dB re 0.002 microbar..  Maximum Sound Pressure
                                                 Level. The sound
                                                 pressure level that
                                                 occurs in the i-th one-
                                                 third octave band of
                                                 the spectrum for PNL-
                                                 TM.
SPLic.................  dB re 0.002 microbar..  Corrected Maximum Sound
                                                 Pressure Level. The
                                                 sound pressure level
                                                 that occurs in the i-th
                                                 one-third octave band
                                                 of the spectrum for
                                                 PNLTM corrected for
                                                 atmospheric sound
                                                 absorption.
t.....................  Sec...................  Elapsed Time. The length
                                                 of time measured from a
                                                 reference zero.
t(1), t(2)............  Sec...................  Time Limit. The
                                                 beginning and end of
                                                 the significant noise
                                                 time history defined by
                                                 h.
 t...........  Sec...................  Time Increment. The
                                                 equal increments of
                                                 time for which PNL(k)
                                                 and PNLT (k) are
                                                 calculated.
T.....................  Sec...................  Normalizing Time
                                                 Constant. The length of
                                                 time used as a
                                                 reference in the
                                                 integration method for
                                                 computing duration
                                                 corrections.
T.....................   deg.F................  Temperature. The ambient
                                                 atmospheric temperature
 i...........  dB/ft.................  Test Atmospheric
 i'..........  dB/1000 ft............   Absorption. The
                                                 atmospheric attenuation
                                                 of sound that occurs in
                                                 the i-th one-third
                                                 octave band for the
                                                 measured atmospheric
                                                 temperature and
                                                 relative humidity.
 io..........  dB/ft.................  Reference Atmospheric
 io'.........  dB/1000 ft............   Absorption. The
                                                 atmospheric attenuation
                                                 of sound that occurs in
                                                 the i-th one-third
                                                 octave band for the
                                                 reference atmospheric
                                                 temperature and
                                                 relative humidity.
.............  Degrees...............  First Constant Climb
                                                 Angle.
............  Degrees...............  Second Constant Climb
                                                 Angle.
.............  Degrees...............  Thrust Cutback Angles.
............  Degrees...............  Approach Angle.

[[Page 799]]

 
.............  Degrees...............  Approach Noise Angle.
                                                 The angle between the
                                                 flight path and the
                                                 noise path for approach
                                                 operation. It is
                                                 identical for both
                                                 measured and corrected
                                                 flight paths.
 l...........  EPNdB.................  PNLT Correction. The
                                                 correction to be added
                                                 to the EPNL calculated
                                                 from measured data to
                                                 account for noise level
                                                 changes due to
                                                 differences in
                                                 atmospheric absorption
                                                 and noise path length
                                                 between reference and
                                                 test conditions.
2............  EPNdB.................  Noise Path Duration
                                                 Correction. The
                                                 correction to be added
                                                 to the EPNL calculated
                                                 from measured data to
                                                 account for noise level
                                                 changes due to the
                                                 noise duration because
                                                 of differences in
                                                 flyover altitude
                                                 between reference and
                                                 test condition.
3............  EPNdB.................  Weight Correction. The
                                                 correction to be added
                                                 to the EPNL calculated
                                                 from measured data to
                                                 account for noise level
                                                 changes due to
                                                 differences between
                                                 maximum and test
                                                 aircraft weights.
4............  EPNdB.................  Approach Angle
                                                 Correction. The
                                                 correction to be added
                                                 to the EPNL calculated
                                                 from measured data to
                                                 account for noise level
                                                 changes due to
                                                 differences between 3
                                                 deg. and the test
                                                 approach angle.
 AB..........  Feet..................  (\1\)
....  Degrees...............  (\1\)
                        Degrees...............  (\1\)
....
....  Degrees...............  (\1\)
....  Degrees...............  (\1\)
....  Degrees...............  (\1\)
------------------------------------------------------------------------
\1\ Takeoff Profile Changes. The changes in the basic parameters
  defining the takeoff profile due to differences between reference and
  test conditions.


                 Flight Profile Identification Positions
------------------------------------------------------------------------
             Position                            Description
------------------------------------------------------------------------
A.................................  Start of takeoff roll.
B.................................  Liftoff.
C.................................  Start of first constant climb.
D.................................  Start of thrust reduction.
E.................................  Start of second constant climb.
Ec................................  Start of second constant climb on
                                     corrected flight path.
F.................................  End of noise certification takeoff
                                     flight path.
Fc................................  End of second constant climb on
                                     corrected flight path.
G.................................  Start of noise certification
                                     approach flight path.
Gr................................  Start of noise certification
                                     approach on reference flight path.
H.................................  Position on approach path directly
                                     above noise measuring station.
I.................................  Start of level off.
Ir................................  Start of level off on reference
                                     approach flight path.
J.................................  Touchdown.
K.................................  Takeoff noise measuring station.
L.................................  Sideline noise measuring station
                                     (not on flight track).
M.................................  End of noise type certification
                                     takeoff flight track.
N.................................  Approach noise measuring station.
O.................................  Threshold of approach end of runway.
P.................................  Start of noise type certification
                                     approach flight track.
Q.................................  Position on measured takeoff flight
                                     path corresponding to PNLTM at
                                     station K.
Qc................................  Position on corrected takeoff flight
                                     path corresponding to PNLTM at
                                     station K.
R.................................  Position on measured takeoff flight
                                     path nearest to station K.
Rc................................  Position on corrected takeoff flight
                                     path nearest to station K.
S.................................  Position on measured approach flight
                                     path corresponding to PNLTM at
                                     station N.
Sr................................  Position on reference approach
                                     flight path corresponding to PNLTM
                                     at station N.
T.................................  Position on measured approach flight
                                     path nearest to station N.
Tr................................  Position on reference approach
                                     flight path nearest to station N.
X.................................  Position on measured takeoff flight
                                     path corresponding to PNLTM at
                                     station L.
Xc................................  Position on corrected takeoff flight
                                     path corresponding to PNLTM at
                                     station L.
------------------------------------------------------------------------


                        Flight Profile Distances
------------------------------------------------------------------------
        Distance                 Unit                   Meaning
------------------------------------------------------------------------
AB.....................  feet................  Length of Takeoff Roll.
                                                The distance along the
                                                runway between the start
                                                of takeoff roll and lift
                                                off.
AK.....................  feet................  Takeoff Measurement
                                                Distance. The distance
                                                from the start of roll
                                                to the takeoff noise
                                                measurement station
                                                along the extended
                                                centerline of the
                                                runway.
AM.....................  feet................  Takeoff Flight Track
                                                Distance. The distance
                                                from the start of roll
                                                to the takeoff flight
                                                track position along the
                                                extended centerline of
                                                the runway for which the
                                                position of the aircraft
                                                need no longer be
                                                recorded.
KQ.....................  feet................  Measured Takeoff Noise
                                                Path. The distance from
                                                station K to the
                                                measured aircraft
                                                position Q.
KQc....................  feet................  Corrected Takeoff Noise
                                                Path. The distance from
                                                station K to the
                                                corrected aircraft
                                                position Qc.

[[Page 800]]

 
KR.....................  feet................  Measured Takeoff Minimum
                                                Distance. The distance
                                                from station K to point
                                                R on the measured flight
                                                path.
KRc....................  feet................  Corrected Takeoff Minimum
                                                Distance. The distance
                                                from station K to point
                                                Rc on the corrected
                                                flight path.
LX.....................  feet................  Measured Sideline Noise
                                                Path. The distance from
                                                station L to the
                                                measured aircraft
                                                position X.
LXc....................  feet................  Corrected Sideline Noise
                                                Path. The distance from
                                                station L to the
                                                corrected aircraft
                                                position Xc.
NH.....................  feet................  Aircraft Approach Height.
                                                The vertical distance
                                                between the aircraft and
                                                the approach measuring
                                                station.
NS.....................  feet................  Measured Approach Noise
                                                Path. The distance from
                                                station N to the
                                                measured aircraft
                                                position S.
NSr....................  feet................  Reference Approach Noise
                                                Path. The distance from
                                                station N to the
                                                reference aircraft
                                                position Sr.
NT.....................  feet................  Measured Approach Minimum
                                                Distance. The distance
                                                from station N to point
                                                T on the measured flight
                                                path.
NTr....................  feet................  Reference Approach
                                                Minimum Distance. The
                                                distance from station N
                                                to point Tr on the
                                                corrected flight path;
                                                it equals 393 feet.
ON.....................  feet................  Approach Measurement
                                                Distance. The distance
                                                from the runway
                                                threshold to the
                                                approach measurement
                                                station along the
                                                extended centerline of
                                                the runway.
OP.....................  feet................  Approach Flight Track
                                                Distance. The distance
                                                from the runway
                                                threshold to the
                                                approach flight track
                                                position along the
                                                extended centerline of
                                                the runway for which the
                                                position of the aircraft
                                                need no longer be
                                                recorded.
------------------------------------------------------------------------

Section A36.9  Atmospheric attenuation of sound.
    (a) General. The measured values of the one-third octave band 
spectra must conform, or be corrected, to the reference-day conditions 
listed in section A36.5(c) of this appendix. Each correction must 
account for any differences in the atmospheric attenuation of sound 
between the test-day conditions and the reference-day conditions along 
the sound propagation path between the aircraft and the microphone. 
Unless the meteorological conditions conform to those prescribed in 
section A36.1(c) of this appendix, the test data are not acceptable.
    (b) Meteorological measurements. (1) The wind velocity, temperature 
and relative humidity measurements required under this part must be 
measured in the vicinity of the noise measuring stations. The location 
of the meteorological measurements must be approved by the FAA as 
representative of those atmospheric conditions existing near the surface 
over the geographical area in which aircraft noise measurements are 
made. In some cases, a fixed meteorological station (such as those found 
at airports or other facilities) may meet this requirement.
    (2) The temperature and relative humidity must be measured from a 
point 10 meters above the surface at the measuring stations to the 
altitude of the aircraft, using previously approved equipment and 
methods.
    (3) Meteorological measurements must be obtained within 25 minutes 
of each noise test measurement. Meteorological data must be interpolated 
to actual times of each noise measurement.
    (c) Attenuation rates. The atmospheric attenuation rates of sound 
with distance for each one-third octave band from 50Hz to 10,000 Hz must 
be determined in accordance with the formulations and tabulations of SAE 
ARP 866A, entitled ``Standard Values of Atmospheric Absorption as a 
Function of Temperatures and Humidity for Use in Evaluating Aircraft 
Flyover Noise'' (as incorporated by reference under Sec. 36.6 of this 
part).
    (d) Correction for atmospheric attenuation. (1) EPNL values 
calculated for measured data must be corrected by the methods prescribed 
in section A36.11(d) of this appendix whenever--
    (i) The ambient atmospheric conditions of temperature and relative 
humidity do not conform to the reference conditions (77 degrees F. and 
70 percent, respectively), or
    (ii) The measured takeoff and approach flight paths do not conform 
to the reference flight paths.
    (2) If the atmospheric absorption coefficients do not vary over the 
PNLTM sound propagation path by more than  1.6 dB/1000 ft 
( 0.5 dB/100 meters) in the 3150 Hz one-third octave band 
from the value of the absorption coefficient derived from the 
meteorological measurement obtained at 10 meters above the surface, the 
mean of the values of the atmospheric absorption coefficients at 10 
meters above the surface and at the altitude of the aircraft at PNLTM 
may be used to determine the atmospheric attenuation rates for each one-
third octave band. The resulting atmospheric attenuation rate may be 
used to compute the PNLTM correction under section A36.11(d) of this 
appendix.
    (3) If the conditions do not conform to those prescribed in 
paragraph (d)(2) of this section, the corrections for atmospheric 
attenuation must be determined by the following layered-atmosphere 
procedure:
    (i) The sound propagation path must be divided into increments no 
greater than 100

[[Page 801]]

feet in altitude, and the average temperature and relative humidity that 
exists within each increment at the time of the test must be calculated 
from the meteorological data required under paragraph (b) of this 
section.
    (ii) Atmospheric attenuation rates must be determined under 
paragraph (c) of this section for each one-third octave band in each 
altitude increment.
    (iii) The mean attenuation rate over the complete sound propagation 
path from the aircraft to the microphone must be computed for each one-
third octave band from 50 Hz to 10,000 Hz. These rates must be used in 
computing the corrections required in section A36.11(d) of this 
appendix.

Section A36.11  Detailed correction procedures.

    (a) General. If the test conditions do not conform to those 
prescribed as noise certification reference conditions under section 
A36.5 of this appendix, the following correction procedure and 
requirements apply:
    (1) If a positive value results from any difference between 
reference and test conditions, and appropriate positive correction must 
be made to the EPNL calculated from the measured data. Conditions which 
can result in a positive value include:
    (i) Atmospheric absorption of sound under test conditions which is 
greater than the reference;
    (ii) Test flight path at an altitude which is higher than the 
reference; or
    (iii) Test weight which is less than maximum certification weight.
    (2) If a negative value results from any difference between 
reference and test conditions, no correction may be made to the EPNL 
calculated from the measured data, unless the difference results from:
    (i) An atmospheric absorption of sound under test conditions which 
is less than the reference; or
    (ii) A test flight path at an altitude which is lower than the 
reference.
    (3) The following correction procedures may produce one or more 
possible correction values which must be added algebraically to the EPNL 
calculated as if the tests were conducted completely under the noise 
certification reference conditions:
    (i) The flight profiles must be determined for both takeoff and 
approach, and for both reference and test conditions. The procedures 
require noise and flight path recording with a synchronized time signal 
from which the test profile can be delineated, including the aircraft 
position for which PNLTM is observed at the noise measuring station. For 
takeoff, the flight profile corrected to reference conditions may be 
derived from FAA approved manufacturer's data; however, for approach, 
the reference profile is prescribed under paragraph (c)(2) of this 
section.
    (ii) The sound propagation paths to the microphone from the aircraft 
position corresponding to PNLTM are determined for both the test and 
reference profiles. The SPL values in the spectrum of PNLTM must then be 
corrected for the effects of--
    (A) Change in atmospheric sound absorption;
    (B) Atmospheric sound absorption on the change in sound propagation 
path length; and
    (C) Inverse square law on the change in sound propagation path 
length. The corrected values of SPL are then converted to PNLT from 
which must be subtracted PNLTM. The resulting difference represents the 
correction which must be added algebraically to the EPNL calculated from 
the measured data.
    (iii) The minimum distances from both the test and reference 
profiles to the noise measuring station must be calculated and used to 
determine a noise duration correction due to any change in the altitude 
of aircraft flyover. The duration correction must be added algebraically 
to the EPNL calculated from the measured data.
    (iv) From approved data in the form of curves or tables giving the 
variation of EPNL with engine thrust or test speed, corrections are 
determined and must be added to the EPNL (which is calculated from the 
measured data) to account for noise level changes due to differences 
between test conditions and reference conditions.
    (v) From approved data corrections are determined and must be added 
algebraically to the EPNL (which is calculated from measured data) to 
account for noise level changes due to differences between 3 degrees and 
the test approach angle.
    (b) Takeoff profiles. (1) Figure A1 illustrates a typical takeoff 
profile.
    (i) The aircraft begins the takeoff roll at point A, lifts off at 
point B, and initiates the first constant climb at point C at an angle 
. The noise abatement thrust cutback is started at point D and 
completed at point E where the second constant climb is defined by the 
angle  (usually expressed in terms of the gradient in percent). 
The end of the noise certification takeoff flight path is represented by 
aircraft position F whose vertical projection on the flight track 
(extended centerline of the runway) is point M. The position of the 
aircraft must be recorded for the entire interval during which the 
measured aircraft noise level is within 10 dB of PNLTM. Position K is 
the takeoff noise measuring station whose distance AK is specified as 
21,325 feet (6,500 meters). However, if it is necessary to reduce AK to 
less than 21,325 feet, the procedures prescribed in paragraph (f) of 
this section must be followed. Position L is the sideline noise 
measuring station located on a line parallel to, and the prescribed 
distance from, the runway centerline where the noise level during 
takeoff is greatest.

[[Page 802]]

    (ii) The takeoff profile is defined by five parameters--(A) AB, the 
length of takeoff roll; (B)  the first constant climb angle; 
(C) , the second constant climb angle; and (D) , and 
e, the thrust cutback angles. These five parameters are functions of the 
aircraft performance and weight, and the atmospheric conditions of 
temperature, pressure, and wind velocity and direction.
    (2) If the test conditions do not conform to those prescribed as 
reference conditions under section A36.5 of this appendix, the 
corresponding test and reference profile parameters will be different, 
as shown in Figure A2. The profile parameter changes, identifies as 
 AB, , , 
, and  may be derived from the 
manufacturer's data (if approved by the FAA) and may be used to define 
the fight profile corrected to the reference conditions. The 
relationships between the measured and corrected takeoff flight profiles 
may then be used to determine the corrections, which, if positive, must 
be applied to the EPNL calculated from the measured data.
[GRAPHIC] [TIFF OMITTED] TC28SE91.097


[[Page 803]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.098

    Note: Under reference atmospheric conditions and with maximum 
takeoff weight, the gradient of the second constant climb angle 
() may not be less than 4 percent. However, the actual gradient 
will depend upon the test atmospheric conditions, assuming maximum 
takeoff weight and the parameters characterizing engine performance are 
constant (rpm, epr, or any other parameter used by the pilot).
    (3) Figure A3 illustrates portions of the measured and corrected 
takeoff flight paths including the significant geometrical relationships 
influencing sound propagation. EF represents the measured second 
constant flight path with climb angle , and EcFc represents the 
corrected second constant flight path at reduced climb angle 
-. Position Q represents the aircraft location on the 
measured takeoff flight path for which PNLTM is observed at the noise 
measuring station K, and Qc is the corresponding position on the 
corrected flight path. The measured and corrected sound propagation 
paths are KQ and KQc, respectively, which form the same angle  
with their flight paths. Position R represents the point on the measured 
takeoff flight path nearest the noise measuring station K, and Rc is the 
corresponding position on the corrected flight path. The minimum 
distance to the measured and corrected flight paths are indicated by the 
lines KR and KRc, respectively, which are normal to their flight paths.

[[Page 804]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.099

[GRAPHIC] [TIFF OMITTED] TC28SE91.100

    (c) Approach profiles. (1) Figure A4 illustrates a typical approach 
profile.
    (i) The beginning of the noise certification approach profile is 
represented by aircraft position G whose vertical projection on the

[[Page 805]]

flight track (extended centerline of the runway) is point P. The 
position of the aircraft should be recorded for a distance OP from the 
runway threshold O to ensure recording of the entire interval during 
which the measured aircraft noise is within 10 dB of PNLTM.
    (ii) The aircraft approaches at an angle passes vertically over the 
noise measuring station N at a height of NH, begins the level off at 
position I, and touches down at position J. The distance ON is 
prescribed as 6,562 feet (2,000 meters).
    (iii) The approach profile is defined by the approach angle    and 
the height NH which are functions of the aircraft operating conditions 
controlled by the pilot. If the measured approach profile parameters do 
not conform to the corresponding reference approach parameters (3 
degrees and 394 feet, respectively, as shown in Figure A5), corrections, 
if positive, must be applied to the EPNL calculated from the measured 
data.
[GRAPHIC] [TIFF OMITTED] TC28SE91.101

[GRAPHIC] [TIFF OMITTED] TC28SE91.102

    (2) Figure A6 illustrates portions of the measured and reference 
approach flight paths, including the significant geometrical 
relationships influencing sound propagation.

[[Page 806]]

GI represents the measured approach path with approach angle --, and 
GrIr represents the reference approach flight path at lower altitude and 
approach angle of 3 degrees. Position S represents the aircraft location 
on the measured approach flight path for which PNLTM is observed at the 
noise measuring station N, and Sr is the corresponding position on the 
reference approach flight path. The measured and corrected sound 
propagation paths are NS and NSr, respectively, which form the same 
angle  with their flight paths. Position T represents the point 
on the measured approach flight path nearest the noise measuring station 
N, and Tr is the corresponding point on the reference approach flight 
path. The minimum distances to the measured and reference flight paths 
are indicated by the lines NT and NTr, respectively, which are normal to 
their flight paths. NOTE: The reference approach flight path is defined 
by --=3 degrees and NH=394 feet. Consequently NTr can also be defined; 
NTr=393 feet to the nearest foot and is, therefore, considered to be one 
of the reference parameters.
    (d) PNLT corrections. If the ambient atmospheric conditions of 
temperature and relative humidity are not those prescribed as reference 
conditions under Sec. A36.5(c) of this appendix (77 degrees F and 70 
percent, respectively), corrections to the EPNL values must be 
calculated from the measured data under paragraph (a) of this section as 
follows:
    (1) Takeoff flight path. For the takeoff flight path shown in Figure 
A3, the spectrum of PNLTM observed at station K for the aircraft at 
position Q is decomposed into its individual SPLi values.
    (i) Step 1. A set of corrected values are then computed as follows:

SPLic=SPLi
  
  
+(i-io) KQ
+io (KQ-KQc)
+20 log (KQ/KQc)

where SPLi and SPLic are the measured and corrected sound pressure 
levels, respectively, in the i-th one-third octave band. The first 
correction term accounts for the effects of change in atmospheric sound 
absorption where i and io are the sound absorption 
coefficients for the test (determined under section A36.9(d)) and 
reference atmospheric conditions, respectively, for the i-th one-third 
octave band and KQ is the measured takeoff sound propagation path. The 
second correction term accounts for the effects of atmospheric sound 
absorption on the change in the sound propagation path length where KQc 
is the corrected takeoff sound propagation path. The third correction 
term accounts for the effects of the inverse square law on the change in 
the sound propagation path length.
    (ii) Step 2. The corrected values of SPLic are then converted to 
PNLT and a correction term calculated as follows:

1=PNLT-PNLTM

which represents the correction to be added algebraically to the EPNL 
calculated from the measured data.
    (2) Approach flight path.
    (i) The procedure prescribed in paragraph (d)(1) of this section for 
takeoff flight paths is also used for the approach flight path, except 
that the value for SPLic relate to the approach sound propagation paths 
shown in Figure A6 as follows:

SPLic=SPLi
  
  
+( i- io) NS
+ io (NS-NSr)
+20 log (NS/NSr)

where NS and NSr are the measured and reference approach sound 
propagation paths, respectively.
    (ii) The remainder of the procedure is the same as that prescribed 
in paragraph (d)(1)(ii) of this section, regarding takeoff flight path.
    (3) Sideline flight path. The procedure prescribed in paragraph 
(d)(1) of this section for takeoff flight paths is also used for the 
sideline flight path, except that the values of SPLic relate only to the 
measured sideline sound propagation path as follows:

SPLic=SPLi
  
  
+( i- io) LX
 io (LX-LXc)
P+20 log (LX/LXc)

where LX is the measured sideline sound propagation path from station L 
(Figure A1) to position X of the aircraft for which PNLTM is observed at 
station L and LXc is the corrected sideline sound propagation path.
    (e) Duration corrections. If the measured takeoff and approach 
flight paths do not conform to those prescribed as the corrected and 
reference flight paths, under section A36.11 (b) and (c) respectively, 
it will be necessary to apply duration corrections to the EPNL values 
calculated from the measured data. Such corrections must be calculated 
as follows:
    (1) Takeoff flight path. For the takeoff flight path shown in Figure 
A3, the correction term is calculated using the formula--

2 = -7.5 log (KR/KRc)
which represents the correction which must be added algebraically to the 
EPNL calculated from the measured data. The lengths KR and KRc are the 
measured and corrected takeoff minimum distances from the noise 
measuring station K to the measured and the corrected flight paths 
respectively. A negative sign indicates that, for the particular case of 
a duration correction, the EPNL calculated from the measured data must 
be reduced if the measured flight path is at a greater altitude than the 
corrected flight path.

[[Page 807]]

    (2) Approach flight path. For the approach flight path shown in 
Figure A6, the correction term is calculated using the formula--

 2 = -7.5 log (NT/393)
where NT is the measured approach minimum distance from the noise 
measuring station N to the measured flight path and 393 feet is the 
minimum distance from station N to the reference flight path.
    (3) Sideline flight path. For the sideline flight path, the 
correction term is calculated using the formula--

 2 = -7.5 log (LX/LXc)

where LX and LXc are the measured and corrected sideline noise measuring 
distances, respectively, from the noise measuring station L to the 
aircraft position X or Xc, respectively on the takeoff flight 
path.
    (f) Nonstandard location correction. When takeoff and approach noise 
measurements are conducted at points other than those prescribed in 
section C36.1 of appendix C, the EPNL value computed from these 
measurements must be corrected to the value that would have occurred at 
the prescribed measuring points under one of the following procedures:
    (1) Simplified procedure. Unless the amount of adjustment exceeds 8 
dB on takeoff or 4 dB on approach, or the correction results in a final 
EPNL value which is within 1.0 dB of the noise levels prescribed in 
appendix C of this part, the correction procedures prescribed in 
paragraphs (d) and (e) of this section may be used. Since this procedure 
accounts for extrapolation of PNLTM from the close-in measurement 
station to the prescribed measuring point, the remaining corrections for 
differences between test and reference conditions, including thrust and 
airspeed, must be made afterward.
    (2) Integrated procedure. If the correction factor exceeds 8 dB on 
takeoff or 4 dB on approach, or the correction results in a final EPNL 
value which is within 1.0 dB of the noise levels prescribed in appendix 
C of this part, the following correction procedure must be used:
    (i) Each \1/2\ second spectrum measured during a flyover at a noise 
measuring station which is closer to the flight path than the prescribed 
reference distance must be adjusted under a procedure similar to that 
prescribed under paragraph (d)(1) of this section, regarding PNLT 
corrections. However, the distances which must be used are those values 
of KQ and KQc for the sound propagation path (and hence value of 
 2 4i-1
    n(i,k)]-n (k)]=0.85
    n(K)+0.1524 i-1n(i,k)

where n(k) is the largest of the 24 values of n(i,k) and N(k) is the 
total perceived noisiness.
    (c) Step 3. Convert the total perceived noisiness, N(k), into 
perceived noise level, PNL(k), by the following formula:

PNL(k)=40.0+33.22 log N(k)

which is plotted in Figure B1. PNL(k) may also be obtained by choosing 
N(k) in the 1,000 Hz column of Table B1 and then reading the 
corresponding value of SPL(i,k) which, at 1,000 Hz, equals PNL(k).
[GRAPHIC] [TIFF OMITTED] TC28SE91.103


[[Page 809]]



                                                           Table B1--Perceived Noisiness (NOYs) as a Function of Sound Pressure Level
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
                                                                           \1/3\ Octave Band Center Frequencies in Hz (c/s)
 SPL -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
       50    63     80      100     125     160     200     250     315     400     500     630     800    1000    1250    1600    2000    2500    3150    4000    5000    6300    8000    10000
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
   4  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.10  ......    0.10  ......  ......  ......
 
   5  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.10    0.11    0.10  ......  ......  ......  ......
   6  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.11    0.12    0.11  ......  ......  ......  ......
   7  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.13    0.14    0.13    0.10  ......  ......  ......
   8  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.14    0.16    0.14    0.11  ......  ......  ......
   9  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.10    0.16    0.17    0.16    0.14  ......  ......  ......
 
  10  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.11    0.17    0.19    0.18    0.16    0.10  ......  ......
  11  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.13    0.19    0.22    0.21    0.18    0.12  ......  ......
  12  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.10    0.14    0.22    0.24    0.24    0.21    0.14  ......  ......
  12  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.11    0.16    0.24    0.27    0.27    0.24    0.16  ......  ......
  14  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.13    0.18    0.27    0.30    0.30    0.27    0.19  ......  ......
 
  15  ....  ....  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......    0.10    0.14    0.21    0.30    0.33    0.33    0.30    0.22  ......  ......
  16  ....  ....  ......  ......  ......  ......  ......  ......  ......    0.10    0.10    0.10    0.10    0.10    0.11    0.16    0.24    0.33    0.35    0.35    0.33    0.26  ......  ......
  17  ....  ....  ......  ......  ......  ......  ......  ......  ......    0.11    0.11    0.11    0.11    0.11    0.13    0.18    0.27    0.35    0.38    0.38    0.35    0.30    0.10  ......
  18  ....  ....  ......  ......  ......  ......  ......  ......    0.10    0.13    0.13    0.13    0.13    0.13    0.15    0.21    0.30    0.38    0.41    0.41    0.38    0.33    0.12  ......
  19  ....  ....  ......  ......  ......  ......  ......  ......    0.11    0.14    0.14    0.14    0.14    0.14    0.17    0.24    0.33    0.41    0.45    0.45    0.41    0.36    0.14  ......
 
  20  ....  ....  ......  ......  ......  ......  ......  ......    0.13    0.16    0.16    0.16    0.16    0.16    0.20    0.27    0.36    0.45    0.49    0.49    0.45    0.39    0.17  ......
  21  ....  ....  ......  ......  ......  ......  ......    0.10    0.14    0.18    0.18    0.18    0.18    0.18    0.23    0.30    0.39    0.49    0.53    0.53    0.46    0.42    0.21    0.10
  22  ....  ....  ......  ......  ......  ......  ......    0.11    0.16    0.21    0.21    0.21    0.21    0.21    0.26    0.33    0.42    0.53    0.57    0.57    0.53    0.46    0.25    0.11
  23  ....  ....  ......  ......  ......  ......  ......    0.13    0.18    0.24    0.24    0.24    0.24    0.24    0.30    0.36    0.46    0.57    0.62    0.62    0.57    0.50    0.30    0.13
  24  ....  ....  ......  ......  ......  ......    0.10    0.14    0.21    0.27    0.27    0.27    0.27    0.27    0.33    0.40    0.50    0.62    0.67    0.67    0.62    0.55    0.33    0.15
 
  25  ....  ....  ......  ......  ......  ......    0.11    0.16    0.24    0.30    0.30    0.30    0.30    0.30    0.35    0.43    0.55    0.67    0.73    0.73    0.67    0.60    0.36    0.17
  26  ....  ....  ......  ......  ......  ......    0.13    0.18    0.27    0.33    0.33    0.33    0.33    0.33    0.38    0.48    0.60    0.73    0.79    0.79    0.73    0.65    0.39    0.20
  27  ....  ....  ......  ......  ......    0.10    0.14    0.21    0.30    0.35    0.35    0.35    0.35    0.35    0.41    0.52    0.65    0.79    0.85    0.85    0.79    0.71    0.42    0.23
  28  ....  ....  ......  ......  ......    0.11    0.16    0.24    0.33    0.38    0.38    0.38    0.38    0.38    0.45    0.57    0.71    0.85    0.92    0.92    0.85    0.77    0.46    0.26
  29  ....  ....  ......  ......  ......    0.13    0.18    0.27    0.35    0.41    0.41    0.41    0.41    0.41    0.49    0.63    0.77    0.92    1.00    1.00    0.92    0.84    0.50    0.30
 
  30  ....  ....  ......  ......    0.10    0.14    0.21    0.30    0.38    0.45    0.45    0.45    0.45    0.45    0.53    0.69    0.84    1.00    1.07    1.07    1.00    0.92    0.55    0.33
  31  ....  ....  ......  ......    0.11    0.16    0.24    0.33    0.41    0.49    0.49    0.49    0.49    0.49    0.57    0.76    0.92    1.07    1.15    1.15    1.07    1.00    0.60    0.37
  32  ....  ....  ......  ......    0.13    0.18    0.27    0.36    0.45    0.53    0.53    0.53    0.53    0.53    0.62    0.83    1.00    1.15    1.23    1.23    1.15    1.07    0.65    0.41
  33  ....  ....  ......  ......    0.14    0.21    0.30    0.39    0.49    0.57    0.57    0.57    0.57    0.57    0.67    0.91    1.07    1.23    1.32    1.32    1.23    1.15    0.71    0.45
  34  ....  ....  ......    0.10    0.16    0.24    0.33    0.42    0.53    0.62    0.62    0.62    0.62    0.62    0.73    1.00    1.15    1.32    1.41    1.41    1.32    1.23    0.77    0.50
 
  35  ....  ....  ......    0.11    0.18    0.27    0.36    0.46    0.57    0.67    0.67    0.67    0.67    0.67    0.79    1.07    1.23    1.41    1.51    1.51    1.41    1.32    0.84    0.55
  36  ....  ....  ......    0.13    0.21    0.30    0.40    0.50    0.62    0.73    0.73    0.73    0.73    0.73    0.85    1.15    1.32    1.51    1.62    1.62    1.51    1.41    0.92    0.61
  37  ....  ....  ......    0.15    0.24    0.33    0.43    0.55    0.67    0.79    0.79    0.79    0.79    0.79    0.92    1.23    1.41    1.62    1.74    1.74    1.62    1.51    1.00    0.67
  38  ....  ....  ......    0.17    0.27    0.37    0.48    0.60    0.73    0.85    0.85    0.85    0.85    0.85    1.00    1.32    1.51    1.74    1.86    1.86    1.74    1.62    1.10    0.74
  39  ....  ....    0.10    0.20    0.30    0.41    0.52    0.65    0.79    0.92    0.92    0.92    0.92    0.92    1.07    1.41    1.62    1.86    1.99    1.99    1.86    1.74    1.21    0.82
 
  40  ....  ....    0.12    0.23    0.33    0.45    0.57    0.71    0.85    1.00    1.00    1.00    1.00    1.00    1.15    1.51    1.74    1.99    2.14    2.14    1.99    1.86    1.34    0.90
  41  ....  ....    0.14    0.26    0.37    0.50    0.63    0.77    0.92    1.07    1.07    1.07    1.07    1.07    1.23    1.62    1.86    2.14    2.29    2.29    2.14    1.99    1.48    1.00
  42  ....  ....    0.16    0.30    0.41    0.55    0.69    0.84    1.00    1.15    1.15    1.15    1.15    1.15    1.32    1.74    1.99    2.29    2.45    2.45    2.29    2.14    1.63    1.10
  43  ....  ....    0.19    0.33    0.45    0.61    0.76    0.92    1.07    1.23    1.23    1.23    1.23    1.23    1.41    1.86    2.14    2.45    2.63    2.63    2.45    2.29    1.79    1.21
  44  ....  0.10    0.22    0.37    0.50    0.67    0.83    1.00    1.15    1.32    1.32    1.32    1.32    1.32    1.52    1.99    2.29    2.63    2.81    2.81    2.63    2.45    1.99    1.34
 

[[Page 810]]

 
  45  ....  0.12    0.26    0.42    0.55    0.74    0.91    1.08    1.24    1.41    1.41    1.41    1.41    1.41    1.62    2.14    2.45    2.81    3.02    3.02    2.81    2.63    2.14    1.48
  46  ....  0.14    0.30    0.46    0.61    0.82    1.00    1.16    1.33    1.52    1.52    1.52    1.52    1.52    1.74    2.29    2.63    3.02    3.23    3.23    3.02    2.81    2.29    1.63
  47  ....  0.16    0.34    0.52    0.67    0.90    1.08    1.25    1.42    1.62    1.62    1.62    1.62    1.62    1.87    2.45    2.81    3.23    3.46    3.46    3.23    3.02    2.45    1.79
  48  ....  0.19    0.38    0.58    0.74    1.00    1.17    1.34    1.53    1.74    1.74    1.74    1.74    1.74    2.00    2.63    3.02    3.46    3.71    3.71    3.46    3.23    2.63    1.98
  49  0.10  0.22    0.43    0.65    0.82    1.08    1.26    1.45    1.64    1.87    1.87    1.87    1.87    1.87    2.14    2.81    3.23    3.71    3.97    3.97    3.71    3.46    2.81    2.18
 
  50  0.12  0.26    0.49    0.72    0.90    1.17    1.36    1.56    1.76    2.00    2.00    2.00    2.00    2.00    2.30    3.02    3.46    3.97    4.26    4.26    3.97    3.71    3.02    2.40
  51  0.14  0.30    0.55    0.80    1.00    1.26    1.47    1.68    1.89    2.14    2.14    2.14    2.14    2.14    2.46    3.23    3.71    4.26    4.56    4.56    4.26    3.97    3.23    2.63
  52  0.17  0.34    0.62    0.90    1.08    1.36    1.58    1.80    2.03    2.30    2.30    2.30    2.30    2.30    2.64    3.46    3.97    4.56    4.89    4.89    4.56    4.26    3.46    2.81
  53  0.21  0.39    0.70    1.00    1.18    1.47    1.71    1.94    2.17    2.46    2.46    2.46    2.46    2.46    2.83    3.71    4.26    4.69    5.24    5.24    4.89    4.56    3.71    3.02
  54  0.25  0.45    0.79    1.09    1.28    1.50    1.85    2.09    2.33    2.64    2.64    2.64    2.64    2.64    3.03    3.97    4.56    5.24    5.61    5.61    5.24    4.89    3.97    3.23
 
  55  0.30  0.51    0.89    1.18    1.39    1.71    2.00    2.25    2.50    2.83    2.83    2.83    2.83    2.83    3.25    4.26    4.89    5.61    6.01    6.01    5.61    5.24    4.26    3.46
  56  0.34  0.59    1.00    1.29    1.50    1.85    2.15    2.42    2.69    3.03    3.03    3.03    3.03    3.03    3.48    4.56    5.24    6.01    6.44    6.44    6.01    5.61    4.56    3.71
  57  0.39  0.67    1.09    1.40    1.63    2.00    2.33    2.61    2.88    3.25    3.25    3.25    3.25    3.25    3.73    4.89    5.61    6.44    6.90    6.90    6.44    6.01    4.89    3.97
  58  0.45  0.77    1.18    1.53    1.77    2.15    2.51    2.81    3.10    3.48    3.48    3.48    3.48    3.48    4.00    5.24    6.01    6.90    7.39    7.39    6.90    6.44    5.24    4.26
  59  0.51  0.87    1.29    1.66    1.92    2.33    2.71    3.03    3.32    3.73    3.73    3.73    3.73    3.73    4.29    5.61    6.44    7.39    7.92    7.92    7.39    6.90    5.61    4.56
 
  60  0.59  1.00    1.40    1.81    2.08    2.51    2.93    3.26    3.57    4.00    4.00    4.00    4.00    4.00    4.59    6.01    6.90    7.92    8.49    8.49    7.92    7.39    6.01    4.89
  61  0.67  1.10    1.53    1.97    2.26    2.71    3.16    3.51    3.83    4.29    4.29    4.29    4.29    4.29    4.92    6.44    7.39    8.49    9.09    9.09    8.49    7.92    6.44    5.24
  62  0.77  1.21    1.66    2.15    2.45    2.93    3.41    3.79    4.11    4.59    4.59    4.59    4.59    4.59    5.28    6.90    7.92    9.09    9.74    9.74    9.09    8.49    6.90    5.61
  63  0.87  1.32    1.81    2.34    2.65    3.16    3.69    4.06    4.41    4.92    4.92    4.92    4.92    4.92    5.66    7.39    8.49    9.74    10.4    10.4    9.74    9.09    7.39    6.01
  64  1.00  1.45    1.97    2.54    2.88    3.41    3.98    4.39    4.73    5.28    5.28    5.28    5.28    5.28    6.06    7.52    9.09    10.4    11.2    11.2    10.4    9.74    7.92    6.44
 
  65  1.11  1.60    2.15    2.77    3.12    3.69    4.30    4.71    5.08    5.66    5.66    5.66    5.66    5.66    6.50    8.49    9.74    11.2    12.0    12.0    11.2    10.4    8.49    6.90
  66  1.22  1.75    2.34    3.01    3.39    3.99    4.64    5.07    5.45    6.06    6.06    6.06    6.06    6.06    6.96    9.09    10.4    12.0    12.8    12.8    12.0    11.2    9.09    7.39
  67  1.35  1.92    2.54    3.28    3.68    4.30    5.01    5.46    5.85    6.50    6.50    6.50    6.50    6.50    7.46    9.74    11.2    12.8    13.8    13.8    12.8    12.0    9.74    7.92
  68  1.49  2.11    2.77    3.57    3.99    4.64    5.41    5.88    6.27    6.96    6.96    6.96    6.96    6.96    8.00    10.4    12.0    13.8    14.7    14.7    13.8    12.8    10.4    8.49
  69  1.65  2.32    3.01    3.80    4.33    5.01    5.84    6.33    6.73    7.46    7.46    7.46    7.46    7.46    8.57    11.2    12.8    14.7    15.8    15.8    14.7    13.8    11.2    9.09
 
  70  1.82  2.59    3.28    4.23    4.69    5.41    6.31    6.81    7.23    8.00    8.00    8.00    8.00    8.00    9.19    12.0    13.8    15.8    16.9    16.9    15.8    14.7    12.0    9.74
  71  2.02  2.79    3.57    4.60    5.09    5.84    6.81    7.33    7.75    8.57    8.57    8.57    8.57    8.57    9.85    12.8    14.7    16.9    18.1    18.1    16.9    15.8    12.8    10.4
  72  2.23  3.07    3.88    5.01    5.52    6.31    7.36    7.90    8.32    9.19    9.19    9.19    9.19    9.19    10.6    13.8    15.8    18.1    19.4    19.4    18.1    16.9    13.8    11.2
  73  2.46  3.37    4.23    5.45    5.99    6.81    7.94    8.50    8.93    9.85    9.85    9.85    9.85    9.85    11.3    14.7    16.9    19.4    20.8    20.8    19.4    18.1    14.7    12.0
  74  2.72  3.70    4.60    5.94    6.50    7.36    8.57    9.15    9.59    10.6    10.6    10.6    10.6    10.6    12.1    15.8    18.1    20.8    22.3    22.3    20.8    19.4    15.8    12.8
 
  75  3.01  4.06    5.01    6.46    7.05    7.94    9.19    9.85    10.3    11.3    11.3    11.3    11.3    11.3    13.0    16.9    19.4    22.3    23.9    23.9    22.3    20.8    16.9    13.8
  76  3.32  4.46    5.45    7.03    7.65    8.57    9.85    10.6    11.0    12.1    12.1    12.1    12.1    12.1    13.9    18.1    20.8    23.9    25.6    25.6    23.9    22.3    18.1    14.7
  77  3.67  4.89    5.94    7.66    8.29    9.19    10.6    11.3    11.8    13.0    13.0    13.0    13.0    13.0    14.9    19.4    22.3    25.6    27.4    27.4    25.6    23.9    19.4    15.8
  78  4.06  5.37    6.46    8.33    9.00    9.85    11.3    12.1    12.7    13.9    13.9    13.9    13.9    13.9    16.0    20.8    23.9    27.4    29.4    29.4    27.4    25.6    20.8    16.9
  79  4.49  5.90    7.03    9.07    9.76    10.6    12.1    13.0    13.6    14.9    14.9    14.9    14.9    14.9    17.1    22.3    25.6    29L4    31.5    31.5    29.4    27.4    22.3    18.1
 
  80  4.96  6.48    7.66    9.85    10.6    11.3    13.0    13.9    14.6    16.0    16.0    16.0    16.0    16.0    18.4    23.9    27.4    31.5    33.7    33.7    31.5    29.4    23.9    19.4
  81  5.48  7.11    8.33    10.6    11.3    12.1    13.9    14.9    15.7    17.1    17.1    17.1    17.1    17.1    19.7    25.6    29.4    33.7    36.1    36.1    33.7    31.5    25.6    20.8
  82  6.06  7.81    9.07    11.3    12.1    13.0    14.9    16.0    16.9    18.4    18.4    18.4    18.4    18.4    21.1    27.4    31.5    36.1    38.7    38.7    36.1    33.7    27.4    22.3
  83  6.70  8.57    9.87    12.1    13.0    13.9    16.0    17.1    18.1    19.7    19.7    19.7    19.7    19.7    22.6    29.4    33.7    38.7    41.5    41.5    38.7    36.1    29.4    23.9
  84  7.41  9.41    10.7    13.0    13.9    14.9    17.1    18.4    19.4    21.1    21.1    21.1    21.1    21.1    24.3    31.5    36.1    41.5    44.4    44.4    41.5    38.7    31.5    25.6
 
  85  8.19  10.3    11.7    13.9    14.9    16.0    18.4    19.7    20.8    22.6    22.6    22.6    22.6    22.6    26.0    33.7    38.7    44.4    47.6    47.6    44.4    41.5    33.7    27.4

[[Page 811]]

 
  86  9.05  11.3    12.7    14.9    16.0    17.1    19.7    21.1    22.4    24.3    24.3    24.3    24.3    24.3    27.9    36.1    41.5    47.6    51.0    51.0    47.6    44.4    36.1    29.4
  87  10.0  12.1    13.9    16.0    17.1    18.4    21.1    22.6    24.0    26.0    26.0    26.0    26.0    26.0    29.9    38.7    44.4    51.0    54.7    54.7    51.0    47.6    38.7    31.5
  88  11.1  13.0    14.9    17.1    18.4    19.7    22.6    24.3    25.8    27.9    27.9    27.9    27.9    27.9    32.0    41.5    47.6    54.7    58.6    58.6    54.7    51.0    41.5    33.7
  89  12.2  13.9   16 .0    18.4    19.7    21.1    24.3    26.0    27.7    29.9    29.9    29.9    29.9    29.9    34.3    44.4    51.0    58.6    62.7    62.7    58.6    54.7    44.4    36.1
 
  90  13.5  14.9    17.1    19.7    21.1    22.6    26.0    27.9    29.7    32.0    32.0    32.0    32.0    32.0    36.8    47.6    54.7    62.7    67.2    67.2    62.7    58.6    47.6    38.7
  91  14.9  16.0    18.4    21.1    22.6    24.3    27.9    29.9    31.8    34.3    34.3    34.3    34.3    34.3    39.4    51.0    58.6    67.2    72.6    72.0    67.2    62.7    51.0    41.5
  92  16.0  17.1    19.7    22.6    24.3    26.0    29.9    32.0    34.2    36.8    36.8    36.8    36.8    36.8    42.2    54.7    62.7    72.0    77.2    77.2    72.0    67.2    54.7    44.4
  93  17.1  18.4    21.1    24.3    26.0    27.9    32.0    34.3    36.7    39.4    39.4    39.4    39.4    39.4    45.3    58.6    67.2    77.2    82.7    82.7    77.2    72.0    58.6    47.6
  94  18.4  19.7    22.6    26.0    27.9    29.9    34.3    36.8    39.4    42.2    42.2    42.2    42.2    42.2    48.5    62.7    72.0    82.7    88.6    88.6    82.7    77.2    62.7    51.0
 
  95  19.7  21.1    24.3    27.9    29.9    32.0    36.8    39.4    42.2    45.3    45.3    45.3    45.3    45.3    52.0    67.2    77.2    88.6    94.9    94.9    88.6    82.7    67.2    54.7
  96  21.1  22.6    26.0    29.9    32.0    34.3    39.4    42.2    45.3    48.5    48.5    48.5    48.5    48.5    55.7    72.0    82.7    94.9     102     102    94.9    88.6    72.0    58.6
  97  22.6  24.3    27.9    32.0    34.3    36.8    42.2    45.3    48.5    52.0    52.0    52.0    52.0    52.0    59.7    77.2    88.6     102     109     109     102    94.9    77.2    62.7
  98  24.3  26.0    29.9    34.3    36.8    39.4    45.3    48.5    52.0    55.7    55.7    55.7    55.7    55.7    64.0    82.7    94.9     109     117     117     105     102    82.7    67.2
  99  26.0  27.9    32.0    36.8    39.4    42.2    48.5    52.0    55.7    59.7    59.7    59.7    59.7    59.7    68.6    88.6     102     117     125     125     117     109    88.6    72.0
 
 100  27.9  29.9    34.3    39.4    42.2    45.3    52.0    55.7    59.7    64.0    64.0    64.0    64.0    64.0    73.5    94.9     109     125     134     134     125     117    94.9    77.2
 101  29.9  32.0    36.8    42.2    45.3    48.5    55.7    59.7    64.0    68.6    68.6    68.6    68.6    68.6    78.8     102     117     134     144     144     134     125     102    82.7
 102  32.0  34.3    39.4    45.3    48.5    52.0    59.7    64.0    68.6    73.5    73.5    73.5    73.5    73.5    84.4     109     125     144     154     154     144     134     109    88.6
 103  34.3  36.8    42.2    48.5    52.0    55.7    64.0    68.6    73.5    78.8    78.8    78.8    78.8    78.8    90.5     117     134     154     165     165     154     144     117    94.9
 104  36.8  39.4    45.3    52.0    55.7    59.7    68.6    73.5    78.8    84.4    84.4    84.4    84.4    84.4    97.0     125     144     165     177     177     165     154     125     102
 
 105  39.4  42.2    48.5    55.7    59.7    64.0    73.5    78.8    84.4    90.5    90.5    90.5    90.5    90.5     104     134     154     177     189     189     177     165     134     109
 106  42.2  45.3    52.0    59.7    64.0    68.6    78.8    84.4    90.5    97.0    97.0    97.0    97.0    97.0     111     144     165     189     203     203     189     177     144     117
 107  45.3  48.5    55.7    64.0    68.6    73.5    84.4    90.5    97.0     104     104     104     104     104     119     154     177     203     217     217     203     109     154     125
 108  48.5  52.0    59.7    68.6    73.5    78.8    90.5    97.0     104     111     111     111     111     111     128     165     189     217     233     233     217     203     165     134
 109  52.0  55.7    64.0    73.5    78.8    84.4    97.0     104     111     119     119     119     119     119     137     177     203     233     249     249     233     217     177     144
 
 110  55.7  59.7    68.6    78.8    84.4    90.5     104     111     119     128     128     128     128     128     137     189     217     249     267     267     249     233     189     154
 111  59.7  64.0    73.5    84.4    90.5    97.0     111     119     128     137     137     137     137     137     158     203     233     267     286     286     267     249     203     165
 112  64.0  68.6    78.8    90.4    97.0     104     119     128     137     147     147     147     147     147     169     217     249     286     307     307     286     267     217     177
 113  64.6  73.5    84.4    97.0     104     111     128     137     147     158     158     158     158     158     181     233     267     307     329     329     307     286     233     189
 114  73.5  78.8    50.5     104     111     119     137     147     158     169     169     169     169     169     194     249     286     329     352     352     329     307     249     203
 
 115  78.8  84.4    97.0     111     119     128     147     158     169     181     181     181     181     181     208     267     307     352     377     377     352     329     267     217
 116  84.4  90.5     104     119     128     137     158     169     181     194     194     194     194     194     223     286     329     377     404     404     377     352     286     233
 117  90.5  97.6     111     128     137     147     169     181     194     208     208     208     208     208     239     307     352     404     433     433     404     377     307     249
 118  97.0   104     119     137     147     158     181     194     208     223     223     223     223     223     256     329     377     433     464     464     433     404     329     267
 119   104   111     128     147     158     169     194     208     223     239     239     239     239     239     274     352     404     464     497     497     464     433     352     286
 
 120   111   119     137     158     169     181     208     223     239     256     256     256     256     256     294     377     433     497     533     533     497     464     377     307
 121   119   128     147     169     181     194     223     239     256     274     274     274     274     274     315     404     464     533     571     571     533     497     404     329
 122   128   137     158     181     194     208     239     256     274     294     294     294     294     294     338     433     497     571     611     611     571     533     433     352
 123   137   147     169     194     208     223     256     274     294     315     315     315     315     315     362     464     533     611     655     655     611     571     464     377
 124   147   158     181     208     223     239     274     294     315     338     338     338     338     338     388     497     571     655     702     702     655     611     497     404
 
 125   158   169     194     223     239     256     294     315     338     362     362     362     362     362     416     533     611     702     752     752     702     655     533     433
 126   169   181     208     239     256     274     315     338     362     388     388     388     388     388     446     571     655     752     806     806     752     702     571     464
 127   181   194     223     256     274     294     338     362     388     416     416     416     416     416     479     611     702     806     863     863     606     732     611     497
 128   194   208     239     274     294     315     362     388     416     446     446     446     446     446     512     655     752     863     925     925     863     806     655     533
 129   208   223     256     294     315     338     388     416     446     478     478     478     478     478     549     702     806     925     991     991     925     863     702     571
 
 130   223   239     274     315     338     362     416     446     478     512     512     512     512     512     588     752     863     991    1062    1062     991     925     752     611
 131   239   256     294     338     362     388     446     478     512     549     549     549     549     549     630     806     925    1062    1137    1137    1062     991     606     655

[[Page 812]]

 
 132   256   274     315     362     388     416     478     512     549     588     588     588     588     588     676     863     991    1137    1219    1219    1137    1062     863     702
 133   274   294     338     388     416     446     512     549     588     630     630     630     630     630     724     925    1062    1219    1306    1306    1219    1137     925     752
 134   294   315     362     416     446     478     549     588     630     676     676     676     676     676     776     991    1137    1306    1399    1399    1306    1219     991     606
 
 135   315   338     388     446     478     512     588     630     676     724     724     724     724     724     832    1062    1219    1399    1499    1499    1399    1306    1062     863
 136   338   362     416     478     512     549     630     676     724     776     776     776     776     776     891    1137    1306    1499    1606    1606    1499    1399    1197     925
 137   362   388     446     512     549     588     676     724     776     832     832     832     832     832     955    1219    1399    1606    1721    1721    1606    1499    1219     991
 138   398   416     478     549     588     630     724     776     832     891     891     891     891     891    1024    1306    1499    1721    1844    1844    1721    1606    1306    1062
 139   416   446     512     588     630     676     776     832     891     955     955     955     955     955    1098    1399    1606    1844    1975    1975    1844    1721    1399    1137
 
 140   446   478     549     630     676     724     832     891     955    1024    1024    1024    1024    1024    1176    1499    1721    1975  ......  ......    1975    1844    1499    1219
 141   478   512     588     676     724     776     891     955    1024    1098    1098    1098    1098    1098    1261    1606    1844  ......  ......  ......  ......    1975    1606    1306
 142   512   549     630     724     776     832     955    1024    1098    1176    1176    1176    1176    1176    1351    1721    1975  ......  ......  ......  ......  ......    1721    1399
 143   549   588     676     776     832     891    1024    1098    1176    1261    1261    1261    1261    1261    1448    1844  ......  ......  ......  ......  ......  ......    1844    1499
 144   588   630     724     832     891     955    1098    1176    1261    1351    1351    1351    1351    1351    1552    1975  ......  ......  ......  ......  ......  ......    1975    1606
 
 145   630   676     776     891     955    1024    1176    1261    1351    1448    1448    1448    1448    1448    1664  ......  ......  ......  ......  ......  ......  ......  ......    1721
 146   676   724     832     955    1024    1098    1261    1351    1448    1552    1552    1552    1552    1552    1783  ......  ......  ......  ......  ......  ......  ......  ......    1844
 147   724   776     891    1024    1098    1176    1351    1448    1552    1664    1664    1664    1664    1664    1911  ......  ......  ......  ......  ......  ......  ......  ......    1975
 148   776   832     955    1098    1176    1261    1448    1552    1664    1783    1783    1783    1783    1783    2048  ......  ......  ......  ......  ......  ......  ......  ......  ......
 149   832   891    1024    1176    1261    1351    1552    1664    1783    1911    1911    1911    1911    1911  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......
 
 150   891   955    1098    1261    1351    1448    1664    1783    1911    2048    2048    2048    2048    2048  ......  ......  ......  ......  ......  ......  ......  ......  ......  ......
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------



[[Page 813]]

    Section B36.5 Correction for spectral irregularities. Noise having 
pronounced irregularities in the spectrum (for example, discrete 
frequency components or tones), must be adjusted by the correction 
factor C(k) calculated as follows:
    (a) Step 1. Starting with the corrected sound pressure level in the 
80 Hz one-third octave band (band number 3), calculate the changes in 
sound pressure level (or ``slopes'') in the remainder of the one-third 
octave bands as follows:

s(3,k)=no value
s(4,k)=SPL(4,k)-SPL(3,k)
.
.
.
s(i,k)=SPL(i,k)-SPL[(i-l),k]
.
.
.
s(24,k)=SPL(24,k)-SPL(23,k)

    (b) Step 2. Encircle the value of the slope, s(i,k), where the 
absolute value of the change in slope is greater than 5; that is, where

||  s(i,k) || = || s(i,k)-s[(i-1),k] || >5

    (c) Step 3. (1) If the encircled value of the slope s(i,k) is 
positive and algebraically greater than the slope s[(i-1),k], encircle 
SPL(I,K).
    (2) If the encircled value of the slope s(1,k) is zero or negative 
and the slope s[i-1),k] is positive, encircle (SPL[(i-1),k])
    (3) For all other cases, no sound pressure level value is to be 
encircled.
    (d) Step 4. Omit all SPL(i,k) encircled in Step 3 and compute new 
sound pressure levels SPL'prime;(i,k) as follows:
    (1) For nonencircled sound pressure levels, let the new sound 
pressure levels equal the original sound pressure levels,

SPL'(i,k)=SPL(i,k)

    (2) For encircled sound pressure levels in bands 1-23, let the new 
sound pressure level equal the arithmetic average of the preceding and 
following sound pressure levels.

SPL'(i,k)=(\1/2\)[SPL[(i-1),k]+SPL[(i+1),k]]

    (3) If the sound pressure level in the highest frequency band (i=24) 
is encircled, let the new sound pressure level in that band equal

SPL'(24,k)=SPL(23,k+s(23,k).

    (e) Step 5. Recompute new slopes s' (i,k), including one for an 
imaginary 25-th band, as follows:
s'(3,k)=s'(4,k)
s'(4,k)=SPL'(4,k)-SPL'(3,k)
.
.
.
s'(i,k)=SPL'(i,k)-SPL'[(i-1),k]
s'(24,k)=SPL'(24,k)-SPL'(23,k)
s'(25,k)=s'(24,k)

    (f) Step 6. For i from 3 to 23, compute the arithmetic average of 
the three adjacent slopes as follows:

            s(i,k)=(\1/3\)[s'(i,k)+s'[(i+1),k] +s'[(i+2),k]]

    (g) Step 7. Compute final adjusted one-third octave-band sound 
pressure levels, SPL" (i,k), by beginning with band number 3 and 
proceeding to band number 24 as follows:

SPL"(3,k)=SPL(3,k)
SPL"(4,k)=SPL"(3.k)+s(3.k)
.
.
.
SPL"(i,k)=SPL"[(i-1),k]+s[(i-1),k]
.
.
.
SPL"(24,k)=SPL"(23,k)+s(23,k)

    (h) Step 8. Calculate the differences, F(i,k), between the original 
and the adjusted sound pressure levels as follows:

F(i,k)=SPL(i,k)-SPL"(i,k)

and note only value greater than one and a half.
    (i) Step 9. For each of the 24 one-third octave bands, determine 
tone correction factors from the sound pressure level differences F(i,k) 
and Table B2.

[[Page 814]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.104


------------------------------------------------------------------------
                                   Level difference   Tone correction C,
         Frequency f, Hz                 F, dB                dB
------------------------------------------------------------------------
50 f500..............  1\1/2\*  F/3-\1/2\
                                   F3.
                                  3 F20..  F/6
                                  20 F...  3\1/2\
 
                                 ---------------------------------------
500 f5,000  1\1/2\*  2 F/3-1
                                   F3.
                                  3 F20..  F/3
                                  20 F...  6\2/3\
 
                                 ---------------------------------------
5,000 f10,000........  1\1/2\*  F/3-\1/2\
                                   F3.
                                  3 F20..  F/6
                                  20 F...  3\1/3\
------------------------------------------------------------------------
* See Step 8.


    (j) Step 10. Designate the largest of the tone correction factors, 
determined in Step 9, as C(k). An example of the tone correction 
procedure is given in Table B3.
    (k) Tone corrected perceived noise levels PNLT(k) are determined by 
adding the C(k) values to corresponding PNL(k) values, that is,

PNLT(k)=PNL(k)+C(k)

    (l) For any i-th one-third octave band, at any k-th increment of 
time, for which the tone correction factor is suspected to result from 
something other than (or in addition to) an actual tone (or any special 
irregularity other than aircraft noise), an additional analysis may be 
made using a filter with a bandwidth narrower than one-third of an 
octave. If the narrow band analysis corroborates that suspicion, then a 
revised value for the background sound pressure level, SPL"(i,k) may be 
determined from the analysis and used to compute a revised tone 
correction factor, F(i,k), for that particular one-third octave band.
    (m) Tones resulting from ground-plane reflections in the 800 Hz and 
lower one-third octave bands may be excluded from the calculation of 
corrections for spectral irregularities. To qualify for this exclusion, 
the pseudotones must be clearly identified as not being related to the 
engine noise. This identification may be made either by comparing 
measured data with data from a flush mounted microphone, or by observing 
the

[[Page 815]]

Doppler shift characteristics of the tone during the flyover-noise/time 
history. Since pseudotones are related to ground reflections, a 
microphone mounted flush to the ground will yield a spectral shape which 
can be distinguished from that produced by the 4-foot high microphone at 
those frequencies which can be related to ground reflection's 
geometrical relationships. Identification through Doppler shifting (the 
symmetric variation of frequency with time) can be made because the 
Doppler frequency variation yields a frequency increase for an 
approaching signal and a frequency decrease for a receding signal. 
Pseudotones at frequencies above 800 Hz generally should not yield 
significant tone corrections. However, for consistency, each tone 
correction value must be included in the computation for spectral 
irregularities. While the tone corrections below 800 Hz may be ignored 
for the spectral irregularity correction, the SPL values must be 
included in the noy calculation prescribed in section B36.13 of this 
appendix.
    (n) After the value of PNLTM for each flyover-noise/time history, is 
identified, the frequency for the largest tone correction factor (C(k)) 
must be identified for the two preceding and the two succeeding, 500-
milli-second time intervals, to identify possible tone suppression at 
PNLTM as a result of band sharing of the tone. If the value of C(k) for 
PNLTM is less than the average value of C(k) for those five consecutive 
time intervals, that average value of C(k) must be used to compute a new 
value for PNLTM.
    Section B36.7 Maximum tone corrected perceived noise level. (a) The 
maximum tone corrected perceived noise level, PNLTM, is the maximum 
calculated value of the tone corrected perceived noise level, PNLT(k), 
calculated in accordance with the procedure of section B36.5 of this 
appendix. Figure B2 is an example of a flyover noise time history where 
the maximum value is clearly indicated. Half-second time intervals, 
 t, are small enough to obtain a satisfactory noise time 
history.

[[Page 816]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.105


    (b) If there are no pronounced irregularities in the spectrum, then 
the procedure of Sec. B36.5 of this appendix would be redundant since 
PNLT(k) would be identically equal to PNL(k). For this case, PNLTM would 
be the maximum value of PNL(k) and would equal PNLM.

[[Page 817]]

    Section B36.9 Duration correction. The duration correction factor D 
is determined by the integration technique defined by the expression:
[GRAPHIC] [TIFF OMITTED] TC28SE91.106

[GRAPHIC] [TIFF OMITTED] TC28SE91.107

Where T is a normalizing time constant, PNLTM is the maximum value of 
PNLT, and t(1) and t(2) are the limits of the significant noise time 
history.
    (a) Since PNLT is calculated from measured values of SPL, there 
will, in general, be no obvious equation for PNLT as a function of time. 
Consequently, the equation can be rewritten with a summation sign 
instead of an integral sign as follows:
[GRAPHIC] [TIFF OMITTED] TC28SE91.108

where  t is the length of the equal increments of time for 
which PNLT(k) is calculated and d is the time interval to the nearest 
1.0 second during which PNLT(k) is within a specified value, h, of 
PNLTM.
    (b) Half-second time intervals for  t are small enough to 
obtain a satisfactory history of the perceived noise level. A shorter 
time interval may be selected by the applicant provided approved limits 
and constants are used.
    (c) The following values for T,  t,and h, must be used in 
calculating D:


[[Page 818]]


T=10 sec,
 t=0.5 sec. (or the approved sampling time interval), and
h=10 dB.

Using the above values, the equation for D becomes
[GRAPHIC] [TIFF OMITTED] TC28SE91.109

Where the integer d is the duration time defined by the points that are 
10 dB less than PNLTM.
    (d) If the 10 dB-down points fall between calculated PNLT(k) values 
(the usual case), the applicable limits for the duration time must be 
chosen from the PNLT(k) values closest to PNLTM-10. For those cases with 
more than one peak value of PNLT(k), the applicable limits must be 
chosen to yield the largest possible value for the duration time.
    (e) If the value of PNLT(k) at the 10 dB-down points is 90 PNdB or 
less, the value of d may be taken as the time interval between the 
initial and the final times for which PNLT(k) equals 90 PNdB.
    (f) The aircraft testing procedures must include the 10 dB-down 
points in the flyover noise/time record.
    Section B36.11 Effective perceived noise level. (a) The total 
subjective effect of an aircraft flyover is designated ``effective 
perceived noise level,'' EPNL, and is equal to the algebraic sum of the 
maximum value of the tone corrected perceived noise level, PNLTM, and 
the duration correction, D. That is,

EPNL=PNLTM+D

where PNLTM and D are calculated under sections B36.7 and B36.9 of this 
appendix.
    (b) The above equation can be rewritten by substituting the equation 
for D from Sec. B36.9 of this appendix, that is,
[GRAPHIC] [TIFF OMITTED] TC28SE91.110

    (c) If, during a test flight, one or more peak values of PNLT are 
observed which are within 2 dB of PNLTM, the value of EPNL shall be 
calculated for each, as well as for PNLTM. If any EPNL value exceeds the 
value at the moment of PNLTM, the maximum value of such exceedance must 
be added as a further adjustment to the EPNL calculated from the 
measured data.

    Section B36.13  Mathematical formulation of noy tables.
    (a) The relationship between sound pressure level and perceived 
noisiness given in Table B1 is illustrated in Figure B3. The variation 
of log (n) with SPL for a given one-third octave band can be expressed 
by straight lines as shown in Figure B3.
    (1) The slopes of the straight lines M(b), M(c), and M(d) and M(e);
    (2) The intercepts of the lines on the SPL axis, SPL (b) and SPL 
(c); and
    (3) The coordinates of the discontinuities, SPL (a) and log n(a); 
SPL (d) and log n = -1.0; and SPL (e) and log n = log (0.3).
    (b) The important aspects of the mathematical formulation are:

(1) SPL  SPL (a)

    n = antilog [M(c)*(SPL-SPL(c))]

(2) SPL (b)  SPL  SPL (a)

    n = antilog [M(b)*(SPL-SPL(b))]

(3) SPL (e)  SPL  SPL (b)

    n = antilog [M(e)*(SPL-SPL(b))]

(4) SPL (d)  SPL  SPL (e)

    n = 0.1 antilog [M(d)*(SPL-SPL(d))]

    (c) Table B4 lists the values of the important constants necessary 
to calculate sound pressure level as a function of perceived noisiness.

[[Page 819]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.111


[[Page 820]]


[GRAPHIC] [TIFF OMITTED] TC28SE91.112

[Doc. No. 9337, 34 FR 18364, Nov. 18, 1969, as amended by Amdt. 36-5, 41 
FR 35058, Aug. 19, 1976; Amdt. 36-9, 43 FR 8748, Mar. 2, 1978; Amdt. 36-
14, 53 FR 3541, Feb. 5, 1988; Amdt. 36-15, 53 FR 16368, May 6, 1988]

[[Page 821]]

Appendix C to Part 36--Noise Levels for Transport Category and Turbojet 
                   Powered Airplanes Under Sec. 36.201

Sec.
C36.1  Noise measurement and evaluation.
C36.3  Noise measuring points.
C36.5  Noise levels.
C36.7  Takeoff reference and test limitations.
C36.9  Approach reference and test limitations.

    Section C36.1 Noise measurement and evaluation. Compliance with this 
appendix must be shown with noise levels measured and evaluated as 
prescribed, respectively, by appendix A and appendix B of this part, or 
under approved equivalent procedures.
    Section C36.3 Noise measuring points. Compliance with the noise 
level standards of section C36.5 must be shown--
    (a) For takeoff, at a point 21, 325 feet (6,500 meters) from the 
start of the takeoff roll on the extended centerline of the runway;
    (b) For approach, at a point 6,562 feet (2,000 meters) from the 
threshold on the extended centerline of the runway; and
    (c) For the sideline, at the point, on a line parallel to and 1,476 
feet (450 meters) from the extended centerline of the runway, where the 
noise level after liftoff is greatest, except that, for an airplane 
powered by more than three turbojet engines, this distance must be 0.35 
nautical miles for the purpose of showing compliance with Stage 1 or 
Stage 2 noise limits (as applicable).
Sec. C36.5  Noise levels.
    (a) Limits. Except as provided in paragraphs (b) and (c) of this 
section, it must be shown by flight test that the noise levels of the 
airplane, at the measuring points described in section C36.3, do not 
exceed the following (with appropriate interpolation between weights);
    (1) Stage 1 noise limits for acoustical changes for airplanes 
regardless of the number of engines are those noise levels prescribed 
under Sec. 36.7(c) of this part.
    (2) Stage 2 noise limits for airplanes regardless of the number of 
engines are as follows:
    (i) For takeoff. 108 EPNdB for maximum weights of 600,000 pounds or 
more, reduced by 5 EPNdB per halving of the 600,000 pounds maximum 
weight down to 93 EPNdB for maximum weights of 75,000 pounds and less.
    (ii) For sideline and approach.--108 EPNdB for maximum weights of 
600,000 pounds or more, reduced by 2 EPNdB per halving of the 600,000 
pounds maximum weight down to 102 EPNdB for maximum weights of 75,000 
pounds and less.
    (3) Stage 3 noise limits are as follows:
    (i) For takeoff.
    (A) For airplanes with more than 3 engines. 106 EPNdB for maximum 
weights of 850,000 pounds or more, reduced by 4 EPNdB per halving of the 
850,000 pounds maximum weight down to 89 EPNdB for maximum weights of 
44,673 pounds or less;
    (B) For airplanes with 3 engines--104 EPNdB for maximum weights of 
850,000 pounds or more, reduced by 4 EPNdB per halving of the 850,000 
pounds maximum weight down to 89 EPNdB for maximum weights of 63,177 
pounds and less; and
    (C) For airplanes with fewer than 3 engines--101 EPNdB for maximum 
weights of 850,000 pounds or more, reduced by 4 EPNdB per halving of the 
850,000 pounds maximum weight down to 89 EPNdB for maximum weights of 
106,250 pounds and less.
    (ii) For sideline, regardless of the number of engines. 103 EPNdB 
for maximum weights of 882,000 pounds or more, reduced by 2.56 EPNdB per 
halving of the 882,000 pounds maximum weight down to 94 EPNdB for 
maximum weights of 77,200 pounds or less.
    (iii) For approach, regardless of the number of engines--105 EPNdB 
for maximum weights of 617,300 pounds or more, reduced by 2.33 EPNdB per 
halving of the 617,300 pounds weight down to 98 EPNdB for maximum 
weights of 77,200 pounds or less.
    (b) Tradeoffs. Except to the extent limited under Secs. 36.7(c)(1) 
and 36.7(d)(3)(i)(B) of this part, the noise level limits prescribed in 
paragraph (a) of this section may be exceeded at one or two of the 
measuring points specified in section C36.3 of this appendix, if--
    (1) The sum of the exceedances is not greater than 3 EPNdB;
    (2) No exceedance is greater than 2 EPNdB; and
    (3) The exceedances are completely offset by reductions at other 
required measuring points.
Sec. C36.7  Takeoff Reference and Test Limitations.

    (a) This section applies to all takeoff noise tests conducted under 
this appendix in showing compliance with this part.
    (b) Takeoff power or thrust must be used from the start of takeoff 
roll to at least the following altitude above the runway:
    (1) For Stage 1 airplanes and for Stage 2 airplanes that do not have 
turbojet engines with a bypass ratio of 2 or more, the following apply:
    (i) For airplanes with more than three turbojet engines--700 feet 
(214 meters).
    (ii) For all other airplanes--1,000 feet (305 meters).
    (2) For Stage 2 airplanes that have turbojet engines with a bypass 
ratio of 2 or more and for Stage 3 airplane, the following apply:
    (i) For airplanes with more than three turbojet engines--689 feet 
(210 meters).
    (ii) For airplanes with three turbojet engines--853 feet (260 
meters).
    (iii) For airplanes with fewer than three turbojet engines--984 feet 
(300 meters).
    (iv) For airplanes not powered by turbojet engines--1,000 feet (305 
meters).

[[Page 822]]

    (c) Upon reaching the altitude specified in paragraph (b) of this 
section, the power or thrust may not be reduced below that needed to 
maintain level flight with one engine inoperative, or to maintain a four 
percent climb gradient, whichever power or thrust is greater.
    (d) A constant takeoff configuration, selected by the applicant, 
must be maintained throughout the takeoff noise test, except that the 
landing gear may be retracted.
    (e) For applications made for subsonic airplanes after September 17, 
1971, and for Concorde airplanes, the following apply:
    (1) For subsonic airplanes the test day speeds and the acoustic day 
reference speed must be the minimum approved value of V2+10 
knots, or the all-engines-operating speed at 35 feet (for turbine engine 
powered airplanes) or 50 feet (for reciprocating engine powered 
airplanes), whichever speed is greater as determined under the 
regulations constituting the type certification basis of the airplane. 
These tests must be conducted at the test day 
speedsplus-minus3 knots. Noise values measured at the test 
day speeds must be corrected to the acoustic day reference speed.
    (2) For Concorde airplanes, the test day speeds and the acoustic day 
reference speed must be the minimum approved value of V2 +35 
knots, or the all-engines-operating speed at 35 feet, whichever speed is 
greater as determined under the regulations constituting the type 
certification basis of the airplane, except that the reference speed may 
not exceed 250 knot. These tests must be conducted at the test day 
speeds plus-minus3 knots. Noise values measured at the test 
day speeds must be corrected to the acoustic day reference speed.
    (3) If a negative runway gradient exists in the direction of 
takeoff, performance and acoustic data must be corrected to the zero 
slope condition.

Sec. C36.9  Approach reference and test limitations.

    (a) This section applies to all approaches conducted in showing 
compliance with this part.
    (b) The airplane's configuration must be that used in showing 
compliance with the landing requirements in the airworthiness 
regulations constituting the type certification basis of the airplane. 
If more than one configuration is used in showing compliance with the 
landing requirements in the airworthiness regulations constituting the 
type certification basis of the airplane, the configuration that is most 
critical from a noise standpoint must be used.
    (c) The approaches must be conducted with a steady glide angle of 
3 deg.plus-minus0.5 deg. and must be continued to a normal 
touchdown with no airframe configuration change.
    (d) All engines must be operating at approximately the same power or 
thrust.
    (e) For applications made for subsonic airplanes after September 17, 
1971, and for Concorde airplanes, the following apply:
    (1) For subsonic airplanes a steady approach speed, that is either 
1.30 Vs +10 knots or the speed used in establishing the approved landing 
distance under the airworthiness regulations constituting the type 
certification basis of the airplane, whichever speed is greatest, must 
be established and maintained over the approach measuring point.
    (2) For Concorde airplanes a steady approach speed, that is either 
the landing reference speed + 10 knots or the speed used in establishing 
the approved landing distance under the airworthiness regulations 
constituting the type certification basis of the airplane, whichever 
speed is greater, must be established and maintained over the approach 
measuring point.
    (3) A tolerance of plus-minus3 knots may be used 
throughout the approach noise testing.

[Doc. No. 9337, 34 FR 18364, Nov. 18, 1969, as amended by Amdt. 36-1, 34 
FR 18815, Nov. 25, 1969; 34 FR 19025, Nov. 29, 1969; Amdt. 36-5, 41 FR 
35058, Aug. 19, 1976, Amdt. 36-7, 42 FR 12371, Mar. 3, 1977; Amdt. 36-8, 
43 FR 8730, Mar. 2, 1978; Amdt. 36-10, 43 FR 28420, June 29, 1978; 43 FR 
44475, Sept. 28, 1978; 43 FR 47489, Oct. 16, 1978; Amdt. 36-12, 46 FR 
33465, June 29, 1981; Amdt. 36-15, 53 FR 16372, May 6, 1988]

                  Appendixes D-E to Part 36 [Reserved]

 Appendix F to Part 36--Flyover Noise Requirements for Propeller-Driven 
    Small Airplane and Propeller-Driven, Commuter Category Airplane 
             Certification Tests Prior to December 22, 1988

                             part a--general

Sec.
F36.1  Scope.

                        part b--noise measurement

F36.101  General test conditions.
F36.103  Acoustical measurement system.
F36.105  Sensing, recording, and reproducing equipment.
F36.107  Noise measurement procedures.
F36.109  Data recording, reporting, and approval.
F36.111  Flight procedures.

                         part c--data correction

F36.201  Correction of data.
F36.203  Validity of results.

                          part d--noise limits

F36.301  Aircraft noise limits.

[[Page 823]]

                             part a--general

    Section F36.1 Scope. This appendix prescribes noise level limits and 
procedures for measuring and correcting noise data for the propeller 
driven small airplanes specified in Secs. 36.1 and 36.501(b).

                        part b--noise measurement

Sec. F36.101   General test conditions.

    (a) The test area must be relatively flat terrain having no 
excessive sound absorption characteristics such as those caused by 
thick, matted, or tall grass, by shrubs, or by wooded areas. No 
obstructions which significantly influence the sound field from the 
airplane may exist within a conical space above the measurement 
position, the cone being defined by an axis normal to the ground and by 
a half-angle 75 degrees from this axis.
    (b) The tests must be carried out under the following conditions:
    (1) There may be no precipitation.
    (2) Relative humidity may not be higher than 90 percent or lower 
than 30 percent.
    (3) Ambient temperature may not be above 86 degrees F. or below 41 
degrees F. at 33' above ground. If the measurement site is within 1 n.m. 
of an airport thermometer the airport reported temperature may be used.
    (4) Reported wind may not be above 10 knots at 33' above ground. If 
wind velocities of more than 4 knots are reported, the flight direction 
must be aligned to within plus-minus15 degrees of wind 
direction and flights with tail wind and head wind must be made in equal 
numbers. If the measurement site is within 1 n.m. of an airport 
anemometer, the airport reported wind may be used.
    (5) There may be no temperature inversion or anomalous wind 
conditions that would significantly alter the noise level of the 
airplane when the noise is recorded at the required measuring point.
    (6) The flight test procedures, measuring equipment, and noise 
measurement procedures must be approved by the FAA.
    (7) Sound pressure level data for noise evaluation purposes must be 
obtained with acoustical equipment that complies with section F36.103 of 
this appendix.

Sec. F36.103   Acoustical measurement system. The acoustical measurement 
          system must consist of approved equipment equivalent to the 
          following:

    (a) A microphone system with frequency response compatible with 
measurement and analysis system accuracy as prescribed in section 
F36.105 of this appendix.
    (b) Tripods or similar microphone mountings that minimize 
interference with the sound being measured.
    (c) Recording and reproducing equipment characteristics, frequency 
response, and dynamic range compatible with the response and accuracy 
requirements of section F36.105 of this appendix.
    (d) Acoustic calibrators using sine wave or broadband noise of known 
sound pressure level. If broadband noise is used, the signal must be 
described in terms of its average and maximum root-mean-square (rms) 
value for nonoverload signal level.

Sec. F36.105   Sensing, recording, and reproducing equipment.

    (a) The noise produced by the airplane must be recorded. A magnetic 
tape recorder is acceptable.
    (b) The characteristics of the system must comply with the 
recommendations in International Electrotechnical Commission (IEC) 
Publication No. 179, entitled ``Precision Sound Level Meters'' as 
incorporated by reference in Part 36 under Sec. 36.6 of this part.
    (c) The response of the complete system to a sensibly plane 
progressive sinusoidal wave of constant amplitude must lie within the 
tolerance limits specified in IEC Publication No. 179, dated 1973, over 
the frequency range 45 to 11,200 Hz.
    (d) If limitations of the dynamic range of the equipment make it 
necessary, high frequency pre-emphasis must be added to the recording 
channel with the converse de-emphasis on playback. The pre-emphasis must 
be applied such that the instantaneous recorded sound pressure level of 
the noise signal between 800 and 11,200 Hz does not vary more than 20 dB 
between the maximum and minimum one-third octave bands.
    (e) If requested by the Administrator, the recorded noise signal 
must be read through an ``A'' filter with dynamic characteristics 
designated ``slow,'' as defined in IEC Publication No. 179, dated 1973. 
The output signal from the filter must be fed to a rectifying circuit 
with square law rectification, integrated with time constants for charge 
and discharge of about 1 second or 800 milliseconds.
    (f) The equipment must be acoustically calibrated using facilities 
for acoustic freefield calibration and if analysis of the tape recording 
is requested by the Administrator, the analysis equipment shall be 
electronically calibrated by a method approved by the FAA.
    (g) A windscreen must be employed with microphone during all 
measurements of aircraft noise when the wind speed is in excess of 6 
knots.

Sec. F36.107   Noise measurement procedures.

    (a) The microphones must be oriented in a known direction so that 
the maximum sound received arrives as nearly as possible in the 
direction for which the microphones are calibrated. The microphone 
sensing elements must be approximately 4' above ground.
    (b) Immediately prior to and after each test; a recorded acoustic 
calibration of the

[[Page 824]]

system must be made in the field with an acoustic calibrator for the two 
purposes of checking system sensitivity and providing an acoustic 
reference level for the analysis of the sound level data.
    (c) The ambient noise, including both acoustical background and 
electrical noise of the measurement systems, must be recorded and 
determined in the test area with the system gain set at levels that will 
be used for aircraft noise measurements. If aircraft sound pressure 
levels do not exceed the background sound pressure levels by at least 10 
dB(A), approved corrections for the contribution of background sound 
pressure level to the observed sound pressure level must be applied.

Sec. F36.109   Data recording, reporting, and approval.

    (a) Data representing physical measurements or corrections to 
measured data must be recorded in permanent form and appended to the 
record except that corrections to measurements for normal equipment 
response deviations need not be reported. All other corrections must be 
approved. Estimates must be made of the individual errors inherent in 
each of the operations employed in obtaining the final data.
    (b) Measured and corrected sound pressure levels obtained with 
equipment conforming to the specifications described in section F36.105 
of this appendix must be reported.
    (c) The type of equipment used for measurement and analysis of all 
acoustic, airplane performance, and meteorological data must be 
reported.
    (d) The following atmospheric data, measured immediately before, 
after, or during each test at the observation points prescribed in 
section F36.101 of this appendix must be reported:
    (1) Air temperature and relative humidity.
    (2) Maximum, minimum, and average wind velocities.
    (e) Comments on local topography, ground cover, and events that 
might interfere with sound recordings must be reported.
    (f) The following airplane information must be reported:
    (1) Type, model and serial numbers (if any) of airplanes, engines, 
and propellers.
    (2) Any modifications or nonstandard equipment likely to affect the 
noise characteristics of the airplane.
    (3) Maximum certificated takeoff weights.
    (4) Airspeed in knots for each overflight of the measuring point.
    (5) Engine performance in terms of revolutions per minute and other 
relevant parameters for each overflight.
    (6) Aircraft height in feet determined by a calibrated altimeter in 
the aircraft, approved photographic techniques, or approved tracking 
facilities.
    (g) Aircraft speed and position and engine performance parameters 
must be recorded at an approved sampling rate sufficient to ensure 
compliance with the test procedures and conditions of this appendix.

Sec. F36.111   Flight procedures.

    (a) Tests to demonstrate compliance with the noise level 
requirements of this appendix must include at least six level flights 
over the measuring station at a height of 1,000' 30' and 
10 degrees from the zenith when passing overhead.
    (b) Each test over flight must be conducted:
    (1) At not less than the highest power in the normal operating range 
provided in an Airplane Flight Manual, or in any combination of approved 
manual material, approved placard, or approved instrument markings; and
    (2) At stabilized speed with propellers synchronized and with the 
airplane in cruise configuration, except that if the speed at the power 
setting prescribed in this paragraph would exceed the maximum speed 
authorized in level flight, accelerated flight is acceptable.

                         part c--data correction

Sec. F36.201   Correction of data.

    (a) Noise data obtained when the temperature is outside the range of 
68 degrees F. plus-minus9 degrees F., or the relative 
humidity is below 40 percent, must be corrected to 77 degrees F. and 70 
percent relative humidity by a method approved by the FAA.
    (b) The performance correction prescribed in paragraph (c) of this 
section must be used. It must be determined by the method described in 
this appendix, and must be added algebraically to the measured value. It 
is limited to 5dB(A).
    (c) The performance correction must be computed by using the 
following formula:
[GRAPHIC] [TIFF OMITTED] TC28SE91.113


[[Page 825]]


Where:
D50=Takeoff distance to 50 feet at maximum certificated 
takeoff weight.
R/C=Certificated best rate of climb (fpm).
Vy=Speed for best rate of climb in the same units as rate of climb.

    (d) When takeoff distance to 50' is not listed as approved 
performance information, the figures of 2000 for single-engine airplanes 
and 1600' for multi-engine airplanes must be used.

Sec. F36.203   Validity of results.

    (a) The test results must produce an average dB(A) and its 90 
percent confidence limits, the noise level being the arithmetic average 
of the corrected acoustical measurements for all valid test runs over 
the measuring point.
    (b) The samples must be large enough to establish statistically a 90 
pecent confidence limit not to exceed plus-minus1.5 dB(A). No 
test result may be omitted from the averaging process, unless omission 
is approved by the FAA.

                          part d--noise limits

Sec. F36.301   Aircraft noise limits.

    (a) Compliance with this section must be shown with noise data 
measured and corrected as prescribed in Parts B and C of this appendix.
    (b) For airplanes for which application for a type certificate is 
made on or after October 10, 1973, the noise level must not exceed 68 
dB(A) up to and including aircraft weights of 1,320 pounds (600 kg.). 
For weights greater than 1,320 pounds up to and including 3,630 pounds 
(1.650 kg.) the limit increases at the rate of 1 dB/165 pounds (1 dB/75 
kg.) to 82 dB(A) at 3,630 pounds, after which it is constant at 82 
dB(A). However, airplanes produced under type certificates covered by 
this paragraph must also meet paragraph (d) of this section for the 
original issuance of standard airworthiness certificates or restricted 
category airworthiness certificates if those airplanes have not had 
flight time before the date specified in that paragraph.
    (c) For airplanes for which application for a type certificate is 
made on or after January 1, 1975, the noise levels may not exceed the 
noise limit curve prescribed in paragraph (b) of this section, except 
that 80 dB(A) may not be exceeded.
    (d) For airplanes for which application is made for a standard 
airworthiness certificate or for a restricted category airworthiness 
certificate, and that have not had any flight time before January 1, 
1980, the requirements of paragraph (c) of this section apply, 
regardless of date of application, to the original issuance of the 
certificate for that airplane.

[Doc. No. 13243, 40 FR 1035, Jan. 6, 1975; 40 FR 6347, Feb. 11, 1975, as 
amended by Amdt. 36-6, 41 FR 56064, Dec. 23, 1976; Amdt. 36-6, 42 FR 
4113, Jan. 24, 1977; Amdt. 36-9, 43 FR 8754, Mar. 2, 1978; Amdt. 36-13, 
52 FR 1836, Jan. 15, 1987; Amdt. 36-16, 53 FR 47400, Nov. 22, 1988]

 Appendix G to Part 36--Takeoff Noise Requirements for Propeller-Driven 
    Small Airplane and Propeller-Driven, Commuter Category Airplane 
            Certification Tests on or After December 22, 1988

                             part a--general

Sec.
G36.1  Scope.

                        part b--noise measurement

G36.101  General Test Conditions.
G36.103  Acoustical measurement system.
G36.105  Sensing, recording, and reproducing equipment.
G36.107  Noise measurement procedures.
G36.109  Data recording, reporting, and approval.
G36.111  Flight procedures.

                        part c--data corrections

G36.201  Corrections to Test Results.
G36.203  Validity of results.

                          part d--noise limits

G36.301  Aircraft Noise Limits.

                             part a--general

Section G36.1 Scope. This appendix prescribes limiting noise levels and 
procedures for measuring noise and adjusting these data to standard 
conditions, for propeller driven small airplanes and propeller-driven, 
commuter category airplanes specified in Secs. 36.1 and 36.501(c).

                        part b--noise measurement

Sec. G36.101 General Test Conditions.

    (a) The test area must be relatively flat terrain having no 
excessive sound absorption characteristics such as those caused by 
thick, matted, or tall grass, by shrubs, or by wooded areas. No 
obstructions which significantly influence the sound field from the 
airplane may exist within a conical space above the measurement 
position, the cone being defined by an axis normal to the ground and by 
a half-angle 75 degrees from the normal ground axis.

[[Page 826]]

    (b) The tests must be carried out under the following conditions:
    (1) No precipitation;
    (2) Ambient air temperature between 36 and 95 degrees F (2.2 and 35 
degrees C);
    (3) Relative humidity between 20 percent and 95 percent, 
inclusively;
    (4) Wind speed may not exceed 10 knots (19 km/h) and cross wind may 
not exceed 5 knots (9 km/h), using a 30-second average;
    (5) No temperature inversion or anomalous wind condition that would 
significantly alter the noise level of the airplane when the nose is 
recorded at the required measuring point, and
    (6) The meteorological measurements must be made between 4 ft. (1.2 
m) and 33 ft. (10 m) above ground level. If the measurement site is 
within 1 n.m. of an airport meteorological station, measurements from 
that station may be used.
    (c) The flight test procedures, measuring equipment, and noise 
measurement procedures must be approved by the FAA.
    (d) Sound pressure level data for noise evaluation purposes must be 
obtained with acoustical equipment that complies with section G36.103 of 
this appendix.
Sec. G36.103 Acoustical Measurement System.
    The acoustical measurement system must consist of approved equipment 
with the following characteristics: (a) A microphone system with 
frequency response compatible with measurement and analysis system 
accuracy as prescribed in section G36.105 of this appendix.
    (b) Tripods or similar microphone mountings that minimize 
interference with the sound being measured.
    (c) Recording and reproducing equipment characteristics, frequency 
response, and dynamic range compatible with the response and accuracy 
requirements of section G36.105 of this appendix.
    (d) Acoustic calibrators using sine wave or broadband noise of known 
sound pressure level. If broadband noise is used, the signal must be 
described in terms of its average and maximum root-mean-square (rms) 
value for non-overload signal level.

Sec. G36.105 Sensing, Recording, and Reproducing Equipment.

    (a) The noise produced by the airplane must be recorded. A magnetic 
tape recorder, graphic level recorder, or sound level meter is 
acceptable when approved by the regional certificating authority.
    (b) The characteristics of the complete system must comply with the 
requirements in International Electrotechnical Commission (IEC) 
Publications No. 651, entitled ``Sound Level Meters'' and No. 561, 
entitled ``Electro-acoustical Measuring Equipment for Aircraft Noise 
Certification'' as incorporated by reference under Sec. 36.6 of this 
part. Sound level meters must comply with the requirements for Type 1 
sound level meters as specified in IEC Publication No. 651.
    (c) The response of the complete system to a sensibly plane 
progressive sinusoidal wave of constant amplitude must be within the 
tolerance limits specified in IEC Publication No. 651, over the 
frequency range 45 to 11,200 Hz.
    (d) If equipment dynamic range limitations make it necessary, high 
frequency pre-emphasis must be added to the recording channel with the 
converse de-emphasis on playback. The pre-emphasis must be applied such 
that the instantaneous recorded sound pressure level of the noise signal 
between 800 and 11,200 Hz does not vary more than 20 dB between the 
maximum and minimum one-third octave bands.
    (e) The output noise signal must be read through an ``A'' filter 
with dynamic characteristics designated ``slow'' as defined in IEC 
Publication No. 651. A graphic level recorder, sound level meter, or 
digital equivalent may be used.
    (f) The equipment must be acoustically calibrated using facilities 
for acoustic free-field calibration and if analysis of the tape 
recording is requested by the Administrator, the analysis equipment 
shall be electronically calibrated by a method approved by the FAA. 
Calibrations shall be performed, as appropriate, in accordance with 
paragraph A36.3(e) of appendix A of this part.
    (g) A windscreen must be employed with the microphone during all 
measurements of aircraft noise when the wind speed is in excess of 5 
knots (9 km/hr).

Sec. G36.107  Noise Measurement Procedures.

    (a) The microphone must be a pressure type, 12.7 mm in diameter, 
with a protective grid, mounted in an inverted position such that the 
microphone diaphragm is 7 mm above and parallel to a white-painted metal 
circular plate. This white-painted metal plate shall be 40 cm in 
diameter and at least 2.5 mm thick. The plate shall be placed 
horizontally and flush with the surrounding ground surface with no 
cavities below the plate. The microphone must be located three-quarters 
of the distance from the center to the back edge of the plate along a 
radius normal to the line of flight of the test airplane.
    (b) Immediately prior to and after each test, a recorded acoustic 
calibration of the system must be made in the field with an acoustic 
calibrator for the purposes of checking system sensitivity and providing 
an acoustic reference level for the analysis of the sound level data. If 
a tape recorder or graphic level recorder is used, the frequency 
response of the electrical system must be determined at a level within 
10 dB of the full-scale reading used during the test, utilizing pink or 
pseudorandom noise.

[[Page 827]]

    (c) The ambient noise, including both acoustic background and 
electrical systems noise, must be recorded and determined in the test 
area with the system gain set at levels which will be used for aircraft 
noise measurements. If aircraft sound pressure levels do not exceed the 
background sound pressure levels by at least 10 dB(A), a takeoff 
measurement point nearer to the start of the takeoff roll must be used 
and the results must be adjusted to the reference measurement point by 
an approved method.

Sec. G36.109  Data Recording, Reporting, and Approval.

    (a) Data representing physical measurements and adjustments to 
measured data must be recorded in permanent form and appended to the 
record, except that corrections to measurements for normal equipment 
response deviations need not be reported. All other adjustments must be 
approved. Estimates must be made of the individual errors inherent in 
each of the operations employed in obtaining the final data.
    (b) Measured and corrected sound pressure levels obtained with 
equipment conforming to the specifications in section G36.105 of this 
appendix must be reported.
    (c) The type of equipment used for measurement and analysis of all 
acoustical, airplane performance, and meteorological data must be 
reported.
    (d) The following atmospheric data, measured immediately before, 
after, or during each test at the observation points prescribed in 
section G36.101 of this appendix must be reported:
    (1) Ambient temperature and relative humidity.
    (2) Maximum and average wind speeds and directions for each run.
    (e) Comments on local topography, ground cover, and events that 
might interfere with sound recordings must be reported.
    (f) The aircraft position relative to the takeoff reference flight 
path must be determined by an approved method independent of normal 
flight instrumentation, such as radar tracking, theodolite 
triangulation, or photographic scaling techniques.
    (g) The following airplane information must be reported:
    (1) Type, model, and serial numbers (if any) of airplanes, engines, 
and propellers;
    (2) Any modifications or nonstandard equipment likely to affect the 
noise characteristics of the airplane;
    (3) Maximum certificated takeoff weight;
    (4) For each test flight, airspeed and ambient temperature at the 
flyover altitude over the measuring site determined by properly 
calibrated instruments;
    (5) For each test flight, engine performance parameters, such as 
manifold pressure or power, propeller speed (rpm) and other relevant 
parameters. Each parameter must be determined by properly calibrated 
instruments. For instance, propeller RPM must be validated by an 
independent device accurate to within 1 percent, when the 
airplane is equipped with a mechanical tachometer.
    (6) Airspeed, position, and performance data necessary to make the 
corrections required in section G36.201 of this appendix must be 
recorded by an approved method when the airplane is directly over the 
measuring site.

Sec. G36.111  Flight Procedures.

    (a) The noise measurement point is on the extended centerline of the 
runway at a distance of 8200 ft (2500 m) from the start of takeoff roll. 
The aircraft must pass over the measurement point within 10 
degrees from the vertical and within 20% of the reference altitude. The 
flight test program shall be initiated at the maximum approved takeoff 
weight and the weight shall be adjusted back to this maximum weight 
after each hour of flight time. Each flight test must be conducted at 
the speed for the best rate of climb (Vy) 5 knots 
(9 km/hour) indicated airspeed. All test, measurement, and 
data correction procedures must be approved by the FAA.
    (b) The takeoff reference flight path must be calculated for the 
following atmospheric conditions:
    (1) Sea level atmospheric pressure of 1013.25 mb (013.25 hPa);
    (2) Ambient air temperature of 59  deg.F (15  deg.C);
    (3) Relative humidity of 70 percent; and
    (4) Zero wind.
    (c) The takeoff reference flight path must be calculated assuming 
the following two segments:
    (1) First segment.
    (i) Takeoff power must be used from the brake release point to the 
point at which the height of 50 ft (15m) above the runway is reached.
    (ii) A constant takeoff configuration selected by the applicant must 
be maintained through this segment.
    (iii) The maximum weight of the airplane at brake-release must be 
the maximum for which noise certification is requested.
    (iv) The length of this first segment must correspond to the 
airworthiness approved value for a takeoff on a level paved runway (or 
the corresponding value for seaplanes).
    (2) Second segment.
    (i) The beginning of the second segment corresponds to the end of 
the first segment.
    (ii) The airplane must be in the climb configuration with landing 
gear up, if retractable, and flap setting corresponding to normal climb 
position throughout this second segment.
    (iii) The airplane speed must be the speed for the best rate of 
climb (Vy).
    (iv) Maximum continuous installed power and rpm for variable pitch 
propeller(s) shall

[[Page 828]]

be used. For fixed pitch propeller(s), the maximum power and rpm that 
can be delivered by the engine(s) must be maintained throughout the 
second segment.

                        part c--data corrections

Sec. G36.201 Corrections to Test Results.

    (a) These corrections account for the effects of:
    (1) Differences in atmospheric absorption of sound between 
meteorological test conditions and reference conditions.
    (2) Differences in the noise path length between the actual airplane 
flight path and the reference flight path.
    (3) The change in the helical tip Mach number between test and 
reference conditions.
    (4) The change in the engine power between test and reference 
conditions.
    (b) Atmospheric absorption correction is required for noise data 
obtained when the test conditions are outside those specified in Figure 
G1. Noise data outside the applicable range must be corrected to 59 F 
and 70 percent relative humidity by an FAA approved method.
[GRAPHIC] [TIFF OMITTED] TR13OC99.001

    (c) Helical tip Mach number and power corrections must be made as 
follows:
    (1) Corrections for helical tip Mach number and power corrections 
must be made if--
    (i) The propeller is a variable pitch type; or
    (ii) The propeller is a fixed pitch type and the test power is not 
within 5 percent of the reference power.
    (2) No corrections for helical tip Mach number variation need to be 
made if the propeller helical tip Mach number is:
    (i) At or below 0.70 and the test helical tip Mach number is within 
0.014 of the reference helical tip Mach number.
    (ii) Above 0.70 and at or below 0.80 and the test helical tip Mach 
number is within 0.007 of the reference helical tip Mach number.
    (iii) Above 0.80 and the test helical tip Mach number is within 
0.005 of the reference helical tip Mach number. For mechanical 
tachometers, if the helical tip Mach number is above 0.8 and the test 
helical tip Mach number is within 0.008 of the reference helical tip 
Mach number.
    (d) When the test conditions are outside those specified, 
corrections must be applied by an approved procedure or by the following 
simplified procedure:

[[Page 829]]

    (1) Measured sound levels must be corrected from test day 
meteorological conditions to reference conditions by adding an increment 
equal to
Delta (M) = (HT --0.7 HR) /1000

where HT is the height in feet under test conditions, 
HR is the height in feet under reference conditions when the 
aircraft is directly over the noise measurement point and  is 
the rate of absorption for the test day conditions at 500 Hz as 
specified in SAE ARP 866A, entitled ``Standard Values of Atmospheric 
Absorption as a function of Temperature and Humidity for use in 
Evaluating Aircraft Flyover Noise'' as incorporated by reference under 
Sec. 36.6.
    (2) Measured sound levels in decibels must be corrected for height 
by algebraically adding an increment equal to Delta (1). When test day 
conditions are within those specified in figure G1:

    Delta (1) = 22 log (HT/HR)

where HT is the height of the test aircraft when directly 
over the noise measurement point and HR is the reference 
height.
    When test day conditions are outside those specified in figure G1:
    Delta (1) = 20 log (HT/HR)

    (3) Measured sound levels in decibels must be corrected for helical 
tip Mach number by algebraically adding an increment equal to:
    Delta (2) = k log (MR/MT)

where MT and MR are the test and reference helical 
tip Mach numbers, respectively. The constant ``k'' is equal to the slope 
of the line obtained for measured values of the sound level in dB(A) 
versus helical tip Mach number. The value of k may be determined from 
approved data. A nominal value of k = 150 may be used when MT 
is smaller than MR. No correction may be made using the 
nominal value of k when MT is larger than MR. The 
reference helical tip Mach number MR is the Mach number 
corresponding to the reference conditions (RPM, airspeed, temperature) 
above the measurement point.
    (4) Measured sound levels in decibels must be corrected for engine 
power by algebraically adding an increment equal to

Delta(3) = K3 log (PR/PT)
where PR and PT are the test and reference engine 
powers respectively obtained from the manifold pressure/torque gauges 
and engine rpm. The value of K3 shall be determined from 
approved data from the test airplane. In the absence of flight test data 
and at the discretion of the Administrator, a value of K3 = 
17 may be used.

Sec. G36.203 Validity of Results.

    (a) The measuring point must be overflown at least six times. The 
test results must produce an average noise level (LAmax) 
value within a 90 percent confidence limit. The average noise level is 
the arithmetic average of the corrected acoustical measurements for all 
valid test runs over the measuring point.
    (b) The samples must be large enough to establish statistically a 90 
percent confidence limit not exceeding 1.5 dB(A). No test 
results may be omitted from the averaging process unless omission is 
approved by the FAA.

                          part d--noise limits

Sec. G36.301 Aircraft noise limits.

    (a) Compliance with this section must be shown with noise data 
measured and corrected as prescribed in Parts B and C of this appendix.
    (b) The noise level must not exceed 76 dB (A) up to and including 
aircraft weights of 1,320 pounds (600 kg). For aircraft weights greater 
than 1,320 pounds, the limit increases from that point with the 
logarithm of airplane weight at the rate of 9.83 dB (A) per doubling of 
weight, until the limit of 88 dB (A) is reached, after which the limit 
is constant up to and including 19,000 pounds (8,618 kg). Figure G2 
shows noise level limits vs airplane weight.

[[Page 830]]

[GRAPHIC] [TIFF OMITTED] TR13OC99.002


(Secs. 313(a), 603, and 611(b), Federal Aviation Act of 1958 as amended 
(49 U.S.C. 1354(a), 1423, and 1431(b)); sec. 6(c), Department of 
Transportation Act (49 U.S.C. 1655 (c)); Title I, National Environmental 
Policy Act of 1969 (42 U.S.C. 4321 et seq.); E. O. 11514, March 5, 1970 
and 14 CFR 11.45).

[Amdt. 36-16, 53 FR 47400, Nov. 22, 1988; 53 FR 50157, Dec. 13, 1988, as 
amended by Amdt. 36-22, 64 FR 55602, Oct. 13, 1999]

Appendix H to Part 36--Noise Requirements For Helicopters Under Subpart 
                                    H

Part A--Reference Conditions
Sec.

H36.1  General.
H36.3  Reference Test Conditions.
H36.5  Symbols and Units.

Part B--Noise Measurement Under Sec. 36.801

H36.101  Noise certification test and measurement conditions.
H36.103  Takeoff test conditions.
H36.105  Flyover test conditions.
H36.107  Approach test conditions.
H36.109  Measurement of helicopter noise received on the ground.
H36.111  Reporting and correcting measured data.
H36.113  Atmospheric attenuation of sound.

Part C--Noise Evaluation and Calculation Under Sec. 36.803

H36.201  Noise evaluation in EPNdB.
H36.203  Calculation of noise levels.
H36.205  Detailed data correction procedures.

Part D--Noise Limits Under Sec. 36.805

H36.301  Noise measurement, evaluation, and calculation.
H36.303  [Reserved]
H36.305  Noise levels.

                      Part A--Reference Conditions

    Section H36.1 General. This appendix prescribes noise requirements 
for helicopters specified under Sec. 36.1, including:
    (a) The conditions under which helicopter noise certification tests 
under Part H must be conducted and the measurement procedures that must 
be used under Sec. 36.801 to measure helicopter noise during each test;
    (b) The procedures which must be used under Sec. 36.803 to correct 
the measured data to the reference conditions and to calculate the noise 
evaluation quantity designated as Effective Perceived Noise Level 
(EPNL); and
    (c) The noise limits for which compliance must be shown under 
Sec. 36.805.
    Section H36.3 Reference Test Conditions.
    (a) Meteorological conditions. Aircraft position, performance data 
and noise measurements must be corrected to the following noise 
certification reference atmospheric conditions which shall be assumed to 
exist from the surface to the aircraft altitude:
    (1) Sea level pressure of 2116 psf (76 cm mercury).

[[Page 831]]

    (2) Ambient temperature of 77 degrees F (25 degrees C).
    (3) Relative humidity of 70 percent.
    (4) Zero wind.
    (b) Reference test site. The reference test site is flat and without 
line-of-sight obstructions across the flight path that encompasses the 
10 dB down points.
    (c) Takeoff reference profile. (1) Figure H1 illustrates a typical 
takeoff profile, including reference conditions.
    (2) The reference flight path is defined as a straight line segment 
inclined from the starting point (1640 feet prior to the center 
microphone location at 65 feet above ground level) at an angle 
defined by the certificated best rate of climb and Vy for 
minimum engine performance. The constant climb angle  is 
derived from the manufacturer's data (FAA-approved by the FAA) to define 
the flight profile for the reference conditions. The constant climb 
angle  is drawn through Cr and continues, crossing 
over station A, to the position corresponding to the end of the type 
certification takeoff path represented by position Ir.
    (d) Level flyover reference profile. The beginning of the level 
flyover reference profile is represented by helicopter position D 
(Figure H2). The helicopter approaches position D in level flight 492 
feet above ground level as measured at station A. Airspeed is stabilized 
at either 0.9 VH or 0.45 VH + 65 knots (0.45 
VH + 120 km/hr), whichever speed is less. Rotor speed is 
stabilized at the maximum continuous RPM throughout the 10 dB down time 
period. The helicopter crosses station A in level flight and proceeds to 
position J.
    (e) For noise certification purposes, VH is defined as 
the airspeed in level flight obtained using the minimum specification 
engine torque corresponding to maximum continuous power available for 
sea level, 25  deg.C ambient conditions at the relevant maximum 
certificated weight. The value of VH thus defined must be 
listed in the Rotorcraft Flight Manual.
    (f) Approach reference profile. (1) Figure H3 illustrates approach 
profile, including reference conditions.
    (i) The beginning of the approach profile is represented by 
helicopter position E. The position of the helicopter is recorded for a 
sufficient distance (EK) to ensure recording of the entire interval 
during which the measured helicopter noise level is within 10 dB of 
Maximum Tone Corrected Perceived Noise Level (PNLTM), as required. EK 
represents a stable flight condition in terms of torque, rpm, indicated 
airspeed, and rate of descent resulting in a 6 deg. 0.5 deg. 
approach angle.
    (ii) The approach profile is defined by the approach angle  
passing directly over the station A at a height of AH, to position K, 
which terminates the approach noise certification profile.
    (2) The helicopter approaches position H along a constant 6 deg. 
approach slope throughout the 10 dB down time period. The helicopter 
crosses position E and proceeds along the approach slope crossing over 
station A until it reaches position K.
    Section H36.5 Symbols and units. The following symbols and units as 
used in this appendix for helicopter noise certification have the 
following meanings.

                Flight Profile Identification--Positions
------------------------------------------------------------------------
             Position                           Description
------------------------------------------------------------------------
A................................  Location of the noise measuring point
                                    at the flight-track noise measuring
                                    station vertically below the
                                    reference (takeoff, flyover, or
                                    approach) flight path.
C................................  Start of noise certification takeoff
                                    flight path.
Cr...............................  Start of noise certification
                                    reference takeoff flight path.
D................................  Start of noise certification flyover
                                    flight path.
Dr...............................  Start of noise certification
                                    reference flyover path.
E................................  Start of noise certification approach
                                    flight path.
Er...............................  Start of noise certification
                                    reference approach flight path.
F................................  Position on takeoff flight path
                                    directly above noise measuring
                                    station A.
G................................  Position on flyover flight path
                                    directly above noise measuring
                                    station A.
H................................  Position on approach flight path
                                    directly above noise measuring
                                    station A.
I................................  End of noise type certification
                                    takeoff flight path.
Ir...............................  End of noise type certification
                                    reference takeoff flight path.
J................................  End of noise type certification
                                    flyover flight path.
Jr...............................  End of noise type certification
                                    reference flyover flight path.
K................................  End of noise certification approach
                                    type flight path.
Kr...............................  End of noise type certification
                                    reference approach flight path.
L................................  Position on measured takeoff flight
                                    path corresponding to PNLTM at
                                    station A.
Lr...............................  Position on reference takeoff flight
                                    path corresponding to PNLTM of
                                    station A.
M................................  Position on measured flyover flight
                                    path corresponding to PNLTM of
                                    station A.
Mr...............................  Position on reference flyover flight
                                    path corresponding to PNLTM of
                                    station A.
N................................  Position on measured approach flight
                                    path corresponding to PNLTM at
                                    station A.

[[Page 832]]

 
Nr...............................  Position on reference approach flight
                                    path corresponding to PNLTM at
                                    station A.
S................................  Position on measured approach path
                                    nearest to station A.
Sr...............................  Position on reference approach path
                                    nearest to station A.
T................................  Position on measured takeoff path
                                    nearest to station A.
Tr...............................  Position on reference takeoff path
                                    nearest to station A.
------------------------------------------------------------------------


                        Flight Profile Distances
------------------------------------------------------------------------
        Distance                Unit                   Meaning
------------------------------------------------------------------------
AF.....................  Feet..............  Takeoff Height. The
                                              vertical distance between
                                              helicopter and station A.
AG.....................  Feet..............  Flyover Height. The
                                              vertical distance between
                                              the helicopter and station
                                              A.
AH.....................  Feet..............  Approach Height. The
                                              vertical distance between
                                              the helicopter and station
                                              A.
AL.....................  Feet..............  Measured Takeoff Noise
                                              Path. The distance from
                                              station A to the measured
                                              helicopter position L.
ALr....................  Feet..............  Reference Takeoff Noise
                                              Path. The distance from
                                              station A to the reference
                                              helicopter position Lr.
AM.....................  Feet..............  Measured Flyover Noise
                                              Path. The distance from
                                              station A to the measured
                                              helicopter position M.
AMr....................  Feet..............  Reference Flyover Noise
                                              Path. The distance from
                                              station A to helicopter
                                              position Mr on the
                                              reference flyover flight
                                              path.
AN.....................  Feet..............  Measured Approach Noise
                                              Path. The distance from
                                              station A to the measured
                                              helicopter noise position
                                              N.
ANr....................  Feet..............  Reference Approach Noise
                                              Path. The distance from
                                              station A to the reference
                                              helicopter position Nr.
AS.....................  Feet..............  Measured Approach Minimum
                                              Distance. The distance
                                              from station A to the
                                              position S on the measured
                                              approach flight path.
ASr....................  Feet..............  Reference Approach Minimum
                                              Distance. The distance
                                              from station A to the
                                              position Sr on the
                                              reference approach flight
                                              path.
AT.....................  Feet..............  Measured Takeoff Minimum
                                              Distance. The distance
                                              from station A to the
                                              position T on the measured
                                              takeoff flight path.
ATr....................  Feet..............  Reference Takeoff Minimum
                                              Distance. The distance
                                              from station A to the
                                              position Tr on the
                                              reference takeoff flight
                                              path.
CI.....................  Feet..............  Takeoff Flight Path
                                              Distance. The distance
                                              from position C at which
                                              the helicopter establishes
                                              a constant climb angle on
                                              the takeoff flight path
                                              passing over station A and
                                              continuing to position I
                                              at which the position of
                                              the helicopter need no
                                              longer be recorded.
DJ.....................  Feet..............  Flyover Flight Path
                                              Distance. The distance
                                              from position D at which
                                              the helicopter is
                                              established on the flyover
                                              flight path passing over
                                              station A and continuing
                                              to position J at which the
                                              position of the helicopter
                                              need no longer be
                                              recorded.
EK.....................  Feet..............  Approach Flight Path
                                              Distance. The distance
                                              from position E at which
                                              the helicopter establishes
                                              a constant angle on the
                                              approach flight path
                                              passing over station A and
                                              continuing to position K
                                              at which the position of
                                              the helicopter need no
                                              longer be recorded.
------------------------------------------------------------------------

               Part B--Noise Measurement Under Sec. 36.801

    Section H36.101 Noise certification test and measurement conditions.
    (a) General. This section prescribes the conditions under which 
aircraft noise certification tests must be conducted and the measurement 
procedures that must be used to measure helicopter noise during each 
test.
    (b) Test site requirements. (1) Tests to show compliance with 
established helicopter noise certification levels must consist of a 
series of takeoffs, level flyovers, and approaches during which 
measurement must be taken at noise measuring stations located at the 
measuring points prescribed in this section.
    (2) Each takeoff test, flyover test, and approach test includes 
simultaneous measurements at the flight-track noise measuring station 
vertically below the reference flight path and at two sideline noise 
measuring stations, one on each side of the reference

[[Page 833]]

flight track 492 feet (150m) from, and on a line perpendicular to, the 
flight track of the noise measuring station.
    (3) The difference between the elevation of either sideline noise 
measuring station may not differ from the flight-track noise measuring 
station by more than 20 feet.
    (4) Each noise measuring station must be surrounded by terrain 
having no excessive sound absorption characteristics, such as might be 
caused by thick, matted, or tall grass, shrubs, or wooded areas.
    (5) During the period when the takeoff, flyover, or approach noise/
time record indicates the noise measurement is within 10 dB of PNLTM, no 
obstruction that significantly influences the sound field from the 
aircraft may exist--
    (i) For any flight-track or sideline noise measuring station, within 
a conical space above the measuring position (the point on the ground 
vertically below the microphone), the cone being defined by an axis 
normal to the ground and by half-angle 80 deg. from this axis; and
    (ii) For any sideline noise measuring station, above the line of 
sight between the microphone and the helicopter.
    (6) If a takeoff or flyover test series is conducted at weights 
other than the maximum takeoff weight for which noise certification is 
requested, the following additional requirements apply:
    (i) At least one takeoff test must be conducted at a weight at, or 
above, the maximum certification weight.
    (ii) Each test weight must be within +5 percent or -10 percent of 
the maximum certification weight.
    (iii) FAA-approved data must be used to determine the variation of 
EPNL with weight for takeoff test conditions.
    (7) Each approach test must be conducted with the aircraft 
stabilized and following a 6.0 degree 0.5 degree approach 
angle and must meet the requirements of section H36.107 of this part.
    (8) If an approach test series is conducted at weights other than 
the maximum landing weight for which certification is requested, the 
following additional requirements apply:
    (i) At least one approach test must be conducted at a weight at, or 
above, the maximum landing weight.
    (ii) Each test weight must exceed 90 percent of the maximum landing 
weight.
    (iii) FAA-approved data must be used to determine the variation of 
EPNL with weight for approach test conditions.
    (9) Aircraft performance data sufficient to make the corrections 
required under section H36.205 of this appendix must be recorded at an 
FAA-approved sampling rate using FAA approved equipment.
    (c) Weather restrictions. The tests must be conducted under the 
following atmospheric conditions:
    (1) No rain or other precipitation.
    (2) Ambient air temperature between 36  deg.F and 95  deg.F (2.2 
deg.C and 35  deg.C), inclusively, over that portion of the sound 
propagation path between the aircraft and a point 10 meters above the 
ground at the noise measuring station. The temperature and relative 
humidity measured at aircraft altitude and at 10 meters above ground 
shall be averaged and used to adjust for propagation path absorption.
    (3) Relative humidity and ambient temperature over the portion of 
the sound propagation path between the aircraft and a point 10 meters 
above the ground at the noise measuring station is such that the sound 
attenuation in the one-third octave band centered at 8 kHz is not 
greater than 12 dB/100 meters and the relative humidity is between 20 
percent and 95 percent, inclusively.
    (4) Wind velocity as measured at 10 meters above ground does not 
exceed 10 knots (19 km/h) and the crosswind component does not exceed 5 
knots (9 km/h). The wind shall be determined using a continuous thirty-
second averaging period spanning the 10dB down time interval.
    (5) No anomalous wind conditions (including turbulence) which will 
significantly affect the noise level of the aircraft when the noise is 
recorded at each noise measuring station.
    (6) The wind velocity, temperature, and relative humidity 
measurements required under the appendix must be measured in the 
vicinity of noise measuring stations 10 meters above the ground. The 
location of the meteorological measurements must be approved by the FAA 
as representative of those atmospheric conditions existing near the 
surface over the geographical area which aircraft noise measurements are 
made. In some cases, a fixed meteorological station (such as those found 
at airports or other facilities) may meet this requirement.
    (7) Temperature and relative humidity measurements must be obtained 
within 25 minutes of each noise test measurement. Meteorological data 
must be interpolated to actual times of each noise measurement.
    (d) Aircraft testing procedures. (1) The aircraft testing procedures 
and noise measurements must be conducted and processed in a manner which 
yields the noise evaluation measure designated as Effective Perceived 
Noise Level (EPNL) in units of EPNdB, as prescribed in appendix B of 
this part.
    (2) The aircraft height and lateral position relative to the 
centerline of the reference flight-track (which passes through the noise 
measuring point) must be determined by an FAA approved method which is 
independent of normal flight instrumentation, such as radar tracking, 
theodolite triangulation, laser trajectography, or photographic scaling 
techniques.
    (3) The aircraft position along the flight path must be related to 
the noise recorded at

[[Page 834]]

the noise measuring stations by means of synchronizing signals at an 
approved sampling rate. The position of the aircraft must be recorded 
relative to the runway during the entire time period in which the 
recorded signal is within 10 dB of PNLTM. Measuring and sampling 
equipment must be approved by the FAA.
    Section H36.103 Takeoff test conditions.
    (a) This section, in addition to the applicable requirements of 
sections H36.101 and H36.205(b) of this appendix, applies to all takeoff 
noise tests conducted under this appendix to show compliance with Part 
36.
    (b) A test series must consist of at least six flights over the 
flight-track noise measuring station (with simultaneous measurements at 
all three noise measuring stations) as follows:
    (1) An airspeed of either Vy5 knots or the 
lowest approved speed 5 knots for the climb after takeoff, 
whichever speed is greater, must be established during the horizontal 
portion of each test flight and maintained during the remainder of the 
test flight.
    (2) The horizontal portion of each test flight must be conducted at 
an altitude of 65 feet (20 meters) above the ground level at the flight-
track noise measuring station.
    (3) Upon reaching a point 1,640 feet (500 meters) from the noise 
measuring station, the helicopter shall be stabilized at:
    (i) The torque used to establish the takeoff distance for an ambient 
temperature at sea level of 25  deg.C for helicopters for which the 
determination of takeoff performance is required by airworthiness 
regulations; or
    (ii) The torque corresponding to minimum installed power available 
for an ambient temperature at sea level of 25 deg. C for all other 
helicopters.
    (4) The helicopter shall be maintained throughout the takeoff 
reference procedure at:
    (i) The speed used 5 knots to establish takeoff distance 
for an ambient temperature at sea level of 25 deg. C for helicopters for 
which the determination of takeoff performance is required by 
airworthiness regulations; or
    (ii) The best rate of climb speed Vy5 knots, 
or the lowest approved speed for climb after takeoff, whichever is 
greater, for an ambient temperature at sea level of 25 deg. C for all 
other helicopters.
    (5) The rotor speed must be stabilized at the normal operating RPM 
(1%) during the entire period of the test flight when the 
measured helicopter noise level is within 10 dB of PNLTM.
    (6) The helicopter must pass over the flight-track noise measuring 
station within 10 deg. from the zenith.
    Section H36.105 Flyover test conditions.
    (a) This section, in addition to the applicable requirements of 
sections H36.101 and H36.205(c) of this appendix, applies to all flyover 
noise tests conducted under this appendix to show compliance with Part 
36.
    (b) A test series must consist of at least six flights (three in 
each direction) over the flight-track noise measuring station (with 
simultaneous measurements at all three noise measuring stations)--
    (1) In level flight;
    (2) At a height of 492 feet 30 feet (1509 
meters) above the ground level at the flight-track noise measuring 
station; and
    (3) Within 5 deg. from the zenith.
    (c) Each flyover noise test must be conducted--
    (1) At a speed of 0.9 VH or 0.45 VH+120 km/hr 
(0.45 VH+65 kt), whichever is less, maintained throughout the 
measured portion of the flyover;
    (2) At rotor speed stabilized at the normal operating rotor RPM 
(1 percent); and
    (3) With the power stabilized during the period when the measured 
helicopter noise level is within 10 dB of PNLTM.
    (d) The airspeed shall not vary from the reference airspeed by more 
than 5 knots (9 km/hr).
    Section H36.107 Approach test conditions.
    (a) This section, in addition to the requirements of sections 
H36.101 and H36.205(d) of this appendix, applies to all approach tests 
conducted under this appendix to show compliance with Part 36.
    (b) A test series must consist of at least six flights over the 
flight-track noise measuring station (with simultaneous measurements at 
the three noise measuring stations)--
    (1) On an approach slope of 6 deg.0.5 deg.;
    (2) At a height of 39430 feet (1209 meters) 
above the ground level at the flight-track noise measuring station;
    (3) Within 10 deg. of the zenith;
    (4) At stabilized airspeed equal to the certificated best rate of 
climb Vy, or the lowest approved speed for approach, 
whichever is greater, with power stabilized during the approach and over 
the flight path reference point, and continued to a normal touchdown; 
and
    (5) At rotor speed stabilized at the maximum normal operating rotor 
RPM (1 percent).
    (c) The airspeed shall not vary from the reference airspeed by more 
than 5 knots (9 km/hr).
    Section H36.109 Measurement of helicopter noise received on the 
ground.
    (a) General. (1) The measurements prescribed in this section provide 
the data needed to determine the one-third octave band noise produced by 
an aircraft during testing, at specific noise measuring stations, as a 
function of time.
    (2) Sound pressure level data for aircraft noise certification 
purposes must be obtained with FAA-approved acoustical equipment and 
measurement practices.

[[Page 835]]

    (3) Paragraphs (b), (c), and (d) of this section prescribe the 
required equipment specifications. Paragraphs (e) and (f) prescribe the 
calibration and measurement procedures required for each certification 
test series.
    (b) Measurement system. The acoustical measurement system must 
consist of FAA-approved equipment equivalent to the following:
    (1) A microphone system with frequency response and directivity 
which are compatible with the measurement and analysis system accuracy 
prescribed in paragraph (c) of this section.
    (2) Tripods or similar microphone mountings that minimize 
interference with the sound energy being measured.
    (3) Recording and reproducing equipment, the characteristics, 
frequency response, and dynamic range of which are compatible with the 
response and accuracy requirements of paragraph (c) of this section.
    (4) Calibrators using sine wave, or pink noise, of known levels. 
When pink noise (defined in paragraph (e)(1) of this section) is used, 
the signal must be described in terms of its root-mean-square (rms) 
value.
    (5) Analysis equipment with the response and accuracy which meets or 
exceeds the requirements of paragraph (d) of this section.
    (6) Attenuators used for range changing in sensing, recording, 
reproducing, or analyzing aircraft sound must be capable of being 
operated in equal-interval decibel steps with no error between any two 
settings which exceeds 0.2 dB.
    (c) Sensing, recording, and reproducing equipment. (1) The sound 
produced by the aircraft must be recorded in such a way that the 
complete information, including time history, is retained. A magnetic 
tape recorder is acceptable.
    (2) The microphone must be a pressure-sensitive capacitive type, or 
its FAA-approved equivalent, such as a free-field type with incidence 
corrector.
    (i) The variation of microphone and preamplifier system sensitivity 
within an angle of 30 degrees of grazing (60-120 degrees 
from the normal to the diaphragm) must not exceed the following values:

------------------------------------------------------------------------
                                                              Change in
                       Frequency (Hz)                        sensitivity
                                                                 (dB)
------------------------------------------------------------------------
45 to 1,120................................................           1
1,120 to 2,240.............................................         1.5
2,240 to 4,500.............................................         2.5
4,500 to 7,100.............................................           4
7,100 to 11,200............................................           5
------------------------------------------------------------------------

With the windscreen in place, the sensitivity variation in the plane of 
the microphone diaphragm shall not exceed 1.0 dB over the frequency 
range 45 to 11,200 Hz.
    (ii) The overall free-field frequency response at 90 degrees 
(grazing incidence) of the combined microphone (including incidence 
corrector, if applicable) preamplifier, and windscreen must be 
determined by using either (A) an electrostatic calibrator in 
combination with manufacturer-provided corrections, or (B) an anechoic 
free-field facility. The calibration unit must include pure tones at 
each preferred one-third octave frequency from 50 Hz to 10,000 Hz. The 
frequency response (after corrections based on that determination) must 
be flat and within the following tolerances:

                                                 44-3,549 Hz............
                .....................................0.25 dB
                                               3,550-7,099 Hz...........
                  ....................................0.5 dB
                                              7,100-11,200 Hz...........
                   ...................................1.0 dB

    (iii) Specifications concerning sensitivity to environmental factors 
such as temperature, relative humidity, and vibration must be in 
conformity with the recommendations of International Electrotechnical 
Commission (IEC) Publication No. 179, entitled ``Precision Sound Level 
Meters'', as incorporated by reference under Sec. 36.6 of this part.
    (iv) If the wind speed exceeds 6 knots, a windscreen must be 
employed with the microphone during each measurement of aircraft noise. 
Correction for any insertion loss produced by the windscreen, as a 
function of frequency, must be applied to the measured data and any 
correction applied must be reported.
    (3) If a magnetic tape recorder is used to store data for subsequent 
analysis, the record/replay system (including tape) must conform to the 
following:
    (i) The electric background noise produced by the system in each 
one-third octave must be at least 35 dB below the standard recording 
level, which is defined as the level that is either 10 dB below the 3 
percent harmonic distortion level for direct recording or 40 
percent deviation for frequency modulation (FM) recording.
    (ii) At the standard recording level, the corrected frequency 
response in each selected one-third octave band between 44 Hz and 180 Hz 
must be flat and within 0.75 dB, and in each band between 
180 Hz and 11,200 Hz must be flat and within 0.25 dB.
    (iii) If the overall system satisfies the requirements of paragraph 
(c)(2)(ii) of this section, and if the limitations of the dynamic range 
of the equipment are insufficient to obtain adequate spectral 
information, high frequency pre-emphasis may be added to the recording 
channel with the converse de-emphasis on playback. If pre-emphasis is 
added, the instantaneously recorded sound-pressure level between 800 Hz 
and 11,200 Hz of the maximum measured noise signal must not vary more 
than 20 dB between the levels of the maximum and minimum one-third 
octave bands.

[[Page 836]]

    (d) Analysis equipment. (1) A frequency analysis of the acoustic 
signal must be performed using one-third octave filters which conform to 
the recommendations of International Electrotechnical Commission (IEC) 
Publication No. 225, entitled ``Octave, Half-Octave, and Third-Octave 
Band Filters Intended for Analysis of Sound and Vibrations,'' as 
incorporated by reference under Sec. 36.6 of this part.
    (2) A set of 24 consecutive one-third octave filters must be used. 
The first filter of the set must be centered at a geometric mean 
frequency of 50 Hz and the last filter at 10,000 Hz. The output of each 
filter must contain less than 0.5 dB ripple.
    (3) The analyzer indicating device may be either analog or digital, 
or a combination of both. The preferred sequence of signal processing 
is:
    (i) Squaring the one-third octave filter outputs;
    (ii) Averaging or integrating; and
    (iii) Converting linear formulation to logarithmic.
    (4) Each detector must operate over a minimum dynamic range of 60 dB 
and perform as a root-mean-square device for sinusoidal tone bursts 
having crest factors of at least 3 over the following dynamic range:
    (i) Up to 30 dB below full-scale reading must be accurate within 
0.5 dB;
    (ii) Between 30 dB and 40 dB below full-scale reading must be 
accurate within 1.0 dB; and
    (iii) In excess of 40 dB below full-scale reading must be accurate 
within 2.5 dB.
    (5) The averaging properties of the integrator must be tested as 
follows:
    (i) White noise must be passed through the 200 Hz one-third octave 
band filter and the output fed in turn to each detector/integrator. The 
standard deviation of the measured levels must then be determined from a 
statistically significant number of samples of the filtered white noise 
taken at intervals of not less than 5 seconds. The value of the standard 
deviation must be within the interval 0.480.06 dB for a 
probability limit of 95 percent. An approved equivalent method may be 
substituted for this test on those analyzers where the test signal 
cannot readily be fed directly to each detector/integrator.
    (ii) For each detector/integrator, the response to a sudden onset or 
interruption of a constant amplitude sinusoidal signal at the respective 
one-third octave band center frequency must be measured at sampling 
times 0.5, 1.0, 1.5, and 2.0 seconds after the onset or interruption. 
The rising responses must be in the following amounts before the steady-
state level:

0.5 seconds, 4.01.0 dB
1.0 seconds, 1.750.5 dB
1.5 seconds, 1.00.5 dB
2.0 seconds, 0.60.25 dB

    (iii) The falling response must be such that the sum of the decibel 
readings below the initial steady-state level, and the corresponding 
rising response reading is   6.5 1.0 dB, at both 0.5 and 1.0 
seconds and, on subsequent records, the sum of the onset plus decay must 
be greater than 7.5 decibels.
    Note 1: For analyzers with linear detection, an approximation of 
this response would be given by:


SPL (i, k)-10 log...................  [0.17 (100.1(Li,k-3))
                                      +10.21 (00.1(Li,k-2))
                                      +0.24 (100.1(Li,k-1))
                                      +0.33 (100.1(Li,k))]
 


    When this approximation is used, the calibration signal should be 
established without this weighting.
    Note 2: Some analyzers have been shown to have signal sampling rates 
that are insufficiently accurate to detect signals with crest factor 
ratios greater than three which is common to helicopter noise. 
Preferably, such analyzers should not be used for helicopter 
certification. Use of analysis systems with high signal sampling rates 
(greater than 40KHz) or those with analog detectors prior to 
digitization at the output of each one-third octave filter is 
encouraged.
    (iv) Analyzers using true integration cannot meet the requirements 
of (i), (ii), and (iii) directly, because their overall average time is 
greater than the sampling interval. For these analyzers, compliance must 
be demonstrated in terms of the equivalent output of the data processor. 
Further, in cases where readout and resetting require a dead-time during 
acquisition, the percentage loss of the total data must not exceed one 
percent.
    (6) The sampling interval between successive readouts shall not 
exceed 500 milliseconds and its precise value must be known to within 
1 one percent. The instant in time by which a readout is 
characterized shall be the midpoint of the average period where the 
averaging period is defined as twice the effective time constant of the 
analyzer.
    (7) The amplitude resolution of the analyzer must be at least 0.25 
dB.
    (8) After all systematic errors have been eliminated, each output 
level from the analyzer must be accurate within 1.0 dB of 
the level of the input signal. The total systematic errors for each of 
the output levels must not exceed 3.0 dB. For contiguous 
filter systems, the systematic corrections between adjacent one-third 
octave channels must not exceed 4.0 dB.
    (9) The dynamic range capability of the analyzer to display a single 
aircraft noise event, in terms of the difference between full-scale 
output level and the maximum

[[Page 837]]

noise level of the analyzer equipment, must be at least 60 dB.
    (e) Calibrations. (1) Within five days prior to beginning each test 
series, the complete electronic system, as installed in field including 
cables, must be electronically calibrated for frequency and amplitude by 
the use of a pink noise signal of known amplitudes covering the range of 
signal levels furnished by the microphone. For purposes of this section, 
``pink noise'' means a noise whose noise-power/unit-frequency is 
inversely proportional to frequency at frequencies within the range of 
44 Hz to 11,200 Hz. The signal used must be described in terms of its 
average root-mean-square (rms) values for a nonoverload signal level. 
This system calibration must be repeated within five days of the end of 
each test series, or as required by the FAA.
    (2) Immediately before and after each day's testing, a recorded 
acoustic calibration of the system must be made in the field with an 
acoustic calibrator to check the system sensitivity and provide an 
acoustic reference level for the sound level data analysis. The 
performance of equipment in the system will be considered satisfactory 
if, during each day's testing, the variation in the calibration value 
does not exceed 0.5 dB.
    (3) A normal incidence pressure calibration of the combined 
microphone/preamplifier must be performed with pure tones at each 
preferred one-third octave frequency from 50 Hz to 10,000 Hz. This 
calibration must be completed within 90 days prior to the beginning of 
each test series.
    (4) Each reel of magnetic tape must:
    (i) Be pistonphone calibrated; and
    (ii) At its beginning and end, carry a calibration signal consisting 
of at least a 15 second burst of pink noise, as defined in paragraph 
(e)(1) of this section.
    (5) Data obtained from tape recorded signals are not considered 
reliable if the difference between the pink noise signal levels, before 
and after the tests in each one-third octave band, exceeds 0.75 dB.
    (6) The one-third octave filters must have been demonstrated to be 
in conformity with the recommendations of IEC Publication 225 as 
incorporated by reference under Sec. 36.6 of this part, during the six 
calendar months preceding the beginning of each test series. However, 
the correction for effective bandwidth relative to the center frequency 
response may be determined for each filter by:
    (i) Measuring the filter response to sinusoidal signals at a minimum 
of twenty frequencies equally spaced between the two adjacent preferred 
one-third octave frequencies; or
    (ii) Using an FAA approved equivalent technique.
    (7) A performance calibration analysis of each piece of calibration 
equipment, including pistonphones, reference microphones, and voltage 
insert devices, must have been made during the six calendar months 
preceding the beginning of each day's test series. Each calibration must 
be traceable to the National Bureau of Standards.
    (f) Noise measurement procedures. (1) Each microphone must be 
oriented so that the diaphragm is substantially in the plane defined by 
the flight path of the aircraft and the measuring station. The 
microphone located at each noise measuring station must be placed so 
that its sensing element is approximately 4 feet above ground.
    (2) Immediately before and immediately after each series of test 
runs and each day's testing, acoustic calibrations of the system 
prescribed in this section of this appendix must be recorded in the 
field to check the acoustic reference level for the analysis of the 
sound level data. Ambient noise must be recorded for at least 10 seconds 
and be representative of the acoustical background, including system 
noise, that exists during the flyover test run. During that recorded 
period, each component of the system must be set at the gain-levels used 
for aircraft noise measurement.
    (3) The mean background noise spectrum must contain the sound 
pressure levels, which, in each preferred third octave band in the range 
of 50 Hz to 10,000 Hz, are the averages of the energy of the sound 
pressure levels in every preferred third octave. When analyzed in PNL, 
the resulting mean background noise level must be at least 20 PNdB below 
the maximum PNL of the helicopter.
    (4) Corrections for recorded levels of background noise are allowed, 
within the limits prescribed in section H36.111(c)(3) of this appendix.

         Section H36.111  Reporting and correcting measured data

    (a) General. Data representing physical measurements, and 
corrections to measured data, including corrections to measurements for 
equipment response deviations, must be recorded in permanent form and 
appended to the record. Each correction must be reported and is subject 
to FAA approval. An estimate must be made of each individual error 
inherent in each of the operations employed in obtaining the final data.
    (b) Data reporting. (1) Measured and corrected sound pressure levels 
must be presented in one-third octave band levels obtained with 
equipment conforming to the standards prescribed in section H36.109 of 
this appendix.
    (2) The type of equipment used for measurement and analysis of all 
acoustic, aircraft performance, and meteorological data must be 
reported.
    (3) The atmospheric environmental data required to demonstrate 
compliance with this appendix, measured throughout the test period, must 
be reported.

[[Page 838]]

    (4) Conditions of local topography, ground cover, or events which 
may interfere with sound recording must be reported.
    (5) The following aircraft information must be reported:
    (i) Type, model, and serial numbers, if any, of aircraft engines and 
rotors.
    (ii) Gross dimensions of aircraft and location of engines.
    (iii) Aircraft gross weight for each test run.
    (iv) Aircraft configuration, including landing gear positions.
    (v) Airspeed in knots.
    (vi) Helicopter engine performance as determined from aircraft 
instruments and manufacturer's data.
    (vii) Aircraft flight path, above ground level in feet, determined 
by an FAA approved method which is independent of normal flight 
instrumentation, such as radar tracking, theodolite triangulation, laser 
trajectography, or photographic scaling techniques.
    (6) Aircraft speed, and position, and engine performance parameters 
must be recorded at an approved sampling rate sufficient to correct to 
the noise certification reference test conditions prescribed in section 
H36.3 of this appendix. Lateral position relative to the reference 
flight-track must be reported.
    (c) Data corrections. (1) Aircraft position, performance data and 
noise measurement must be corrected to the noise certification reference 
conditions as prescribed in sections H36.3 and H36.205 of this appendix.
    (2) The measured flight path must be corrected by an amount equal to 
the difference between the applicant's predicted flight path for the 
certification reference conditions and the measured flight path at the 
test conditions. Necessary corrections relating to aircraft flight path 
or performance may be derived from FAA-approved data for the difference 
between measured and reference engine conditions, together with 
appropriate allowances for sound attenuation with distance. The 
Effective Perceived Noise Level (EPNL) correction must be less than 2.0 
EPNdB for any combination of the following:
    (i) The aircraft's not passing vertically above the measuring 
station.
    (ii) Any difference between the reference flight-track and the 
actual minimum distance of the aircraft's ILS antenna from the approach 
measuring station.
    (iii) Any difference between the actual approach angle and the noise 
certification reference approach flight path.
    (iv) Any correction of the measured level flyover noise levels which 
accounts for any difference between the test engine thrust or power and 
the reference engine thrust or power.

Detailed correction requirements are prescribed in section H36.205 of 
this appendix.
    (3) Aircraft sound pressure levels within the 10 dB-down points must 
exceed the mean background sound pressure levels determined under 
section A36.3(f)(3) by at least 5 dB in each one-third octave band or be 
corrected under an FAA approved method to be included in the computation 
of the overall noise level of the aircraft. An EPNL may not be computed 
or reported from data from which more than four one-third octave bands 
in any spectrum within the 10 dB-down points have been excluded under 
this paragraph.
    (d) Validity of results. (1) The test results must produce three 
average EPNL values within the 90 percent confidence limits, each value 
consisting of the arithmetic average of the corrected noise measurements 
for all valid test runs at the takeoff, level flyovers, and approach 
conditions. The 90 percent confidence limit applies separately to 
takeoff, flyover, and approach.
    (2) The minimum sample size acceptable for each takeoff, approach, 
and flyover certification measurements is six. The number of samples 
must be large enough to establish statistically for each of the three 
average noise certification levels a 90 percent confidence limit which 
does not exceed 1.5 EPNdB. No test result may be omitted 
from the averaging process, unless otherwise specified by the FAA.
    (3) To comply with this appendix, a minimum of six takeoffs, six 
approaches, and six level flyovers is required. To be counted toward 
this requirement, each flight event must be validly recorded at all 
three noise measuring stations.
    (4) The approved values of VH and Vy used in 
calculating test and reference conditions and flight profiles must be 
reported along with measured and corrected sound pressure levels.

           Section H36.113  Atmospheric attenuation of sound.

    (a) The values of the one-third octave band spectra measured during 
helicopter noise certification tests under this appendix must conform, 
or be corrected, to the reference conditions prescribed in section 
H36.3(a). Each correction must account for any differences in the 
atmospheric attenuation of sound between the test-day conditions and the 
reference-day conditions along the sound propagation path between the 
aircraft and the microphone. Unless the meteorological conditions are 
within the test window prescribed in this appendix, the test data are 
not acceptable.
    (b) Attenuation rates. The atmospheric attenuation rates of sound 
with distance for each one-third octave band from 50 Hz to 10,000 Hz 
must be determined in accordance with the formulations and tabulations 
of SAE ARP 866A, entitled ``Standard Values of Atmospheric Absorption as 
a Function of

[[Page 839]]

Temperatures and Humidity for Use in Evaluating Aircraft Flyover 
Noise'', as incorporated by reference under Sec. 36.6 of this part.
    (c) Correction for atmospheric attenuation. (1) EPNL values 
calculated for measured data must be corrected whenever--
    (i) The ambient atmospheric conditions of temperature and relative 
humidity do not conform to the reference conditions, 77  deg.F and 70%, 
respectively, or
    (ii) The measured flight paths do not conform to the reference 
flight paths.
    (iii) The temperature and relative humidity measured at aircraft 
altitude and at 10 meters above the ground shall be averaged and used to 
adjust for propagation path absorption.
    (2) The mean attenuation rate over the complete sound propagation 
path from the aircraft to the microphone must be computed for each one-
third octave band from 50 Hz to 10,000 Hz. These rates must be used in 
computing the corrections required in section H36.111(d) of this 
appendix.

       Part C--Noise Evaluation and Calculation Under Sec. 36.803

               Section H36.201  Noise Evaluation in EPNdB.

    (a) Effective Perceived Noise Level (EPNL), in units of effective 
perceived noise decibels (EPNdB), shall be used for evaluating noise 
level values under Sec. 36.803 of this part. Except as provided in 
paragraph (b) of this section, the procedures in appendix B of Part 36 
must be used for computing EPNL. appendix B includes requirements 
governing determination of noise values, including calculations of:
    (1) Instantaneous perceived noise levels;
    (2) Corrections for spectral irregularities;
    (3) Tone corrections;
    (4) Duration corrections;
    (5) Effective perceived noise levels; and
    (6) Mathematical formulation of noy tables.
    (b) Notwithstanding the provisions of section B36.5(a), for 
helicopter noise certification, corrections for spectral irregularities 
shall start with the corrected sound pressure level in the 50 Hz one-
third octave band.

              Section H36.203  Calculation of noise levels.

    (a) To demonstrate compliance with the noise level limits of section 
H36.305, the noise values measured simultaneously at the three noise 
measuring points must be arithmetically averaged to obtain a single 
EPNdB value for each flight.
    (b) The calculated noise level for each noise test series, i.e., 
takeoff, flyover, or approach must be the numerical average of at least 
six separate flight EPNdB values. The 90 percent confidence limit for 
all valid test runs under section H36.111(d) of this appendix applies 
separately to the EPNdB values for each noise test series.

          Section H36.205  Detailed data correction procedures

    (a) General. If the test conditions do not conform to those 
prescribed as noise certification reference conditions under section 
H36.305 of this appendix, the following correction procedure shall 
apply:
    (1) If a positive value results from any difference between 
reference and test conditions, an appropriate positive correction must 
be made to the EPNL calculated from the measured data. Conditions which 
can result in a positive value include:
    (i) Atmospheric absorption of sound under test conditions which is 
greater than the reference;
    (ii) Test flight path at an altitude which is higher than the 
reference; or
    (iii) Test weight which is less than maximum certification weight.
    (2) If a negative value results from any difference between 
reference and test conditions, no correction may be made to the EPNL 
calculated from the measured data, unless the difference results from:
    (i) An atmospheric absorption of sound under test conditions which 
is less than the reference; or
    (ii) A test flight path at an altitude which is lower than the 
reference.
    (3) The following correction procedures may produce one or more 
possible correction values which must be added algebraically to the 
calculated EPNL to bring it to reference conditions:
    (i) The flight profiles must be determined for both reference and 
test conditions. The procedures require noise and flight path recording 
with a synchronized time signal from which the test profile can be 
delineated, including the aircraft position for which PNLTM is observed 
at the noise measuring station. For takeoff, the flight profile 
corrected to reference conditions may be derived from FAA approved 
manufacturer's data.
    (ii) The sound propagation paths to the microphone from the aircraft 
position corresponding to PNLTM are determined for both the test and 
reference profiles. The SPL values in the spectrum of PNLTM must then be 
corrected for the effects of--
    (A) Change in atmospheric sound absorption;
    (B) Atmospheric sound absorption on the linear difference between 
the two sound path lengths; and
    (C) Inverse square law on the difference in sound propagation path 
length. The corrected values of SPL are then converted to PNLTM from 
which PNLTM must be subtracted. The resulting difference represents the 
correction which must be added algebraically to the EPNL calculated from 
the measured data.

[[Page 840]]

    (iii) The minimum distances from both the test and reference 
profiles to the noise measuring station must be calculated and used to 
determine a noise duration correction due to any change in the altitude 
of aircraft flyover. The duration correction must be added algebraically 
to the EPNL calculated from the measured data.
    (iv) From FAA approved data in the form of curves or tables giving 
the variation of EPNL with rotor rpm and test speed, corrections are 
determined and must be added to the EPNL, which is calculated from the 
measured data to account for noise level changes due to differences 
between test conditions and reference conditions.
    (v) From FAA approved data in the form of curves or tables giving 
the variation of EPNL with approach angle, corrections are determined 
and must be added algebraically to the EPNL, which is calculated from 
measured data, to account for noise level changes due to differences 
between the 6 degree and the test approach angle.
    (b) Takeoff profiles. (1) Figure H1 illustrates a typical takeoff 
profile, including reference conditions.
    (i) The reference takeoff flight path is described in section 
H36.3(c).
    (ii) The test parameters are functions of the helicopter's 
performance and weight and the atmospheric conditions of temperature, 
pressure, wind velocity and direction.
    (2) For the actual takeoff, the helicopter approaches position C in 
level flight at 65 feet (20 meters) above ground level at the flight 
track noise measuring station and at either Vy5 
knots (9 km/hr) or the maximum speed of the curve tangential 
at the ordinate of the height-speed envelope plus 3.0 knots 
(5 knots), whichever speed is greater. Rotor speed is 
stabilized at the normal operating RPM (1 percent), 
specified in the flight manual. The helicopter is stabilized in level 
flight at the speed for best rate of climb using minimum engine 
specifications (power or torque and rpm) along a path starting from a 
point located 1640 feet (500 meters) forward of the flight-track noise 
measuring station and 65 feet (20 meters) above the ground. Starting at 
point B, the helicopter climbs through point C to the end of the noise 
certification takeoff flight path represented by position I. The 
position of point C may vary within limits allowed by the FAA. The 
position of the helicopter shall be recorded for a distance (CI) 
sufficient to ensure recording of the entire interval during which the 
measured helicopter noise level is within 10 dB of PNLTM, as required by 
this rule. Station A is the flight-track noise measuring station. The 
relationships between the measured and corrected takeoff flight profiles 
can be used to determine the corrections which must be applied to the 
EPNL calculated from the measured data.
    (3) Figure H1 also illustrates the significant geometrical 
relationships influencing sound propagation. Position L represents the 
helicopter location on the measured takeoff flight path from which PNLTM 
is observed at station A, and Lr is the A and N 
corresponding position on the reference sound propagation path. AL and 
ALr both form the angle with their respective flight paths. 
Position T represents the point on the measured takeoff flight path 
nearest station A, and Tr is the corresponding position on 
the reference flight path. The minimum distance to the measured and 
reference flight paths are indicated by the lines AT and ATr, 
respectively, which are normal to their flight paths.
    (c) Level flyover profiles. (1) The noise type certification level 
flyover profile is shown in Figure H2. Airspeed must be stabilized 
within 5 knots of the reference airspeed given in section 
H36.3(d). For each run, the difference between airspeed and ground speed 
shall not exceed 10 knots between the 10 dB down points. Rotor speed 
must be stabilized at the maximum continuous RPM within one percent, 
throughout the 10 dB down time period. If the test requirements are 
otherwise met, flight direction may be reversed for each subsequent 
flyover, to obtain three test runs in each direction.

[[Page 841]]

[GRAPHIC] [TIFF OMITTED] TC28SE91.116

    (2) Figure H2 illustrates comparative flyover profiles when test 
conditions do not conform to prescribed reference conditions. The 
position of the helicopter shall be recorded for a distance (DJ) 
sufficient to ensure recording of the entire interval during which the 
measured helicopter noise level is

[[Page 842]]

within 10 dB of PNLTM, as required. The flyover profile is defined by 
the height AG which is a function of the operating conditions controlled 
by the pilot. Position M represents the helicopter location on the 
measured flyover flight path for which PNLTM is observed at station A, 
and Mr is the corresponding position on the reference flight 
path.
    (d) Approach profiles. (1) Figure H3 illustrates a typical approach 
profile, including reference conditions.
    (2) The helicopter approaches position H along a 6 deg. 
(0.5 deg.) average approach slope throughout the 10 dB down 
period. The approach procedure shall be acceptable to the FAA and shall 
be included in the Flight Manual.
    (3) Figure H3 illustrates portions of the measured and reference 
approach flight paths including the significant geometrical 
relationships influencing sound propagation. EK represents the measured 
approach path with approach angle , and Er and 
Kr represent the reference approach angle of 6 deg.. Position 
N represents the helicopter location on the measured approach flight 
path for which PNLTM is observed at station A, and Nr is the 
corresponding position on the reference approach flight path. The 
measured and corrected noise propagation paths are AN and 
ANr, respectively, both of which form the same angle with 
their flight paths. Position S represents the point on the measured 
approach flight path nearest station A, and Sr is the 
corresponding point on the reference approach flight path. The minimum 
distance to the measured and reference flight paths are indicated by the 
lines AS and ASr, respectively, which are normal to their 
flight paths.
[GRAPHIC] [TIFF OMITTED] TC28SE91.117

    (e) Correction of noise at source during level flyover. (1) For 
level overflight, if any combination of the following three factors, 1) 
airspeed deviation from reference, 2) rotor speed deviation from 
reference, and 3) temperature deviation from reference, results in an 
advancing blade tip Mach number which deviates from the reference Mach 
value, then source noise adjustments shall be determined. This 
adjustment shall be determined from the manufacturer supplied data 
approved by the FAA.
    (2) Off-reference tip Mach number adjustments shall be based upon a 
sensitivity curve of PNLTM versus advancing blade tip Mach number, 
deduced from overflights carried out at different airspeeds around the 
reference airspeed. If the test aircraft is unable

[[Page 843]]

to attain the reference value, then an extrapolation of the sensitivity 
curve is permitted if data cover at least a range of 0.3 Mach units. The 
advancing blade tip Mach number shall be computed using true airspeed, 
onboard outside air temperature, and rotor speed. A separate PNLTM 
versus advancing blade tip Mach number function shall be derived for 
each of the three certification microphone locations, i.e., centerline, 
sideline left, and sideline right. Sideline left and right are defined 
relative to the direction of the flight on each run. PNLTM adjustments 
are to be applied to each microphone datum using the appropriate PNLTM 
function.
    (f) PNLT corrections. If the ambient atmospheric conditions of 
temperature and relative humidity are not those prescribed as reference 
conditions under this appendix (77 degrees F and 70 percent, 
respectively), corrections to the EPNL values must be calculated from 
the measured data under paragraph (a) of this section as follows:
    (1) Takeoff flight path. For the takeoff flight path shown in Figure 
H1, the spectrum of PNLTM observed at station A for the aircraft at 
position Lr is decomposed into its individual SPLi values.
    (i) Step 1. A set of corrected values are then computed as follows:

        SPLic = SPLi + ( i- io)AL
    + ( io)AL-ALr)
    + 20 log(AL/ALr)

Where SPLi and SPLic are the measured and corrected sound pressure 
levels, respectively, in the i-th one-third octave band. The first 
correction term accounts for the effects of change in atmospheric sound 
absorption where ai and aio are the sound absorption coefficients for 
the test and reference atmospheric conditions, respectively, for the -
ith one-third octave band and Lr A is the measured takeoff 
sound propagation path. The second correction term accounts for the 
effects of atmospheric sound absorption on the change in the sound 
propagation path length where Lr A is the corrected takeoff 
sound propagation path. The third correction term accounts for the 
effects of the inverse square law on the change in the sound propagation 
path length.
    (ii) Step 2. The corrected values of the SPLic are then converted to 
PNLT and a correction term calculated as follows:

1=PNLT-PNLTM

Which represents the correction to be added algebraically to the EPNL 
calculated from the measured data.
    (2) Approach flight path. (i) The procedure described in paragraph 
(f)(1) of this section for takeoff flight paths is also used for the 
approach flight path, except that the value for SPLic relate to the 
approach sound propagation paths shown in Figure H3 as follows:

    SPLic = SPLi+(- io) AM+
     (AM-AMr)+ 20 log (AM/AMr)

Where the lines NS and Nr Sr are the measured and 
referenced approach sound propagation paths, respectively.
    (ii) The remainder of the procedure is the same as that prescribed 
in paragraph (d)(1)(ii) of this section, regarding takeoff flight path.
    (3) Sideline microphones. The procedure prescribed in paragraph 
(f)(1) of this section for takeoff flight paths is also used for the 
propagation to the sideline microphones, except that the values of SPLic 
relate only in the measured sideline sound propagation path as follows:

    SPLic - SPLi + ( io-+io)KX
    +  io (KX-KXr) +20 log (KX/KXr)

K is the sideline measuring station where

X=L and Xr=Ln for takeoff
X=M and Xr=Mn for approach
X=N and Xr=Nr for flyover
    (4) Level flyover flight path. The procedure prescribed in paragraph 
(f)(1) of this section for takeoff flight paths is also used for the 
level flyover flight path, except that the values of SPLic relate only 
to the flyover sound propagation paths as follows:

SPLic=SPLi+(- io) AN +  io (AN-ANr)+20 log 
          (AN/ANr)
    (g) Duration corrections. (1) If the measured takeoff and approach 
flight paths do not conform to those prescribed as the corrected and 
reference flight paths, respectively, under section A36.5(d)(2) it will 
be necessary to apply duration corrections to the EPNL values calculated 
from the measured data. Such corrections must be calculated as follows:
    (i) Takeoff flight path. For the takeoff flight path shown in Figure 
H1, the correction term is calculated using the formula--

  2 = -10 log (AT/ATr) + 10 log (V/Vr)
which represents the correction which must be added algebraically to the 
EPNL calculated from the measured data. The lengths AT and ATr are the 
measured and corrected takeoff minimum distances from the noise 
measuring station A to the measured and the corrected flight paths, 
respectively. A negative sign indicates that, for the particular case of 
a duration correction, the EPNL calculated from the measured data must 
be reduced if the measured flight path is at greater altitude than the 
corrected flight path.
    (ii) Approach flight path. For the approach flight path shown in 
Figure H3, the correction term is calculated using the formula--

 2 = -10 log (AS/ASr) + 10 log (V/Vr)

where AS is the measured approach minimum distance from the noise 
measuring station A to the measured flight path and 394 feet is the 
minimum distance from station A to the reference flight path.

[[Page 844]]

    (iii) Sideline microphones. For the sideline flight path, the 
correction term is calculated using the formula--

 2 = -10 log (KX/KXr)+10 log (V/Vr)

K is the sideline measuring station

where X=T and Xr=Tr for takeoff
where X=S and Xr=Sr for approach
where X=G and Xr=Gr for flyover

    (iv) Level flyover flight paths. For the level flyover flight path, 
the correction term is calculated using the formula--

 2 = -10 log (AG/AGr)+10 log (V/Vr)
where AG is the measured flyover altitude over the noise measuring 
station A.
    (2) The adjustment procedure described in this section shall apply 
to the sideline microphones in the take-off, overflight, and approach 
cases. Although the noise emission is strongly dependent on the 
directivity pattern, variable from one helicopter type to another, the 
propagation angle  shall be the same for test and reference 
flight paths. The elevation angle shall not be constrained but must be 
determined and reported. The certification authority shall specify the 
acceptable limitations on psi. Corrections to data obtained when these 
limits are exceeded shall be applied using FAA approved procedures.

                 Part D--Noise Limits Under Sec. 36.805

     Section H36.301  Noise measurement, evaluation, and calculation

    Compliance with this part of this appendix must be shown with noise 
levels measured, evaluated, and calculated as prescribed under Parts B 
and C of this appendix.

                       Section H36.303  [Reserved]

                      Section H36.305  Noise levels

    (a) Limits. For compliance with this appendix, it must be shown by 
flight test that the calculated noise levels of the helicopter, at the 
measuring points described in section H36.305(a) of this appendix, do 
not exceed the following, with appropriate interpolation between 
weights:
    (1) Stage 1 noise limits for acoustical changes for helicopters are 
as follows:
    (i) For takeoff, flyover, and approach calculated noise levels, the 
noise levels of each Stage 1 helicopter that exceed the Stage 2 noise 
limits plus 2 EPNdB may not, after a change in type design, exceed the 
noise levels created prior to the change in type design.
    (ii) For takeoff, flyover, and approach calculated noise levels, the 
noise levels of each Stage 1 helicopter that do not exceed the Stage 2 
noise limits plus 2 EPNdB may not, after the change in type design, 
exceed the Stage 2 noise limits plus 2 EPNdB.
    (2) Stage 2 noise limits are as follows:
    (i) For takeoff calculated noise levels--109 EPNdB for maximum 
takeoff weights of 176,370 pounds or more, reduced by 3.01 EPNdB per 
halving of the weight down to 89 EPNdB for maximum weights of 1,764 
pounds or less.
    (ii) For flyover calculated noise levels--108 EPNdB for maximum 
weights of 176,370 pounds or more, reduced by 3.01 EPNdB per halving of 
the weight down to 88 EPNdB for maximum weights of 1,764 pounds or less.
    (iii) For approach calculated noise levels--110 EPNdB for maximum 
weights of 176,370 pounds or more, reduced by 3.01 EPNdB per halving of 
the weight down 90 EPNdB for maximum weight of 1,764 pounds or less.
    (b) Tradeoffs. Except to the extent limited under Sec. 36.11(b) of 
this part, the noise limits prescribed in paragraph (a) of this section 
may be exceeded by one or two of the takeoff, flyover, or approach 
calculated noise levels determined under section H36.203 of this 
appendix if
    (1) The sum of the exceedances is not greater than 4 EPNdB;
    (2) No exceedance is greater than 3 EPNdB; and
    (3) The exceedances are completely offset by reduction in the other 
required calculated noise levels.

[Amdt. 36-14, 53 FR 3541, Feb. 5, 1988; 53 FR 4099, Feb. 11, 1988; 53 FR 
7728, Mar. 10, 1988]

                    Appendix I to Part 36 [Reserved]

  Appendix J to Part 36--Alternative Noise Certification Procedure for 
Helicopters Under Subpart H Having a Maximum Certificated Takeoff Weight 
                      of Not More Than 6,000 Pounds

                      Part A--Reference Conditions

J36.1  General.
J36.3  Reference Test Conditions.
J36.5  [Reserved]

          Part B--Noise Measurement Procedure Under Sec. 36.801

J36.101  Noise certification test and measurement conditions.
J36.103  [Reserved]
J36.105  Flyover test conditions.
J36.107  [Reserved]
J36.109  Measurement of helicopter noise received on the ground.
J36.111  Reporting requirements.
J36.113  [Reserved]

       Part C--Noise Evaluation and Calculation Under Sec. 36.803

J36.201  Noise evaluation in SEL.
J36.203  Calculation of noise levels.
J36.205  Detailed data correction procedures.

[[Page 845]]

            Part D--Noise Limits Procedure Under Sec. 36.805

J36.301  Noise measurement, evaluation, and calculation.
J36.303  [Reserved]
J36.305  Noise limits.

                      Part A--Reference Conditions

                          Section J36.1 General

    This appendix prescribes the alternative noise certification 
requirements identified under Sec. 36.1 of this part and subpart H of 
this part for helicopters in the primary, normal, transport, and 
restricted categories having maximum certificated takeoff weight of not 
more than 6,000 pounds including:
    (a) The conditions under which an alternative noise certification 
test under subpart H of this part must be conducted and the alternative 
measurement procedure that must be used under Sec. 36.801 of this part 
to measure the helicopter noise during the test;
    (b) The alternative procedures which must be used under Sec. 36.803 
of this part to correct the measured data to the reference conditions 
and to calculate the noise evaluation quantity designated as Sound 
Exposure Level (SEL); and
    (c) The noise limits for which compliance must be shown under 
Sec. 36.805 of this part.

                Section J36.3  Reference Test Conditions

    (a) Meteorological conditions. The following are the noise 
certification reference atmospheric conditions which shall be assumed to 
exist from the surface to the helicopter altitude:
    (1) Sea level pressure of 2116 pounds per square foot (76 
centimeters mercury);
    (2) Ambient temperature of 77 degrees Fahrenheit (25 degrees 
Celsius);
    (3) Relative humidity of 70 percent; and
    (4) Zero wind.
    (b) Reference test site. The reference test site is flat and without 
line-of-sight obstructions across the flight path that encompasses the 
10 dB down points of the A-weighted time history.
    (c) Level flyover reference profile. The reference flyover profile 
is a level flight 492 feet (150 meters) above ground level as measured 
at the noise measuring station. The reference flyover profile has a 
linear flight track and passes directly over the noise monitoring 
station. Airspeed is stabilized at 0.9VH; 0.9VNE; 
0.45VH + 65 kts (0.45VH + 120 km/h); or 
0.45VNE + 65 kts (0.45VNE + 120 km/h), whichever 
of the four speeds is least. Rotor speed is stabilized at the power on 
maximum normal operating RPM throughout the 10 dB down time period.
    (1) For noise certification purposes, VH is defined as 
the airspeed in level flight obtained using the minimum specification 
engine power corresponding to maximum continuous power available for sea 
level, 77 degree Fahrenheit (25 degrees Celsius) ambient conditions at 
the relevant maximum certificated weight. The value of VH 
thus defined must be listed in the Rotorcraft Flight Manual.
    (2) VNE is the never-exceed airspeed.
    (d) The weight of the helicopter shall be the maximum takeoff weight 
at which noise certification is requested.

                        Section J36.5  [Reserved]

          Part B--Noise Measurement Procedure Under Sec. 36.801

  Section J36.101  Noise certification test and measurement conditions

    (a) General. This section prescribes the conditions under which 
helicopter noise certification tests must be conducted and the 
measurement procedures that must be used to measure helicopter noise 
during each test.
    (b) Test site requirements. (1) The noise measuring station must be 
surrounded by terrain having no excessive sound absorption 
characteristics, such as might be caused by thick, matted, or tall 
grass, shrubs, or wooded areas.
    (2) During the period when the flyover noise measurement is within 
10 dB of the maximum A-weighted sound level, no obstruction that 
significantly influences the sound field from the helicopter may exist 
within a conical space above the noise measuring position (the point on 
the ground vertically below the microphone), the cone is defined by an 
axis normal to the ground and by half-angle 80 degrees from this axis.
    (c) Weather restrictions. The test must be conducted under the 
following atmospheric conditions:
    (1) No rain or other precipitation;
    (2) Ambient air temperature between 36 degrees and 95 degrees 
Fahrenheit (2 degrees and 35 degrees Celsius), inclusively, and relative 
humidity between 20 percent and 95 percent inclusively, except that 
testing may not take place where combinations of temperature and 
relative humidity result in a rate of atmospheric attenuation greater 
than 10 dB per 100 meters (30.5 dB per 1000 ft) in the one-third octave 
band centered at 8 kiloHertz.
    (3) Wind velocity that does not exceed 10 knots (19 km/h) and a 
crosswind component that does not exceed 5 knots (9 km/h). The wind 
shall be determined using a continuous averaging process of no greater 
than 30 seconds;
    (4) Measurements of ambient temperature, relative humidity, wind 
speed, and wind direction must be made between 4 feet (1.2 meters) and 
33 feet (10 meters) at the noise monitoring station. Unless otherwise 
approved by the FAA, ambient temperature and relative humidity must be 
measured at

[[Page 846]]

the noise measuring station at the same height above the ground.
    (5) No anomalous wind conditions (including turbulence) or other 
anomalous meteorological conditions that will significantly affect the 
noise level of the helicopter when the noise is recorded at the noise 
measuring station; and
    (6) The location of the meteorological instruments must be approved 
by the FAA as representative of those atmospheric conditions existing 
near the surface over the geographical area where the helicopter noise 
measurements are made. In some cases, a fixed meteorological station 
(such as those found at airports or other facilities) may meet this 
requirement.
    (d) Helicopter testing procedures. (1) The helicopter testing 
procedures and noise measurements must be conducted and processed in a 
manner which yields the noise evaluation measure designated Sound 
Exposure Level (SEL) as defined in section J36.109(b) of this appendix.
    (2) The helicopter height relative to the noise measurement point 
sufficient to make corrections required under section J36.205 of this 
appendix must be determined by an FAA-approved method that is 
independent of normal flight instrumentation, such as radar tracking, 
theodolite triangulation, laser trajectography, or photographic scaling 
techniques.
    (3) If an applicant demonstrates that the design characteristics of 
the helicopter would prevent flight from being conducted in accordance 
with the reference test conditions prescribed under section J36.3 of 
this appendix, then with FAA approval, the reference test conditions 
used under this appendix may vary from the standard reference test 
conditions, but only to the extent demanded by those design 
characteristics which make compliance with the reference test conditions 
impossible.

                       Section J36.103  [Reserved]

                Section J36.105  Flyover test conditions

    (a) This section prescribes the flight test conditions and allowable 
random deviations for flyover noise tests conducted under this appendix.
    (b) A test series must consist of at least six flights with equal 
numbers of flights in opposite directions over the noise measuring 
station:
    (1) In level flight and in cruise configuration;
    (2) At a height of 492 feet 50 feet (150 15 
meters) above the ground level at the noise measuring station; and
    (3) Within 10 degrees from the zenith.
    (c) Each flyover noise test must be conducted:
    (1) At the reference airspeed specified in section J36.3(c) of this 
appendix, with such airspeed adjusted as necessary to produce the same 
advancing blade tip Mach number as associated with the reference 
conditions;
    (i) Advancing blade tip Mach number (MAT) is defined as 
the ratio of the arithmetic sum of blade tip rotational speed 
(VR) and the helicopter true air speed (VT) over 
the speed of sound (c) at 77 degrees Fahrenheit (1135.6 ft/sec or 346.13 
m/sec) such that MAT = (VR + VT)/c; and
    (ii) The airspeed shall not vary from the adjusted reference 
airspeed by more than 3 knots (5 km/hr) or an 
equivalent FAA-approved variation from the reference advancing blade tip 
Mach number. The adjusted reference airspeed shall be maintained 
throughout the measured portion of the flyover.
    (2) At rotor speed stabilized at the power on maximum normal 
operating rotor RPM (1 percent); and
    (3) With the power stabilized during the period when the measured 
helicopter noise level is within 10 dB of the maximum A-weighted sound 
level (LAMAX).
    (d) The helicopter test weight for each flyover test must be within 
plus 5 percent or minus 10 percent of the maximum takeoff weight for 
which certification under this part is requested.
    (e) The requirements of paragraph (b)(2) of this section 
notwithstanding, flyovers at an FAA-approved lower height may be used 
and the results adjusted to the reference measurement point by an FAA-
approved method if the ambient noise in the test area, measured in 
accordance with the requirements prescribed in section J36.109 of this 
appendix, is found to be within 15 dB(A) of the maximum A-weighted 
helicopter noise level (LAMAX) measured at the noise 
measurement station in accordance with section J36.109 of this appendix.

                       Section J36.107  [Reserved]

 Section J36.109  Measurement of helicopter noise received on the ground

    (a) General. (1) The helicopter noise measured under this appendix 
for noise certification purposes must be obtained with FAA-approved 
acoustical equipment and measurement practices.
    (2) Paragraph (b) of this section identifies and prescribes the 
specifications for the noise evaluation measurements required under this 
appendix. Paragraphs (c) and (d) of this section prescribe the required 
acoustical equipment specifications. Paragraphs (e) and (f) of this 
section prescribe the calibration and measurement procedures required 
under this appendix.
    (b) Noise unit definition. (1) The value of sound exposure level 
(SEL, or as denoted by symbol, LAE), is defined as the level, 
in decibels, of the time integral of squared `A'-weighted sound pressure 
(PA) over a given time period or event, with reference to the

[[Page 847]]

square of the standard reference sound pressure (PO) of 20 
micropascals and a reference duration of one second.
    (2) This unit is defined by the expression:
    [GRAPHIC] [TIFF OMITTED] TC28SE91.118
    
Where TO is the reference integration time of one second and 
(t2-t1) is the integration time interval.
    (3) The integral equation of paragraph (b)(2) of this section can 
also be expressed as:

[GRAPHIC] [TIFF OMITTED] TC28SE91.119

Where LA(t) is the time varying A-weighted sound level.
    (4) The integration time (t2-t1) in practice 
shall not be less than the time interval during which LA(t) 
first rises to within 10 dB(A) of its maximum value (LAMAX) 
and last falls below 10 dB(A) of its maximum value.
    (5) The SEL may be approximated by the following expression:

LAE = LAMAX + delta> A

    where delta> A is the duration allowance given by:

delta> A = 10 log10 (T)

    where T = (t2-t1)/2 and LAMAX is 
defined as the maximum level, in decibels, of the A-weighted sound 
pressure (slow response) with reference to the square of the standard 
reference sound pressure (P0).
    (c) Measurement system. The acoustical measurement system must 
consist of FAA-approved equipment equivalent to the following:
    (1) A microphone system with frequency response that is compatible 
with the measurement and analysis system accuracy prescribed in 
paragraph (d) of this section;
    (2) Tripods or similar microphone mountings that minimize 
interference with the sound energy being measured;
    (3) Recording and reproducing equipment with characteristics, 
frequency response, and dynamic range that are compatible with the 
response and accuracy requirements of paragraph (d) of this section; and
    (4) Acoustic calibrators using sine wave noise and, if a tape 
recording system is used, pink noise, of known levels. When pink noise 
(defined in section H36.109(e)(1) of appendix H of this part) is used, 
the signal must be described in terms of its root-mean-square (rms) 
value.
    (d) Sensing, recording, and reproducing equipment. (1) The noise 
levels measured from helicopter flyovers under this appendix may be 
determined directly by an integrating sound level meter, or the A-
weighted sound level time history may be written onto a graphic level 
recorder set at ``slow'' response from which the SEL value may be 
determined. With the approval of the FAA, the noise signal may be tape 
recorded for subsequent analysis.
    (i) The SEL values from each flyover test may be directly determined 
from an integrating sound level meter complying with the Standards of 
the International Electrotechnical Commission (IEC) Publication No. 804, 
``Integrating-averaging Sound Level Meters,'' as incorporated by 
reference under Sec. 36.6 of this part, for a Type 1 instrument set at 
``slow'' response.
    (ii) The acoustic signal from the helicopter, along with the 
calibration signals specified under paragraph (e) of this section and 
the background noise signal required under paragraph (f) of this section 
may be recorded on a magnetic tape recorder for subsequent analysis by 
an integrating sound level meter identified in paragraph (d)(1)(i) of 
this section. The record/playback system (including the audio tape) of 
the tape recorder must conform to the requirements prescribed in section 
H36.109(c)(3) of appendix H of this part. The tape recorder shall comply 
with specifications of IEC Publication No. 561, ``Electro-acoustical 
Measuring Equipment for Aircraft Noise Certification,'' as incorporated 
by reference under Sec. 36.6 of this part.
    (iii) The characteristics of the complete system shall comply with 
the recommendations given in IEC Publication No. 651, ``Sound Level 
Meters,'' as incorporated by reference under Sec. 36.6 of this part, 
with regard to the specifications concerning microphone, amplifier, and 
indicating instrument characteristics.
    (iv) The response of the complete system to a sensibly plane 
progressive wave of constant amplitude shall lie within the tolerance 
limits specified in Table IV and Table V for Type 1 instruments in IEC 
Publication No. 651, ``Sound Level Meters,'' as incorporated by 
reference under Sec. 36.6 of this part, for weighting curve ``A'' over 
the frequency range of 45 Hz to 11500 Hz.
    (v) A windscreen must be used with the microphone during each 
measurement of the helicopter flyover noise. Correction for any 
insertion loss produced by the windscreen, as a function of the 
frequency of the acoustic calibration required under paragraph (e) of 
this section, must be applied to the measured data and any correction 
applied must be reported.
    (e) Calibrations. (1) If the helicopter acoustic signal is tape 
recorded for subsequent analysis, the measuring system and components of 
the recording system must be calibrated as prescribed under section 
H36.109(e) of appendix H of this part.

[[Page 848]]

    (2) If the helicopter acoustic signal is directly measured by an 
integrating sound level meter:
    (i) The overall sensitivity of the measuring system shall be checked 
before and after the series of flyover tests and at intervals (not 
exceeding one-hour duration) during the flyover tests using an acoustic 
calibrator using sine wave noise generating a known sound pressure level 
at a known frequency.
    (ii) The performance of equipment in the system will be considered 
satisfactory if, during each day's testing, the variation in the 
calibration value does not exceed 0.5 dB. The SEL data collected during 
the flyover tests shall be adjusted to account for any variation in the 
calibration value.
    (iii) A performance calibration analysis of each piece of 
calibration equipment, including acoustic calibrators, reference 
microphones, and voltage insertion devices, must have been made during 
the six calendar months proceeding the beginning of the helicopter 
flyover series. Each calibration shall be traceable to the National 
Institute of Standards and Technology.
    (f) Noise measurement procedures. (1) The microphone shall be of the 
pressure-sensitive capacitive type designed for nearly uniform grazing 
incidence response. The microphone shall be mounted with the center of 
the sensing element 4 feet (1.2 meters) above the local ground surface 
and shall be oriented for grazing incidence such that the sensing 
element, the diaphragm, is substantially in the plane defined by the 
nominal flight path of the helicopter and the noise measurement station.
    (2) If a tape recorder is used, the frequency response of the 
electrical system must be determined at a level within 10 dB of the 
full-scale reading used during the test, utilizing pink or pseudorandom 
noise.
    (3) The ambient noise, including both acoustical background and 
electrical noise of the measurement systems shall be determined in the 
test area and the system gain set at levels which will be used for 
helicopter noise measurements. If helicopter sound levels do not exceed 
the background sound levels by at least 15 dB(A), flyovers at an FAA-
approved lower height may be used and the results adjusted to the 
reference measurement point by an FAA-approved method.
    (4) If an integrating sound level meter is used to measure the 
helicopter noise, the instrument operator shall monitor the continuous 
A-weighted (slow response) noise levels throughout each flyover to 
ensure that the SEL integration process includes, at minimum, all of the 
noise signal between the maximum A-weighted sound level 
(LAMAX) and the 10 dB down points in the flyover time 
history. The instrument operator shall note the actual db(A) levels at 
the start and stop of the SEL integration interval and document these 
levels along with the value of LAMAX and the integration 
interval (in seconds) for inclusion in the noise data submitted as part 
of the reporting requirements under section J36.111(b) of this appendix.

                 Section J36.111  Reporting Requirements

    (a) General. Data representing physical measurements, and 
corrections to measured data, including corrections to measurements for 
equipment response deviations, must be recorded in permanent form and 
appended to the record. Each correction is subject to FAA approval.
    (b) Data reporting. After the completion of the test the following 
data must be included in the test report furnished to the FAA:
    (1) Measured and corrected sound levels obtained with equipment 
conforming to the standards prescribed in section J36.109 of this 
appendix;
    (2) The type of equipment used for measurement and analysis of all 
acoustic, aircraft performance and flight path, and meteorological data;
    (3) The atmospheric environmental data required to demonstrate 
compliance with this appendix, measured throughout the test period;
    (4) Conditions of local topography, ground cover, or events which 
may interfere with the sound recording;
    (5) The following helicopter information:
    (i) Type, model, and serial numbers, if any, of helicopter, 
engine(s) and rotor(s);
    (ii) Gross dimensions of helicopter, location of engines, rotors, 
type of antitorque system, number of blades for each rotor, and 
reference operating conditions for each engine and rotor;
    (iii) Any modifications of non-standard equipment likely to affect 
the noise characteristics of the helicopter;
    (iv) Maximum takeoff weight for which certification under this 
appendix is requested;
    (v) Aircraft configuration, including landing gear positions;
    (vi) VH or VNE (whichever is less) and the 
adjusted reference airspeed;
    (vii) Aircraft gross weight for each test run;
    (viii) Indicated and true airspeed for each test run;
    (ix) Ground speed, if measured, for each run;
    (x) Helicopter engine performance as determined from aircraft 
instruments and manufacturer's data; and
    (xi) Aircraft flight path above ground level, referenced to the 
elevation of the noise measurement station, in feet, determined by an 
FAA-approved method which is independent of normal flight 
instrumentation, such as radar tracking, theodolite triangulation, laser 
trajectography, or photoscaling techniques; and

[[Page 849]]

    (6) Helicopter position and performance data required to make the 
adjustments prescribed under section J36.205 of this appendix and to 
demonstrate compliance with the performance and position restrictions 
prescribed under section J36.105 of this appendix must be recorded at an 
FAA-approved sampling rate.

                       Section J36.113  [Reserved]

       Part C--Noise Evaluation and Calculations Under Sec. 36.803

                Section J36.201  Noise Evaluation in SEL

    The noise evaluation measure shall be the sound exposure level (SEL) 
in units of dB(A) as prescribed under section J36.109(b) of this 
appendix. The SEL value for each flyover may be directly determined by 
use of an integrating sound level meter. Specifications for the 
integrating sound level meter and requirements governing the use of such 
instrumentation are prescribed under section J36.109 of this appendix.

              Section J36.203  Calculation of Noise Levels

    (a) To demonstrate compliance with the noise level limits specified 
under section J36.305 of this appendix, the SEL noise levels from each 
valid flyover, corrected as necessary to reference conditions under 
section J36.205 of this appendix, must be arithmetically averaged to 
obtain a single SEL dB(A) mean value for the flyover series. No 
individual flyover run may be omitted from the averaging process, unless 
otherwise specified or approved by the FAA.
    (b) The minimum sample size acceptable for the helicopter flyover 
certification measurements is six. The number of samples must be large 
enough to establish statistically a 90 percent confidence limit that 
does not exceed 1.5 dB(A).
    (c) All data used and calculations performed under this section, 
including the calculated 90 percent confidence limits, must be 
documented and provided under the reporting requirements of section 
J36.111 of this appendix.

          Section J36.205  Detailed Data Correction Procedures

    (a) When certification test conditions measured under part B of this 
appendix differ from the reference test conditions prescribed under 
section J36.3 of this appendix, appropriate adjustments shall be made to 
the measured noise data in accordance with the methods set out in 
paragraphs (b) and (c) of this section. At minimum, appropriate 
adjustments shall be made for off-reference altitude and for the 
difference between reference airspeed and adjusted reference airspeed.
    (b) The adjustment for off-reference altitude may be approximated 
from:

delta>J1=12.5 log10(HT/492) dB;

where delta>J1 is the quantity in decibels that must be 
algebraically added to the measured SEL noise level to correct for an 
off-reference flight path, HT is the height, in feet, of the 
test helicopter when directly over the noise measurement point, and the 
constant (12.5) accounts for the effects on spherical spreading and 
duration from the off-reference altitude.
    (c) The adjustment for the difference between reference airspeed and 
adjusted reference airspeed is calculated from:

delta>J3=10 log10(VRA/VR) 
dB;

Where delta>J3 is the quantity in decibels that must be 
algebraically added to the measured SEL noise level to correct for the 
influence of the adjustment of the reference airspeed on the duration of 
the measured flyover event as perceived at the noise measurement 
station, VR is the reference airspeed as prescribed under 
section J36.3.(c) of this appendix, and VRA is the adjusted 
reference airspeed as prescribed under section J36.105(c) of this 
appendix.
    (d) No correction for source noise during the flyover other than the 
variation of source noise accounted for by the adjustment of the 
reference airspeed prescribed for under section J36.105(c) of this 
appendix need be applied.
    (e) No correction for the difference between the reference ground 
speed and the actual ground speed need be applied.
    (f) No correction for off-reference atmospheric attenuation need be 
applied.
    (g) The SEL adjustments must be less than 2.0 dB(A) for differences 
between test and reference flight procedures prescribed under section 
J36.105 of this appendix unless a larger adjustment value is approved by 
the FAA.
    (h) All data used and calculations performed under this section must 
be documented and provided under the reporting requirements specified 
under section J36.111 of this appendix.

            Part D--Noise Limits Procedure Under Sec. 36.805

     Section J36.301  Noise Measurement, Evaluation, and Calculation

    Compliance with this part of this appendix must be shown with noise 
levels measured, evaluated, and calculated as prescribed under parts B 
and C of this appendix.

                       Section J36.303  [Reserved]

                      Section J36.305  Noise Limits

    For compliance with this appendix, the calculated noise levels of 
the helicopter, at the measuring point described in section J36.101 of 
this appendix, must be shown to not exceed the following (with 
appropriate interpolation between weights):

[[Page 850]]

    (a) For primary, normal, transport, and restricted category 
helicopters having a maximum certificated takeoff weight of not more 
than 6,000 pounds and noise tested under this appendix, the Stage 2 
noise limit is 82 decibels SEL for helicopters with maximum certificated 
takeoff weight at which the noise certification is requested, of up to 
1,764 pounds and increasing at a rate of 3.01 decibels per doubling of 
weight thereafter. The limit may be calculated by the equation:

LAE(limit)=82+3.01[log10(MTOW/1764)/
log10(2)] dB;

where MTOW is the maximum takeoff weight, in pounds, for which 
certification under this appendix is requested.
    (b) The procedures required in this amendment shall be done in 
accordance with the International Electrotechnical Commission IEC 
Publication No. 804, entitled ``Integrating-averaging Sound Level 
Meters,'' First Edition, dated 1985. This incorporation by reference was 
approved by the Director of the Federal Register in accordance with 5 
U.S.C. 552(a) and 1 CFR part 51. Copies may be obtained from the Bureau 
Central de la Commission Electrotechnique Internationale, 1, rue de 
Varembe, Geneva, Switzerland or the American National Standard 
Institute, 1430 Broadway, New York City, New York 10018, and can be 
inspected at the Office of the Federal Register, 800 North Capitol 
Street NW., suite 700, Washington, DC.


[Doc. No. 26910, 57 FR 42855, Sept. 16, 1992, as amended by Amdt. 36-20, 
57 FR 46243, Oct. 7, 1992]



PART 39--AIRWORTHINESS DIRECTIVES--Table of Contents




                           Subpart A--General

Sec.
39.1  Applicability.
39.3  General.

                   Subpart B--Airworthiness Directives

39.11  Applicability.
39.13  Airworthiness directives.

    Authority: 49 U.S.C. 106(g), 40113, 44701.

    Source: Docket No. 5061, 29 FR 14403, Oct. 20, 1964, unless 
otherwise noted.



                           Subpart A--General



Sec. 39.1  Applicability.

    This part prescribes airworthiness directives that apply to 
aircraft, aircraft engines, propellers, or appliances (hereinafter 
referred to in this part as ``products'') when--
    (a) An unsafe condition exists in a product; and
    (b) That condition is likely to exist or develop in other products 
of the same type design.

[Doc. No. 5061, 29 FR 14403, Oct. 20, 1964, as amended by Amdt. 39-106, 
30 FR 8826, July 14, 1965]



Sec. 39.3  General.

    No person may operate a product to which an airworthiness directive 
applies except in accordance with the requirements of that airworthiness 
directive.



                   Subpart B--Airworthiness Directives



Sec. 39.11  Applicability.

    This subpart identifies those products in which the Administrator 
has found an unsafe condition as described in Sec. 39.1 and, as 
appropriate, prescribes inspections and the conditions and limitations, 
if any, under which those products may continue to be operated.



Sec. 39.13  Airworthiness directives.

    All airworthiness directives contained in Sec. 507.10 of the 
regulations of the Administrator are hereby transferred to this section 
of the Federal Aviation Regulations.

    Editorial Note: For a complete list of citations to airworthiness 
directives published in the Federal Register, consult the following 
publications: For airworthiness directives published in the Federal 
Register since 1986, see the entries for 14 CFR 39.13 in the List of CFR 
Sections Affected, which appears in the Finding Aids section of the 
printed volume and on GPO Access. For citations to prior amendments, see 
the entries for 14 CFR 39.13 in the separate publications ``List of CFR 
Sections Affected, 1973-1985'' and ``List of CFR Sections Affected, 
1964-1972,'' and the entries for 14 CFR 507.10 in the ``List of Sections 
Affected, 1949-1963.'' See also the annual editions of the Federal 
Register Index for subject matter references and citations to FAA 
airworthiness directives. For a list of aircraft service documents 
approved by the Director of the Federal Register for incorporation by 
reference in this part under 5 U.S.C. 552(a) and 1 CFR 51, see Material 
Approved for Incorporation by Reference, which appears in the Finding 
Aids section of the printed volume and on GPO Access.

[[Page 851]]



PART 43--MAINTENANCE, PREVENTIVE MAINTENANCE, REBUILDING, AND ALTERATION--Table of Contents




Sec.
43.1  Applicability.
43.2  Records of overhaul and rebuilding.
43.3  Persons authorized to perform maintenance, preventive maintenance, 
          rebuilding, and alterations.
43.5  Approval for return to service after maintenance, preventive 
          maintenance, rebuilding, or alteration.
43.7  Persons authorized to approve aircraft, airframes, aircraft 
          engines, propellers, appliances, or component parts for return 
          to service after maintenance, preventive maintenance, 
          rebuilding, or alteration.
43.9  Content, form, and disposition of maintenance, preventive 
          maintenance, rebuilding, and alteration records (except 
          inspections performed in accordance with part 91, part 123, 
          part 125, Sec. 135.411(a)(1), and Sec. 135.419 of this 
          chapter).
43.11  Content, form, and disposition of records for inspections 
          conducted under parts 91 and 125 and Secs. 135.411(a)(1) and 
          135.419 of this chapter.
43.12  Maintenance records: Falsification, reproduction, or alteration.
43.13  Performance rules (general).
43.15  Additional performance rules for inspections.
43.16  Airworthiness Limitations.
43.17  Maintenance, preventive maintenance, and alterations performed on 
          U.S. aeronautical products by certain Canadian persons.

Appendix A to Part 43--Major Alterations, Major Repairs, and Preventive 
          Maintenance
Appendix B to Part 43--Recording of Major Repairs and Major Alterations
Appendix C to Part 43 [Reserved]
Appendix D to Part 43--Scope and Detail of Items (as Applicable to the 
          Particular Aircraft) to be Included in Annual and 100-Hour 
          Inspections
Appendix E to Part 43--Altimeter System Test and Inspection
Appendix F to Part 43--ATC Transponder Tests and Inspections

    Authority: 49 U.S.C. 106(g), 40113, 44701, 44703, 44705, 44707, 
44711, 44713, 44717.

    Source: Docket No. 1993, 29 FR 5451, Apr. 23, 1964, unless otherwise 
noted.

    Editorial Note: For miscellaneous technical amendments to this part 
43, see Amdt. 43-3, 31 FR 3336, Mar. 3, 1966, and Amdt. 43-6, 31 FR 
9211, July 6, 1966.



Sec. 43.1  Applicability.

    (a) Except as provided in paragraph (b) of this section, this part 
prescribes rules governing the maintenance, preventive maintenance, 
rebuilding, and alteration of any--
    (1) Aircraft having a U.S. airworthiness certificate;
    (2) Foreign-registered civil aircraft used in common carriage or 
carriage of mail under the provisions of Part 121 or 135 of this 
chapter; and
    (3) Airframe, aircraft engines, propellers, appliances, and 
component parts of such aircraft.
    (b) This part does not apply to any aircraft for which an 
experimental airworthiness certificate has been issued, unless a 
different kind of airworthiness certificate had previously been issued 
for that aircraft.

[Doc. No. 1993, 29 FR 5451, Apr. 23, 1964, as amended by Amdt. 43-23, 47 
FR 41084, Sept. 16, 1982; Amdt. 43-37, 66 FR 21066, Apr. 27, 2001]



Sec. 43.2  Records of overhaul and rebuilding.

    (a) No person may describe in any required maintenance entry or form 
an aircraft, airframe, aircraft engine, propeller, appliance, or 
component part as being overhauled unless--
    (1) Using methods, techniques, and practices acceptable to the 
Administrator, it has been disassembled, cleaned, inspected, repaired as 
necessary, and reassembled; and
    (2) It has been tested in accordance with approved standards and 
technical data, or in accordance with current standards and technical 
data accepteble to the Administrator, which have been developed and 
documented by the holder of the type certificate, supplemental type 
certificate, or a material, part, process, or applicance approval under 
Sec. 21.305 of this chapter.
    (b) No person may describe in any required maintenace entry or form 
an aircraft, airframe, aircraft engine, propeller, appliance, or 
component part as being rebuilt unless it has been disassembled, 
cleaned, inspected, repaired as necessary, reassembled, and tested to 
the same tolerances and limits as a new item, using either new parts or 
used parts that either conform to new

[[Page 852]]

part tolerances and limits or to approved oversized or undersized 
dimensions.

[Amdt. 43-23, 47 FR 41084, Sept. 16, 1982]



Sec. 43.3  Persons authorized to perform maintenance, preventive maintenance, rebuilding, and alterations.

    (a) Except as provided in this section and Sec. 43.17, no person may 
maintain, rebuild, alter, or perform preventive maintenance on an 
aircraft, airframe, aircraft engine, propeller, appliance, or component 
part to which this part applies. Those items, the performance of which 
is a major alteration, a major repair, or preventive maintenance, are 
listed in appendix A.
    (b) The holder of a mechanic certificate may perform maintenance, 
preventive maintenance, and alterations as provided in Part 65 of this 
chapter.
    (c) The holder of a repairman certificate may perform maintenance 
and preventive maintenance as provided in Part 65 of this chapter.
    (d) A person working under the supervision of a holder of a mechanic 
or repairman certificate may perform the maintenance, preventive 
maintenance, and alterations that his supervisor is authorized to 
perform, if the supervisor personally observes the work being done to 
the extent necessary to ensure that it is being done properly and if the 
supervisor is readily available, in person, for consultation. However, 
this paragraph does not authorize the performance of any inspection 
required by Part 91 or Part 125 of this chapter or any inspection 
performed after a major repair or alteration.
    (e) The holder of a repair station certificate may perform 
maintenance, preventive maintenance, and alterations as provided in Part 
145 of this chapter.
    (f) The holder of an air carrier operating certificate or an 
operating certificate issued under Part 121 or 135, may perform 
maintenance, preventive maintenance, and alterations as provided in Part 
121 or 135.
    (g) The holder of a pilot certificate issued under Part 61 may 
perform preventive maintenance on any aircraft owned or operated by that 
pilot which is not used under Part 121, 129, or 135.
    (h) Notwithstanding the provisions of paragraph (g) of this section, 
the Administrator may approve a certificate holder under Part 135 of 
this chapter, operating rotorcraft in a remote area, to allow a pilot to 
perform specific preventive maintenance items provided--
    (1) The items of preventive maintenance are a result of a known or 
suspected mechanical difficulty or malfunction that occurred en route to 
or in a remote area;
    (2) The pilot has satisfactorily completed an approved training 
program and is authorized in writing by the certificate holder for each 
item of preventive maintenance that the pilot is authorized to perform;
    (3) There is no certificated mechanic available to perform 
preventive maintenance;
    (4) The certificate holder has procedures to evaluate the 
accomplishment of a preventive maintenance item that requires a decision 
concerning the airworthiness of the rotorcraft; and
    (5) The items of preventive maintenance authorized by this section 
are those listed in paragraph (c) of appendix A of this part.
    (i) Notwithstanding the provisions of paragraph (g) of this section, 
in accordance with an approval issued to the holder of a certificate 
issued under part 135 of this chapter, a pilot of an aircraft type-
certificated for 9 or fewer passenger seats, excluding any pilot seat, 
may perform the removal and reinstallation of approved aircraft cabin 
seats, approved cabin-mounted stretchers, and when no tools are 
required, approved cabin-mounted medical oxygen bottles, provided--
    (1) The pilot has satisfactorily completed an approved training 
program and is authorized in writing by the certificate holder to 
perform each task; and
    (2) The certificate holder has written procedures available to the 
pilot to evaluate the accomplishment of the task.
    (j) A manufacturer may--
    (1) Rebuild or alter any aircraft, aircraft engine, propeller, or 
appliance manufactured by him under a type or production certificate;
    (2) Rebuild or alter any appliance or part of aircraft, aircraft 
engines, propellers, or appliances manufactured by him under a Technical 
Standard Order

[[Page 853]]

Authorization, an FAA-Parts Manufacturer Approval, or Product and 
Process Specification issued by the Administrator; and
    (3) Perform any inspection required by Part 91 or Part 125 of this 
chapter on aircraft it manufacturers, while currently operating under a 
production certificate or under a currently approved production 
inspection system for such aircraft.

[Doc. No. 1993, 29 FR 5451, Apr. 23, 1964, as amended by Amdt. 43-4, 31 
FR 5249, Apr. 1, 1966; Amdt. 43-23, 47 FR 41084, Sept. 16, 1982; Amdt. 
43-25, 51 FR 40702, Nov. 7, 1986; Amdt. 43-36, 61 FR 19501, May 1, 1996; 
Amdt. 43-37, 66 FR 21066, Apr. 27, 2001]



Sec. 43.5  Approval for return to service after maintenance, preventive maintenance, rebuilding, or alteration.

    No person may approve for return to service any aircraft, airframe, 
aircraft engine, propeller, or appliance, that has undergone 
maintenance, preventive maintenance, rebuilding, or alteration unless--
    (a) The maintenance record entry required by Sec. 43.9 or 
Sec. 43.11, as appropriate, has been made;
    (b) The repair or alteration form authorized by or furnished by the 
Administrator has been executed in a manner prescribed by the 
Administrator; and
    (c) If a repair or an alteration results in any change in the 
aircraft operating limitations or flight data contained in the approved 
aircraft flight manual, those operating limitations or flight data are 
appropriately revised and set forth as prescribed in Sec. 91.9 of this 
chapter.

[Doc. No. 1993, 29 FR 5451, Apr. 23, 1964, as amended by Amdt. 43-23, 47 
FR 41084, Sept. 16, 1982; Amdt. 43-31, 54 FR 34330, Aug. 18, 1989]



Sec. 43.7  Persons authorized to approve aircraft, airframes, aircraft engines, propellers, appliances, or component parts for return to service after 
          maintenance, preventive maintenance, rebuilding, or 
          alteration.

    (a) Except as provided in this section and Sec. 43.17, no person, 
other than the Administrator, may approve an aircraft, airframe, 
aircraft engine, propeller, appliance, or component part for return to 
service after it has undergone maintenance, preventive maintenance, 
rebuilding, or alteration.
    (b) The holder of a mechanic certificate or an inspection 
authorization may approve an aircraft, airframe, aircraft engine, 
propeller, appliance, or component part for return to service as 
provided in Part 65 of this chapter.
    (c) The holder of a repair station certificate may approve an 
aircraft, airframe, aircraft engine, propeller, appliance, or component 
part for return to service as provided in Part 145 of this chapter.
    (d) A manufacturer may approve for return to service any aircraft, 
airframe, aircraft engine, propeller, appliance, or component part which 
that manufacturer has worked on under Sec. 43.3(j). However, except for 
minor alterations, the work must have been done in accordance with 
technical data approved by the Administrator.
    (e) The holder of an air carrier operating certificate or an 
operating certificate issued under Part 121 or 135, may approve an 
aircraft, airframe, aircraft engine, propeller, appliance, or component 
part for return to service as provided in Part 121 or 135 of this 
chapter, as applicable.
    (f) A person holding at least a private pilot certificate may 
approve an aircraft for return to service after performing preventive 
maintenance under the provisions of Sec. 43.3(g).

[Amdt. 43-23, 47 FR 41084, Sept. 16, 1982, as amended by Amdt. 43-36, 61 
FR 19501, May 1, 1996; Amdt. 43-37, 66 FR 21066, Apr. 27, 2001]



Sec. 43.9  Content, form, and disposition of maintenance, preventive 

maintenance, rebuilding, and alteration records (except inspections performed in accordance 
          with part 91, part 123, part 125, Sec. 135.411(a)(1), and 
          Sec. 135.419 of this chapter).

    (a) Maintenance record entries. Except as provided in paragraphs (b) 
and (c) of this section, each person who maintains, performs preventive 
maintenance, rebuilds, or alters an aircraft, airframe, aircraft engine, 
propeller, appliance, or component part shall make an entry in the 
maintenance record of that equipment containing the following 
information:

[[Page 854]]

    (1) A description (or reference to data acceptable to the 
Administrator) of work performed.
    (2) The date of completion of the work performed.
    (3) The name of the person performing the work if other than the 
person specified in paragraph (a)(4) of this section.
    (4) If the work performed on the aircraft, airframe, aircraft 
engine, propeller, appliance, or component part has been performed 
satisfactorily, the signature, certificate number, and kind of 
certificate held by the person approving the work. The signature 
constitutes the approval for return to service only for the work 
performed.

In addition to the entry required by this paragraph, major repairs and 
major alterations shall be entered on a form, and the form disposed of, 
in the manner prescribed in appendix B, by the person performing the 
work.
    (b) Each holder of an air carrier operating certificate or an 
operating certificate issued under Part 121 or 135, that is required by 
its approved operations specifications to provide for a continuous 
airworthiness maintenance program, shall make a record of the 
maintenance, preventive maintenance, rebuilding, and alteration, on 
aircraft, airframes, aircraft engines, propellers, appliances, or 
component parts which it operates in accordance with the applicable 
provisions of Part 121 or 135 of this chapter, as appropriate.
    (c) This section does not apply to persons performing inspections in 
accordance with Part 91, 123, 125, Sec. 135.411(a)(1), or Sec. 135.419 
of this chapter.

[Amdt. 43-23, 47 FR 41085, Sept. 16, 1982, as amended by Amdt. 43-37, 66 
FR 21066, Apr. 27, 2001]



Sec. 43.11  Content, form, and disposition of records for inspections conducted under parts 91 and 125 and Secs. 135.411(a)(1) and 135.419 of this chapter.

    (a) Maintenance record entries. The person approving or disapproving 
for return to service an aircraft, airframe, aircraft engine, propeller, 
appliance, or component part after any inspection performed in 
accordance with Part 91, 123, 125, Sec. 135.411(a)(1), or Sec. 135.419 
shall make an entry in the maintenance record of that equipment 
containing the following information:
    (1) The type of inspection and a brief description of the extent of 
the inspection.
    (2) The date of the inspection and aircraft total time in service.
    (3) The signature, the certificate number, and kind of certificate 
held by the person approving or disapproving for return to service the 
aircraft, airframe, aircraft engine, propeller, appliance, component 
part, or portions thereof.
    (4) Except for progressive inspections, if the aircraft is found to 
be airworthy and approved for return to service, the following or a 
similarly worded statement--``I certify that this aircraft has been 
inspected in accordance with (insert type) inspection and was determined 
to be in airworthy condition.''
    (5) Except for progressive inspections, if the aircraft is not 
approved for return to service because of needed maintenance, 
noncompliance with applicable specifications, airworthiness directives, 
or other approved data, the following or a similarly worded statement--
``I certify that this aircraft has been inspected in accordance with 
(insert type) inspection and a list of discrepancies and unairworthy 
items dated (date) has been provided for the aircraft owner or 
operator.''
    (6) For progressive inspections, the following or a similarly worded 
statement--``I certify that in accordance with a progressive inspection 
program, a routine inspection of (identify whether aircraft or 
components) and a detailed inspection of (identify components) were 
performed and the (aircraft or components) are (approved or disapproved) 
for return to service.'' If disapproved, the entry will further state 
``and a list of discrepancies and unairworthy items dated (date) has 
been provided to the aircraft owner or operator.''
    (7) If an inspection is conducted under an inspection program 
provided for in part 91, 123, 125, or Sec. 135.411(a)(1), the entry must 
identify the inspection program, that part of the inspection program 
accomplished, and contain a

[[Page 855]]

statement that the inspection was performed in accordance with the 
inspections and procedures for that particular program.
    (b) Listing of discrepancies and placards. If the person performing 
any inspection required by part 91 or 125 or Sec. 135.411(a)(1) of this 
chapter finds that the aircraft is unairworthy or does not meet the 
applicable type certificate data, airworthiness directives, or other 
approved data upon which its airworthiness depends, that persons must 
give the owner or lessee a signed and dated list of those discrepancies. 
For those items permitted to be inoperative under Sec. 91.213(d)(2) of 
this chapter, that person shall place a placard, that meets the 
aircraft's airworthiness certification regulations, on each inoperative 
instrument and the cockpit control of each item of inoperative 
equipment, marking it ``Inoperative,'' and shall add the items to the 
signed and dated list of discrepancies given to the owner or lessee.

[Amdt. 43-23, 47 FR 41085, Sept. 16, 1982, as amended by Amdt. 43-30, 53 
FR 50195, Dec. 13, 1988; Amdt. 43-36, 61 FR 19501, May 1, 1996]



Sec. 43.12  Maintenance records: Falsification, reproduction, or alteration.

    (a) No person may make or cause to be made:
    (1) Any fraudulent or intentionally false entry in any record or 
report that is required to be made, kept, or used to show compliance 
with any requirement under this part;
    (2) Any reproduction, for fraudulent purpose, of any record or 
report under this part; or
    (3) Any alteration, for fraudulent purpose, of any record or report 
under this part.
    (b) The commission by any person of an act prohibited under 
paragraph (a) of this section is a basis for suspending or revoking the 
applicable airman, operator, or production certificate, Technical 
Standard Order Authorization, FAA-Parts Manufacturer Approval, or 
Product and Process Specification issued by the Administrator and held 
by that person.

[Amdt. 43-19, 43 FR 22639, May 25, 1978, as amended by Amdt. 43-23, 47 
FR 41085, Sept. 16, 1982]



Sec. 43.13  Performance rules (general).

    (a) Each person performing maintenance, alteration, or preventive 
maintenance on an aircraft, engine, propeller, or appliance shall use 
the methods, techniques, and practices prescribed in the current 
manufacturer's maintenance manual or Instructions for Continued 
Airworthiness prepared by its manufacturer, or other methods, 
techniques, and practices acceptable to the Administrator, except as 
noted in Sec. 43.16. He shall use the tools, equipment, and test 
apparatus necessary to assure completion of the work in accordance with 
accepted industry practices. If special equipment or test apparatus is 
recommended by the manufacturer involved, he must use that equipment or 
apparatus or its equivalent acceptable to the Administrator.
    (b) Each person maintaining or altering, or performing preventive 
maintenance, shall do that work in such a manner and use materials of 
such a quality, that the condition of the aircraft, airframe, aircraft 
engine, propeller, or appliance worked on will be at least equal to its 
original or properly altered condition (with regard to aerodynamic 
function, structural strength, resistance to vibration and 
deterioration, and other qualities affecting airworthiness).
    (c) Special provisions for holders of air carrier operating 
certificates and operating certificates issued under the provisions of 
Part 121 or 135 and Part 129 operators holding operations 
specifications. Unless otherwise notified by the administrator, the 
methods, techniques, and practices contained in the maintenance manual 
or the maintenance part of the manual of the holder of an air carrier 
operating certificate or an operating certificate under Part 121 or 135 
and Part 129 operators holding operations specifications (that is 
required by its operating specifications to provide a continuous 
airworthiness maintenance and inspection program) constitute acceptable 
means of compliance with this section.

[Doc. No. 1993, 29 FR 5451, Apr. 23, 1964, as amended by Amdt. 43-20, 45 
FR 60182, Sept. 11, 1980; Amdt. 43-23, 47 FR 41085, Sept. 16, 1982; 
Amdt. 43-28, 52 FR 20028, June 16, 1987; Amdt. 43-37, 66 FR 21066, Apr. 
27, 2001]

[[Page 856]]



Sec. 43.15  Additional performance rules for inspections.

    (a) General. Each person performing an inspection required by Part 
91, 123, 125, or 135 of this chapter, shall--
    (1) Perform the inspection so as to determine whether the aircraft, 
or portion(s) thereof under inspection, meets all applicable 
airworthiness requirements; and
    (2) If the inspection is one provided for in Part 123, 125, 135, or 
Sec. 91.409(e) of this chapter, perform the inspection in accordance 
with the instructions and procedures set forth in the inspection program 
for the aircraft being inspected.
    (b) Rotorcraft. Each person performing an inspection required by 
Part 91 on a rotorcraft shall inspect the following systems in 
accordance with the maintenance manual or Instructions for Continued 
Airworthiness of the manufacturer concerned:
    (1) The drive shafts or similar systems.
    (2) The main rotor transmission gear box for obvious defects.
    (3) The main rotor and center section (or the equivalent area).
    (4) The auxiliary rotor on helicopters.
    (c) Annual and 100-hour inspections. (1) Each person performing an 
annual or 100-hour inspection shall use a checklist while performing the 
inspection. The checklist may be of the person's own design, one 
provided by the manufacturer of the equipment being inspected or one 
obtained from another source. This checklist must include the scope and 
detail of the items contained in appendix D to this part and paragraph 
(b) of this section.
    (2) Each person approving a reciprocating-engine-powered aircraft 
for return to service after an annual or 100-hour inspection shall, 
before that approval, run the aircraft engine or engines to determine 
satisfactory performance in accordance with the manufacturer's 
recommendations of--
    (i) Power output (static and idle r.p.m.);
    (ii) Magnetos;
    (iii) Fuel and oil pressure; and
    (iv) Cylinder and oil temperature.
    (3) Each person approving a turbine-engine-powered aircraft for 
return to service after an annual, 100-hour, or progressive inspection 
shall, before that approval, run the aircraft engine or engines to 
determine satisfactory performance in accordance with the manufacturer's 
recommendations.
    (d) Progressive inspection. (1) Each person performing a progressive 
inspection shall, at the start of a progressive inspection system, 
inspect the aircraft completely. After this initial inspection, routine 
and detailed inspections must be conducted as prescribed in the 
progressive inspection schedule. Routine inspections consist of visual 
examination or check of the appliances, the aircraft, and its components 
and systems, insofar as practicable without disassembly. Detailed 
inspections consist of a thorough examination of the appliances, the 
aircraft, and its components and systems, with such disassembly as is 
necessary. For the purposes of this subparagraph, the overhaul of a 
component or system is considered to be a detailed inspection.
    (2) If the aircraft is away from the station where inspections are 
normally conducted, an appropriately rated mechanic, a certificated 
repair station, or the manufacturer of the aircraft may perform 
inspections in accordance with the procedures and using the forms of the 
person who would otherwise perform the inspection.

[Doc. No. 1993, 29 FR 5451, Apr. 23, 1964, as amended by Amdt. 43-23, 47 
FR 41086, Sept. 16, 1982; Amdt. 43-25, 51 FR 40702, Nov. 7, 1986; Amdt. 
43-31, 54 FR 34330, Aug. 18, 1989]



Sec. 43.16  Airworthiness Limitations.

    Each person performing an inspection or other maintenance specified 
in an Airworthiness Limitations section of a manufacturer's maintenance 
manual or Instructions for Continued Airworthiness shall perform the 
inspection or other maintenance in accordance with that section, or in 
accordance with operations specifications approved by the Administrator 
under Parts 121, 123, or 135, or an inspection program approved under 
Sec. 91.409(e).

[Amdt. 43-20, 45 FR 60183, Sept. 11, 1980, as amended by Amdt. 43-23, 47 
FR 41086, Sept. 16, 1982; Amdt. 43-31, 54 FR 34330, Aug. 18, 1989; Amdt. 
43-37, 66 FR 21066, Apr. 27, 2001]

[[Page 857]]



Sec. 43.17  Maintenance, preventive maintenance, and alterations performed on U.S. aeronautical products by certain Canadian persons.

    (a) Definitions. For purposes of this section:
    Aeronautical product means any civil aircraft or airframe, aircraft 
engine, propeller, appliance, component, or part to be installed 
thereon.
    Canadian aeronautical product means any civil aircraft or airframe, 
aircraft engine, propeller, or appliance under airworthiness regulation 
by the Canadian Department of Transport, or component or part to be 
installed thereon.
    U.S. aeronautical product means any civil aircraft or airframe, 
aircraft engine, propeller, or appliance under airworthiness regulation 
by the FAA, or component or part to be installed thereon.
    (b) Applicability. This section does not apply to any U.S. 
aeronautical products maintained or altered under any bilateral 
agreement made between Canada and any country other than the United 
States.
    (c) Authorized persons. (1) A person holding a valid Canadian 
Department of Transport license (Aircraft Maintenance Engineer) and 
appropriate ratings may, with respect to a U.S.-registered aircraft 
located in Canada, perform maintenance, preventive maintenance, and 
alterations in accordance with the requirements of paragraph (d) of this 
section and approve the affected aircraft for return to service in 
accordance with the requirements of paragraph (e) of this section.
    (2) A company (Approved Maintenance Organization) (AMO) whose system 
of quality control for the maintenance, alteration, and inspection of 
aeronautical products has been approved by the Canadian Department of 
Transport, or a person who is an authorized employee performing work for 
such a company may, with respect to a U.S.-registered aircraft located 
in Canada or other U.S. aeronautical products transported to Canada from 
the United States, perform maintenance, preventive maintenance, and 
alterations in accordance with the requirements of paragraph (d) of this 
section and approve the affected products for return to service in 
accordance with the requirements of paragraph (e) of this section.
    (d) Performance requirements. A person authorized in paragraph (c) 
of this section may perform maintenance (including any inspection 
required by Sec. 91.409 of this chapter, except an annual inspection), 
preventive maintenance, and alterations, provided:
    (1) The person performing the work is authorized by the Canadian 
Department of Transport to perform the same type of work with respect to 
Canadian aeronautical products;
    (2) The work is performed in accordance with Secs. 43.13, 43.15, and 
43.16 of this chapter, as applicable;
    (3) The work is performed such that the affected product complies 
with the applicable requirements of part 36 of this chapter; and
    (4) The work is recorded in accordance with Secs. 43.2(a), 43.9, and 
43.11 of this chapter, as applicable.
    (e) Approval requirements. (1) To return an affected product to 
service, a person authorized in paragraph (c) of this section must 
approve (certify) maintenance, preventive maintenance, and alterations 
performed under this section, except that an Aircraft Maintenance 
Engineer may not approve a major repair or major alteration.
    (2) An AMO whose system of quality control for the maintenance, 
preventive maintenance, alteration, and inspection of aeronautical 
products has been approved by the Canadian Department of Transport, or 
an authorized employee performing work for such an AMO, may approve 
(certify) a major repair or major alteration performed under this 
section if the work was performed in accordance with technical data 
approved by the Administrator.
    (f) No person may operate in air commerce an aircraft, airframe, 
aircraft engine, propeller, or appliance on which maintenance, 
preventive maintenance, or alteration has been performed under this 
section unless it has been approved for return to service by a person 
authorized in this section.

[Amdt. 43-33, 56 FR 57571, Nov. 12, 1991]

[[Page 858]]

Appendix A to Part 43--Major Alterations, Major Repairs, and Preventive 
                               Maintenance

    (a) Major alterations--(1) Airframe major alterations. Alterations 
of the following parts and alterations of the following types, when not 
listed in the aircraft specifications issued by the FAA, are airframe 
major alterations:
    (i) Wings.
    (ii) Tail surfaces.
    (iii) Fuselage.
    (iv) Engine mounts.
    (v) Control system.
    (vi) Landing gear.
    (vii) Hull or floats.
    (viii) Elements of an airframe including spars, ribs, fittings, 
shock absorbers, bracing, cowling, fairings, and balance weights.
    (ix) Hydraulic and electrical actuating system of components.
    (x) Rotor blades.
    (xi) Changes to the empty weight or empty balance which result in an 
increase in the maximum certificated weight or center of gravity limits 
of the aircraft.
    (xii) Changes to the basic design of the fuel, oil, cooling, 
heating, cabin pressurization, electrical, hydraulic, de-icing, or 
exhaust systems.
    (xiii) Changes to the wing or to fixed or movable control surfaces 
which affect flutter and vibration characteristics.
    (2) Powerplant major alterations. The following alterations of a 
powerplant when not listed in the engine specifications issued by the 
FAA, are powerplant major alterations.
    (i) Conversion of an aircraft engine from one approved model to 
another, involving any changes in compression ratio, propeller reduction 
gear, impeller gear ratios or the substitution of major engine parts 
which requires extensive rework and testing of the engine.
    (ii) Changes to the engine by replacing aircraft engine structural 
parts with parts not supplied by the original manufacturer or parts not 
specifically approved by the Administrator.
    (iii) Installation of an accessory which is not approved for the 
engine.
    (iv) Removal of accessories that are listed as required equipment on 
the aircraft or engine specification.
    (v) Installation of structural parts other than the type of parts 
approved for the installation.
    (vi) Conversions of any sort for the purpose of using fuel of a 
rating or grade other than that listed in the engine specifications.
    (3) Propeller major alterations. The following alterations of a 
propeller when not authorized in the propeller specifications issued by 
the FAA are propeller major alterations:
    (i) Changes in blade design.
    (ii) Changes in hub design.
    (iii) Changes in the governor or control design.
    (iv) Installation of a propeller governor or feathering system.
    (v) Installation of propeller de-icing system.
    (vi) Installation of parts not approved for the propeller.
    (4) Appliance major alterations. Alterations of the basic design not 
made in accordance with recommendations of the appliance manufacturer or 
in accordance with an FAA Airworthiness Directive are appliance major 
alterations. In addition, changes in the basic design of radio 
communication and navigation equipment approved under type certification 
or a Technical Standard Order that have an effect on frequency 
stability, noise level, sensitivity, selectivity, distortion, spurious 
radiation, AVC characteristics, or ability to meet environmental test 
conditions and other changes that have an effect on the performance of 
the equipment are also major alterations.
    (b) Major repairs--(1) Airframe major repairs. Repairs to the 
following parts of an airframe and repairs of the following types, 
involving the strengthening, reinforcing, splicing, and manufacturing of 
primary structural members or their replacement, when replacement is by 
fabrication such as riveting or welding, are airframe major repairs.
    (i) Box beams.
    (ii) Monocoque or semimonocoque wings or control surfaces.
    (iii) Wing stringers or chord members.
    (iv) Spars.
    (v) Spar flanges.
    (vi) Members of truss-type beams.
    (vii) Thin sheet webs of beams.
    (viii) Keel and chine members of boat hulls or floats.
    (ix) Corrugated sheet compression members which act as flange 
material of wings or tail surfaces.
    (x) Wing main ribs and compression members.
    (xi) Wing or tail surface brace struts.
    (xii) Engine mounts.
    (xiii) Fuselage longerons.
    (xiv) Members of the side truss, horizontal truss, or bulkheads.
    (xv) Main seat support braces and brackets.
    (xvi) Landing gear brace struts.
    (xvii) Axles.
    (xviii) Wheels.
    (xix) Skis, and ski pedestals.
    (xx) Parts of the control system such as control columns, pedals, 
shafts, brackets, or horns.
    (xxi) Repairs involving the substitution of material.
    (xxii) The repair of damaged areas in metal or plywood stressed 
covering exceeding six inches in any direction.

[[Page 859]]

    (xxiii) The repair of portions of skin sheets by making additional 
seams.
    (xxiv) The splicing of skin sheets.
    (xxv) The repair of three or more adjacent wing or control surface 
ribs or the leading edge of wings and control surfaces, between such 
adjacent ribs.
    (xxvi) Repair of fabric covering involving an area greater than that 
required to repair two adjacent ribs.
    (xxvii) Replacement of fabric on fabric covered parts such as wings, 
fuselages, stabilizers, and control surfaces.
    (xxviii) Repairing, including rebottoming, of removable or integral 
fuel tanks and oil tanks.
    (2) Powerplant major repairs. Repairs of the following parts of an 
engine and repairs of the following types, are powerplant major repairs:
    (i) Separation or disassembly of a crankcase or crankshaft of a 
reciprocating engine equipped with an integral supercharger.
    (ii) Separation or disassembly of a crankcase or crankshaft of a 
reciprocating engine equipped with other than spur-type propeller 
reduction gearing.
    (iii) Special repairs to structural engine parts by welding, 
plating, metalizing, or other methods.
    (3) Propeller major repairs. Repairs of the following types to a 
propeller are propeller major repairs:
    (i) Any repairs to, or straightening of steel blades.
    (ii) Repairing or machining of steel hubs.
    (iii) Shortening of blades.
    (iv) Retipping of wood propellers.
    (v) Replacement of outer laminations on fixed pitch wood propellers.
    (vi) Repairing elongated bolt holes in the hub of fixed pitch wood 
propellers.
    (vii) Inlay work on wood blades.
    (viii) Repairs to composition blades.
    (ix) Replacement of tip fabric.
    (x) Replacement of plastic covering.
    (xi) Repair of propeller governors.
    (xii) Overhaul of controllable pitch propellers.
    (xiii) Repairs to deep dents, cuts, scars, nicks, etc., and 
straightening of aluminum blades.
    (xiv) The repair or replacement of internal elements of blades.
    (4) Appliance major repairs. Repairs of the following types to 
appliances are appliance major repairs:
    (i) Calibration and repair of instruments.
    (ii) Calibration of radio equipment.
    (iii) Rewinding the field coil of an electrical accessory.
    (iv) Complete disassembly of complex hydraulic power valves.
    (v) Overhaul of pressure type carburetors, and pressure type fuel, 
oil and hydraulic pumps.
    (c) Preventive maintenance. Preventive maintenance is limited to the 
following work, provided it does not involve complex assembly 
operations:
    (1) Removal, installation, and repair of landing gear tires.
    (2) Replacing elastic shock absorber cords on landing gear.
    (3) Servicing landing gear shock struts by adding oil, air, or both.
    (4) Servicing landing gear wheel bearings, such as cleaning and 
greasing.
    (5) Replacing defective safety wiring or cotter keys.
    (6) Lubrication not requiring disassembly other than removal of 
nonstructural items such as cover plates, cowlings, and fairings.
    (7) Making simple fabric patches not requiring rib stitching or the 
removal of structural parts or control surfaces. In the case of 
balloons, the making of small fabric repairs to envelopes (as defined 
in, and in accordance with, the balloon manufacturers' instructions) not 
requiring load tape repair or replacement.
    (8) Replenishing hydraulic fluid in the hydraulic reservoir.
    (9) Refinishing decorative coating of fuselage, balloon baskets, 
wings tail group surfaces (excluding balanced control surfaces), 
fairings, cowlings, landing gear, cabin, or cockpit interior when 
removal or disassembly of any primary structure or operating system is 
not required.
    (10) Applying preservative or protective material to components 
where no disassembly of any primary structure or operating system is 
involved and where such coating is not prohibited or is not contrary to 
good practices.
    (11) Repairing upholstery and decorative furnishings of the cabin, 
cockpit, or balloon basket interior when the repairing does not require 
disassembly of any primary structure or operating system or interfere 
with an operating system or affect the primary structure of the 
aircraft.
    (12) Making small simple repairs to fairings, nonstructural cover 
plates, cowlings, and small patches and reinforcements not changing the 
contour so as to interfere with proper air flow.
    (13) Replacing side windows where that work does not interfere with 
the structure or any operating system such as controls, electrical 
equipment, etc.
    (14) Replacing safety belts.
    (15) Replacing seats or seat parts with replacement parts approved 
for the aircraft, not involving disassembly of any primary structure or 
operating system.
    (16) Trouble shooting and repairing broken circuits in landing light 
wiring circuits.
    (17) Replacing bulbs, reflectors, and lenses of position and landing 
lights.
    (18) Replacing wheels and skis where no weight and balance 
computation is involved.

[[Page 860]]

    (19) Replacing any cowling not requiring removal of the propeller or 
disconnection of flight controls.
    (20) Replacing or cleaning spark plugs and setting of spark plug gap 
clearance.
    (21) Replacing any hose connection except hydraulic connections.
    (22) Replacing prefabricated fuel lines.
    (23) Cleaning or replacing fuel and oil strainers or filter 
elements.
    (24) Replacing and servicing batteries.
    (25) Cleaning of balloon burner pilot and main nozzles in accordance 
with the balloon manufacturer's instructions.
    (26) Replacement or adjustment of nonstructural standard fasteners 
incidental to operations.
    (27) The interchange of balloon baskets and burners on envelopes 
when the basket or burner is designated as interchangeable in the 
balloon type certificate data and the baskets and burners are 
specifically designed for quick removal and installation.
    (28) The installations of anti-misfueling devices to reduce the 
diameter of fuel tank filler openings provided the specific device has 
been made a part of the aircraft type certificiate data by the aircraft 
manufacturer, the aircraft manufacturer has provided FAA-approved 
instructions for installation of the specific device, and installation 
does not involve the disassembly of the existing tank filler opening.
    (29) Removing, checking, and replacing magnetic chip detectors.
    (30) The inspection and maintenance tasks prescribed and 
specifically identified as preventive maintenance in a primary category 
aircraft type certificate or supplemental type certificate holder's 
approved special inspection and preventive maintenance program when 
accomplished on a primary category aircraft provided:
    (i) They are performed by the holder of at least a private pilot 
certificate issued under part 61 who is the registered owner (including 
co-owners) of the affected aircraft and who holds a certificate of 
competency for the affected aircraft (1) issued by a school approved 
under Sec. 147.21(e) of this chapter; (2) issued by the holder of the 
production certificate for that primary category aircraft that has a 
special training program approved under Sec. 21.24 of this subchapter; 
or (3) issued by another entity that has a course approved by the 
Administrator; and
    (ii) The inspections and maintenance tasks are performed in 
accordance with instructions contained by the special inspection and 
preventive maintenance program approved as part of the aircraft's type 
design or supplemental type design.
    (31) Removing and replacing self-contained, front instrument panel-
mounted navigation and communication devices that employ tray-mounted 
connectors that connect the unit when the unit is installed into the 
instrument panel, (excluding automatic flight control systems, 
transponders, and microwave frequency distance measuring equipment 
(DME)). The approved unit must be designed to be readily and repeatedly 
removed and replaced, and pertinent instructions must be provided. Prior 
to the unit's intended use, and operational check must be performed in 
accordance with the applicable sections of part 91 of this chapter.
    (32) Updating self-contained, front instrument panel-mounted Air 
Traffic Control (ATC) navigational software data bases (excluding those 
of automatic flight control systems, transponders, and microwave 
frequency distance measuring equipment (DME)) provided no disassembly of 
the unit is required and pertinent instructions are provided. Prior to 
the unit's intended use, an operational check must be performed in 
accordance with applicable sections of part 91 of this chapter.

(Secs. 313, 601 through 610, and 1102, Federal Aviation Act of 1958 as 
amended (49 U.S.C. 1354, 1421 through 1430 and 1502); (49 U.S.C. 106(g) 
(Revised Pub. L. 97-449, Jan. 21, 1983); and 14 CFR 11.45)

[Doc. No. 1993, 29 FR 5451, Apr. 23, 1964, as amended by Amdt. 43-14, 37 
FR 14291, June 19, 1972; Amdt. 43-23, 47 FR 41086, Sept. 16, 1982; Amdt. 
43-24, 49 FR 44602, Nov. 7, 1984; Amdt. 43-25, 51 FR 40703, Nov. 7, 
1986; Amdt. 43-27, 52 FR 17277, May 6, 1987; Amdt. 43-34, 57 FR 41369, 
Sept. 9, 1992; Amdt. 43-36, 61 FR 19501, May 1, 1996]

 Appendix B to Part 43--Recording of Major Repairs and Major Alterations

    (a) Except as provided in paragraphs (b), (c), and (d) of this 
appendix, each person performing a major repair or major alteration 
shall--
    (1) Execute FAA Form 337 at least in duplicate;
    (2) Give a signed copy of that form to the aircraft owner; and
    (3) Forward a copy of that form to the local Flight Standards 
District Office within 48 hours after the aircraft, airframe, aircraft 
engine, propeller, or appliance is approved for return to service.
    (b) For major repairs made in accordance with a manual or 
specifications acceptable to the Administrator, a certificated repair 
station may, in place of the requirements of paragraph (a)--
    (1) Use the customer's work order upon which the repair is recorded;
    (2) Give the aircraft owner a signed copy of the work order and 
retain a duplicate copy for at least two years from the date of approval 
for return to service of the aircraft, airframe, aircraft engine, 
propeller, or appliance;

[[Page 861]]

    (3) Give the aircraft owner a maintenance release signed by an 
authorized representative of the repair station and incorporating the 
following information:
    (i) Identity of the aircraft, airframe, aircraft engine, propeller 
or appliance.
    (ii) If an aircraft, the make, model, serial number, nationality and 
registration marks, and location of the repaired area.
    (iii) If an airframe, aircraft engine, propeller, or appliance, give 
the manufacturer's name, name of the part, model, and serial numbers (if 
any); and
    (4) Include the following or a similarly worded statement--
    ``The aircraft, airframe, aircraft engine, propeller, or appliance 
identified above was repaired and inspected in accordance with current 
Regulations of the Federal Aviation Agency and is approved for return to 
service.
    Pertinent details of the repair are on file at this repair station 
under Order No. ------,

Date____________________________________________________________________
Signed__________________________________________________________________

For signature of authorized representative)

Repair station name)      (Certificate No.)
------------------------.''

(Address)
    (c) For a major repair or major alteration made by a person 
authorized in Sec. 43.17, the person who performs the major repair or 
major alteration and the person authorized by Sec. 43.17 to approve that 
work shall execute a FAA Form 337 at least in duplicate. A completed 
copy of that form shall be--
    (1) Given to the aircraft owner; and
    (2) Forwarded to the Federal Aviation Administration, Aircraft 
Registration Branch, Post Office Box 25082, Oklahoma City, Okla. 73125, 
within 48 hours after the work is inspected.
    (d) For extended-range fuel tanks installed within the passenger 
compartment or a baggage compartment, the person who performs the work 
and the person authorized to approve the work by Sec. 43.7 of this part 
shall execute an FAA Form 337 in at least triplicate. One (1) copy of 
the FAA Form 337 shall be placed on board the aircraft as specified in 
Sec. 91.417 of this chapter. The remaining forms shall be distributed as 
required by paragraph (a)(2) and (3) or (c)(1) and (2) of this paragraph 
as appropriate.

(Secs. 101, 610, 72 Stat. 737, 780, 49 U.S.C. 1301, 1430)

[Doc. No. 1993, 29 FR 5451, Apr. 23, 1964, as amended by Amdt. 43-10, 33 
FR 15989, Oct. 31, 1968; Amdt. 43-29, 52 FR 34101, Sept. 9, 1987; Amdt. 
43-31, 54 FR 34330, Aug. 18, 1989]

                    Appendix C to Part 43 [Reserved]

 Appendix D to Part 43--Scope and Detail of Items (as Applicable to the 
 Particular Aircraft) To Be Included in Annual and 100-Hour Inspections

    (a) Each person performing an annual or 100-hour inspection shall, 
before that inspection, remove or open all necessary inspection plates, 
access doors, fairing, and cowling. He shall thoroughly clean the 
aircraft and aircraft engine.
    (b) Each person performing an annual or 100-hour inspection shall 
inspect (where applicable) the following components of the fuselage and 
hull group:
    (1) Fabric and skin--for deterioration, distortion, other evidence 
of failure, and defective or insecure attachment of fittings.
    (2) Systems and components--for improper installation, apparent 
defects, and unsatisfactory operation.
    (3) Envelope, gas bags, ballast tanks, and related parts--for poor 
condition.
    (c) Each person performing an annual or 100-hour inspection shall 
inspect (where applicable) the following components of the cabin and 
cockpit group:
    (1) Generally--for uncleanliness and loose equipment that might foul 
the controls.
    (2) Seats and safety belts--for poor condition and apparent defects.
    (3) Windows and windshields--for deterioration and breakage.
    (4) Instruments--for poor condition, mounting, marking, and (where 
practicable) improper operation.
    (5) Flight and engine controls--for improper installation and 
improper operation.
    (6) Batteries--for improper installation and improper charge.
    (7) All systems--for improper installation, poor general condition, 
apparent and obvious defects, and insecurity of attachment.
    (d) Each person performing an annual or 100-hour inspection shall 
inspect (where applicable) components of the engine and nacelle group as 
follows:
    (1) Engine section--for visual evidence of excessive oil, fuel, or 
hydraulic leaks, and sources of such leaks.
    (2) Studs and nuts--for improper torquing and obvious defects.
    (3) Internal engine--for cylinder compression and for metal 
particles or foreign matter on screens and sump drain plugs. If there is 
weak cylinder compression, for improper internal condition and improper 
internal tolerances.
    (4) Engine mount--for cracks, looseness of mounting, and looseness 
of engine to mount.
    (5) Flexible vibration dampeners--for poor condition and 
deterioration.
    (6) Engine controls--for defects, improper travel, and improper 
safetying.

[[Page 862]]

    (7) Lines, hoses, and clamps--for leaks, improper condition and 
looseness.
    (8) Exhaust stacks--for cracks, defects, and improper attachment.
    (9) Accessories--for apparent defects in security of mounting.
    (10) All systems--for improper installation, poor general condition, 
defects, and insecure attachment.
    (11) Cowling--for cracks, and defects.
    (e) Each person performing an annual or 100-hour inspection shall 
inspect (where applicable) the following components of the landing gear 
group:
    (1) All units--for poor condition and insecurity of attachment.
    (2) Shock absorbing devices--for improper oleo fluid level.
    (3) Linkages, trusses, and members--for undue or excessive wear 
fatigue, and distortion.
    (4) Retracting and locking mechanism--for improper operation.
    (5) Hydraulic lines--for leakage.
    (6) Electrical system--for chafing and improper operation of 
switches.
    (7) Wheels--for cracks, defects, and condition of bearings.
    (8) Tires--for wear and cuts.
    (9) Brakes--for improper adjustment.
    (10) Floats and skis--for insecure attachment and obvious or 
apparent defects.
    (f) Each person performing an annual or 100-hour inspection shall 
inspect (where applicable) all components of the wing and center section 
assembly for poor general condition, fabric or skin deterioration, 
distortion, evidence of failure, and insecurity of attachment.
    (g) Each person performing an annual or 100-hour inspection shall 
inspect (where applicable) all components and systems that make up the 
complete empennage assembly for poor general condition, fabric or skin 
deterioration, distortion, evidence of failure, insecure attachment, 
improper component installation, and improper component operation.
    (h) Each person performing an annual or 100-hour inspection shall 
inspect (where applicable) the following components of the propeller 
group:
    (1) Propeller assembly--for cracks, nicks, binds, and oil leakage.
    (2) Bolts--for improper torquing and lack of safetying.
    (3) Anti-icing devices--for improper operations and obvious defects.
    (4) Control mechanisms--for improper operation, insecure mounting, 
and restricted travel.
    (i) Each person performing an annual or 100-hour inspection shall 
inspect (where applicable) the following components of the radio group:
    (1) Radio and electronic equipment--for improper installation and 
insecure mounting.
    (2) Wiring and conduits--for improper routing, insecure mounting, 
and obvious defects.
    (3) Bonding and shielding--for improper installation and poor 
condition.
    (4) Antenna including trailing antenna--for poor condition, insecure 
mounting, and improper operation.
    (j) Each person performing an annual or 100-hour inspection shall 
inspect (where applicable) each installed miscellaneous item that is not 
otherwise covered by this listing for improper installation and improper 
operation.

       Appendix E to Part 43--Altimeter System Test and Inspection

    Each person performing the altimeter system tests and inspections 
required by Sec. 91.411 shall comply with the following:
    (a) Static pressure system:
    (1) Ensure freedom from entrapped moisture and restrictions.
    (2) Determine that leakage is within the tolerances established in 
Sec. 23.1325 or Sec. 25.1325, whichever is applicable.
    (3) Determine that the static port heater, if installed, is 
operative.
    (4) Ensure that no alterations or deformations of the airframe 
surface have been made that would affect the relationship between air 
pressure in the static pressure system and true ambient static air 
pressure for any flight condition.
    (b) Altimeter:
    (1) Test by an appropriately rated repair facility in accordance 
with the following subparagraphs. Unless otherwise specified, each test 
for performance may be conducted with the instrument subjected to 
vibration. When tests are conducted with the temperature substantially 
different from ambient temperature of approximately 25 degrees C., 
allowance shall be made for the variation from the specified condition.
    (i) Scale error. With the barometric pressure scale at 29.92 inches 
of mercury, the altimeter shall be subjected successively to pressures 
corresponding to the altitude specified in Table I up to the maximum 
normally expected operating altitude of the airplane in which the 
altimeter is to be installed. The reduction in pressure shall be made at 
a rate not in excess of 20,000 feet per minute to within approximately 
2,000 feet of the test point. The test point shall be approached at a 
rate compatible with the test equipment. The altimeter shall be kept at 
the pressure corresponding to each test point for at least 1 minute, but 
not more than 10 minutes, before a reading is taken. The error at all 
test points must not exceed the tolerances specified in Table I.

[[Page 863]]

    (ii) Hysteresis. The hysteresis test shall begin not more than 15 
minutes after the altimeter's initial exposure to the pressure 
corresponding to the upper limit of the scale error test prescribed in 
subparagraph (i); and while the altimeter is at this pressure, the 
hysteresis test shall commence. Pressure shall be increased at a rate 
simulating a descent in altitude at the rate of 5,000 to 20,000 feet per 
minute until within 3,000 feet of the first test point (50 percent of 
maximum altitude). The test point shall then be approached at a rate of 
approximately 3,000 feet per minute. The altimeter shall be kept at this 
pressure for at least 5 minutes, but not more than 15 minutes, before 
the test reading is taken. After the reading has been taken, the 
pressure shall be increased further, in the same manner as before, until 
the pressure corresponding to the second test point (40 percent of 
maximum altitude) is reached. The altimeter shall be kept at this 
pressure for at least 1 minute, but not more than 10 minutes, before the 
test reading is taken. After the reading has been taken, the pressure 
shall be increased further, in the same manner as before, until 
atmospheric pressure is reached. The reading of the altimeter at either 
of the two test points shall not differ by more than the tolerance 
specified in Table II from the reading of the altimeter for the 
corresponding altitude recorded during the scale error test prescribed 
in paragraph (b)(i).
    (iii) After effect. Not more than 5 minutes after the completion of 
the hysteresis test prescribed in paragraph (b)(ii), the reading of the 
altimeter (corrected for any change in atmospheric pressure) shall not 
differ from the original atmospheric pressure reading by more than the 
tolerance specified in Table II.
    (iv) Friction. The altimeter shall be subjected to a steady rate of 
decrease of pressure approximating 750 feet per minute. At each altitude 
listed in Table III, the change in reading of the pointers after 
vibration shall not exceed the corresponding tolerance listed in Table 
III.
    (v) Case leak. The leakage of the altimeter case, when the pressure 
within it corresponds to an altitude of 18,000 feet, shall not change 
the altimeter reading by more than the tolerance shown in Table II 
during an interval of 1 minute.
    (vi) Barometric scale error. At constant atmospheric pressure, the 
barometric pressure scale shall be set at each of the pressures (falling 
within its range of adjustment) that are listed in Table IV, and shall 
cause the pointer to indicate the equivalent altitude difference shown 
in Table IV with a tolerance of 25 feet.
    (2) Altimeters which are the air data computer type with associated 
computing systems, or which incorporate air data correction internally, 
may be tested in a manner and to specifications developed by the 
manufacturer which are acceptable to the Administrator.
    (c) Automatic Pressure Altitude Reporting Equipment and ATC 
Transponder System Integration Test. The test must be conducted by an 
appropriately rated person under the conditions specified in paragraph 
(a). Measure the automatic pressure altitude at the output of the 
installed ATC transponder when interrogated on Mode C at a sufficient 
number of test points to ensure that the altitude reporting equipment, 
altimeters, and ATC transponders perform their intended functions as 
installed in the aircraft. The difference between the automatic 
reporting output and the altitude displayed at the altimeter shall not 
exceed 125 feet.
    (d) Records: Comply with the provisions of Sec. 43.9 of this chapter 
as to content, form, and disposition of the records. The person 
performing the altimeter tests shall record on the altimeter the date 
and maximum altitude to which the altimeter has been tested and the 
persons approving the airplane for return to service shall enter that 
data in the airplane log or other permanent record.

                                 Table I
------------------------------------------------------------------------
                                            Equivalent
                                             pressure    Tolerance plus-
                 Altitude                   (inches of     minus(feet)
                                             mercury)
------------------------------------------------------------------------
--1,000...................................      31.018             20
0.........................................      29.921             20
500.......................................      29.385             20
1,000.....................................      28.856             20
1,500.....................................      28.335             25
2,000.....................................      27.821             30
3,000.....................................      26.817             30
4,000.....................................      25.842             35
6,000.....................................      23.978             40
8,000.....................................      22.225             60
10,000....................................      20.577             80
12,000....................................      19.029             90
14,000....................................      17.577            100
16,000....................................      16.216            110
18,000....................................      14.942            120
20,000....................................      13.750            130
22,000....................................      12.636            140
25,000....................................      11.104            155
30,000....................................       8.885            180
35,000....................................       7.041            205
40,000....................................       5.538            230
45,000....................................       4.355            255
50,000....................................       3.425            280
------------------------------------------------------------------------


                        Table II--Test Tolerances
------------------------------------------------------------------------
                                                               Tolerance
                            Test                                (feet)
------------------------------------------------------------------------
Case Leak Test..............................................  plus-minus
                                                                     100
Hysteresis Test:
  First Test Point (50 percent of maximum altitude).........          75
  Second Test Point (40 percent of maximum altitude)........          75
After Effect Test...........................................          30
------------------------------------------------------------------------


[[Page 864]]


                           Table III--Friction
------------------------------------------------------------------------
                                                               Tolerance
                       Altitude (feet)                          (feet)
------------------------------------------------------------------------
1,000.......................................................  plus-minus
                                                                      70
2,000.......................................................          70
3,000.......................................................          70
5,000.......................................................          70
10,000......................................................          80
15,000......................................................          90
20,000......................................................         100
25,000......................................................         120
30,000......................................................         140
35,000......................................................         160
40,000......................................................         180
50,000......................................................         250
------------------------------------------------------------------------


                 Table IV--Pressure-Altitude Difference
------------------------------------------------------------------------
                                                               Altitude
                   Pressure (inches of Hg)                    difference
                                                                (feet)
------------------------------------------------------------------------
28.10.......................................................      -1,727
28.50.......................................................      -1,340
29.00.......................................................        -863
29.50.......................................................        -392
29.92.......................................................           0
30.50.......................................................        +531
30.90.......................................................        +893
30.99.......................................................        +974
------------------------------------------------------------------------


(Secs. 313, 314, and 601 through 610 of the Federal Aviation Act of 1958 
(49 U.S.C. 1354, 1355, and 1421 through 1430) and sec. 6(c), Dept. of 
Transportation Act (49 U.S.C. 1655(c)))

[Amdt. 43-2, 30 FR 8262, June 29, 1965, as amended by Amdt. 43-7, 32 FR 
7587, May 24, 1967; Amdt. 43-19, 43 FR 22639, May 25, 1978; Amdt. 43-23, 
47 FR 41086, Sept. 16, 1982; Amdt. 43-31, 54 FR 34330, Aug. 18, 1989]

      Appendix F to Part 43--ATC Transponder Tests and Inspections

    The ATC transponder tests required by Sec. 91.413 of this chapter 
may be conducted using a bench check or portable test equipment and must 
meet the requirements prescribed in paragraphs (a) through (j) of this 
appendix. If portable test equipment with appropriate coupling to the 
aircraft antenna system is used, operate the test equipment for ATCRBS 
transponders at a nominal rate of 235 interrogations per second to avoid 
possible ATCRBS interference. Operate the test equipment at a nominal 
rate of 50 Mode S interrogations per second for Mode S. An additional 3 
dB loss is allowed to compensate for antenna coupling errors during 
receiver sensitivity measurements conducted in accordance with paragraph 
(c)(1) when using portable test equipment.
    (a) Radio Reply Frequency:
    (1) For all classes of ATCRBS transponders, interrogate the 
transponder and verify that the reply frequency is 10903 
Megahertz (MHz).
    (2) For classes 1B, 2B, and 3B Mode S transponders, interrogate the 
transponder and verify that the reply frequency is 10903 
MHz.
    (3) For classes 1B, 2B, and 3B Mode S transponders that incorporate 
the optional 10901 MHz reply frequency, interrogate the 
transponder and verify that the reply frequency is correct.
    (4) For classes 1A, 2A, 3A, and 4 Mode S transponders, interrogate 
the transponder and verify that the reply frequency is 10901 
MHz.
    (b) Suppression: When Classes 1B and 2B ATCRBS Transponders, or 
Classes 1B, 2B, and 3B Mode S transponders are interrogated Mode 3/A at 
an interrogation rate between 230 and 1,000 interrogations per second; 
or when Classes 1A and 2A ATCRBS Transponders, or Classes 1B, 2A, 3A, 
and 4 Mode S transponders are interrogated at a rate between 230 and 
1,200 Mode 3/A interrogations per second:
    (1) Verify that the transponder does not respond to more than 1 
percent of ATCRBS interrogations when the amplitude of P2 
pulse is equal to the P1 pulse.
    (2) Verify that the transponder replies to at least 90 percent of 
ATCRBS interrogations when the amplitude of the P2 pulse is 9 
dB less than the P1 pulse. If the test is conducted with a 
radiated test signal, the interrogation rate shall be 2355 
interrogations per second unless a higher rate has been approved for the 
test equipment used at that location.
    (c) Receiver Sensitivity:
    (1) Verify that for any class of ATCRBS Transponder, the receiver 
minimum triggering level (MTL) of the system is -734 dbm, or 
that for any class of Mode S transponder the receiver MTL for Mode S 
format (P6 type) interrogations is -743 dbm by use of a test 
set either:
    (i) Connected to the antenna end of the transmission line;
    (ii) Connected to the antenna terminal of the transponder with a 
correction for transmission line loss; or
    (iii) Utilized radiated signal.
    (2) Verify that the difference in Mode 3/A and Mode C receiver 
sensitivity does not exceed 1 db for either any class of ATCRBS 
transponder or any class of Mode S transponder.
    (d) Radio Frequency (RF) Peak Output Power:
    (1) Verify that the transponder RF output power is within 
specifications for the class of transponder. Use the same conditions as 
described in (c)(1)(i), (ii), and (iii) above.
    (i) For Class 1A and 2A ATCRBS transponders, verify that the minimum 
RF peak output power is at least 21.0 dbw (125 watts).
    (ii) For Class 1B and 2B ATCRBS Transponders, verify that the 
minimum RF peak output power is at least 18.5 dbw (70 watts).

[[Page 865]]

    (iii) For Class 1A, 2A, 3A, and 4 and those Class 1B, 2B, and 3B 
Mode S transponders that include the optional high RF peak output power, 
verify that the minimum RF peak output power is at least 21.0 dbw (125 
watts).
    (iv) For Classes 1B, 2B, and 3B Mode S transponders, verify that the 
minimum RF peak output power is at least 18.5 dbw (70 watts).
    (v) For any class of ATCRBS or any class of Mode S transponders, 
verify that the maximum RF peak output power does not exceed 27.0 dbw 
(500 watts).
    Note: The tests in (e) through (j) apply only to Mode S 
transponders.
    (e) Mode S Diversity Transmission Channel Isolation: For any class 
of Mode S transponder that incorporates diversity operation, verify that 
the RF peak output power transmitted from the selected antenna exceeds 
the power transmitted from the nonselected antenna by at least 20 db.
    (f) Mode S Address: Interrogate the Mode S transponder and verify 
that it replies only to its assigned address. Use the correct address 
and at least two incorrect addresses. The interrogations should be made 
at a nominal rate of 50 interrogations per second.
    (g) Mode S Formats: Interrogate the Mode S transponder with uplink 
formats (UF) for which it is equipped and verify that the replies are 
made in the correct format. Use the surveillance formats UF=4 and 5. 
Verify that the altitude reported in the replies to UF=4 are the same as 
that reported in a valid ATCRBS Mode C reply. Verify that the identity 
reported in the replies to UF=5 are the same as that reported in a valid 
ATCRBS Mode 3/A reply. If the transponder is so equipped, use the 
communication formats UF=20, 21, and 24.
    (h) Mode S All-Call Interrogations: Interrogate the Mode S 
transponder with the Mode S-only all-call format UF=11, and the ATCRBS/
Mode S all-call formats (1.6 microsecond P4 pulse) and verify 
that the correct address and capability are reported in the replies 
(downlink format DF=11).
    (i) ATCRBS-Only All-Call Interrogation: Interrogate the Mode S 
transponder with the ATCRBS-only all-call interrogation (0.8 microsecond 
P4 pulse) and verify that no reply is generated.
    (j) Squitter: Verify that the Mode S transponder generates a correct 
squitter approximately once per second.
    (k) Records: Comply with the provisions of Sec. 43.9 of this chapter 
as to content, form, and disposition of the records.


[Amdt. 43-26, 52 FR 3390, Feb. 3, 1987; 52 FR 6651, Mar. 4, 1987, as 
amended by Amdt. 43-31, 54 FR 34330, Aug. 18, 1989]



PART 45--IDENTIFICATION AND REGISTRATION MARKING--Table of Contents




                           Subpart A--General

Sec.
45.1  Applicability.

       Subpart B--Identification of Aircraft and Related Products

45.11  General.
45.13  Identification data.
45.14  Identification of critical components.
45.15  Replacement and modification parts.

              Subpart C--Nationality and Registration Marks

45.21  General.
45.22  Exhibition, antique, and other aircraft: Special rules.
45.23  Display of marks; general.
45.25  Location of marks on fixed-wing aircraft.
45.27  Location of marks; nonfixed-wing aircraft.
45.29  Size of marks.
45.31  Marking of export aircraft.
45.33  Sale of aircraft; removal of marks.

    Authority: 49 U.S.C. 106(g), 40103, 40109, 40113-40114, 44101-44105, 
44107-44108, 44110-44111, 44504, 44701, 44708-44709, 44711-44713, 45302-
45303, 46104, 46304, 46306, 47122.

    Source: Docket No. 2047, 29 FR 3223, Mar. 11, 1964, unless otherwise 
noted.



                           Subpart A--General



Sec. 45.1  Applicability.

    This part prescribes the requirements for--
    (a) Identification of aircraft, and identification of aircraft 
engines and propellers that are manufactured under the terms of a type 
or production certificate:
    (b) Identification of certain replacement and modified parts 
produced for installation on type certificated products; and
    (c) Nationality and registration marking of U.S. registered 
aircraft.

[Doc. No. 2047, 29 FR 3223, Mar. 11, 1964, as amended by Amdt. 45-3, 32 
FR 188, Jan. 10, 1967]

[[Page 866]]



       Subpart B--Identification of Aircraft and Related Products



Sec. 45.11  General.

    (a) Aircraft and aircraft engines. Aircraft covered under 
Sec. 21.182 of this chapter must be identified, and each person who 
manufacturers an aircraft engine under a type or production certificate 
shall identify that engine, by means of a fireproof plate that has the 
information specified in Sec. 45.13 of this part marked on it by 
etching, stamping, engraving, or other approved method of fireproof 
marking. The identification plate for aircraft must be secured in such a 
manner that it will not likely be defaced or removed during normal 
service, or lost or destroyed in an accident. Except as provided in 
paragraphs (c) and (d) of this section, the aircraft identification 
plate must be secured to the aircraft fuselage exterior so that it is 
legible to a person on the ground, and must be either adjacent to and 
aft of the rear-most entrance door or on the fuselage surface near the 
tail surfaces. For aircraft engines, the identification plate must be 
affixed to the engine at an accessible location in such a manner that it 
will not likely be defaced or removed during normal service, or lost or 
destroyed in an accident.
    (b) Propellers and propeller blades and hubs. Each person who 
manufactures a propeller, propeller blade, or propeller hub under the 
terms of a type or production certificate shall identify his product by 
means of a plate, stamping, engraving, etching, or other approved method 
of fireproof identification that is placed on it on a noncritical 
surface, contains the information specified in Sec. 45.13, and will not 
be likely to be defaced or removed during normal service or lost or 
destroyed in an accident.
    (c) For manned free balloons, the identification plate prescribed in 
paragraph (a) of this section must be secured to the balloon envelope 
and must be located, if practicable, where it is legible to the operator 
when the balloon is inflated. In addition, the basket and heater 
assembly must be permanently and legibly marked with the manufacturer's 
name, part number (or equivalent) and serial number (or equivalent).
    (d) On aircraft manufactured before March 7, 1988, the 
identification plate required by paragraph (a) of this section may be 
secured at an accessible exterior or interior location near an entrance, 
if the model designation and builder's serial number are also displayed 
on the aircraft fuselage exterior. The model designation and builder's 
serial number must be legible to a person on the ground and must be 
located either adjacent to and aft of the rear-most entrance door or on 
the fuselage near the tail surfaces. The model designation and builder's 
serial number must be displayed in such a manner that they are not 
likely to be defaced or removed during normal service.

[Amdt. 45-3, 32 FR 188, Jan. 10, 1967 as amended by Amdt. 45-7, 33 FR 
14402, Sept. 25, 1968; Amdt. 45-12, 45 FR 60183, Sept. 11, 1980; 45 FR 
85597, Dec. 29, 1980; Amdt. 45-17, 52 FR 34101, Sept. 9, 1987; 52 FR 
36566, Sept. 30, 1987]



Sec. 45.13  Identification data.

    (a) The identification required by Sec. 45.11 (a) and (b) shall 
include the following information:
    (1) Builder's name.
    (2) Model designation.
    (3) Builder's serial number.
    (4) Type certificate number, if any.
    (5) Production certificate number, if any.
    (6) For aircraft engines, the established rating.
    (7) On or after January 1, 1984, for aircraft engines specified in 
part 34 of this chapter, the date of manufacture as defined in Sec. 34.1 
of that part, and a designation, approved by the Administrator of the 
FAA, that indicates compliance with the applicable exhaust emission 
provisions of part 34 and 40 CFR part 87. Approved designations include 
COMPLY, EXEMPT, and NON-US as appropriate.
    (i) The designation COMPLY indicates that the engine is in 
compliance with all of the applicable exhaust emissions provisions of 
part 34. For any engine with a rated thrust in excess of 26.7 
kilonewtons (6000 pounds) which is not used or intended for use in 
commercial operations and which is in compliance with the applicable 
provisions of part 34, but does not comply with the hydrocarbon 
emissions standard of Sec. 34.21(d), the statement ``May

[[Page 867]]

not be used as a commercial aircraft engine'' must be noted in the 
permanent powerplant record that accompanies the engine at the time of 
manufacture of the engine.
    (ii) The designation EXEMPT indicates that the engine has been 
granted an exemption pursuant to the applicable provision of Sec. 34.7 
(a)(1), (a)(4), (b), (c), or (d), and an indication of the type of 
exemption and the reason for the grant must be noted in the permanent 
powerplant record that accompanies the engine from the time of 
manufacture of the engine.
    (iii) The designation NON-US indicates that the engine has been 
granted an exemption pursuant to Sec. 34.7(a)(1), and the notation 
``This aircraft may not be operated within the United States'', or an 
equivalent notation approved by the Administrator of the FAA, must be 
inserted in the aircraft logbook, or alternate equivalent document, at 
the time of installation of the engine.
    (8) Any other information the Administrator finds appropriate.
    (b) Except as provided in paragraph (d)(1) of this section, no 
person may remove, change, or place identification information required 
by paragraph (a) of this section, on any aircraft, aircraft engine, 
propeller, propeller blade, or propeller hub, without the approval of 
the Administrator.
    (c) Except as provided in paragraph (d)(2) of this section, no 
person may remove or install any identification plate required by 
Sec. 45.11 of this part, without the approval of the Administrator.
    (d) Persons performing work under the provisions of Part 43 of this 
chapter may, in accordance with methods, techniques, and practices 
acceptable to the Administrator--
    (1) Remove, change, or place the identification information required 
by paragraph (a) of this section on any aircraft, aircraft engine, 
propeller, propeller blade, or propeller hub; or
    (2) Remove an identification plate required by Sec. 45.11 when 
necessary during maintenance operations.
    (e) No person may install an identification plate removed in 
accordance with paragraph (d)(2) of this section on any aircraft, 
aircraft engine, propeller, propeller blade, or propeller hub other than 
the one from which it was removed.

[Amdt. 45-3, 32 FR 188, Jan. 10, 1967, as amended by Amdt. 45-10, 44 FR 
45379, Aug. 2, 1979; Amdt. 45-12, 45 FR 60183, Sept. 11, 1980; Amdt. 45-
20, 55 FR 32861, Aug. 10, 1990; 55 FR 37287, Sept. 10, 1990]



Sec. 45.14  Identification of critical components.

    Each person who produces a part for which a replacement time, 
inspection interval, or related procedure is specified in the 
Airworthiness Limitations section of a manufacturer's maintenance manual 
or Instructions for Continued Airworthiness shall permanently and 
legibly mark that component with a part number (or equivalent) and a 
serial number (or equivalent).

[Amdt. 45-16, 51 FR 40703, Nov. 7, 1986]



Sec. 45.15  Replacement and modification parts.

    (a) Except as provided in paragraph (b) of this section, each person 
who produces a replacement or modification part under a Parts 
Manufacturer Approval issued under Sec. 21.303 of this chapter shall 
permanently and legibly mark the part with--
    (1) The letters ``FAA-PMA'';
    (2) The name, trademark, or symbol of the holder of the Parts 
Manufacturer Approval;
    (3) The part number; and
    (4) The name and model designation of each type certificated product 
on which the part is eligible for installation.
    (b) If the Administrator finds that a part is too small or that it 
is otherwise impractical to mark a part with any of the information 
required by paragraph (a) of this section, a tag attached to the part or 
its container must include the information that could not be marked on 
the part. If the marking required by paragraph (a)(4) of this section is 
so extensive that to mark it on a tag is impractical, the tag attached 
to the part or the container may refer to a specific readily available 
manual or catalog for part eligibility information.

[Amdt. 45-8, 37 FR 10660, May 26, 1972, as amended by Amdt. 45-14, 47 FR 
13315, Mar. 29, 1982]

[[Page 868]]



              Subpart C--Nationality and Registration Marks



Sec. 45.21  General.

    (a) Except as provided in Sec. 45.22, no person may operate a U.S.-
registered aircraft unless that aircraft displays nationality and 
registration marks in accordance with the requirements of this section 
and Secs. 45.23 through 45.33.
    (b) Unless otherwise authorized by the Administrator, no person may 
place on any aircraft a design, mark, or symbol that modifies or 
confuses the nationality and registration marks.
    (c) Aircraft nationality and registration marks must--
    (1) Except as provided in paragraph (d) of this section, be painted 
on the aircraft or affixed by any other means insuring a similar degree 
of permanence;
    (2) Have no ornamentation;
    (3) Contrast in color with the background; and
    (4) Be legible.
    (d) The aircraft nationality and registration marks may be affixed 
to an aircraft with readily removable material if--
    (1) It is intended for immediate delivery to a foreign purchaser;
    (2) It is bearing a temporary registration number; or
    (3) It is marked temporarily to meet the requirements of 
Sec. 45.22(c)(1) or Sec. 45.29(h) of this part, or both.

[Doc. No. 8093, Amdt. 45-5, 33 FR 450, Jan 12, 1968, as amended by Amdt. 
45-17, 52 FR 34102, Sept. 9, 1987]



Sec. 45.22  Exhibition, antique, and other aircraft: Special rules.

    (a) When display of aircraft nationality and registration marks in 
accordance with Secs. 45.21 and 45.23 through 45.33 would be 
inconsistent with exhibition of that aircraft, a U.S.-registered 
aircraft may be operated without displaying those marks anywhere on the 
aircraft if:
    (1) It is operated for the purpose of exhibition, including a motion 
picture or television production, or an airshow;
    (2) Except for practice and test fights necessary for exhibition 
purposes, it is operated only at the location of the exhibition, between 
the exhibition locations, and between those locations and the base of 
operations of the aircraft; and
    (3) For each flight in the United States:

    (i) It is operated with the prior approval of the Flight Standards 
District Office, in the case of a flight within the lateral boundaries 
of the surface areas of Class B, Class C, Class D, or Class E airspace 
designated for the takeoff airport, or within 4.4 nautical miles of that 
airport if it is within Class G airspace; or

    (ii) It is operated under a flight plan filed under either 
Sec. 91.153 or Sec. 91.169 of this chapter describing the marks it 
displays, in the case of any other flight.
    (b) A small U.S.-registered aircraft built at least 30 years ago or 
a U.S.-registered aircraft for which an experimental certificate has 
been issued under Sec. 21.191(d) or 21.191(g) for operation as an 
exhibition aircraft or as an amateur-built aircraft and which has the 
same external configuration as an aircraft built at least 30 years ago 
may be operated without displaying marks in accordance with Secs. 45.21 
and 45.23 through 45.33 if:
    (1) It displays in accordance with Sec. 45.21(c) marks at least 2 
inches high on each side of the fuselage or vertical tail surface 
consisting of the Roman capital letter ``N'' followed by:
    (i) The U.S. registration number of the aircraft; or
    (ii) The symbol appropriate to the airworthiness certificate of the 
aircraft (``C'', standard; ``R'', restricted; ``L'', limited; or ``X'', 
experimental) followed by the U.S. registration number of the aircraft; 
and
    (2) It displays no other mark that begins with the letter ``N'' 
anywhere on the aircraft, unless it is the same mark that is displayed 
under paragraph (b)(1) of this section.
    (c) No person may operate an aircraft under paragraph (a) or (b) of 
this section--
    (1) In an ADIZ or DEWIZ described in Part 99 of this chapter unless 
it temporarily bears marks in accordance with Secs. 45.21 and 45.23 
through 45.33;
    (2) In a foreign country unless that country consents to that 
operation; or
    (3) In any operation conducted under Part 121, 133, 135, or 137 of 
this chapter.

[[Page 869]]

    (d) If, due to the configuration of an aircraft, it is impossible 
for a person to mark it in accordance with Secs. 45.21 and 45.23 through 
45.33, he may apply to the Administrator for a different marking 
procedure.

[Doc. No. 8093, Amdt. 45-5, 33 FR 450, Jan. 12, 1968, as amended by 
Amdt. 45-13, 46 FR 48603, Oct. 1, 1981; Amdt. 45-19, 54 FR 39291, Sept. 
25, 1989; Amdt. 45-18, 54 FR 34330, Aug. 18, 1989; Amdt. 45-21, 56 FR 
65653, Dec. 17, 1991; Amdt. 45-22, 66 FR 21066, Apr. 27, 2001]



Sec. 45.23  Display of marks; general.

    (a) Each operator of an aircraft shall display on that aircraft 
marks consisting of the Roman capital letter ``N'' (denoting United 
States registration) followed by the registration number of the 
aircraft. Each suffix letter used in the marks displayed must also be a 
Roman capital letter.
    (b) When marks that include only the Roman capital letter ``N'' and 
the registration number are displayed on limited or restricted category 
aircraft or experimental or provisionally certificated aircraft, the 
operator shall also display on that aircraft near each entrance to the 
cabin or cockpit, in letters not less than 2 inches nor more than 6 
inches in height, the words ``limited,'' ``restricted,'' 
``experimental,'' or ``provisional airworthiness,'' as the case may be.

[Doc. No. 8093, Amdt. 45-5, 33 FR 450, Jan. 12, 1968, as amended by 
Amdt. 45-9, 42 FR 41102, Aug. 15, 1977]



Sec. 45.25  Location of marks on fixed-wing aircraft.

    (a) The operator of a fixed-wing aircraft shall display the required 
marks on either the vertical tail surfaces or the sides of the fuselage, 
except as provided in Sec. 45.29(f).
    (b) The marks required by paragraph (a) of this section shall be 
displayed as follows:
    (1) If displayed on the vertical tail surfaces, horizontally on both 
surfaces, horizontally on both surfaces of a single vertical tail or on 
the outer surfaces of a multivertical tail. However, on aircraft on 
which marks at least 3 inches high may be displayed in accordance with 
Sec. 45.29(b)(1), the marks may be displayed vertically on the vertical 
tail surfaces.
    (2) If displayed on the fuselage surfaces, horizontally on both 
sides of the fuselage between the trailing edge of the wing and the 
leading edge of the horizontal stabilizer. However, if engine pods or 
other appurtenances are located in this area and are an integral part of 
the fuselage side surfaces, the operator may place the marks on those 
pods or appurtenances.

[Amdt. 45-9, 42 FR 41102, Aug. 15, 1977]



Sec. 45.27  Location of marks; nonfixed-wing aircraft.

    (a) Rotorcraft. Each operator of a rotorcraft shall display on that 
rotorcraft horizontally on both surfaces of the cabin, fuselage, boom, 
or tail the marks required by Sec. 45.23.
    (b) Airships. Each operator of an airship shall display on that 
airship the marks required by Sec. 45.23, horizontally on--
    (1) The upper surface of the right horizontal stabilizer and on the 
under surface of the left horizontal stabilizer with the top of the 
marks toward the leading edge of each stabilizer; and
    (2) Each side of the bottom half of the vertical stabilizer.
    (c) Spherical balloons. Each operator of a spherical balloon shall 
display the marks required by Sec. 45.23 in two places diametrically 
opposite and near the maximum horizontal circumference of that balloon.
    (d) Nonspherical balloons. Each operator of a nonspherical balloon 
shall display the marks required by Sec. 45.23 on each side of the 
balloon near its maximum cross section and immediately above either the 
rigging band or the points of attachment of the basket or cabin 
suspension cables.

[Doc. No. 2047, 29 FR 3223, Mar. 11, 1964, as amended by Amdt. 45-15, 48 
FR 11392, Mar. 17, 1983]



Sec. 45.29  Size of marks.

    (a) Except as provided in paragraph (f) of this section, each 
operator of an aircraft shall display marks on the aircraft meeting the 
size requirements of this section.
    (b) Height. Except as provided in paragraph (h) of this part, the 
nationality and registration marks must be of equal height and on--

[[Page 870]]

    (1) Fixed-wing aircraft, must be at least 12 inches high, except 
that:
    (i) An aircraft displaying marks at least 2 inches high before 
November 1, 1981 and an aircraft manufactured after November 2, 1981, 
but before January 1, 1983, may display those marks until the aircraft 
is repainted or the marks are repainted, restored, or changed;
    (ii) Marks at least 3 inches high may be displayed on a glider;
    (iii) Marks at least 3 inches high may be displayed on an aircraft 
for which an experimental certificate has been issued under 
Sec. 21.191(d) or 21.191(g) for operating as an exhibition aircraft or 
as an amateur-built aircraft when the maximum cruising speed of the 
aircraft does not exceed 180 knots CAS; and
    (iv) Marks may be displayed on an exhibition, antique, or other 
aircraft in accordance with Sec. 45.22.
    (2) Airships, spherical balloons, and nonspherical balloons, must be 
at least 3 inches high; and
    (3) Rotorcraft, must be at least 12 inches high, except that 
rotorcraft displaying before April 18, 1983, marks required by 
Sec. 45.29(b)(3) in effect on April 17, 1983, and rotorcraft 
manufactured on or after April 18, 1983, but before December 31, 1983, 
may display those marks until the aircraft is repainted or the marks are 
repainted, restored, or changed.
    (c) Width. Characters must be two-thirds as wide as they are high, 
except the number ``1'', which must be one-sixth as wide as it is high, 
and the letters ``M'' and ``W'' which may be as wide as they are high.
    (d) Thickness. Characters must be formed by solid lines one-sixth as 
thick as the character is high.
    (e) Spacing. The space between each character may not be less than 
one-fourth of the character width.
    (f) If either one of the surfaces authorized for displaying required 
marks under Sec. 45.25 is large enough for display of marks meeting the 
size requirements of this section and the other is not, full-size marks 
shall be placed on the larger surface. If neither surface is large 
enough for full-size marks, marks as large as practicable shall be 
displayed on the larger of the two surfaces. If any surface authorized 
to be marked by Sec. 45.27 is not large enough for full-size marks, 
marks as large as practicable shall be placed on the largest of the 
authorized surfaces.
    (g) Uniformity. The marks required by this part for fixed-wing 
aircraft must have the same height, width, thickness, and spacing on 
both sides of the aircraft.
    (h) After March 7, 1988, each operator of an aircraft penetrating an 
ADIZ or DEWIZ shall display on that aircraft temporary or permanent 
nationality and registration marks at least 12 inches high.

[Doc. No. 2047, 29 FR 3223, Mar. 11, 1964, as amended by Amdt. 45-2, 31 
FR 9863, July 21, 1966; Amdt. 45-9, 42 FR 41102, Aug. 15, 1977; Amdt. 
45-13, 46 FR 48604, Oct. 1, 1981; Amdt. 45-15, 48 FR 11392, Mar. 17, 
1983; Amdt. 45-17, 52 FR 34102, Sept. 9, 1987; 52 FR 36566, Sept. 30, 
1987]



Sec. 45.31  Marking of export aircraft.

    A person who manufactures an aircraft in the United States for 
delivery outside thereof may display on that aircraft any marks required 
by the State of registry of the aircraft. However, no person may operate 
an aircraft so marked within the United States, except for test and 
demonstration flights for a limited period of time, or while in 
necessary transit to the purchaser.



Sec. 45.33  Sale of aircraft; removal of marks.

    When an aircraft that is registered in the United States is sold, 
the holder of the Certificate of Aircraft Registration shall remove, 
before its delivery to the purchaser, all United States marks from the 
aircraft, unless the purchaser is--
    (a) A citizen of the United States;
    (b) An individual citizen of a foreign country who is lawfully 
admitted for permanent residence in the United States; or
    (c) When the aircraft is to be based and primarily used in the 
United States, a corporation (other than a corporation which is a 
citizen of the United States) lawfully organized and doing business 
under the laws of the United States or any State thereof.

[Amdt. 45-11, 44 FR 61938, Oct. 29, 1979]

[[Page 871]]



PART 47--AIRCRAFT REGISTRATION--Table of Contents




                           Subpart A--General

Sec.
47.1  Applicability.
47.2  Definitions.
47.3  Registration required.
47.5  Applicants.
47.7  United States citizens and resident aliens.
47.8  Voting trusts.
47.9  Corporations not U.S. citizens.
47.11  Evidence of ownership.
47.13  Signatures and instruments made by representatives.
47.15  Identification number.
47.16  Temporary registration numbers.
47.17  Fees.
47.19  FAA Aircraft Registry.

            Subpart B--Certificates of Aircraft Registration

47.31  Application.
47.33  Aircraft not previously registered anywhere.
47.35  Aircraft last previously registered in the United States.
47.37  Aircraft last previously registered in a foreign country.
47.39  Effective date of registration.
47.41  Duration and return of Certificate.
47.43  Invalid registration.
47.45  Change of address.
47.47  Cancellation of Certificate for export purpose.
47.49  Replacement of Certificate.
47.51  Triennial aircraft registration report.

          Subpart C--Dealers' Aircraft Registration Certificate

47.61  Dealers' Aircraft Registration Certificates.
47.63  Application.
47.65  Eligibility.
47.67  Evidence of ownership.
47.69  Limitations.
47.71  Duration of Certificate; change of status.

    Authority: 49 U.S.C. 106(g), 40113-40114, 44101-44108, 44110-44111, 
44703-44704, 44713, 45302, 46104, 46301; 4 U.S.T. 1830.

    Source: Docket No. 7190, 31 FR 4495, Mar. 17, 1966, unless otherwise 
noted.



                           Subpart A--General



Sec. 47.1  Applicability.

    This part prescribes the requirements for registering aircraft under 
section 501 of the Federal Aviation Act of 1958 (49 U.S.C. 1401). 
Subpart B applies to each applicant for, and holder of, a Certificate of 
Aircraft Registration. Subpart C applies to each applicant for, and 
holder of, a Dealers' Aircraft Registration Certificate.



Sec. 47.2  Definitions.

    The following are definitions of terms used in this part:
    Act means the Federal Aviation Act of 1958 (49 U.S.C. section 1301 
et seq.).
    Resident alien means an individual citizen of a foreign country 
lawfully admitted for permanent residence in the United States as an 
immigrant in conformity with the regulations of the Immigration and 
Naturalization Service of the Department of Justice (8 CFR Chapter 1).
    U.S. citizen means one of the following:
    (1) An individual who is a citizen of the United States or one of 
its possessions.
    (2) A partnership of which each member is such an individual.
    (3) A corporation or association created or organized under the laws 
of the United States or of any State, Territory, or possession of the 
United States, of which the president and two-thirds or more of the 
board of directors and other managing officers thereof are such 
individuals and in which at least 75 percent of the voting interest is 
owned or controlled by persons who are citizens of the United States or 
of one of its possessions.

[Amdt. 47-20, 44 FR 61939, Oct. 29, 1979]



Sec. 47.3  Registration required.

    (a) Section 501(b) of the Federal Aviation Act of 1958 (49 U.S.C. 
1401 (b)) defines eligibility for registration as follows:

    (b) An aircraft shall be eligible for registration if, but only if--
    (1)(A) it is--
    (i) owned by a citizen of the United States or by an individual 
citizen of a foreign country who has lawfully been admitted for 
permanent residence in the United States; or
    (ii) owned by a corporation (other than a corporation which is a 
citizen of the United States) lawfully organized and doing business 
under the laws of the United States or any State thereof so long as such 
aircraft is based and primarily used in the United States; and

[[Page 872]]

    (B) it is not registered under the laws of any foreign country; or
    (2) it is an aircraft of the Federal Government, or of a State, 
territory, or possession of the United States or the District of 
Columbia or a political subdivision thereof.

    (b) No person may operate on aircraft that is eligible for 
registration under section 501 of the Federal Aviation Act of 1958 
unless the aircraft--
    (1) Has been registered by its owner;
    (2) Is carrying aboard the temporary authorization required by 
Sec. 47.31(b); or
    (3) Is an aircraft of the Armed Forces.
    (c) Governmental units are those named in paragraph (a) of this 
section and Puerto Rico.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966, as amended by Amdt. 47-20, 44 
FR 61939, Oct. 29, 1979]



Sec. 47.5  Applicants.

    (a) A person who wishes to register an aircraft in the United States 
must submit an Application for Aircraft Registration under this part.
    (b) An aircraft may be registered only by and in the legal name of 
its owner.
    (c) Section 501(f) of the Act (49 U.S.C. 1401(f)), provides that 
registration is not evidence of ownership of aircraft in any proceeding 
in which ownership by a particular person is in issue. The FAA does not 
issue any certificate of ownership or endorse any information with 
respect to ownership on a Certificate of Aircraft Registration. The FAA 
issues a Certificate of Aircraft Registration to the person who appears 
to be the owner on the basis of the evidence of ownership submitted 
pursuant to Sec. 47.11 with the Application for Aircraft Registration, 
or recorded at the FAA Aircraft Registry.
    (d) In this part, ``owner'' includes a buyer in possession, a 
bailee, or a lessee of an aircraft under a contract of conditional sale, 
and the assignee of that person.

[Amdt. 47-20, 44 FR 61939, Oct. 29, 1979]



Sec. 47.7  United States citizens and resident aliens.

    (a) U.S. citizens. An applicant for aircraft registration under this 
part who is a U.S. citizen must certify to this in the application.
    (b) Resident aliens. An applicant for aircraft registration under 
section 501(b)(1)(A)(i) of the Act who is a resident alien must furnish 
a representation of permanent residence and the applicant's alien 
registration number issued by the Immigration and Naturalization 
Service.
    (c) Trustees. An applicant for aircraft registration under section 
501(b)(1)(A)(i) of the Act that holds legal title to an aircraft in 
trust must comply with the following requirements:
    (1) Each trustee must be either a U.S. citizen or a resident alien.
    (2) The applicant must submit with the application--
    (i) A copy of each document legally affecting a relationship under 
the trust;
    (ii) If each beneficiary under the trust, including each person 
whose security interest in the aircraft is incorporated in the trust, is 
either a U.S. citizen or a resident alien, an affidavit by the applicant 
to that effect; and
    (iii) If any beneficiary under the trust, including any person whose 
security interest in the aircraft is incorporated in the trust, is not a 
U.S. citizen or resident alien, an affidavit from each trustee stating 
that the trustee is not aware of any reason, situation, or relationship 
(involving beneficiaries or other persons who are not U.S. citizens or 
resident aliens) as a result of which those persons together would have 
more than 25 percent of the aggregate power to influence or limit the 
exercise of the trustee's authority.
    (3) If persons who are neither U.S. citizens nor resident aliens 
have the power to direct or remove a trustee, either directly or 
indirectly through the control of another person, the trust instrument 
must provide that those persons together may not have more than 25 
percent of the aggregate power to direct or remove a trustee. Nothing in 
this paragraph prevents those persons from having more than 25 percent 
of the beneficial interest in the trust.
    (d) Partnerships. A partnership may apply for a Certificate of 
Aircraft Registration under section 501(b)(1)(A)(i) of the Act only if 
each partner, whether a general or limited partner, is a citizen of the 
United States. Nothing in this

[[Page 873]]

section makes ineligible for registration an aircraft which is not owned 
as a partnership asset but is co-owned by--
    (1) Resident aliens; or
    (2) One or more resident aliens and one or more U.S. citizens.

[Amdt. 47-20, 44 FR 61939, Oct. 29, 1979]



Sec. 47.8  Voting trusts.

    (a) If a voting trust is used to qualify a domestic corporation as a 
U.S. citizen, the corporate applicant must submit to the FAA Aircraft 
Registry--
    (1) A true copy of the fully executed voting trust agreement, which 
must identify each voting interest of the applicant, and which must be 
binding upon each voting trustee, the applicant corporation, all foreign 
stockholders, and each other party to the transaction; and
    (2) An affidavit executed by each person designated as voting 
trustee in the voting trust agreement, in which each affiant 
represents--
    (i) That each voting trustee is a citizen of the United States 
within the meaning of section 101(16) of the Act;
    (ii) That each voting trustee is not a past, present, or prospective 
director, officer, employee, attorney, or agent of any other party to 
the trust agreement;
    (iii) That each voting trustee is not a present or prospective 
beneficiary, creditor, debtor, supplier or contractor of any other party 
to the trust agreement;
    (iv) That each voting trustee is not aware of any reason, situation, 
or relationship under which any other party to the agreement might 
influence the exercise of the voting trustee's totally independent 
judgment under the voting trust agreement.
    (b) Each voting trust agreement submitted under paragraph (a)(1) of 
this section must provide for the succession of a voting trustee in the 
event of death, disability, resignation, termination of citizenship, or 
any other event leading to the replacement of any voting trustee. Upon 
succession, the replacement voting trustee shall immediately submit to 
the FAA Aircraft Registry the affidavit required by paragraph (a)(2) of 
this section.
    (c) If the voting trust terminates or is modified, and the result is 
less than 75 percent control of the voting interest in the corporation 
by citizens of the United States, a loss of citizenship of the holder of 
the registration certificate occurs, and Sec. 47.41(a)(5) of this part 
applies.
    (d) A voting trust agreement may not empower a trustee to act 
through a proxy.

[Amdt. 47-20, 44 FR 61939, Oct. 29, 1979]



Sec. 47.9  Corporations not U.S. citizens.

    (a) Each corporation applying for registration of an aircraft under 
section 501(b)(1)(A)(ii) of the Act must submit to the FAA Registry with 
the application--
    (1) A certified copy of its certificate of incorporation;
    (2) A certification that it is lawfully qualified to do business in 
one or more States;
    (3) A certification that the aircraft will be based and primarily 
used in the United States; and
    (4) The location where the records required by paragraph (e) of this 
section will be maintained.
    (b) For the purposes of registration, an aircraft is based and 
primarily used in the United States if the flight hours accumulated 
within the United States amount to at least 60 percent of the total 
flight hours of the aircraft during--
    (1) For aircraft registered on or before January 1, 1980, the 6-
calendar month period beginning on January 1, 1980, and each 6-calendar 
month period thereafter; and
    (2) For aircraft registered after January 1, 1980, the period 
consisting in the remainder of the registration month and the succeeding 
6 calendar months and each 6-calendar month period thereafter.
    (c) For the purpose of this section, only those flight hours 
accumulated during non-stop (except for stops in emergencies or for 
purposes of refueling) flight between two points in the United States, 
even if the aircraft is outside of the United States during part of the 
flight, are considered flight hours accumulated within the United 
States.

[[Page 874]]

    (d) In determining compliance with this section, any periods during 
which the aircraft is not validly registered in the United States are 
disregarded.
    (e) The corporation that registers an aircraft pursuant to section 
501(b)(1)(A)(ii) of the Act shall maintain, and make available for 
inspection by the Administrator upon request, records containing the 
total flight hours in the United States of the aircraft for three 
calendar years after the year in which the flight hours were 
accumulated.
    (f) The corporation that registers an aircraft pursuant to section 
501(b)(1)(A)(ii) of the Act shall send to the FAA Aircraft Registry, at 
the end of each period of time described in paragraphs (b)(1) and (2) of 
this section, either--
    (1) A signed report containing--
    (i) The total time in service of the airframe as provided in 
Sec. 91.417(a)(2)(i), accumulated during that period; and
    (ii) The total flight hours in the United States of the aircraft 
accumulated during that period; or
    (2) A signed statement that the total flight hours of the aircraft, 
while registered in the United States during that period, have been 
exclusively within the United States.

[Amdt. No. 47-20, 44 FR 61940, Oct. 29, 1979, as amended by Amdt. 47-24, 
54 FR 34330, Aug. 18, 1989]


    Editorial Note: For documents relating to the effective date of 
reporting requirements in Sec. 47.9 and the correction of certain 
reporting periods, see 46 FR 35491, July 9, 1981 and 47 FR 8158, 
February 25, 1982.



Sec. 47.11  Evidence of ownership.

    Except as provided in Secs. 47.33 and 47.35, each person that 
submits an Application for Aircraft Registration under this part must 
also submit the required evidence of ownership, recordable under 
Secs. 49.13 and 49.17 of this chapter, as follows:
    (a) The buyer in possession, the bailee, or the lessee of an 
aircraft under a contract of conditional sale must submit the contract. 
The assignee under a contract of conditional sale must submit both the 
contract (unless it is already recorded at the FAA Aircraft Registry), 
and his assignment from the original buyer, bailee, lessee, or prior 
assignee.
    (b) The repossessor of an aircraft must submit--
    (1) A certificate of repossession on FAA Form 8050-4, or its 
equivalent, signed by the applicant and stating that the aircraft was 
repossessed or otherwise seized under the security agreement involved 
and applicable local law;
    (2) The security agreement (unless it is already recorded at the FAA 
Aircraft Registry), or a copy thereof certified as true under Sec. 49.21 
of this chapter; and
    (3) When repossession was through foreclosure proceedings resulting 
in sale, a bill of sale signed by the sheriff, auctioneer, or other 
authorized person who conducted the sale, and stating that the sale was 
made under applicable local law.
    (c) The buyer of an aircraft at a judicial sale, or at a sale to 
satisfy a lien or charge, must submit a bill of sale signed by the 
sheriff, auctioneer, or other authorized person who conducted the sale, 
and stating that the sale was made under applicable local law.
    (d) The owner of an aircraft, the title to which has been in 
controversy and has been determined by a court, must submit a certified 
copy of the decision of the court.
    (e) The executor or administrator of the estate of the deceased 
former owner of an aircraft must submit a certified copy of the letters 
testimentary or letters of administration appointing him executor or 
administrator. The Certificate of Aircraft Registration is issued to the 
applicant as executor or administrator.
    (f) The buyer of an aircraft from the estate of a deceased former 
owner must submit both a bill of sale, signed for the estate by the 
executor or administrator, and a certified copy of the letters 
testimentary or letters of administration. When no executor or 
administrator has been or is to be appointed, the applicant must submit 
both a bill of sale, signed by the heir-at-law of the deceased former 
owner, and an affidavit of the heir-at-law stating that no application 
for appointment of an executor or administrator has been made, that so 
far as he can determine none will be made, and that he is the person

[[Page 875]]

entitled to, or having the right to dispose of, the aircraft under 
applicable local law.
    (g) The guardian of another person's property that includes an 
aircraft must submit a certified copy of the order of the court 
appointing him guardian. The Certificate of Aircraft Registration is 
issued to the applicant as guardian.
    (h) The trustee of property that includes an aircraft, as described 
in Sec. 47.7(c), must submit either a certified copy of the order of the 
court appointing the trustee, or a complete and true copy of the 
instrument creating the trust. If there is more than one trustee, each 
trustee must sign the application. The Certificate of Aircraft 
Registration is issued to a single applicant as trustee, or to several 
trustees jointly as co-trustees.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966, as amended by Amdt. 47-20, 44 
FR 61940, Oct. 29, 1979; Amdt. 47-23, 53 FR 1915, Jan. 25, 1988]



Sec. 47.13  Signatures and instruments made by representatives.

    (a) Each signature on an Application for Aircraft Registration, on a 
request for cancellation of a Certificate of Aircraft Registration or on 
a document submitted as supporting evidence under this part, must be in 
ink.
    (b) When one or more persons doing business under a trade name 
submits an Application for Aircraft Registration or a request for 
cancellation of a Certificate of Aircraft Registration, the application 
or request must be signed by, or in behalf of, each person who shares 
title to the aircraft.
    (c) When an agent submits an Application for Aircraft Registration 
or a request for cancellation of a Certificate of Aircraft Registration 
in behalf of the owner, he must--
    (1) State the name of the owner on the application or request;
    (2) Sign as agent or attorney-in-fact on the application or request; 
and
    (3) Submit a signed power of attorney, or a true copy thereof 
certified under Sec. 49.21 of this chapter, with the application or 
request.
    (d) When a corporation submits an Application for Aircraft 
Registration or a request for cancellation of a Certificate of Aircraft 
Registration, it must--
    (1) Have an authorized person sign the application or request;
    (2) Show the title of the signer's office on the application or 
request; and
    (3) Submit a copy of the authorization from the board of directors 
to sign for the corporation, certified as true under Sec. 49.21 of this 
chapter by a corporate officer or other person in a managerial position 
therein, with the application or request, unless--
    (i) The signer of the application or request is a corporate officer 
or other person in a managerial position in the corporation and the 
title of his office is stated in connection with his signature; or
    (ii) A valid authorization to sign is on file at the FAA Aircraft 
Registry.
    (e) When a partnership submits an Application for Aircraft 
Registration or a request for cancellation of a Certificate of Aircraft 
Registration, it must--
    (1) State the full name of the partnership on the application or 
request;
    (2) State the name of each general partner on the application or 
request; and
    (3) Have a general partner sign the application or request.
    (f) When co-owners, who are not engaged in business as partners, 
submit an Application for Aircraft Registration or a request for 
cancellation of a Certificate of Aircraft Registration, each person who 
shares title to the aircraft under the arrangement must sign the 
application or request.
    (g) A power of attorney or other evidence of a person's authority to 
sign for another, submitted under this part, is valid for the purposes 
of this section, unless sooner revoked, until--
    (1) Its expiration date stated therein; or
    (2) If an expiration date is not stated therein, for not more than 3 
years after the date--
    (i) It is signed; or
    (ii) The grantor (a corporate officer or other person in a 
managerial position therein, where the grantor is a corporation) 
certifies in writing that the authority to sign shown by the

[[Page 876]]

power of attorney or other evidence is still in effect.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966, as amended by Amdt. 47-2, 31 
FR 15349, Dec. 8, 1966; Amdt. 47-3, 32 FR 6554, Apr. 28, 1967; Amdt. 47-
12, 36 FR 8661, May 11, 1971]



Sec. 47.15  Identification number.

    (a) Number required. An applicant for Aircraft Registration must 
place a U.S. identification number (registration mark) on his Aircraft 
Registration Application, AC Form 8050-1, and on any evidence submitted 
with the application. There is no charge for the assignment of numbers 
provided in this paragraph. This paragraph does not apply to an aircraft 
manufacturer who applies for a group of U.S. identification numbers 
under paragraph (c) of this section; a person who applies for a special 
identification number under paragraphs (d) through (g) of this section; 
or a holder of a Dealer's Aircraft Registration Certificate who applies 
for a temporary registration number under Sec. 47.16.
    (1) Aircraft not previously registered anywhere. The applicant must 
obtain the U.S. identification number from the FAA Aircraft Registry by 
request in writing describing the aircraft by make, type, model, and 
serial number (or, if it is amateur-built, as provided in Sec. 47.33(b)) 
and stating that the aircraft has not previously been registered 
anywhere. If the aircraft was brought into the United States from a 
foreign country, the applicant must submit evidence that the aircraft 
has never been registered in a foreign country.
    (2) Aircraft last previously registered in the United States. Unless 
he applies for a different number under paragraphs (d) through (g) of 
this section, the applicant must place the U.S. identification number 
that is already assigned to the aircraft on his application and the 
supporting evidence.
    (3) Aircraft last previously registered in a foreign country. 
Whether or not the foreign registration has ended, the applicant must 
obtain a U.S. identification number from the FAA Aircraft Registry for 
an aircraft last previously registered in a foreign country, by request 
in writing describing the aircraft by make, model, and serial number, 
accompanied by--
    (i) Evidence of termination of foreign registration in accordance 
with Sec. 47.37(b) or the applicant's affidavit showing that foreign 
registration has ended; or
    (ii) If foreign registration has not ended, the applicant's 
affidavit stating that the number will not be placed on the aircraft 
until foreign registration has ended.

Authority to use the identification number obtained under paragraph 
(a)(1) or (3) of this section expires 90 days after the date it is 
issued unless the applicant submits an Aircraft Registration 
Application, AC Form 8050-1, and complies with Sec. 47.33 or Sec. 47.37, 
as applicable, within that period of time. However, the applicant may 
obtain an extension of this 90-day period from the FAA Aircraft Registry 
if he shows that his delay in complying with that section is due to 
circumstances beyond his control.
    (b) A U.S. identification number may not exceed five symbols in 
addition to the prefix letter ``N''. These symbols may be all numbers 
(N10000), one to four numbers and one suffix letter (N 1000A), or one to 
three numbers and two suffix letters (N 100AB). The letters ``I'' and 
``O'' may not be used. The first zero in a number must always be 
preceded by at least one of the numbers 1 through 9.
    (c) An aircraft manufacturer may apply to the FAA Aircraft Registry 
for enough U.S. identification numbers to supply his estimated 
production for the next 18 months. There is no charge for this 
assignment of numbers.
    (d) Any unassigned U.S. identification number may be assigned as a 
special identification number. An applicant who wants a special 
identification number or wants to change the identification number of 
his aircraft may apply for it to the FAA Aircraft Registry. The fee 
required by Sec. 47.17 must accompany the application.
    (e) [Reserved]
    (f) The FAA Aircraft Registry assigns a special identification 
number on AC Form 8050-64. Within 5 days after he affixes the special 
identification number to his aircraft, the owner must complete and sign 
the receipt contained in

[[Page 877]]

AC Form 8050-64, state the date he affixed the number to his aircraft, 
and return the original form to the FAA Aircraft Registry. The owner 
shall carry the duplicate of AC Form 8050-64 and the present Certificate 
of Aircraft Registration in the aircraft as temporary authority to 
operate it. This temporary authority is valid until the date the owner 
receives the revised Certificate of Aircraft Registration issued by the 
FAA Aircraft Registry.
    (g) [Reserved]
    (h) A special identification number may be reserved for no more than 
1 year. If a person wishes to renew his reservation from year to year, 
he must apply to the FAA aircraft Registry for renewal and submit the 
fee required by Sec. 47.17 for a special identification number.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966, as amended by Amdt. 47-1, 31 
FR 13314, Oct. 14, 1966; Amdt. 47-5, 32 FR 13505, Sept. 27, 1967; Amdt. 
47-7, 34 FR 2480, Feb. 21, 1969; Amdt. 47-13, 36 FR 16187, Aug. 20, 
1971; Amdt. 47-15, 37 FR 21528, Oct. 12, 1972; Amdt. 47-16, 37 FR 25487, 
Dec. 1, 1972; Amdt. 47-17, 39 FR 1353, Jan. 8, 1974; Amdt. 47-22, 47 FR 
12153, Mar. 22, 1982]



Sec. 47.16  Temporary registration numbers.

    (a) Temporary registration numbers are issued by the FAA to 
manufacturers, distributors, and dealers who are holders of Dealer's 
Aircraft Registration Certificates for temporary display on aircraft 
during flight allowed under Subpart C of this part.
    (b) The holder of a Dealer's Aircraft Registration Certificate may 
apply to the FAA Aircraft Registry for as many temporary registration 
numbers as are necessary for his business. The application must be in 
writing and include--
    (1) Sufficient information to justify the need for the temporary 
registration numbers requested; and
    (2) The number of each Dealer's Aircraft Registration Certificate 
held by the applicant.

There is no charge for these numbers.
    (c) The use of temporary registration numbers is subject to the 
following conditions:
    (1) The numbers may be used and reused--
    (i) Only in connection with the holder's Dealer's Aircraft 
Registration Certificate;
    (ii) Within the limitations of Sec. 47.69 where applicable, 
including the requirements of Sec. 47.67; and
    (iii) On aircraft not registered under Subpart B of this part or in 
a foreign country, and not displaying any other identification markings.
    (2) A temporary registration number may not be used on more than one 
aircraft in flight at the same time.
    (3) Temporary registration numbers may not be used to fly aircraft 
into the United States for the purpose of importation.
    (d) The assignment of any temporary registration number to any 
person lapses upon the expiration of all of his Dealer's Aircraft 
Registration Certificates. When a temporary registration number is used 
on a flight outside the United States for delivery purposes, the holder 
shall record the assignment of that number to the aircraft and shall 
keep that record for at least 1 year after the removal of the number 
from that aircraft. Whenever the owner of an aircraft bearing a 
temporary registration number applies for an airworthiness certificate 
under Part 21 of this chapter he shall furnish that number in the 
application. The temporary registration number must be removed from the 
aircraft not later than the date on which either title or possession 
passes to another person.

[Amdt. 47-4, 32 FR 12556, Aug. 30, 1967]



Sec. 47.17  Fees.

    (a) The fees for applications under this part are as follows:

(1) Certificate of Aircraft Registration (each aircraft)....       $5.00
(2) Dealer's Aircraft Registration Certificate..............       10.00
(3) Additional Dealer's Aircraft Registration Certificate           2.00
 (issued to same dealer)....................................
(4) Special identification number (each number).............       10.00
(5) Changed, reassigned, or reserved identification number..       10.00
(6) Duplicate Certificate of Registration...................        2.00
 

    (b) Each application must be accompanied by the proper fee, that may 
be paid by check or money order to the Federal Aviation Administration.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966; 31 FR 5483, Apr. 7, 1966, as 
amended by Doc. No. 8084, 32 FR 5769, Apr. 11, 1967]

[[Page 878]]



Sec. 47.19  FAA Aircraft Registry.

    Each application, request, notification, or other communication sent 
to the FAA under this part must be mailed to the FAA Aircraft Registry, 
Department of Transportation, Post Office Box 25504, Oklahoma City, 
Oklahoma 73125, or delivered to the Registry at 6400 South MacArthur 
Boulevard, Oklahoma City, Oklahoma.

[Doc. No. 13890, 41 FR 34009, Aug. 12, 1976]



            Subpart B--Certificates of Aircraft Registration



Sec. 47.31  Application.

    (a) Each applicant for a Certificate of Aircraft Registration must 
submit the following to the FAA Aircraft Registry--
    (1) The original (white) and one copy (green) of the Aircraft 
Registration Application, AC Form 8050-1;
    (2) The original Aircraft Bill of Sale, ACC Form 8050-2, or other 
evidence of ownership authorized by Secs. 47.33, 47.35, or 47.37 (unless 
already recorded at the FAA Aircraft Registry); and
    (3) The fee required by Sec. 47.17.

The FAA rejects an application when any form is not completed, or when 
the name and signature of the applicant are not the same throughout.
    (b) After he complies with paragraph (a) of this section, the 
applicant shall carry the second duplicate copy (pink) of the Aircraft 
Registration Application, AC Form 8050-1, in the aircraft as temporary 
authority to operate it without registration. This temporary authority 
is valid until the date the applicant receives the certificate of the 
Aircraft Registration, AC Form 8050-3, or until the date the FAA denies 
the application, but in no case for more than 90 days after the date the 
applicant signs the application. If by 90 days after the date the 
applicant signs the application, the FAA has neither issued the 
Certificate of Aircraft Registration nor denied the application, the FAA 
aircraft Registry issues a letter of extension that serves as authority 
to continue to operate the aircraft without registration while it is 
carried in the aircraft.
    (c) Paragraph (b) of this section applies to each application 
submitted under paragraph (a) of this section, and signed after October 
5, 1967. If, after that date, an applicant signs an application and the 
second duplicate copy (pink) of the Aircraft Registration Application, 
AC Form 8050-1, bears an obsolete statement limiting its validity to 30 
days, the applicant may strike out the number ``30'' on that form, and 
insert the number ``90'' in place thereof.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966; 31 FR 5483, Apr. 7, 1966, as 
amended by Amdt. 47-6, 33 FR 11, Jan. 3, 1968; Amdt. 47-15, 37 FR 21528, 
Oct. 12, 1972; Amdt. 47-16, 37 FR 25487, Dec. 1, 1972]



Sec. 47.33  Aircraft not previously registered anywhere.

    (a) A person who is the owner of an aircraft that has not been 
registered under the Federal Aviation Act of 1958, under other law of 
the United States, or under foreign law, may register it under this part 
if he--
    (1) Complies with Secs. 47.3, 47.7, 47.8, 47.9, 47.11, 47.13, 47.15, 
and 47.17, as applicable; and
    (2) Submits with his application an aircraft Bill of Sale, AC Form 
8050-2, signed by the seller, an equivalent bill of sale, or other 
evidence of ownership authorized by Sec. 47.11.
    (b) If, for good reason, the applicant cannot produce the evidence 
of ownership required by paragraph (a) of this section, he must submit 
other evidence that is satisfactory to the Administrator. This other 
evidence may be an affidavit stating why he cannot produce the required 
evidence, accompanied by whatever further evidence is available to prove 
the transaction.
    (c) The owner of an amateur-built aircraft who applies for 
registration under paragraphs (a) and (b) of this section must describe 
the aircraft by class (airplane, rotorcraft, glider, or balloon), serial 
number, number of seats, type of engine installed, (reciprocating, 
turbopropeller, turbojet, or other), number of engines installed, and 
make, model, and serial number of each engine installed; and must state 
whether the aircraft is built for land or water operation. Also, he must 
submit as evidence of ownership an affidavit giving the U.S. 
identification number, and stating that the aircraft was built from

[[Page 879]]

parts and that he is the owner. If he built the aircraft from a kit, the 
applicant must also submit a bill of sale from the manufacturer of the 
kit.
    (d) The owner, other than the holder of the type certificate, of an 
aircraft that he assembles from parts to conform to the approved type 
design, must describe the aircraft and engine in the manner required by 
paragraph (c) of this section, and also submit evidence of ownership 
satisfactory to the Administrator, such as bills of sale, for all major 
components of the aircraft.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966; 31 FR 5483, Apr. 7, 1966, as 
amended by Amdt. 47-16, 37 FR 25487, Dec. 1, 1972; Amdt. 47-20, 44 FR 
61940, Oct. 29, 1979]



Sec. 47.35  Aircraft last previously registered in the United States.

    (a) A person who is the owner of an aircraft last previously 
registered under the Federal Aviation Act of 1958, or under other law of 
the United States, may register it under this part if he complies with 
Secs. 47.3, 47.7, 47.8, 47.9, 47.11, 47.13, 47.15, and 47.17, as 
applicable and submits with his application an Aircraft Bill of Sale, AC 
Form 8050-2, signed by the seller or an equivalent conveyance, or other 
evidence of ownership authorized by Sec. 47.11:
    (1) If the applicant bought the aircraft from the last registered 
owner, the conveyance must be from that owner to the applicant.
    (2) If the applicant did not buy the aircraft from the last 
registered owner, he must submit conveyances or other instruments 
showing consecutive transactions from the last registered owner through 
each intervening owner to the applicant.
    (b) If, for good reason, the applicant cannot produce the evidence 
of ownership required by paragraph (a) of this section, he must submit 
other evidence that is satisfactory to the Administrator. This other 
evidence may be an affidavit stating why he cannot produce the required 
evidence, accompanied by whatever further evidence is available to prove 
the transaction.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966, as amended by Amdt. 47-16, 37 
FR 25487, Dec. 1, 1972; Amdt. 47-20, 44 FR 61940, Oct. 29, 1979]



Sec. 47.37  Aircraft last previously registered in a foreign country.

    (a) A person who is the owner of an aircraft last previously 
registered under the law of a foreign country may register it under this 
part if he--
    (1) Complies with Secs. 47.3, 47.7, 47.8, 47.9, 47.11, 47.13, 47.15, 
and 47.17, as applicable;
    (2) Submits with his application a bill of sale from the foreign 
seller or other evidence satisfactory to the Administrator that he owns 
the aircraft; and
    (3) Submits evidence satisfactory to the Administrator that--
    (i) If the country in which the aircraft was registered has not 
ratified the Convention on the International Recognition of Rights in 
Aircraft (4 U.S.T. 1830), the foreign registration has ended or is 
invalid; or
    (ii) If that country has ratified the convention, the foreign 
registration has ended or is invalid, and each holder of a recorded 
right against the aircraft has been satisfied or has consented to the 
transfer, or ownership in the country of export has been ended by a sale 
in execution under the terms of the convention.
    (b) For the purposes of paragraph (a)(3) of this section, 
satisfactory evidence of termination of the foreign registration may 
be--
    (1) A statement, by the official having jurisdiction over the 
national aircraft registry of the foreign country, that the registration 
has ended or is invalid, and showing the official's name and title and 
describing the aircraft by make, model, and serial number; or
    (2) A final judgment or decree of a court of competent jurisdiction 
that determines, under the law of the country concerned, that the 
registration has in fact become invalid.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966, as amended by Amdt. 47-20, 44 
FR 61940, Oct. 29,1979]



Sec. 47.39  Effective date of registration.

    (a) Except for an aircraft last previously registered in a foreign 
country, an aircraft is registered under this subpart on the date and at 
the time the FAA Aircraft Registry receives the documents required by 
Sec. 47.33 or Sec. 47.35.

[[Page 880]]

    (b) An aircraft last previously registered in a foreign country is 
registered under this subpart on the date and at the time the FAA 
Aircraft Registry issues the Certificate of Aircraft Registration, AC 
Form 8050-3, after the documents required by Sec. 47.37 have been 
received and examined.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966, as amended by Amdt. 47-16, 37 
FR 25487, Dec. 1, 1972]



Sec. 47.41  Duration and return of Certificate.

    (a) Each Certificate of Aircraft Registration issued by the FAA 
under this subpart is effective, unless suspended or revoked, until the 
date upon which--
    (1) Subject to the Convention on the International Recognition of 
Rights in Aircraft when applicable, the aircraft is registered under the 
laws of a foreign country;
    (2) The registration is canceled at the written request of the 
holder of the certificate;
    (3) The aircraft is totally destroyed or scrapped;
    (4) Ownership of the aircraft is transferred;
    (5) The holder of the certificate loses his U.S. citizenship;
    (6) 30 days have elapsed since the death of the holder of the 
certificate;
    (7) The owner, if an individual who is not a citizen of the United 
States, loses status as a resident alien, unless that person becomes a 
citizen of the United States at the same time; or
    (8) If the owner is a corporation other than a corporation which is 
a citizen of the United States--
    (i) The corporation ceases to be lawfully organized and doing 
business under the laws of the United States or any State thereof; or
    (ii) A period described in Sec. 47.9(b) ends and the aircraft was 
not based and primarily used in the United States during that period.
    (9) If the trustee in whose name the aircraft is registered--
    (i) Loses U.S. citizenship;
    (ii) Loses status as a resident alien and does not become a citizen 
of the United States at the same time; or
    (iii) In any manner ceases to act as trustee and is not immediately 
replaced by another who meets the requirements of Sec. 47.7(c).
    (b) The Certificate of Aircraft Registration, with the reverse side 
completed, must be returned to the FAA Aircraft Registry--
    (1) In case of registration under the laws of a foreign country, by 
the person who was the owner of the aircraft before foreign 
registration;
    (2) Within 60 days after the death of the holder of the certificate, 
by the administrator or executor of his estate, or by his heir-at-law if 
no administrator or executor has been or is to be appointed; or
    (3) Upon the termination of the registration, by the holder of the 
Certificate of Aircraft Registration in all other cases mentioned in 
paragraph (a) of this section.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966; 31 FR 5483, Apr. 7, 1966, as 
amended by Amdt. 47-20, 44 FR 61940, Oct. 29, 1979]



Sec. 47.43  Invalid registration.

    (a) The registration of an aircraft is invalid if, at the time it is 
made--
    (1) The aircraft is registered in a foreign country;
    (2) The applicant is not the owner;
    (3) The applicant is not qualified to submit an application under 
this part; or
    (4) The interest of the applicant in the aircraft was created by a 
transaction that was not entered into in good faith, but rather was made 
to avoid (with or without the owner's knowledge) compliance with section 
501 of the Federal Aviation Act of 1958 (49 U.S.C. 1401).
    (b) If the registration of an aircraft is invalid under paragraph 
(a) of this section, the holder of the invalid Certificate of Aircraft 
Registration shall return it as soon as possible to the FAA Aircraft 
Registry.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966; 31 FR 5483, Apr. 7, 1966, as 
amended by Amdt. 47-20, 44 FR 61940, Oct. 29, 1979]



Sec. 47.45  Change of address.

    Within 30 days after any change in his permanent mailing address, 
the holder of a Certificate of Aircraft Registration for an aircraft 
shall notify the FAA Aircraft Registry of his new

[[Page 881]]

address. A revised Certificate of Aircraft Registration is then issued, 
without charge.



Sec. 47.47  Cancellation of Certificate for export purpose.

    (a) The holder of a Certificate of Aircraft Registration who wishes 
to cancel the Certificate for the purpose of export must submit to the 
FAA Aircraft Registry--
    (1) A written request for cancellation of the Certificate describing 
the aircraft by make, model, and serial number, stating the U.S. 
identification number and the country to which the aircraft will be 
exported; and
    (2) Evidence satisfactory to the Administrator that each holder of a 
recorded right has been satisfied or has consented to the transfer.
    (b) The FAA notifies the country to which the aircraft is to be 
exported of the cancellation by ordinary mail, or by airmail at the 
owner's request. The owner must arrange and pay for the transmission of 
this notice by means other than ordinary mail or airmail.

[Amdt. 47-11, 36 FR 8661, May 11, 1971, as amended by Amdt. 47-23, 53 FR 
1915, Jan. 25, 1988]



Sec. 47.49  Replacement of Certificate.

    (a) If a Certificate of Aircraft Registration is lost, stolen, or 
mutilated, the holder of the Certificate of Aircraft Registration may 
apply to the FAA Aircraft Registry for a duplicate certificate, 
accompanying his application with the fee required by Sec. 47.17.
    (b) If the holder has applied and has paid the fee for a duplicate 
Certificate of Aircraft Registration and needs to operate his aircraft 
before receiving it, he may request a temporary certificate. The FAA 
Aircraft Registry issues a temporary certificate, by a collect telegram, 
to be carried in the aircraft. This temporary certificate is valid until 
he receives the duplicate Certicate of Aircraft Registration.



Sec. 47.51  Triennial aircraft registration report.

    (a) Unless one of the registration activities listed in paragraph 
(b) of this section has occurred within the preceding 36 calendar 
months, the holder of each Certificate of Aircraft Registration issued 
under this subpart shall submit, on the form provided by the FAA 
Aircraft Registry and in the manner described in paragraph (c) of this 
section, a Triennial Aircraft Registration Report, certifying--
    (1) The current identification number (registration mark) assigned 
to the aircraft;
    (2) The name and permanent mailing address of the certificate 
holder;
    (3) The name of the manufacturer of the aircraft and its model and 
serial number;
    (4) Whether the certificate holder is--
    (i) A citizen of the United States;
    (ii) An individual citizen of a foreign country who has lawfully 
been admitted for permanent residence in the United States; or
    (iii) A corporation (other than a corporation which is a citizen of 
the United States) lawfully organized and doing business under the laws 
of the United States or any State thereof; and
    (5) Whether the aircraft is currently registered under the laws of 
any foreign country.
    (b) The FAA Aircraft Registry will forward a Triennial Aircraft 
Registration Report to each holder of a Certificate of Aircraft 
Registration whenever 36 months has expired since the latest of the 
following registration activities occurred with respect to the 
certificate holder's aircraft:
    (1) The submission of an Application for Aircraft Registration.
    (2) The submission of a report or statement required by 
Sec. 47.9(f).
    (3) The filing of a notice of change of permanent mailing address.
    (4) The filing of an application for a duplicate Certificate of 
Aircraft Registration.
    (5) The filing of an application for a change of aircraft 
identification number.
    (6) The submission of an Aircraft Registration Eligibility, 
Identification, and Activity Report, Part 1, AC Form 8050-73, under 
former Sec. 47.44.
    (7) The submission of a Triennial Aircraft Registration Report under 
this section.
    (c) The holder of the Certificate of Aircraft Registration shall 
return the Triennial Aircraft Registration Report to the FAA Aircraft 
Registry within 60

[[Page 882]]

days after issuance by the FAA Aircraft Registry. The report must be 
dated, legibly executed, and signed by the certificate holder in the 
manner prescribed by Sec. 47.13, except that any co-owner may sign for 
all co-owners.
    (d) Refusal or failure to submit the Triennial Aircraft Registration 
Report with the information required by this section may be cause for 
suspension or revocation of the Certificate of Aircraft Registration in 
accordance with Part 13 of this chapter.

[Amdt. 47-21, 45 FR 20773, Mar. 31, 1980]



          Subpart C--Dealers' Aircraft Registration Certificate



Sec. 47.61  Dealers' Aircraft Registration Certificates.

    (a) The FAA issues a Dealers' Aircraft Registration Certificate, AC 
Form 8050-6, to manufacturers and dealers so as to--
    (1) Allow manufacturers to make any required flight tests of 
aircraft.
    (2) Facilitate operating, demonstrating, and merchandising aircraft 
by the manufacturer or dealer without the burden of obtaining a 
Certificate of Aircraft Registration for each aircraft with each 
transfer of ownership, under Subpart B of this part.
    (b) A Dealers' Aircraft Registration Certificate is an alternative 
for the Certificate of Aircraft Registration issued under Subpart B of 
this part. A dealer may, under this subpart, obtain one or more Dealers' 
Aircraft Registration Certificates in addition to his original 
certificate, and he may use a Dealer's Aircraft Registration Certificate 
for any aircraft he owns.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966; as amended by Amdt. 47-9, 35 
FR 802, Jan. 21, 1970; Amdt. 47-16, 37 FR 25487, Dec. 1, 1972]



Sec. 47.63  Application.

    A manufacturer or dealer that wishes to obtain a Dealer's Aircraft 
Registration Certificate, AC Form 8050-6, must submit--
    (a) An Application for Dealers' Aircraft Registration Certificates, 
AC Form 8050-5; and
    (b) The fee required by Sec. 47.17.

[Doc. No. 7190, 31 FR 4495, Mar. 17, 1966, as amended by Amdt. 47-16, 37 
FR 25487, Dec. 1, 1972]



Sec. 47.65  Eligibility.

    To be eligible for a Dealer's Aircraft Registration Certificate, a 
person must have an established place of business in the United States, 
must be substantially engaged in manufacturing or selling aircraft, and 
must be a citizen of the United States, as defined by section 101(13) of 
the Federal Aviation Act of 1958 (49 U.S.C. 1301).

[Amdt. 47-9, 35 FR 802, Jan. 21, 1970]



Sec. 47.67  Evidence of ownership.

    Before using his Dealer's Aircraft Registration Certificate for 
operating an aircraft, the holder of the certificate (other than a 
manufacturer) must send to the FAA Aircraft Registry evidence 
satisfactory to the Administrator that he is the owner of that aircraft. 
An Aircraft Bill of Sale, or its equivalent, may be used as evidence of 
ownership. There is no recording fee.



Sec. 47.69  Limitations.

    A Dealer's Aircraft Registration Certificate is valid only in 
connection with use of aircraft--
    (a) By the owner of the aircraft to whom it was issued, his agent or 
employee, or a prospective buyer, and in the case of a dealer other than 
a manufacturer, only after he has complied with Sec. 47.67;
    (b) Within the United States, except when used to deliver to a 
foreign purchaser an aircraft displaying a temporary registration number 
and carrying an airworthiness certificate on which that number is 
written;
    (c) While a certificate is carried within the aircraft; and
    (d) On a flight that is--
    (1) For required flight testing of aircraft; or
    (2) Necessary for, or incident to, sale of the aircraft.

However, a prospective buyer may operate an aircraft for demonstration 
purposes only while he is under the direct supervision of the holder of 
the

[[Page 883]]

Dealer's Aircraft Registration Certificate or his agent.

[Doc. No. 7190 31 FR 4495, Mar. 17, 1966; 31 FR 5483, Apr. 7, 1966, as 
amended by Amdt. 47-4, 32 FR 12556, Aug. 30, 1967]



Sec. 47.71  Duration of Certificate; change of status.

    (a) A Dealer's Aircraft Registration Certificate expires 1 year 
after the date it is issued. Each additional certificate expires on the 
date the original certificate expires.
    (b) The holder of a Dealer's Aircraft Registration Certificate shall 
immediately notify the FAA Aircraft Registry of any of the following--
    (1) A change of his name;
    (2) A change of his address;
    (3) A change that affects his status as a citizen of the United 
States; or
    (4) The discontinuance of his business.



PART 49--RECORDING OF AIRCRAFT TITLES AND SECURITY DOCUMENTS--Table of Contents




                        Subpart A--Applicability

Sec.
49.1  Applicability.

                           Subpart B--General

49.11  FAA Aircraft Registry.
49.13  Signatures and acknowledgements.
49.15  Fees for recording.
49.17  Conveyances recorded.
49.19  Effective date of filing for recordation.
49.21  Return of original conveyance.

     Subpart C--Aircraft Ownership and Encumbrances Against Aircraft

49.31  Applicability.
49.33  Eligibility for recording: general requirements.
49.35  Eligibility for recording: ownership requirements.
49.37  Claims for salvage or extraordinary expenses.

Subpart D--Encumbrances Against Specifically Identified Aircraft Engines 
                             and Propellers

49.41  Applicability.
49.43  Eligibility for recording: general requirements.
49.45  Recording of releases, cancellations, discharges, and 
          satisfactions: special requirements.

     Subpart E--Encumbrances Against Air Carrier Aircraft Engines, 
                 Propellers, Appliances, and Spare Parts

49.51  Applicability.
49.53  Eligibility for recording: general requirements.
49.55  Recording of releases, cancellations, discharges, and 
          satisfactions: special requirements.

    Authority: 49 U.S.C. 106(g), 40113-40114, 44101-44108, 44110-44111, 
44704, 44713, 45302, 46104, 46301; 4 U.S.T. 1830.

    Source: Docket No. 1996, 29 FR 6486, May 19, 1964, unless otherwise 
noted.



                        Subpart A--Applicability



Sec. 49.1  Applicability.

    (a) This part applies to the recording of certain conveyances 
affecting title to, or any interest in--
    (1) Any aircraft registered under section 501 of the Federal 
Aviation Act of 1958 (49 U.S.C. 1401);
    (2) Any specifically identified aircraft engine of 750 or more rated 
takeoff horsepower, or the equivalent of that horsepower;
    (3) Any specifically identified aircraft propeller able to absorb 
750 or more rated takeoff shaft horsepower; and
    (4) Any aircraft engine, propeller, or appliance maintained by or 
for an air carrier certificated under section 604(b) of the Federal 
Aviation Act of 1958 (49 U.S.C. 1424(b)), for installation or use in an 
aircraft, aircraft engine, or propeller, or any spare part, maintained 
at a designated location or locations by or for such an air carrier.
    (b) Subpart B of this part governs, where applicable by its terms, 
conveyances subject to this part.



                           Subpart B--General



Sec. 49.11  FAA Aircraft Registry.

    To be eligible for recording, a conveyance must be mailed to the FAA 
Aircraft Registry, Department of Transportation, Post Office Box 25504, 
Oklahoma City, Oklahoma 73125, or delivered to the Registry at 6400 
South MacArthur Boulevard, Oklahoma City, Oklahoma.

[Doc. No. 13890, 41 FR 34010, Aug. 12, 1976]

[[Page 884]]



Sec. 49.13  Signatures and acknowledgements.

    (a) Each signature on a conveyance must be in ink.
    (b) Paragraphs (b) through (f) of Sec. 47.13 of this chapter apply 
to a conveyance made by, or on behalf of, one or more persons doing 
business under a trade name, or by an agent, corporation, partnership, 
coowner, or unincorporated association.
    (c) No conveyance or other instrument need be acknowledged, as 
provided in section 503(e) of the Federal Aviation Act of 1958 (49 
U.S.C. 1403(e)), in order to be recorded under this part. The law of the 
place of delivery of the conveyance determines when a conveyance or 
other instrument must be acknowledged in order to be valid for the 
purposes of that place.
    (d) A power of attorney or other evidence of a person's authority to 
sign for another, submitted under this part, is valid for the purposes 
of this section, unless sooner revoked, until--
    (1) Its expiration date stated therein; or
    (2) If an expiration date is not stated thereon, for not more than 3 
years after the date--
    (i) It is signed; or
    (ii) The grantor (a corporate officer or other person in a 
managerial position therein, where the grantor is a corporation) 
certifies in writing that the authority to sign shown by the power of 
attorney or other evidence is still in effect.

[Doc. No. 7190, 31 FR 4499, Mar. 17, 1966, as amended by Amdt. 49-2, 31 
FR 15349, Dec. 8, 1966; Amdt. 49-6, 36 FR 8661, May 11, 1971]



Sec. 49.15  Fees for recording.

    (a) The fees charged for recording conveyances under this part are 
as follows:

(1) Conveyance of aircraft--
  For each aircraft listed therein..........................       $5.00
(2) Conveyance, made for security purposes, of a
 specifically identified aircraft engine or propeller, or
 any assignment or amendment thereof, or supplement thereto,
 recorded under Subpart D--
  For each engine or propeller..............................        5.00
(3) Conveyance, made for security purposes, of aircraft
 engines, propellers, appliances, or spare parts, maintained
 at a designated location or locations, or any assignment or
 amendment thereof, or supplement thereto, recorded under
 Subpart E--
  For the group of items at each location...................        5.00
 

    (b) There is no fee for recording a bill of sale that accompanies an 
application for aircraft registration and the proper fee under Part 47 
of this chapter.
    (c) Each conveyance must be accompanied by the proper fee, that may 
be paid by check or money order to the Federal Aviation Administration.

[Doc. No. 1996, 29 FR 6486, May 19, 1964, as amended by Amdt. 49-1, 31 
FR 4499, Mar. 17, 1966; Doc. No. 8084, 32 FR 5769, Apr. 11, 1967]



Sec. 49.17  Conveyances recorded.

    (a) Each instrument recorded under this part is a ``conveyance'' 
within the following definition in section 101(17) of the Federal 
Aviation Act of 1958 (49 U.S.C. 1301):

    (17) ``Conveyance'' means a bill of sale, contract of conditional 
sale, mortgage, assignment of mortgage, or other instrument affecting 
title to, or interest in, property.


A notice of Federal tax lien is not recordable under this part, since it 
is required to be filed elsewhere by the Internal Revenue Code (26 
U.S.C. 6321, 6323; 26 CFR 301.6321-1, 301.6323-1).
    (b) The kinds of conveyance recordable under this part include those 
used as evidence of ownership under Sec. 47.11 of this chapter.
    (c) The validity of any instrument, eligible for recording under 
this part, is governed by the laws of the State, possession, Puerto 
Rico, or District of Columbia, as the case may be, in which the 
instrument was delivered, regardless of the location or place of 
delivery of the property affected by the instrument. If the place where 
an instrument is intended to be delivered is stated in the instrument, 
it is presumed that the instrument was delivered at that place. The 
recording of a conveyance is not a decision of the FAA that the 
instrument does, in fact, affect title to, or an interest in, the 
aircraft or other property it covers.
    (d) The following rules apply to conveyances executed for security 
purposes and assignments thereof:
    (1) A security agreement must be signed by the debtor. If the debtor 
is not the registered owner of the aircraft, the security agreement must 
be

[[Page 885]]

accompanied by the debtor's Application for Aircraft Registration and 
evidence of ownership, as prescribed in Part 47 of this chapter, unless 
the debtor--
    (i) Holds a Dealer's Aircraft Registration Certificate and submits 
evidence of ownership as provided in Sec. 47.67 of this chapter (if 
applicable);
    (ii) Was the owner of the aircraft on the date the security 
agreement was signed, as shown by documents recorded at the FAA Aircraft 
Registry; or
    (iii) Is the vendor, bailor, or lessor under a contract of 
conditional sale.
    (2) The name of a cosigner may not appear in the security agreement 
as a debtor or owner. If a person other than the registered owner signs 
the security agreement, that person must show the capacity in which that 
person signs, such as ``cosigner'' or ``guarantor''.
    (3) An assignment of an interest in a security agreement must be 
signed by the assignor and, unless it is attached to and is a part of 
the original agreement, must describe the agreement in sufficient detail 
to identify it, including its date, the names of the parties, the date 
of FAA recording, and the recorded conveyance number.
    (4) An amendment of, or a supplement to, a conveyance executed for 
security purposes that has been recorded by the FAA must meet the 
requirements for recording the original conveyance and must describe the 
original conveyance in sufficient detail to identify it, including its 
date, the names of the parties, the date of FAA recording, and the 
recorded conveyance number.
    (5) Immediately after a debt secured by a conveyance given for 
security purposes has been satisfied, or any of the encumbered aircraft 
have been released from the conveyance, the holder shall execute a 
release on AC Form 8050-41, Part II--Release, provided to him by the FAA 
when the conveyance was recorded by the FAA, or its equivalent, and 
shall send it to the FAA Aircraft Registry for recording. If the debt is 
secured by more than one aircraft and all of the collateral is released, 
the collateral need not be described in detail in the release. However, 
the original conveyance must be clearly described in enough detail to 
identify it, including its date, the names of the parties, the date of 
FAA recording, and the recorded conveyance number.
    (6) A contract of conditional sale, as defined in section 101(19) of 
the Federal Aviation Act of 1958 (49 U.S.C. 1301(19)), must be signed by 
all parties to the contract.

[Doc. No. 1996, 29 FR 6486, May 19, 1964, as amended by Amdt. 49-1, 31 
FR 4499, Mar. 17, 1966; Amdt. 49-9, 53 FR 1915, Jan. 25, 1988]



Sec. 49.19  Effective date of filing for recordation.

    A conveyance is filed for recordation upon the date and at the time 
it is received by the FAA Aircraft Registry.



Sec. 49.21  Return of original conveyance.

    If a person submitting a conveyance for recording wants the original 
returned to him, he must submit a true copy with the original. After 
recording, the copy is kept by the FAA and the original is returned to 
the applicant stamped with the date and time of recording. The copy must 
be imprinted on paper permanent in nature, including dates, and 
signatures, to which is attached a certificate of the person submitting 
the conveyance stating that the copy has been compared with the original 
and that it is a true copy.

[Doc. No. 1996, 29 FR 6486, May 19, 1964, as amended by Amdt. 49-1, 31 
FR 4499, Mar. 17, 1966]



     Subpart C--Aircraft Ownership and Encumbrances Against Aircraft



Sec. 49.31  Applicability.

    This subpart applies to the recording of the following kinds of 
conveyances:
    (a) A bill of sale, contract of conditional sale, assignment of an 
interest under a contract of conditional sale, mortgage, assignment of 
mortgage, lease, equipment trust, notice of tax lien or of other lien, 
or other instrument affecting title to, or any interest in, aircraft.
    (b) A release, cancellation, discharge, or satisfaction of a 
conveyance named in paragraph (a) of this section.

[[Page 886]]



Sec. 49.33  Eligibility for recording: general requirements.

    A conveyance is eligible for recording under this subpart only if, 
in addition to the requirements of Secs. 49.11, 49.13, and 49.17, the 
following requirements are met:
    (a) It is in a form prescribed by, or acceptable to, the 
Administrator for that kind of conveyance;
    (b) It describes the aircraft by make and model, manufacturer's 
serial number, and United States registration number, or other detail 
that makes identification possible;
    (c) It is an original document, or a duplicate original document, or 
if neither the original nor a duplicate original of a document is 
available, a true copy of an original document, certified under 
Sec. 49.21;
    (d) It affects aircraft registered under section 501 of the Federal 
Aviation Act of 1958 (49 U.S.C. 1401); and
    (e) It is accompanied by the recording fee required by Sec. 49.15, 
but there is no fee for recording a conveyance named in Sec. 49.31(b).

[Doc. No. 1996, 29 FR 6486, May 19, 1964, as amended by Amdt. 49-1, 31 
FR 4499, Mar. 17, 1966]



Sec. 49.35  Eligibility for recording: ownership requirements.

    If the seller of an aircraft is not shown on the records of the FAA 
as the owner of the aircraft, a conveyance, including a contract of 
conditional sale, submitted for recording under this subpart must be 
accompanied by bills of sale or similar documents showing consecutive 
transfers from the last registered owner, through each intervening 
owner, to the seller.



Sec. 49.37  Claims for salvage or extraordinary expenses.

    The right to a charge arising out of a claim for compensation for 
salvage of an aircraft or for extraordinary expenses indispensable for 
preserving the aircraft in operations terminated in a foreign country 
that is a party to the Convention on the International Recognition of 
Rights in Aircraft (4 U.S.T. 1830) may be noted on the FAA record by 
filing notice thereof with the FAA Aircraft Registry within three months 
after the date of termination of the salvage or preservation operations.



Subpart D--Encumbrances Against Specifically Identified Aircraft Engines 
                             and Propellers



Sec. 49.41  Applicability.

    This subpart applies to the recording of the following kinds of 
conveyances:
    (a) Any lease, a notice of tax lien or other lien (except a notice 
of Federal tax lien referred to in Sec. 49.17(a)), and any mortgage, 
equipment trust, contract of conditional sale, or other instrument 
executed for security purposes, which affects title to, or any interest 
in, any specifically identified aircraft engine of 750 or more rated 
takeoff horsepower, or the equivalent of that horsepower, or a 
specifically identified aircraft propeller capable of absorbing 750 or 
more rated takeoff shaft horsepower.
    (b) An assignment or amendment of, or supplement to, an instrument 
named in paragraph (a) of this section.
    (c) A release, cancellation, discharge, or satisfaction of a 
conveyance named in paragraph (a) or (b) of this section.

[Doc. No. 1996, 29 FR 6486, May 19, 1964, as amended by Amdt. 49-5, 35 
FR 802, Jan 21, 1970]



Sec. 49.43  Eligibility for recording: general requirements.

    A conveyance is eligible for recording under this subpart only if, 
in addition to the requirements of Secs. 49.11, 49.13, and 49.17, the 
following requirements are met:
    (a) It affects and describes an aircraft engine or propeller to 
which this subpart applies, specifically identified by make, model, 
horsepower, and manufacturer's serial number; and
    (b) It is accompanied by the recording fee required by Sec. 49.15, 
but there is no fee for recording a conveyance named in Sec. 49.41(c).



Sec. 49.45  Recording of releases, cancellations, discharges, and satisfactions: special requirements.

    (a) A release, cancellation, discharge, or satisfaction of an 
encumbrance created by an instrument recorded under

[[Page 887]]

this subpart must be in a form equivalent to AC Form 8050-41 and contain 
a description of the encumbrance, the recording information furnished to 
the holder at the time of recording, and the collateral released.
    (b) If more than one engine or propeller, or both, are listed in an 
instrument, recorded under this subpart, that created an encumbrance 
thereon and all of them are released, they need not be listed by serial 
number, but the release, cancellation, discharge, or satisfaction must 
state that all of the encumbered engines or propellers are released. The 
original recorded document must be clearly identified by the names of 
the parties, the date of FAA recording, and the document date.

[Doc. No. 1996, 29 FR 6486, May 19, 1964, as amended by Amdt. 49-7, 37 
FR 25487, Dec. 1, 1972]



     Subpart E--Encumbrances Against Air Carrier Aircraft Engines, 
                 Propellers, Appliances, and Spare Parts



Sec. 49.51  Applicability.

    This subpart applies to the recording of the following kinds of 
conveyances:
    (a) Any lease, a notice of tax lien or other lien (except a notice 
of Federal tax lien referred to in Sec. 49.17(a), and any mortgage, 
equipment trust, contract of conditional sale, or other instrument 
executed for security purposes, which affects title to, or any interest 
in, any aircraft engine, propeller, or appliance maintained by or on 
behalf of an air carrier certificated under section 604(b) of the 
Federal Aviation Act of 1958 (49 U.S.C. 1424(b)) for installation or use 
in aircraft, aircraft engines, or propellers, or any spare parts, 
maintained at a designated location or locations by or on behalf of such 
an air carrier.
    (b) An assignment or amendment of, or supplement to, an instrument 
named in paragraph (a) of this section.
    (c) A release, cancellation, discharge, or satisfaction of a 
conveyance named in paragraph (a) or (b) of this section.

[Doc. No. 1996, 29 FR 6486, May 19, 1964, as amended by Amdt. 49-5, 35 
FR 802, Jan. 21, 1970]



Sec. 49.53  Eligibility for recording: general requirements.

    (a) A conveyance is eligible for recording under this subpart only 
if, in addition to the requirements of Secs. 49.11, 49.13, and 49.17, 
the following requirements are met:
    (1) It affects any aircraft engine, propeller, appliance, or spare 
part, maintained by or on behalf of an air carrier certificated under 
section 604(b) of the Federal Aviation Act of 1958 (49 U.S.C. 1424(b));
    (2) It contains or is accompanied by a statement by the air carrier 
certificated under that section;
    (3) It specifically describes the location or locations of each 
aircraft engine, propeller, appliance, or spare part covered by it; and
    (4) It is accompanied by the recording fee required by Sec. 49.15, 
but there is no fee for recording a conveyance named in Sec. 49.51(c).
    (b) The conveyance need only describe generally, by type, the 
engines, propellers, appliances, or spare parts covered by it.

[Doc. No. 1996, 29 FR 6486, May 19, 1964, as amended by Amdt. 49-5, 35 
FR 802, Jan. 21, 1970]



Sec. 49.55  Recording of releases, cancellations, discharges, and satisfactions: special requirements.

    (a) A release, cancellation, discharge, or satisfaction of an 
encumbrance on all of the collateral listed in an instrument recorded 
under this subpart, or on all of the collateral at a particular 
location, must be in a form equivalent to AC Form 8050-41, signed by the 
holder of all of the collateral at the particular location, and contain 
a description of the encumbrance, the recording information furnished to 
the holder at the time of recording, and the location of the released 
collateral.
    (b) If the encumbrance on collateral at all of the locations listed 
in an instrument recorded under this subpart is released, canceled, 
discharged, or satisfied, the locations need not be listed. However, the 
document must state that all of the collateral at all of the locations 
listed in the encumbrance

[[Page 888]]

has been so released, canceled, discharged, or satisfied. The original 
recorded document must be clearly identified by the names of the 
parties, the date of recording by the FAA, and the document number.

[Doc. No. 1996, 29 FR 6486, May 19, 1964, as amended by Amdt. 49-1, 31 
FR 4499, Mar. 17, 1966; Amdt. 49-7, 37 FR 25487, Dec. 1, 1972]

                         PARTS 50-59  [RESERVED]


[[Page 889]]



                              FINDING AIDS




  --------------------------------------------------------------------

  A list of CFR titles, subtitles, chapters, subchapters and parts and 
an alphabetical list of agencies publishing in the CFR are included in 
the CFR Index and Finding Aids volume to the Code of Federal Regulations 
which is published separately and revised annually.

  Material Approved for Incorporation by Reference
  Table of CFR Titles and Chapters
  Alphabetical List of Agencies Appearing in the CFR
  List of CFR Sections Affected

[[Page 891]]

            Material Approved for Incorporation by Reference

                     (Revised as of January 1, 2002)

  The Director of the Federal Register has approved under 5 U.S.C. 
552(a) and 1 CFR Part 51 the incorporation by reference of the following 
publications. This list contains only those incorporations by reference 
effective as of the revision date of this volume. Incorporations by 
reference found within a regulation are effective upon the effective 
date of that regulation. For more information on incorporation by 
reference, see the preliminary pages of this volume.


14 CFR (PART 39)


ACS Products Co

  P.O. Box 152, 1585 Copper Dr., Lake Havasu City, 
  AZ 86403-0008
SB SB92-01, dated August 15, 1992.................                 39.13
SB SB92-01, dated August 15, 1992.................                 39.13


Aerocon California, Inc

  Western Aircraft Maintenance, 4444 Aeronca St., 
  Boise, ID 83705
Engineering Order (E.O.) B-9975-02 dated Nov. 14,                  39.13
  1975.
Service Letter dated May 25, 1976.................                 39.13


Aeromot Industria Mecanico Metalurgica Itda

  Grupo Aeromot, Aeromot-Industria Mecanico 
  Metalurgica Itda., Av. Das Industrias, 1210-
  Bairro Anchieta, Caixa Postal 8031, 90 200-290-
  Porto Alegre-RS, Brazil
Service Bulletin No. 200-27-078 dated September                    39.13
  18, 2001.
Mandatory SB No. 100-53-042, Rev. 1, dated July 3,                 39.13
  1997.
Mandatory SB No. 100-53-042, Rev. 1, dated July 3,                 39.13
  1997.
SB-200-79-036, dated January 30, 1997.............                 39.13


Aerospace Lighting Corp

  101-8 Colin Dr., Holbrook, NY 11741
II AL-11023M, Rev. A, dated May 20, 1994..........                 39.13
II AL-11024M, dated March 15, 1992................                 39.13
II AL-11025M, dated March 15, 1992................                 39.13
Information Bulletin IB 90-001 dated March 30,                     39.13
  1990.
No. IB 90-001, Rev. 1, dated August 15, 1992......                 39.13


Aerospace Technologies of Australia Pty Ltd

  ASTA DEFENCE Private Bag No. 4, Beach Road Lara 
  3212, Victoria, Australia
Alert SB ANMD-27-27, Rev. 1, dated November 5,                     39.13
  1982.
SB ANMD-53-13, Rev. 3, dated October 24, 1995.....                 39.13
SB ANMD-55-23, Rev. 1, dated July 11, 1991........                 39.13
SB ANMD-55-26, Rev. 8, dated April 15, 1994.......                 39.13
SB ANMSD-55-34, dated April 22, 1996..............                 39.13
SB NMD-27-24, dated October 8, 1982...............                 39.13
SB NMD-53-5, Rev. 2, dated December 6, 1995.......                 39.13


Aerospatiale

  316 Route de Bayonne 31060 Toulouse Cedex 03 
  France
Regional Service Bulletin ATR42-26-0023 Revision 1                 39.13
dated September 14, 2000.
[[Page 892]]

Regional Service Bulletin ATR42-32-0090 dated May                  39.13
  19, 2000.
Regional Service Bulletin ATR42-80-0001 Revision 2                 39.13
  dated November 15, 2000.
Regional Service Bulletin ATR72-26-1014 Revision 1                 39.13
  dated September 14, 2000.
Regional Service Bulletin ATR72-32-1038 dated May                  39.13
  19, 2000.
Regional Service Bulletin ATR72-92-1004 dated                      39.13
  January 26, 2001.
Special Inspection Service Bulletin 26-26-11-001                   39.13
  dated June 2000.
Service Bulletin 631-32-144 dated January 19, 1998                 39.13
Service Bulletin 631-32-145 dated February 16,                     39.13
  1998.
Service Bulletin 631-32-145 Revision 1 dated May                   39.13
  31, 1999.


Aerospatiale Helicopter Corp

  2701 Forum Drive, Grand Prairie, Texas 75051
Alert SB ATR42-31-0023, dated May 15, 1992........                 39.13
Alert SB ATR72-31-1006, dated May 15, 1992........                 39.13
AOT A/BTE/AM 499.368/95, dated March 7, 1995......                 39.13
ATR Icing Procedures Brochure, Version 1.0........                 39.13
ATR SB ATR72-27-1039, dated January 12, 1995......                 39.13
ATR Technical Background Paper, Version 1.0, dated                 39.13
  January 6, 1995.
ATR-42 AFM Temporary Rev. 18, dated January 10,                    39.13
  1995.
ATR-42 and ATR-72 Airworthiness Directive, T95-02-                 39.13
  51 Compliance Procedures, Flight Standards 
  Information dated January 11, 1995.
ATR-42 Flight Crew Operation Manual, Rev. 20,                      39.13
  dated January 11, 1995.
ATR-72 AFM Temporary Rev. 14, dated January 10,                    39.13
  1995.
ATR-72 Flight Crew Operation Manual, Rev. 13,                      39.13
  dated January 11, 1995.
ATR42-200/-300/-320 Time Limits Section,                           39.13
  Maintenance Planning Document Revision 4 dated 
  July 1999.
Corvette SB 53-15 dated Jan. 22, 1991.............                 39.13
Corvette SB 53-21 dated June 25, 1990.............                 39.13
Corvette SB 53-22 dated July 20, 1990.............                 39.13
Corvette SB 53-23, Rev. 2 dated November 6, 1991..                 39.13
Corvette SB 53-24 dated Jan. 25, 1991.............                 39.13
Corvette SB 53-8, Rev. 1 dated August 20, 1990....                 39.13
Corvette SB 57-24, Revision 1, dated May 30, 1994.                 39.13
Corvette SB 57-25, dated November 21, 1990........                 39.13
N262 Fregate SB No. 55-10, Rev. 2 dated January                    39.13
  31, 1984.
N262 Fregate SB No. 55-10, Rev. 3 dated May 25,                    39.13
  1991.
N262 Fregate SB No. 55-11, Rev. 2 dated May 25,                    39.13
  1991.
SB ATR72-53-1027, dated December 18, 1992.........                 39.13
SB 52-26 dated Jan. 24, 1991......................                 39.13
SB 53-14, Rev. 1 dated Jan. 24, 1991..............                 39.13
SB AS 355, No. 80.02, Rev. 2 dated July 8, 1987...                 39.13
SB AT72-27-1014, dated November 22, 1990..........                 39.13
SB ATR 72-53-1043, Rev. 1, dated December 9, 1994.                 39.13
SB ATR 72-53-1044, dated June 6, 1994.............                 39.13
SB ATR42-22-0012, dated April 2, 1990.............                 39.13
SB ATR42-22-0012, Rev. 1 dated October 12, 1992...                 39.13
SB ATR42-22-0015, Rev. 1, dated March 6, 1992.....                 39.13
SB ATR42-22-0015, Rev. 2, dated July 29, 1993.....                 39.13
SB ATR42-25-0075, dated September 4, 1991.........                 39.13
SB ATR42-25-0084, dated, April 10, 1992...........                 39.13

[[Page 893]]

SB ATR42-25-0094, dated June 23, 1995.............                 39.13
SB ATR42-27-0022, Rev. 1, dated April 14, 1988....                 39.13
SB ATR42-27-0048, Rev. 2, dated May 16, 1991......                 39.13
SB ATR42-27-0049, Rev. 2, dated May 16, 1991......                 39.13
SB ATR42-27-0050, dated November 22, 1990.........                 39.13
SB ATR42-27-0051, dated November 22, 1990.........                 39.13
SB ATR42-27-0052, Rev. 1 dated April 4, 1991......                 39.13
SB ATR42-27-0058, Rev. 1, dated February 27, 1992.                 39.13
SB ATR42-27-0058, Rev. 2, dated July 5, 1993......                 39.13
SB ATR42-27-0068, dated January 25, 1994..........                 39.13
SB ATR42-27-0069, dated January 25, 1994..........                 39.13
SB ATR42-27-0071, dated February 23, 1994.........                 39.13
SB ATR42-27-0083, dated November 22, 1996.........                 39.13
SB ATR42-32-0028, Rev. 3 dated Feb. 12, 1991......                 39.13
SB ATR42-32-0036, Rev. 1, dated February 15, 1991.                 39.13
SB ATR42-32-0036, Rev. 1, dated February 15, 1991.                 39.13
SB ATR42-32-0036, Rev. 3, dated December 12, 1991.                 39.13
SB ATR42-32-0036, Rev. 3, dated December 12, 1991.                 39.13
SB ATR42-32-0036, Rev. 3, dated December 12, 1991.                 39.13
SB ATR42-32-0038, Rev. 1 dated June 24, 1991......                 39.13
SB ATR42-32-0039, Rev. 1 dated Aug. 1, 1991.......                 39.13
SB ATR42-32-0040, dated February 24, 1992.........                 39.13
SB ATR42-32-0040, dated February 24, 1992.........                 39.13
SB ATR42-32-0040, dated February 24, 1992.........                 39.13
SB ATR42-32-0040, Rev. 1 dated January 18, 1993...                 39.13
SB ATR42-32-0040, Rev. 1, dated January 18, 1993..                 39.13
SB ATR42-32-0040, Rev. 1, dated January 18, 1993..                 39.13
SB ATR42-32-0081, dated July 16, 1996.............                 39.13
SB ATR42-32-0082, dated July 16, 1996.............                 39.13
SB ATR42-52-0072, dated October 2, 1995...........                 39.13
SB ATR42-53-0004, Rev. 4 dated July 25, 1989......                 39.13
SB ATR42-53-0023, Rev. 2 dated May 25, 1989.......                 39.13
SB ATR42-53-0031, Rev. 1 dated May 20, 1989.......                 39.13
SB ATR42-53-0031, Rev. 2 dated May 31, 1990.......                 39.13
SB ATR42-53-0031, Rev. 3 dated Feb. 19, 1991......                 39.13
SB ATR42-53-0042 dated May 3, 1989................                 39.13
SB ATR42-53-0042, Rev. 1 dated Apr. 22, 1991......                 39.13
SB ATR42-53-0043, Rev. 4 dated April 30, 1991.....                 39.13
SB ATR42-53-0070, dated June 10, 1991.............                 39.13
SB ATR42-53-0070, Rev. 1, dated June 12, 1992.....                 39.13
SB ATR42-53-0070, Rev. 2, dated March 22, 1993....                 39.13
SB ATR42-53-0081, Rev. 1, dated December 9, 1994..                 39.13
SB ATR42-53-0082, dated June 6, 1994..............                 39.13
SB ATR42-53-0093, Rev. 1, dated February 19, 1996.                 39.13
SB ATR42-53-0094, Rev. 2, dated February 19, 1996.                 39.13
SB ATR42-53-0103, dated September 23, 1996........                 39.13
SB ATR42-55-0005, dated November 9, 1990..........                 39.13
SB ATR42-55-0005, Rev. 1, dated May 28, 1991......                 39.13
SB ATR42-55-0005, Rev. 2, dated October 28, 1991..                 39.13
SB ATR42-55-0007, dated November 13, 1997.........                 39.13
SB ATR42-57-0010, Rev. 1 dated May 20, 1989.......                 39.13
SB ATR42-57-0010, Rev. 2 dated Apr. 15, 1991......                 39.13
SB ATR42-57-0018, Rev. 1 dated June 28, 1989......                 39.13

[[Page 894]]

SB ATR42-57-0021, Rev. 1 dated May 20, 1989.......                 39.13
SB ATR42-57-0021, Rev. 2 dated Sept. 25, 1990.....                 39.13
SB ATR42-57-0021, Rev. 3 dated Apr. 10, 1991......                 39.13
SB ATR42-57-0021, Rev. 4 dated Aug. 28, 1991......                 39.13
SB ATR42-57-0027, Rev. 2 dated July 6, 1989.......                 39.13
SB ATR42-57-0027, Rev. 3 dated March 27, 1991.....                 39.13
SB ATR42-57-0027, Rev. 4 dated Aug. 23, 1991......                 39.13
SB ATR42-57-0027, Rev. 5 dated Oct. 22, 1991......                 39.13
SB ATR42-57-0044, dated May 30, 1995..............                 39.13
SB ATR42-57-0044, Rev. 1, dated June 28, 1995.....                 39.13
SB ATR42-76-0002, Rev. 1 dated May 16, 1988.......                 39.13
SB ATR42-76-0009, Rev. 1 dated December 5, 1991...                 39.13
SB ATR72-22-1004, Rev. 1, dated March 6, 1992.....                 39.13
SB ATR72-25-1020, dated September 4, 1991.........                 39.13
SB ATR72-25-1025, Rev. 1, dated May 18, 1992......                 39.13
SB ATR72-27-1010, Rev. 4, dated February 23, 1994.                 39.13
SB ATR72-27-1012, Rev. 3, dated October 7, 1991...                 39.13
SB ATR72-27-1013, dated November 22, 1990.........                 39.13
SB ATR72-27-1015, Rev. 1 dated April 4, 1991......                 39.13
SB ATR72-27-1019, Rev. 1, dated March 20, 1992....                 39.13
SB ATR72-27-1027, dated July 28, 1993.............                 39.13
SB ATR72-27-1033, dated February 23, 1994.........                 39.13
SB ATR72-27-1044, dated March 5, 1996.............                 39.13
SB ATR72-32-1036, dated June 19, 1996.............                 39.13
SB ATR72-32-1037, dated June 19, 1996.............                 39.13
SB ATR72-52-1040, dated October 2, 1995...........                 39.13
SB ATR72-53-1022, Rev. 2, dated February 20, 1995.                 39.13
SB ATR72-53-1026, Rev. 1, dated January 22, 1993..                 39.13
SB ATR72-53-1026, Rev. 1, dated January 22, 1993..                 39.13
SB ATR72-53-1027, dated December 18, 1992.........                 39.13
SB ATR72-53-1028, dated January 18, 1993..........                 39.13
SB ATR72-53-1028, dated January 18, 1993..........                 39.13
SB ATR72-53-1034, Rev. 1, dated March 28, 1995....                 39.13
SB ATR72-53-1053, Rev. 1, dated March 28, 1995....                 39.13
SB ATR72-55-1001, dated November 9, 1990..........                 39.13
SB ATR72-55-1001, Rev. 1, dated April 10, 1991....                 39.13
SB ATR72-55-1001, Rev. 2, dated October 28, 1991..                 39.13
SB ATR72-57-1008, dated November 19, 1992.........                 39.13
SB ATR72-57-1008, dated November 19, 1992.........                 39.13
SB ATR72-76-1002, Rev. 1 dated December 5, 1991...                 39.13
SB No. 01.14a; and No. 01.17a.....................                 39.13
SB No. 01.19, ; No. 05.16 for Model AS 350; No.                    39.13
  05.14 for Model AS 355 dated May 2, 1984.
SB No. 67.11 dated March 23, 1989.................                 39.13
SB No. 67.14 dated April 18, 1990.................                 39.13
SB No. ATR42-30-0059, Rev. 1, dated April 10, 1995                 39.13
SB No. ATR42-57-0043, Rev. 1, dated April 10, 1995                 39.13
SB No. ATR72-30-1023, Rev. 1, dated April 10, 1995                 39.13
SB No. ATR72-57-1015, Rev. 1, dated April 10, 1995                 39.13
SB No. ATR72-57-1016, Rev. 1, dated April 10, 1995                 39.13
Service Bulletin 05.71R4 (Revision 4) dated                        39.13
  December 18, 1990.
Service Bulletin No. 01.14a.......................                 39.13
Service Bulletin No. 01.17a.......................                 39.13

[[Page 895]]

SB 05-65 dated February 14, 1978..................                 39.13
SB 65-81, Issue 2 dated February 14, 1976.........                 39.13
SB No. 01.49 and Lana SA 315 SB No. 01.18.........                 39.13
SB No. 01.49, Rev. 1 dated May 30, 1986...........                 39.13
SB 05-14 dated February 14, 1979..................                 39.13
SB 65-06, Issue 2 dated February 14, 1977.........                 39.13
Imperative SB 57 dated Jan. 1991..................                 39.13
SB 150 dated June 1991............................                 39.13


Aerostar Aircraft Corporation

  1055 Airport Drive, Coeur d'Alene Airport, 
  Hayden Lake, Idaho 83835-8742
SB 600-121 dated Sept. 12, 1991...................                 39.13
SB No. 746C, dated September 15, 1992.............                 39.13
SB SB600-130, dated September 26, 1995............                 39.13
SB SB600-132, dated September 3, 1997.............                 39.13
Service Bulletin SB600-134A dated March 31, 2000..                 39.13
SB 861 dated May 4, 1987..........................                 39.13
Special Advisory 60-7 dated Jan. 11, 1991.........                 39.13


Aerotechnikcz s.r.o.

  686 04 Kunovic, Czech Republic; telephone: +420 
  632 537111; Fax: +420 632 537 900
Service Bulletin SEH 13-005a dated November 18,                    39.13
  1999.


Agusta

  21017 Cascina Costa di Samarate (VA) Italy Via 
  Giovanni Agusta 520
Alert Bollettino Tecnico 412-83 Revision A dated                   39.13
  December 29, 2000.
Alert Bollettino Tecnico No. 109-106 Revision B                    39.13
  dated December 19, 2000.
Alert Bollettino Tecnico No. 109EP-1 Revision B                    39.13
  dated December 19, 2000.
Alert Bollettino Tecnico No. 109EP-14 Revision A                   39.13
  dated March 19, 2001.
Alert Bollettino Tecnico No. 109K-22 Revision B                    39.13
  dated December 19, 2000.
Bollettino Tecnico No. 109EP-16 dated December 21,                 39.13
  2000.
Bollettino Tecnico No. 119-1 Revision A dated                      39.13
  August 22, 2001.


Agusta (Costruzioni Aeronautiche Giovanni Agusta S.p.A.)

  Direzione Supporto Prodotto E Servizi, 21019 
  Somma Lombardo (VA), Via per Tornavento, 15, 
  Italy
Alert Bollettino Tecnico No. 109EP-14 dated                        39.13
  October 11, 2000.
Bollettino Tecnico dated December 22, 1998........                 39.13
Bollettino Tecnico 109-103 dated November 22, 1995                 39.13
Bollettino Tecnico 109EP-12 dated July 24, 2000...                 39.13
Bollettino Tecnico 109K-10 dated November 22, 1995                 39.13
Bollettino Tecnico No. 109-96, dated March 30,                     39.13
  1994.
Bollettino Tecnico No. 109K-16, dated April 24,                    39.13
  1997.
Service Bulletin 109-111 dated October 14, 1999...                 39.13
Technical Bulletin 109EP-5 dated December 22, 1999                 39.13


Air Cruisers Company

  Technical Publications Department, P.O. Box 180, 
  Belmar, NJ 07719-0180
SB 001-25-8, Rev. 4 dated May 24, 1990............                 39.13
SB 105-25-30, Rev. 1 dated August 21, 1989........                 39.13

[[Page 896]]

SB 201-25-13 dated Sept. 17, 1990.................                 39.13
SB 35-25-2 dated Oct. 30, 1990....................                 39.13
SB 35-25-3 dated Oct. 22, 1990....................                 39.13
SB 757-105-25-51, dated January 29, 1999..........                 39.13
SB S.B. 103-25-19, Rev. 7, dated April 18, 1996...                 39.13
SB S.B. 201-25-17, dated June 4, 1992.............                 39.13


Air Research Technology, Inc.

  3440 McCarthy Montreal Quebec Canada H4K
SB No. SB-1-96, Issue 1, dated April 11, 1996.....                 39.13


Air Tractor, Inc

  P.O. Box 485, Olney, TX 76374-0150
Service Letter 90 dated May 6, 1991...............                 39.13
Service Letter No. 138, dated July 29, 1995.......                 39.13
Service Letter No. 76 Instructions, as referenced                  39.13
  in Snow Engineering Co. Service Letter No. 76, 
  dated December 12, 1988.
Report No. 138, dated July 29, 1995, revised                       39.13
  August 7, 1996.
Service Letter (SL) No. 134, dated November 29,                    39.13
  1994.
Service Letter 104A, dated July 29, 1995..........                 39.13
Service Letter 196 Revised dated March 7, 2000....                 39.13
Service Letter 197 dated June 13, 2000............                 39.13
Service Letter No. 140, dated November 27, 1995,                   39.13
  Revised October 10, 1996.
Service Letter No. 165, dated May 15, 1998........                 39.13
Service Letter No. 197 Revision 2 dated March 26,                  39.13
  2001.
Service Letter No. 202 Revision 2 dated March 26,                  39.13
  2001.
Service Letter No. 203 Revision 1 dated March 26,                  39.13
  2001.
Service Letter No. 205 Revision 3 dated March 26,                  39.13
  2001.
SL No. 135, dated February 1, 1995................                 39.13


Airbus Industrie

  P.O. Box 33, 1 Rond Pont Maurice Bellonte F-
  31707 Blagnac Cedex, France
2.05.00/43 dated September 16, 1999...............                 39.13
A300 Flight Manual Temporary Revision 4.02.00/08                   39.13
  dated April 25, 2001.
A300 Flight Manual Temporary Revision 4.02.00/09                   39.13
  dated April 26, 2001.
A300 Supplemental Structural Inspection Document                   39.13
  (SSID), Rev. 2, dated June, 1994.
A300 Supplemental Structural Inspection Document,                  39.13
  dated September 1989.
A300-54-070, Rev. 1, dated March 17, 1992.........                 39.13
A300-57-0232, Rev. 01, dated January 12, 1998.....                 39.13
A300-600 Flight Manual Temporary Revision 4.02.00/                 39.13
  11 dated March 21, 2000.
A300-600 Flight Manual Temporary Revision 4.02.00/                 39.13
  13 dated March 28, 2000.
A300-600 Flight Manual Temporary Revision 5.03.00/                 39.13
  01 dated January 22, 2001.
A300/ AOT 71-07, dated September 8, 1998..........                 39.13
A310 Flight Manual Temporary Revision 4.02.00/11                   39.13
  dated March 21, 2000.
A310 Flight Manual Temporary Revision 4.02.00/12                   39.13
dated March 22, 2000.
[[Page 897]]

A310 Flight Manual Temporary Revision 4.02.00/13                   39.13
  dated March 23, 2000.
A310 Flight Manual Temporary Revision 4.02.00/14                   39.13
  dated March 24, 2000.
A310 Flight Manual Temporary Revision 5.03.00/01                   39.13
  dated January 22, 2001.
A310 Flight Manual Temporary Revision 5.03.00/02                   39.13
  dated January 22, 2001.
A319/320/321 Airplane Flight Manual Temporary Rev.                 39.13
  9.99.99/02, Issue 02, dated April 8, 1997.
A319/320/321 Airplane Flight Manual Temporary Rev.                 39.13
  9.99.99/44, Issue 2, dated March 3, 1998.
A319/A321 AOT 32-15, dated July 1, 1997...........                 39.13
A320/A321 Flight Manual Temporary Rev. 9.99.99/20,                 39.13
  dated June 14, 1994.
A340 Airplane Flight Manual Temporary Rev.                         39.13
  4.03.00/14, dated October 18, 1996.
Airplane Flight Manual Temporary Revision 3.02.00/                 39.13
  11 undated.
Airplane Flight Manual Temporary Revision 3.02.00/                 39.13
  7 undated.
Airplane Flight Manual Temporary Revision 3.02.00/                 39.13
  8 undated.
Airplane Flight Manual Temporary Revision 5.02.00/                 39.13
  60 Issue 2 dated September 14, 2001.
Airplane Flight Manual Temporary Revision 5.03.00/                 39.13
  21 Issue 2 dated September 14, 2001.
All Operator Telex A300-22A0115 dated December 23,                 39.13
  1999.
All Operator Telex A300-53A0350 dated October 25,                  39.13
  1999.
All Operator Telex A300-53A0352 dated January 4,                   39.13
  2000.
All Operator Telex A300-600-22A6042 dated December                 39.13
  23, 1999.
All Operator Telex A300-600-53A6123 dated October                  39.13
  25, 1999.
All Operator Telex A310-22A2053 dated December 23,                 39.13
  1999.
All Operator Telex A320/ AOT 26-10, dated April 5,                 39.13
  1993.
All Operator Telex A33-27A4093 dated April 5, 2001                 39.13
All Operator Telex A330-71A3014 dated December 8,                  39.13
  2000.
All Operator Telex AOT 29-10, Revision 02, dated                   39.13
  February 13, 1995.
All Operator Telex AOT A33-27A3088 dated April 5,                  39.13
  2001.
All Operators Telex 32-19 Revision 4 dated April                   39.13
  29, 1999.
All Operators Telex A300-22A0114, dated May 27,                    39.13
  1999.
All Operators Telex A300-27A0196 dated September                   39.13
  20, 2001.
All Operators Telex A300-53A0361 dated June 14,                    39.13
  2001.
All Operators Telex A300-57A0239 dated August 2,                   39.13
  2001.
All Operators Telex A300-600-22A6039, dated May                    39.13
  27, 1999.
All Operators Telex A300-600-57A6094 dated August                  39.13
  2, 2001.
All Operators Telex A310-22A2050, dated May 27,                    39.13
  1999.
All Operators Telex A320-52A1106 dated September                   39.13
  28, 2000.
All Operators Telex A330-32A3137 dated July 19,                    39.13
  2001.
All Operators Telex A340-32A4174 dated July 19,                    39.13
  2001.
All Operators Telex AOT 24-09, Revision 1, dated                   39.13
  August 13, 1998.
All Operators Telex AOT 28-09, dated November 28,                  39.13
  1998.
All Operators Telex AOT 78-08, dated November 30,                  39.13
  1998.
AOT 24-02, Rev. 1, dated December 23, 1992........                 39.13
AOT 24-05, Rev. 1, dated June 7, 1994.............                 39.13
AOT 24-08, dated April 17, 1997...................                 39.13
AOT 25-01 dated July 30, 1990.....................                 39.13
AOT 25-02 dated May 16, 1991......................                 39.13

[[Page 898]]

AOT 25-05, Rev. 3, dated June 25, 1997............                 39.13
AOT 25-08, dated April 25, 1994...................                 39.13
AOT 25-11, dated January 4, 1996..................                 39.13
AOT 25-11, Rev. 1, dated January 8, 1996..........                 39.13
AOT 25-12, Rev. 1, dated March 21, 1996...........                 39.13
AOT 26-11, dated January 3, 1994..................                 39.13
AOT 26-12, Rev. 1, dated July 4, 1994.............                 39.13
AOT 26-13, dated June 28, 1994....................                 39.13
AOT 26-16, dated September 12, 1995...............                 39.13
AOT 26/90/01 and correction to 26/90/01 dated                      39.13
  February 9, 1990.
AOT 27-03, Rev. 3 dated June 12, 1991.............                 39.13
AOT 27-14, dated November 2, 1993.................                 39.13
AOT 27-17, Rev. 01, dated July 11, 1994...........                 39.13
AOT 27-20, dated December 19, 1994................                 39.13
AOT 28-01 dated Oct. 8, 1990......................                 39.13
AOT 28-03, dated June 6, 1991.....................                 39.13
AOT 29-04, Rev. 1 dated June 1, 1991..............                 39.13
AOT 29-07, dated August 28, 1992..................                 39.13
AOT 29-09, dated Novemer 16, 1993.................                 39.13
AOT 29-15, dated May 30, 1995.....................                 39.13
AOT 29-21, Rev. 1, dated January 8, 1997..........                 39.13
AOT 29-22, dated November 24, 1997................                 39.13
AOT 30-01, Rev. 2, dated March 6, 1995............                 39.13
AOT 32-04, Rev. 1 dated Oct. 22, 1991.............                 39.13
AOT 32-14, dated February 3, 1997.................                 39.13
AOT 32-14, Rev. 01, dated March 13, 1997..........                 39.13
AOT 32-17, Rev. 01, dated November 6, 1997........                 39.13
AOT 32-19, dated July 7, 1998.....................                 39.13
AOT 34-03, dated February 20, 1996................                 39.13
AOT 34-04, dated July 16, 1996....................                 39.13
AOT 36-02, dated August 23, 1995..................                 39.13
AOT 38-01, dated December 15, 1993................                 39.13
AOT 49-01, Issue 3 dated April 25, 1991...........                 39.13
AOT 52-06, dated February 4, 1994.................                 39.13
AOT 52-07, dated July 28, 1994....................                 39.13
AOT 52-08, Rev. 1, dated December 1, 1994.........                 39.13
AOT 53-01, dated August 27, 1992..................                 39.13
AOT 53-02, dated November 2, 1992.................                 39.13
AOT 53-04, dated January 20, 1993.................                 39.13
AOT 53-05, Rev. 1, dated August 16, 1993..........                 39.13
AOT 53-08, Rev. 01, dated January 15, 1996........                 39.13
AOT 53-11, dated October 13, 1997.................                 39.13
AOT 56-01, Rev. 1, dated April 29, 1994...........                 39.13
AOT 57-03, Issue 2 dated June 13, 1991............                 39.13
AOT 57-04 dated June 21, 1991.....................                 39.13
AOT 57-08, Rev. 1, dated June 28, 1994............                 39.13
AOT 71-06, dated October 21, 1997.................                 39.13
AOT 78-03, Rev. 1, dated July 20, 1994............                 39.13
AOT 78-05, Rev. 1, dated February 8, 1995.........                 39.13
Change Notice 1.A. to A300-54-063 dated February                   39.13
  13, 1990.
Change Notice 1.A. to A300-54-066 dated February                   39.13
  13, 1990.
Change Notice 2.A. to A300-54-060 dated February                   39.13
  13, 1990.
Change Notice OB to A300-57-165 dated November 27,                 39.13
1990.
[[Page 899]]

Change Notice, dated July 8, 1985.................                 39.13
Document A300 Corrosion Prevention and Control                     39.13
  Program, dated November 1992.
Flight Manual A300/600 Rev. 4.03.00/18, dated                      39.13
  November 4, 1996.
Flight Manual A300/600 Temporary Rev. 4.03.00/19,                  39.13
  dated November 4, 1996.
Flight Manual A310 Temporary Rev. 4.03.00/20,                      39.13
  dated November 4, 1996.
Flight Manual A310 Temporary Rev. 4.03.00/21,                      39.13
  dated November 4, 1996.
Flight Manual A319/320/321 Temporary Rev. 2.05.00/                 39.13
  13, dated October 18, 1996.
Flight Operations TELEX 999.0099/98 Revision 5                     39.13
  dated May 21, 1999.
Model A300 Temporary Rev. 5.02.00/1 dated December                 39.13
  4, 1991.
Model A300 Temporary Rev. 5.04.00/1 dated November                 39.13
  4, 1991.
Model A300 Temporary Rev. 5.04.00/2 dated December                 39.13
  4, 1991.
Model A310 Temporary Rev. 5.04.00/1 dated October                  39.13
  22, 1991.
Model A310 Temporary Rev. 5.04.00/3 dated February                 39.13
  13, 1992.
Model A310 Temporary Rev. 5.04.00/4 dated March 6,                 39.13
  1992.
Model A319/320/321 Flight Manual Temporary Rev.                    39.13
  4.03.00/02, dated May 28, 1997.
Model A320 Airplane Flight Manual Temporary Rev.                   39.13
  9.99.99/90, Issue 2, dated December 22, 1992.
Operations Engineering Bulletin No. 50/1 dated                     39.13
  November 28, 1986.
Operations Engineering Bulletin No. 86/1 dated                     39.13
  November 28, 1987.
SB 300-53-0309, dated March 19, 1997..............                 39.13
SB 320-57-1025, Rev. 05, dated June 26, 1997......                 39.13
SB 340-32-4087, Rev. 2, dated May 27, 1997........                 39.13
SB A-320-32-1061, Rev. 3, dated October 19, 1992..                 39.13
SB A300-22-6010, dated April 18, 1989.............                 39.13
SB A300-22-6011, dated June 8, 1990...............                 39.13
SB A300-22-6017, dated September 2, 1991..........                 39.13
SB A300-22-6021, Rev. 1, dated December 24, 1993..                 39.13
SB A300-22-6032, Rev. 1, dated January 8, 1997....                 39.13
SB A300-22-6035, dated July 16, 1996..............                 39.13
SB A300-24-0082, dated March 3, 1993..............                 39.13
SB A300-24-0082, dated March 3, 1993..............                 39.13
SB A300-24-6029, Rev. 1 dated Feb. 22, 1991.......                 39.13
SB A300-25-0465, dated October 31, 1997...........                 39.13
SB A300-25-395, as revised by Change Notice OB,                    39.13
  dated June 2, 1985, and Change Notice OC, dated 
  June 20, 1988 dated March 22, 1984.
SB A300-25-434 dated Oct. 22, 1990................                 39.13
SB A300-25-6028 dated Oct. 22, 1990...............                 39.13
SB A300-26-055, Rev. 1, dated September 4, 1991...                 39.13
SB A300-26-055, Rev. 2, dated December 18, 1991...                 39.13
SB A300-26-6030, Rev. 02, dated April 4, 1997.....                 39.13
SB A300-27-0188, Rev. 2, dated October 1, 1997....                 39.13
SB A300-27-6025, dated September 15, 1993.........                 39.13
SB A300-27-6025, Rev. 1, dated August 31, 1994....                 39.13
SB A300-27-6025, Rev. 2, dated April 19, 1995.....                 39.13
SB A300-27-6026, dated May 5, 1994................                 39.13
SB A300-27-6026, Rev. 1, dated August 31, 1995....                 39.13
SB A300-27-6028, dated December 19, 1994..........                 39.13

[[Page 900]]

SB A300-27-6035, dated November 26, 1996..........                 39.13
SB A300-27-6036, Rev. 2, dated October 1, 1997....                 39.13
SB A300-27-6037, Revision 1, dated September 29,                   39.13
  1998.
SB A300-27-6042, Revision 1, dated February 17,                    39.13
  1999.
SB A300-28-0061, Rev. 1, dated March 14, 1992.....                 39.13
SB A300-28-0063, Rev. 01, dated January 15, 1997..                 39.13
SB A300-28-0071, dated January 15, 1997...........                 39.13
SB A300-28-055, Change Notice 3.A, dated March 16,                 39.13
  1992.
SB A300-28-055, Rev. 3, dated December 19, 1991...                 39.13
SB A300-28-6031, Rev. 01, dated January 15, 1997..                 39.13
SB A300-28-6035, Revision 3, dated August 5, 1999.                 39.13
SB A300-28-6054, dated January 15, 1997...........                 39.13
SB A300-28-6055, Revision 01, dated July 24, 1998.                 39.13
SB A300-28A065, Rev. 1, dated February 14, 1994...                 39.13
SB A300-28A6033, Rev. 1, dated February 14, 1994..                 39.13
SB A300-29-0099, dated January 30, 1992...........                 39.13
SB A300-29-0108, dated April 1, 1996..............                 39.13
SB A300-29-0109, dated January 27, 1997...........                 39.13
SB A300-29-097, Rev. 2 dated August 27, 1991......                 39.13
SB A300-29-2077, dated January 27, 1997...........                 39.13
SB A300-29-6022, Rev. 2 dated August 27, 1991.....                 39.13
SB A300-29-6024, Rev. 1 dated June 10, 1992.......                 39.13
SB A300-29-6037, dated April 1, 1996..............                 39.13
SB A300-29-6038, dated January 27, 1997...........                 39.13
SB A300-32-0418, Rev. 1, dated April 29, 1996.....                 39.13
SB A300-32-0425, Rev. 01, dated October 10, 1997..                 39.13
SB A300-32-0425, Revision 2, dated June 23, 1998..                 39.13
SB A300-32-6061, Rev. 1, dated April 29, 1996.....                 39.13
SB A300-32-6072, Rev. 01, dated October 10, 1997..                 39.13
SB A300-32-6072, Revision 2, dated June 23, 1998..                 39.13
SB A300-33-0119, dated March 1, 1993..............                 39.13
SB A300-33-6013, dated March 1, 1989..............                 39.13
SB A300-33-6020, dated March 1, 1993..............                 39.13
SB A300-35-6001, Rev. 2, dated April 30, 1991.....                 39.13
SB A300-36-0033, dated October 17, 1994...........                 39.13
SB A300-36-6024, dated October 17, 1994...........                 39.13
SB A300-49-0049 dated July 12, 1991...............                 39.13
SB A300-49-6009 dated July 12, 1991...............                 39.13
SB A300-52-0161, dated October 3, 1994............                 39.13
SB A300-53- 6055, dated October 28, 1993..........                 39.13
SB A300-53- 6056, dated February 23, 1996.........                 39.13
SB A300-53-027, Rev. 4, dated January 30, 1981....                 39.13
SB A300-53-0294, dated May 17, 1993...............                 39.13
SB A300-53-0300, dated October 28, 1993...........                 39.13
SB A300-53-0314, dated January 14, 1997...........                 39.13
SB A300-53-0329, Rev. 01, dated October 17, 1997..                 39.13
SB A300-53-0331, Revision 01, dated November 5,                    39.13
  1998.
SB A300-53-100, Rev. 1, dated May 10, 1984........                 39.13
SB A300-53-100, Rev. 2, dated July 11, 1995.......                 39.13
SB A300-53-101, Rev. 7, dated May 10, 1984........                 39.13
SB A300-53-103, Rev. 4 dated June 30, 1983........                 39.13
SB A300-53-103, Rev. 5, dated February 23, 1994...                 39.13
SB A300-53-112, Rev. 2, dated July 20, 1981.......                 39.13

[[Page 901]]

SB A300-53-121, Rev. 3, dated January 30, 1981....                 39.13
SB A300-53-126, Rev. 7 dated November 11, 1990....                 39.13
SB A300-53-126, Rev. 8, dated September 18, 1991..                 39.13
SB A300-53-127, Rev. 4, dated May 10, 1984........                 39.13
SB A300-53-143, Rev. 3, dated May 10, 1984........                 39.13
SB A300-53-146, Rev. 7 dated April 26, 1991.......                 39.13
SB A300-53-152, Rev. 1, dated January 30, 1981....                 39.13
SB A300-53-152, Rev. 4, dated March 13, 1992......                 39.13
SB A300-53-162, Rev. 4 dated November 12, 1990....                 39.13
SB A300-53-162, Rev. 5, dated March 17, 1994......                 39.13
SB A300-53-182, Rev. 3, dated March 16, 1994......                 39.13
SB A300-53-192, Rev. 7, dated July 13, 1992.......                 39.13
SB A300-53-196, Rev. 1 dated November 12, 1990....                 39.13
SB A300-53-2030, Rev. 5, dated March 6, 1991......                 39.13
SB A300-53-2037, Rev. 1, dated April 29, 1992.....                 39.13
SB A300-53-204, Rev. 6, dated October 11, 1993....                 39.13
SB A300-53-225, Rev. 2 dated May 30, 1990.........                 39.13
SB A300-53-226, Rev. 5 dated September 7, 1991....                 39.13
SB A300-53-227, Rev. 1, dated April 29, 1992......                 39.13
SB A300-53-233, Rev. 1, dated April 18, 1991......                 39.13
SB A300-53-278 dated November 12, 1990............                 39.13
SB A300-53-278, Rev. 1, dated March 17, 1994......                 39.13
SB A300-53-301, dated September 28, 1995..........                 39.13
SB A300-53-301, Rev. 1, dated February 20, 1997...                 39.13
SB A300-53-302, dated November 3, 1995............                 39.13
SB A300-53-303, dated February 23, 1996...........                 39.13
SB A300-53-6002, Rev. 3, dated February 22, 1992..                 39.13
SB A300-53-6011, Rev. 3, dated February 4, 1991...                 39.13
SB A300-53-6018, Rev. 1, dated April 29, 1992.....                 39.13
SB A300-53-6022, dated February 4, 1991...........                 39.13
SB A300-53-6037, dated March 21, 1995.............                 39.13
SB A300-53-6042, Rev. 1, dated February 20, 1995..                 39.13
SB A300-53-6045, dated March 21, 1995, including                   39.13
  Change Notice O.A., dated June 1, 1995.
SB A300-53-6046, Rev. 1, dated April 5, 1994......                 39.13
SB A300-53-6060, dated March 19, 1997.............                 39.13
SB A300-53-6066, dated October 16, 1996...........                 39.13
SB A300-53-6066, Rev. 01, dated March 11, 1998....                 39.13
SB A300-53-6105, Rev. 01, dated October 17, 1997..                 39.13
SB A300-53-6107, Revision 01, dated November 5,                    39.13
  1998.
SB A300-54- 045, Rev. 6, dated February 25, 1994..                 39.13
SB A300-54-0073, Rev. 1, dated March 28, 1994.....                 39.13
SB A300-54-0084, dated April 21, 1994.............                 39.13
SB A300-54-045, Rev. 4 dated January 31, 1990.....                 39.13
SB A300-54-046, dated June 24, 1982...............                 39.13
SB A300-54-060, Rev. 2 dated September 7, 1988....                 39.13
SB A300-54-060, Rev. 3, dated February 25, 1994...                 39.13
SB A300-54-063, Rev. 1 dated April 22, 1990.......                 39.13
SB A300-54-063, Rev. 2, dated February 25, 1994...                 39.13
SB A300-54-066, Rev. 1 dated February 15, 1989....                 39.13
SB A300-54-066, Rev. 2, dated February 25, 1994...                 39.13
SB A300-54-6014, Rev. 1, dated March 28, 1994.....                 39.13
SB A300-55-0044, dated October 22, 1996...........                 39.13

[[Page 902]]

SB A300-55-026, Rev. 3, dated May 10, 1984........                 39.13
SB A300-55-026, Rev. 4, dated February 16, 1998...                 39.13
SB A300-55-6008, dated December 10, 1990..........                 39.13
SB A300-55-6010, dated April 18, 1991.............                 39.13
SB A300-55-6023, dated October 22, 1996...........                 39.13
SB A300-57- 0167, Rev. 1, (including Appendix 1),                  39.13
  dated May 25, 1993.
SB A300-57-0168, Rev. 3, (including Appendix 1),                   39.13
  dated November 22, 1993.
SB A300-57-0180, Rev. 1, dated March 29, 1993.....                 39.13
SB A300-57-0185, Rev. 1, (including Appendix 1),                   39.13
  dated March 8, 1993.
SB A300-57-0194, Rev. 2, (including Appendix 1),                   39.13
  dated August 19, 1993.
SB A300-57-0204, dated December 4, 1995...........                 39.13
SB A300-57-0213, dated August 12, 1994............                 39.13
SB A300-57-0229, dated October 16, 1996...........                 39.13
SB A300-57-0234, Revision 1, dated March 11, 1998.                 39.13
SB A300-57-0235, Revision 1, including Appendix 1,                 39.13
  both dated February 1, 1999.
SB A300-57-026, Rev. 3, dated October 21, 1982....                 39.13
SB A300-57-026, Rev. 4, dated December 12, 1985...                 39.13
SB A300-57-109, Rev. 1, dated July 10, 1982.......                 39.13
SB A300-57-116, Rev. 6, dated July 16, 1993.......                 39.13
SB A300-57-128, Rev. 3, dated January 26, 1990....                 39.13
SB A300-57-141, Rev. 7, dated July 16, 1993.......                 39.13
SB A300-57-145, Rev. 3 dated February 10, 1988....                 39.13
SB A300-57-150, Rev. 1 dated September 18, 1987...                 39.13
SB A300-57-165 dated May 21, 1990.................                 39.13
SB A300-57-166, Rev. 3, (including Appendix 1),                    39.13
  dated July 12, 1993.
SB A300-57-6005, Rev. 2, dated December 16, 1993..                 39.13
SB A300-57-6006, Rev. 4, dated July 25, 1994......                 39.13
SB A300-57-6017, Rev. 1, (includes Appendix 1)                     39.13
  dated July 25, 1994.
SB A300-57-6017, Revision 3, dated................                 39.13
SB A300-57-6028, Rev. 3, dated September 13, 1994.                 39.13
SB A300-57-6037, dated August 1, 1994.............                 39.13
SB A300-57-6044, Rev. 2, dated September 6, 1995,                  39.13
  including Appendix 1, dated November 25, 1994.
SB A300-57-6045, Rev. 1, dated August 3, 1994,                     39.13
  including Appendix 1, Rev. 1, dated August 3, 
  1994.
SB A300-57-6045, Rev. 2, dated April 21, 1998,                     39.13
  including Appendix 1, Rev. 02, dated April 21, 
  1998.
SB A300-57-6047, Rev. 01, dated October 16, 1996,                  39.13
  including Change Notice 1.A., dated February 24, 
  1997.
SB A300-57-6049, dated September 9, 1994..........                 39.13
SB A300-57-6052, Revision 1, dated July 22, 1996..                 39.13
SB A300-57-6053, Revision 1, dated October 31,                     39.13
  1995.
SB A300-57-6059, dated August 12, 1994............                 39.13
SB A300-57-6074, dated October 16, 1996...........                 39.13
SB A300-57-6079, Rev. 02, dated January 12, 1998..                 39.13
SB A300-57-6087, Revision 1, dated March 11, 1998.                 39.13
SB A300-57-6088, Revision 1, including Appendix 1,                 39.13
both dated February 1, 1999.
[[Page 903]]

SB A300-57A0234, dated August 5, 1997.............                 39.13
SB A300-57A6087, dated August 5, 1997.............                 39.13
SB A300-6015, dated March 15, 1993................                 39.13
SB A300-71-6019, dated March 16, 1994.............                 39.13
SB A300-72-6013, Revision 3, dated August 6, 1993.                 39.13
SB A300-72-6014, dated March 15, 1993.............                 39.13
SB A300-72-6016, Revision 2, dated January 13,                     39.13
  1993.
SB A300-72-6018, Rev. 1, dated December 22, 1993,                  39.13
  including Change Notice No. O.A., dated June 17, 
  1993.
SB A300-72-6019, Rev. 1, dated December 22, 1993,                  39.13
  including Change Notice No. O.A., dated June 17, 
  1993.
SB A300-72-6025, Revision 1, dated June 22, 1995..                 39.13
SB A300-72-6027, dated July 24, 1995..............                 39.13
SB A300-76-0018, as revised by Change Notice O.A.                  39.13
  dated February 18, 1997 dated October 12, 1995.
SB A300-76-6010, as revised by Change Notice O.A.,                 39.13
  dated February 18, 1997 dated October 12, 1995.
SB A300-76-6011, Rev. 02, dated January 6, 1997...                 39.13
SB A300-78-0015, Rev. 2, dated May 24, 1996,                       39.13
  including Change Notice 2.A, dated May 24, 1996.
SB A310-22-2025, dated April 18, 1989.............                 39.13
SB A310-22-2027, dated June 8, 1990...............                 39.13
SB A310-22-2031, dated September 2, 1991..........                 39.13
SB A310-22-2035, Rev. 1, dated July 13, 1994......                 39.13
SB A310-22-2036, dated December 14, 1993..........                 39.13
SB A310-22-2044, Rev. 1, dated January 8, 1997....                 39.13
SB A310-22-2047, dated July 16, 1996..............                 39.13
SB A310-24-2040, Rev. 1 dated June 28, 1991.......                 39.13
SB A310-24-2065, dated November 30, 1995..........                 39.13
SB A310-24-2065, Rev. 1, dated April 19, 1996.....                 39.13
SB A310-25-2054 dated Oct. 22, 1990...............                 39.13
SB A310-26-2030, Rev. 02, dated April 4, 1997.....                 39.13
SB A310-27-2040, Rev. 2, dated January 5, 1995....                 39.13
SB A310-27-2042, Rev. 1, dated, December 11, 1986.                 39.13
SB A310-27-2046, Rev. 1, dated November 24, 1989..                 39.13
SB A310-27-2054, Rev. 2 dated Nov. 9, 1990........                 39.13
SB A310-27-2059, dated March 1, 1993..............                 39.13
SB A310-27-2061, dated November 4, 1992...........                 39.13
SB A310-27-2061, Revision 01, dated October 3,                     39.13
  1997.
SB A310-27-2067, Rev. 1, dated January 5, 1995....                 39.13
SB A310-27-2068, Rev. 1, dated March 16, 1994.....                 39.13
SB A310-27-2068, Rev. 2, dated April 19, 1995.....                 39.13
SB A310-27-2070, dated May 5, 1994................                 39.13
SB A310-27-2074, dated November 18, 1994..........                 39.13
SB A310-27-2081, dated November 26, 1996..........                 39.13
SB A310-27-2082, Rev. 2, dated October 1, 1997....                 39.13
SB A310-27-2087, Revision 1, dated February 17,                    39.13
  1999.
SB A310-28-2053, Rev. 01, dated January 15, 1997..                 39.13
SB A310-28-2058, Revision 2, dated February 22,                    39.13
  1995.
SB A310-28-2124, dated January 15, 1997...........                 39.13
SB A310-29-2030, Rev. 2 dated August 27, 1991.....                 39.13
SB A310-29-2032, Rev.1 dated June 10, 1992........                 39.13
SB A310-29-2076, dated April 1, 1996..............                 39.13

[[Page 904]]

SB A310-31-2098, Rev. 1, dated April 29, 1996.....                 39.13
SB A310-32-2069, Rev. 1, dated December 13, 1994..                 39.13
SB A310-32-2076, Rev. 1, dated December 13, 1994..                 39.13
SB A310-32-2111, Rev. 01, dated October 10, 1997..                 39.13
SB A310-32-2111, Revision 2, dated June 23, 1998..                 39.13
SB A310-33-2025, dated March 1, 1993..............                 39.13
SB A310-35-2002, Rev. 2, dated April 30, 1991.....                 39.13
SB A310-36-2032, dated October 17, 1994...........                 39.13
SB A310-49-2012 dated July 12, 1991...............                 39.13
SB A310-52-2060, dated July 22, 1996..............                 39.13
SB A310-53-2016, Revision 5, dated December 7,                     39.13
  1992.
SB A310-53-2041, Rev. 02, dated July 2, 1996......                 39.13
SB A310-53-2054, Revision 2, dated May 22, 1990...                 39.13
SB A310-53-2057 Revision 1 dated April 30, 1992...                 39.13
SB A310-53-2059, Revision 1, dated January 4, 1996                 39.13
SB A310-53-2069, Rev. 1, dated September 19, 1995.                 39.13
SB A310-53-2070, dated October 3, 1994............                 39.13
SB A310-53-2074, Revision 1, dated February 20,                    39.13
  1995.
SB A310-53-2076, dated May 17, 1993...............                 39.13
SB A310-53-2077, dated October 28, 1993...........                 39.13
SB A310-53-2079, dated February 23, 1996..........                 39.13
SB A310-53-2087, dated March 19, 1997.............                 39.13
SB A310-53-2092, dated October 16, 1996...........                 39.13
SB A310-53-2092, Rev. 01, dated March 11, 1998....                 39.13
SB A310-53-2101, Rev. 01, dated October 17, 1997..                 39.13
SB A310-54-2017, Rev. 1, dated March 28, 1994.....                 39.13
SB A310-54-2023, dated October 15, 1993...........                 39.13
SB A310-55-2002, Revision 4, dated April 28, 1989.                 39.13
SB A310-55-2004, Revision 2, dated February 7,                     39.13
  1991.
SB A310-55-2010, dated December 10, 1990..........                 39.13
SB A310-55-2012, dated April 18, 1991.............                 39.13
SB A310-55-2026, dated October 22, 1996...........                 39.13
SB A310-57-2002, Revision 1, dated July 2, 1992...                 39.13
SB A310-57-2002, Revision 2, dated January 4, 1996                 39.13
SB A310-57-2006, Revision 3, dated May 2, 1996....                 39.13
SB A310-57-2032, Revision 3, dated January 4, 1996                 39.13
SB A310-57-2037, Revision 3, dated January 4, 1996                 39.13
SB A310-57-2038, Revision 2, dated January 4, 1996                 39.13
SB A310-57-2039, dated September 24, 1990.........                 39.13
SB A310-57-2046, Revision 4, dated October 16,                     39.13
  1996, including Appendix I, Revision 3, dated 
  October 17, 1995 and Change Notice 4A, dated 
  October 16, 1996.
SB A310-57-2047, Revision 2, dated January 22,                     39.13
  1997.
SB A310-57-2050, dated April 23, 1990, including                   39.13
  Change Notice O.A., dated September 29, 1992 and 
  Change Notice O.B., dated January 6, 1995.
SB A310-57-2061, dated December 4, 1995...........                 39.13
SB A310-57-2064, dated August 24, 1995............                 39.13
SB A310-57-2075, Rev. 01, dated January 12, 1998..                 39.13
SB A310-57-2078, Revision 1, dated January 11,                     39.13
  1999.
SB A310-57-2079, Revision 1, dated January 11,                     39.13
  1999.
SB A310-71-2021, dated March 16, 1994.............                 39.13
SB A310-72-2017, Revision 3, dated August 6, 1993.                 39.13

[[Page 905]]

SB A310-72-2018, Rev. 2, dated December 22, 1993..                 39.13
SB A310-72-2019, Rev. 2, dated December 22, 1993..                 39.13
SB A310-72-2020, Revision 2, dated January 13,                     39.13
  1993.
SB A310-72-2022, dated February 16, 1993..........                 39.13
SB A310-72-2023, Rev. 1, dated December 22, 1993..                 39.13
SB A310-72-2029, Revision 1, dated June 25, 1995,                  39.13
  including Changes Notice 1.A., dated March 13, 
  1997 and Change Notice 1.B. dated.
SB A310-72-2031, dated July 24, 1995, including                    39.13
  Change Notice O.A., dated October 12, 1995.
SB A310-76-2013, as revised by Change Notice O.A.,                 39.13
  dated February 18 1997 dated October 12, 1995.
SB A310-76-2014, Rev. 02, dated January 6, 1997...                 39.13
SB A320-24-1022, Rev. 1, dated February 27, 1990..                 39.13
SB A320-24-1035, Rev. 1, dated February 27, 1990..                 39.13
SB A320-24-1035, Rev. 2, dated June 24, 1994......                 39.13
SB A320-24-1044, Rev. 2 dated March 3, 1992.......                 39.13
SB A320-24-1044, Rev. 3, dated March 12, 1993.....                 39.13
SB A320-24-1045, Rev. 2 dated April 12, 1992......                 39.13
SB A320-24-1045, Rev. 3, dated June 10, 1993......                 39.13
SB A320-24-1054, Revision 2, dated September 22,                   39.13
  1993.
SB A320-24-1092, dated March 26, 1997.............                 39.13
SB A320-24-1092, Rev. 01, dated December 24, 1997.                 39.13
SB A320-24-1092, Rev. 02, dated March 9, 1998.....                 39.13
SB A320-25-1086, Revision 2, dated April 27, 1999.                 39.13
SB A320-25-1186, Revision 2, dated April 27, 1999.                 39.13
SB A320-25-1199, dated March 25, 1998.............                 39.13
SB A320-26-1031, dated March 31, 1994.............                 39.13
SB A320-26-1032, dated March 31, 1994.............                 39.13
SB A320-26-1037, Rev. 02, dated July 8, 1997......                 39.13
SB A320-27-1041, Rev. 2, dated April 20, 1994.....                 40.13
SB A320-27-1043 dated Oct. 7, 1991................                 39.13
SB A320-27-1066, Revision 4, dated July 15, 1997..                 39.13
SB A320-27-1073, dated January 20, 1995...........                 39.13
SB A320-27-1081, Rev. 2, dated September 6, 1995..                 39.13
SB A320-27-1082, dated April 25, 1995.............                 39.13
SB A320-27-1082, Rev. 1, dated September 6, 1995..                 39.13
SB A320-27-1088, Rev. 03, dated December 11, 1996.                 39.13
SB A320-27-1096, dated March 14, 1996.............                 39.13
SB A320-27-1096, Revision 01, dated January 14,                    39.13
  1998.
SB A320-27-1097, Revision 01, dated July 15, 1997.                 39.13
SB A320-27-1097, Revision 0202, dated June 25,                     39.13
  1999.
SB A320-27-1103, dated June 14, 1996..............                 39.13
SB A320-27-1103, Revision 01, dated January 26,                    39.13
  1998.
SB A320-27-1108, Revision 01, dated July 15, 1997.                 39.13
SB A320-27-1108, Revision 02, dated April 17, 1998                 39.13
SB A320-27-1108, Revision 0303, dated June 25,                     39.13
  1999.
SB A320-28-1028, Rev. 1 dated Nov. 23, 1990.......                 39.13
SB A320-28-1040, Rev. 1, dated April 3, 1992......                 39.13
SB A320-28-1040, Rev. 3, dated January 15, 1993...                 39.13
SB A320-28-1044, Rev. 11, dated August 26, 1997...                 39.13
SB A320-29-1048, Rev. 1, dated December 4, 1992...                 39.13
SB A320-29-1048, Rev. 2, dated September 1, 1994..                 39.13
SB A320-29-1058, dated July 16, 1993..............                 39.13

[[Page 906]]

SB A320-29-1058, Revision 1, dated November 28,                    39.13
  1994.
SB A320-29-1061, dated April 13, 1993.............                 39.13
SB A320-29-1071, dated September 21, 1995.........                 39.13
SB A320-29-1086, dated October 19, 1998...........                 39.13
SB A320-29-1086, Revision 1, dated March 9, 1999..                 39.13
SB A320-30-1036, dated May 9, 1997................                 39.13
SB A320-30-1036, Revision 02, dated February 4,                    39.13
  1998.
SB A320-31-1080, Rev. 01, dated July 12, 1996.....                 39.13
SB A320-31-1080, Rev. 02, dated October 24, 1996..                 39.13
SB A320-31-1088, Rev. 2, dated September 16, 1996.                 39.13
SB A320-32-1024, dated January 29, 1990...........                 39.13
SB A320-32-1058; Rev. 2, dated June 16, 1993......                 39.13
SB A320-32-1094, Rev. 2, dated November 25, 1992..                 39.13
SB A320-32-1094, Rev. 3, dated June 24, 1993......                 39.13
SB A320-32-1100, Rev. 1, dated November 9, 1993...                 39.13
SB A320-32-1119, Rev. 1, dated June 13, 1994......                 39.13
SB A320-32-1139, Rev. 1, dated December 30, 1994..                 39.13
SB A320-32-1144, dated December 8, 1994...........                 39.13
SB A320-32-1197, Revision 1, dated February 11,                    39.13
  1999.
SB A320-34-1024, Rev. 3 dated December 13, 1991...                 39.13
SB A320-35-1002, Rev. 1, dated December 3, 1990...                 39.13
SB A320-38-1049, dated January 22, 1997...........                 39.13
SB A320-52-1047, dated April 25, 1994.............                 39.13
SB A320-52-1057, dated July 26, 1994..............                 39.13
SB A320-52-1064, Rev. 1, dated September 8, 1995..                 39.13
SB A320-52-1066, dated March 6, 1995..............                 39.13
SB A320-53-1004, Rev. 1, dated July 30, 1992......                 39.13
SB A320-53-1005, Rev. 1, dated June 19, 1992......                 39.13
SB A320-53-1011, dated December 9, 1994...........                 39.13
SB A320-53-1014, dated June 25, 1992..............                 39.13
SB A320-53-1014, Rev. 1, dated May 26, 1993.......                 39.13
SB A320-53-1015, Rev. 02, dated July 17, 1997.....                 39.13
SB A320-53-1017, Rev. 1, dated September 7, 1993..                 39.13
SB A320-53-1021, Rev. 1, dated April 13, 1992.....                 39.13
SB A320-53-1022, Rev. 1, dated June 18, 1992......                 39.13
SB A320-53-1023, dated September 23, 1992, which                   39.13
  includes Appendix 1, dated September 23, 1992.
SB A320-53-1023, Rev. 1, dated March 23, 1993,                     39.13
  including Appendix 1, dated September 23, 1992.
SB A320-53-1023, Rev. 7, dated November 3, 1995...                 39.13
SB A320-53-1023, incl Appendix 1 dated September                   39.13
  23, 1993.
SB A320-53-1024, dated September 23, 1992.........                 39.13
SB A320-53-1024, dated September 23, 1992.........                 39.13
SB A320-53-1024, Rev. 1, dated March 31, 1994.....                 39.13
SB A320-53-1025, Rev. 1, dated November 24, 1994..                 39.13
SB A320-53-1026, dated August 5, 1994.............                 39.13
SB A320-53-1027, Rev. 2, dated June 8, 1995.......                 39.13
SB A320-53-1027, Rev. 3, dated December 10, 1993..                 39.13
SB A320-53-1028, dated March 1, 1994..............                 39.13
SB A320-53-1032, Revision 1, dated January 15,                     39.13
  1998.
SB A320-53-1034, dated March 30, 1992.............                 39.13
SB A320-53-1044, dated February 8, 1994...........                 39.13
SB A320-53-1057, Revision 2, dated July 5, 1996...                 39.13

[[Page 907]]

SB A320-53-1065, dated May 4, 1992................                 39.13
SB A320-53-1069, dated August 17, 1991............                 39.13
SB A320-53-1070, Revision 6, dated July 18, 1995..                 39.13
SB A320-53-1071, as revised by Change Order OA,                    39.13
  dated July 5, 1996 dated November 7, 1995.
SB A320-53-1082, Rev. 1, dated November 9, 1994...                 39.13
SB A320-53-1083, Rev. 2, dated August 28, 1997....                 39.13
SB A320-53-1084, Rev. 1, dated November 28, 1995..                 39.13
SB A320-53-1085, dated March 31, 1995.............                 39.13
SB A320-53-1088, Rev. 3, dated March 27, 1994.....                 39.13
SB A320-53-1089, dated November 22, 1995..........                 39.13
SB A320-53-1090, dated November 22, 1995..........                 39.13
SB A320-53-1110, dated August 28, 1995............                 39.13
SB A320-53-1110, Rev. 1, dated November 27, 1995..                 39.13
SB A320-53-1110, Rev. 1, dated November 27, 1995..                 39.13
SB A320-53-1130, Revision 1, dated July 8, 1998...                 39.13
SB A320-53-1137, dated June 24, 1997..............                 39.13
SB A320-57-1002, Rev. 1, dated May 12, 1993.......                 39.13
SB A320-57-1004, Rev. 1, dated September 24, 1992.                 39.13
SB A320-57-1013, Rev. 1, dated September 29, 1992.                 39.13
SB A320-57-1016, Rev. 1, dated December 6, 1995...                 39.13
SB A320-57-1020, dated September 5, 1991..........                 39.13
SB A320-57-1021, dated September 5, 1991..........                 39.13
SB A320-57-1030, dated August 12, 1991............                 39.13
SB A320-57-1034, Rev. 2, dated September 8, 1995..                 39.13
SB A320-57-1035, Rev. 4, dated February 22, 1994..                 39.13
SB A320-57-1043, Revision 02, dated May 14, 1997..                 39.13
SB A320-57-1051, Rev. 01, dated March 21, 1996....                 39.13
SB A320-57-1056, Rev. 1, dated July 15, 1997,                      39.13
  including Appendix 1.
SB A320-57-1082, Revision 01, dated December 10,                   39.13
  1997.
SB A320-57-1090, Rev. 01, dated June 10, 1997.....                 39.13
SB A320-57-1101, dated July 24, 1997..............                 39.13
SB A320-71-1011, dated November 17, 1993..........                 39.13
SB A320-71-1011, Rev. 1, dated June 27, 1994......                 40.13
SB A320-71-1020, dated May 25, 1998...............                 39.13
SB A320-71-1021, Revision 1, dated June 10, 1998..                 39.13
SB A320-78-1009, dated October 14, 1993...........                 39.13
SB A330-21-3028, Rev. 2, dated May 5, 1995........                 39.13
SB A330-25-3086 and Appendix 1, Revision 1, dated                  39.13
  June 11, 1999.
SB A330-26-3002, dated March 29, 1994.............                 39.13
SB A330-27-3034, dated June 21, 1995..............                 39.13
SB A330-27-3051, dated February 13, 1997..........                 39.13
SB A330-27-3055, Revision 1, dated July 1, 1998...                 39.13
SB A330-28-3045, dated August 9, 1996.............                 39.13
SB A330-28-3046, Rev. 01, dated November 12, 1996.                 39.13
SB A330-29-3018, dated January 17, 1996...........                 39.13
SB A330-29-3041, dated February 25, 1997..........                 39.13
SB A330-32-3042, Rev. 1, dated September 19, 1995.                 39.13
SB A330-32-3058, Revision 1, dated February 25,                    39.13
  1997.
SB A330-32-3061, Rev. 1, dated May 6, 1997........                 39.13
SB A330-32-3062, Rev. 2, dated May 27, 1997.......                 39.13
SB A330-32-3066, dated November 18, 1996..........                 39.13

[[Page 908]]

SB A330-53-3012 dated June 26, 1995...............                 39.13
SB A330-53-3015, dated November 24, 1995..........                 39.13
SB A330-53-3019, dated November 30, 1995..........                 39.13
SB A330-53-3019, dated November 30, 1995..........                 39.13
SB A330-53-3020, dated November 30, 1995..........                 39.13
SB A330-53-3020, dated November 30, 1995..........                 39.13
SB A330-53-3029, dated June 26, 1995..............                 39.13
SB A330-53-3036, Revision 01, dated December 22,                   39.13
  1997.
SB A330-53-3037, Revision 01, dated January 30,                    39.13
  1998.
SB A330-57-3029, dated April 26, 1995, for Model                   39.13
  A330 Series Airplanes.
SB A340- 32-4050, Rev. 1, dated May 17, 1995......                 39.13
SB A340-21-4046, Rev. 2, dated May 5, 1995........                 39.13
SB A340-25-4115 and Appendix 1, Revision 1, dated                  39.13
  June 11, 1999.
SB A340-26-4007, Rev. 1, dated May 16, 1994.......                 39.13
SB A340-26-4007, Rev. 2, dated November 22, 1994..                 39.13
SB A340-27-4013, dated October 27, 1993...........                 39.13
SB A340-27-4041, dated June 21, 1995..............                 39.13
SB A340-27-4058, dated February 13, 1997..........                 39.13
SB A340-27-4063, Revision 1, dated July 1, 1998...                 39.13
SB A340-28-4008, dated July 9, 1993...............                 39.13
SB A340-28-4012, dated November 8, 1993...........                 39.13
SB A340-28-4029, Rev. 1, dated September 14, 1994.                 39.13
SB A340-29-4018, dated January 17, 1996...........                 39.13
SB A340-29-4041, dated February 26, 1997..........                 39.13
SB A340-32-4050, dated April 10, 1995.............                 39.13
SB A340-32-4058, dated April 10, 1995.............                 39.13
SB A340-32-4058, Rev. 1, dated May 17, 1995.......                 39.13
SB A340-32-4062, dated May 17, 1995...............                 39.13
SB A340-32-4066, Rev. 1, dated September 19, 1995.                 39.13
SB A340-32-4082, Revision 01, dated February 25,                   39.13
  1997.
SB A340-32-4086, Rev. 2, dated June 13, 1997......                 39.13
SB A340-32-4091, Revision 1, dated June 3, 1998...                 39.13
SB A340-32-4092, dated November 18, 1996..........                 39.13
SB A340-32-4111, Revision 1, dated May 28, 1998...                 39.13
SB A340-38-4013, dated January 5, 1994............                 39.13
SB A340-53-4009, dated August 2, 1994.............                 39.13
SB A340-53-4020, dated June 26, 1995..............                 39.13
SB A340-53-4023, Rev. 2, dated May 15, 1996.......                 39.13
SB A340-53-4028, date November 30, 1995...........                 39.13
SB A340-53-4028, date November 30, 1995...........                 39.13
SB A340-53-4029, dated November 30, 1995..........                 39.13
SB A340-53-4030, Rev. 1, dated February 22, 1996..                 39.13
SB A340-53-4031, Rev. 1, dated June 10, 1997......                 39.13
SB A340-53-4038, Revision 1, and List of Effective                 39.13
  Pages, dated February 6, 1996.
SB A340-53-4043, Rev. 02, dated July 18, 1997.....                 39.13
SB A340-53-4050, dated February 19, 1997..........                 39.13
SB A340-53-4051, Revision 01, dated January 30,                    39.13
  1998.
SB A340-53-4070, Rev. 1, dated July 18, 1997......                 39.13
SB A340-57-4033, dated April 26, 1995, for Model                   39.13
  A340 series airplanes.
SB A340-73-4012, Rev. 1, dated August 25, 1997....                 39.13

[[Page 909]]

SB A340-78-4012, Revision 01, dated December 19,                   39.13
  1996.
SB Change Notice 1.A., dated October 12, 1992 for                  39.13
  Airbus SB A320-53-1004, Rev. 1, dated July 30, 
  1992.
SB Change Notice OA, dated January 20, 1993, for                   39.13
  Airbus SB A320-53-1023, dated September 23, 
  1992.
SB Change Notice OA, dated January 20, 1993, for                   39.13
  Airbus SB A320-53-1023, dated September 23, 
  1992.
SB No. A300-57-6027, Rev. 2, dated September 13,                   39.13
  1994.
SB No. A300-57-6027, including Appendix 1, dated                   39.13
  October 8, 1991.
SB No. A310-53-2078, Revision 1, dated March 24,                   39.13
  1997.
SB No. A310-53-2083, Revision 2, dated May 5, 1998                 39.13
Service Bulletin A300-24-6070 dated December 15,                   39.13
  1999.
Service Bulletin A310-24-2080 dated December 15,                   39.13
  1999.
Service Bulletin A300-22-6038 dated August 24,                     39.13
  1999.
Service Bulletin A300-22-6040 Revision 2 dated                     39.13
  March 6, 2000.
Service Bulletin A300-22A0115 Revision 2 dated                     39.13
  March 7, 2000.
Service Bulletin A300-22A6042 Revision 1 dated                     39.13
  March 7, 2000.
Service Bulletin A300-24-0079 Revision 2 dated                     39.13
  January 3, 2001.
Service Bulletin A300-24-0089 Revision 1 dated                     39.13
  February 10, 2000.
Service Bulletin A300-24-6034 Revision 3 dated                     39.13
  April 6, 2001.
Service Bulletin A300-24-6068 Revision 1 dated                     39.13
  February 10, 2000.
Service Bulletin A300-25-0466 Revision 1 dated                     39.13
  December 1, 1999.
Service Bulletin A300-25-6146 Revision 1 dated                     39.13
  December 1, 1999.
Service Bulletin A300-26-6038 Revision 3 dated                     39.13
  March 30, 2000.
Service Bulletin A300-27-0184 Revision 1 dated                     39.13
  December 4, 1998.
Service Bulletin A300-27-182 Revision 2 dated June                 39.13
  30, 1999.
Service Bulletin A300-27-6023 Revision 2 dated                     39.13
  June 30, 1999.
Service Bulletin A300-28-0058 Revision 2 dated                     39.13
  September 28, 1999.
Service Bulletin A300-28-0072 Revision 01 dated                    39.13
  October 1, 1998.
Service Bulletin A300-28-0077 dated July 19, 1999.                 39.13
Service Bulletin A300-28-0078 dated September 27,                  39.13
  2000.
Service Bulletin A300-28-0080 dated September 28,                  39.13
  2000.
Service Bulletin A300-28-2141, including Appendix                  39.13
  1 dated September 27, 2000.
Service Bulletin A300-28-6020 Revision 1 dated                     39.13
  September 28, 1999.
Service Bulletin A300-28-6057 Revision 01 dated                    39.13
  October 1, 1998.
Service Bulletin A300-28-6058 Revision 01 dated                    39.13
  October 1, 1998.
Service Bulletin A300-28-6062 dated July 19, 1999.                 39.13
Service Bulletin A300-28-6063 dated September 27,                  39.13
  2000.
Service Bulletin A300-29-0101 Revision 2 dated                     39.13
  June 28, 2000.
Service Bulletin A300-29-0106 Revision 3 dated                     39.13
  June 28, 2000.
Service Bulletin A300-29-6030 Revision 2 dated                     39.13
  June 28, 2000.
Service Bulletin A300-29-6039 Revision 3 dated                     39.13
  June 28, 2000.
Service Bulletin A300-29-6048 Revision 1 dated                     39.13
  July 12, 2000.
Service Bulletin A300-32-6069 Revision 1 dated                     39.13
  December 29, 1999.
Service Bulletin A300-32-6077 Revision 1 dated                     39.13
  September 25, 1999.
Service Bulletin A300-32A0437 dated April 5, 2000.                 39.13
Service Bulletin A300-32A6080 dated April 5, 2000.                 39.13
Service Bulletin A300-49-0049 Revision 1 dated                     39.13
  November 28, 1991.
Service Bulletin A300-49-6009 Revision 1 dated                     39.13
  November 28, 1991.
Service Bulletin A300-53-0149 Revision 14 dated                    39.13
  September 8, 1998.
Service Bulletin A300-53-0162 Revision 6 dated                     39.13
  March 20, 1996.
Service Bulletin A300-53-0209 Revision 10 dated                    39.13
July 5, 1999.
[[Page 910]]

Service Bulletin A300-53-0278 Revision 2 dated                     39.13
  November 10, 1995.
Service Bulletin A300-53-0298 Revision 3 dated                     39.13
  November 26, 1998.
Service Bulletin A300-53-0313 Revision 1 dated                     39.13
  April 27, 1999.
Service Bulletin A300-53-0328 Revision 1 dated                     39.13
  March 15, 2000.
Service Bulletin A300-53-0332 dated November 24,                   39.13
  1997.
Service Bulletin A300-53-0333 dated November 24,                   39.13
  1997.
Service Bulletin A300-53-0339 Revision 1 dated                     39.13
  July 28, 1998.
Service Bulletin A300-53-148 Revision 11 dated                     39.13
  September 8, 1998.
Service Bulletin A300-53-178 Revision 10 dated                     39.13
  September 8, 1998.
Service Bulletin A300-53-6063 dated December 12,                   39.13
  1996.
Service Bulletin A300-53-6110 Revision 1 dated                     39.13
  December 10, 1998.
Service Bulletin A300-53-6114 dated October 2,                     39.13
  1997.
Service Bulletin A300-53-6114 Revision 1 dated                     39.13
  July 28, 1998.
Service Bulletin A300-53-6116 Revision 1 dated                     39.13
  July 2, 1999.
Service Bulletin A300-53-6120 dated May 5, 2000...                 39.13
Service Bulletin A300-53-6122 dated February 9,                    39.13
  2000.
Service Bulletin A300-57-6037 Revision 1 dated                     39.13
  August 31, 1995.
Service Bulletin A300-57-6062 Revision 2 dated                     39.13
  January 29, 1997.
Service Bulletin A300-57-6075 dated November 24,                   39.13
  1997.
Service Bulletin A300-57-6076 dated November 24,                   39.13
  1997.
Service Bulletin A300-57A0234 Revision 2 dated                     39.13
  June 24, 1999.
Service Bulletin A300-57A0234 Revision 3 dated                     39.13
  September 2, 1999.
Service Bulletin A300-57A6087 Revision 2 dated                     39.13
  June 24, 1999.
Service Bulletin A310-22-2048 Revision 1 dated                     39.13
  March 6, 2000.
Service Bulletin A310-22-2049 Revision 2 dated                     39.13
  March 6, 2000.
Service Bulletin A310-22-2051 Revision 2 dated                     39.13
  March 8, 2000.
Service Bulletin A310-22A2053 Revision 1 dated                     39.13
  March 7, 2000.
Service Bulletin A310-24-2045 Revision 5 dated                     39.13
  April 6, 2001.
Service Bulletin A310-24-2077 Revision 1 dated                     39.13
  February 10, 2000.
Service Bulletin A310-25-2133 dated June 21, 1999.                 39.13
Service Bulletin A310-26-2024 Revision 6 dated                     39.13
  March 31, 2000.
Service Bulletin A310-27-2065 Revision 2 dated                     39.13
  June 30, 1999.
Service Bulletin A310-27-2075 Revision 2 dated                     39.13
  February 8, 2000.
Service Bulletin A310-28-2128 Revision 01 dated                    39.13
  October 1, 1998.
Service Bulletin A310-28-2130 Revision 01 dated                    39.13
  October 1, 1998.
Service Bulletin A310-28-2138 dated June 28, 2000.                 39.13
Service Bulletin A310-28-2146 dated March 27, 2001                 39.13
Service Bulletin A310-29-2039 Revision 2 dated                     39.13
  June 28, 2000.
Service Bulletin A310-29-2078 Revision 3 dated                     39.13
  June 28, 2000.
Service Bulletin A310-29-2086 Revision 1 dated                     39.13
  July 12, 2000.
Service Bulletin A310-49-2012 Revision 1 dated                     39.13
  November 28, 1991.
Service Bulletin A310-53-2106 dated October 2,                     39.13
  1997.
Service Bulletin A310-53-2106 Revision 1 dated                     39.13
  July 28, 1998.
Service Bulletin A310-53-2107 Revision 1 dated                     39.13
  July 2, 1999.
Service Bulletin A310-53-2109 dated May 5, 2000...                 39.13
Service Bulletin A310-53A2111, including Appendix                  39.13
  1 Revision 1 dated June 21, 2000.
Service Bulletin A310-54-2016 Revision 2 dated                     39.13
  June 11, 1999.
Service Bulletin A310-54-2017 Revision 3 dated                     39.13
  June 11, 1999.
Service Bulletin A310-54-2022 Revision 1 dated                     39.13
  March 16, 1999.
Service Bulletin A320-22-1063 Revision 1 dated                     39.13
  October 8, 1999.
Service Bulletin A320-22-1064 dated September 15,                  39.13
  1998.
Service Bulletin A320-22-1065 dated October 28,                    39.13
1998.
[[Page 911]]

Service Bulletin A320-22-1067 Revision 1 dated                     39.13
  July 7, 1999.
Service Bulletin A320-22-1068 dated December 9,                    39.13
  1998.
Service Bulletin A320-22-1069 dated February 1,                    39.13
  1999.
Service Bulletin A320-24-1092 Revision 3 dated                     39.13
  September 16, 1998.
Service Bulletin A320-25-1215 dated April 29, 1999                 39.13
Service Bulletin A320-25-1220 dated November 19,                   39.13
  1999.
Service Bulletin A320-25-1225 dated November 19,                   39.13
  1999.
Service Bulletin A320-27-1066 Revision 5 dated                     39.13
  June 25, 1999.
Service Bulletin A320-27-1108 Revision 4 dated                     39.13
  November 22, 1999.
Service Bulletin A320-27-1114 Revision 4 dated                     39.13
  December 7, 1999.
Service Bulletin A320-27-1117 Revision 2 dated                     39.13
  January 18, 2000.
Service Bulletin A320-27-1126, including App. 01                   39.13
  and 02 dated April 26, 1999.
Service Bulletin A320-27-1126, including App. 01                   39.13
  and 02 Revision 01 dated October 6, 1999.
Service Bulletin A320-27-1127, including App. 01                   39.13
  and 02 dated April 26, 1999.
Service Bulletin A320-27-1127, including App. 01                   39.13
  and 02 Revision 01 dated October 6, 1999.
Service Bulletin A320-27-1130 Revision 2 dated                     39.13
  September 6, 2001.
Service Bulletin A320-28-1077 dated July 9, 1999..                 39.13
Service Bulletin A320-29-1088 dated February 23,                   39.13
  1999.
Service Bulletin A320-32-1187 dated June 17, 1998.                 39.13
Service Bulletin A320-32-1187 Revision 1 dated                     39.13
  February 17, 1999.
Service Bulletin A320-32-1189 dated December 23,                   39.13
  1998.
Service Bulletin A320-32-1199 dated January 15,                    39.13
  1999.
Service Bulletin A320-32-1203 dated June 4, 1999..                 39.13
Service Bulletin A320-34-1119 Revision 2 dated                     39.13
  April 30, 1997.
Service Bulletin A320-34-1191 dated July 12, 1999.                 39.13
Service Bulletin A320-34-1196 dated July 15, 1999.                 39.13
Service Bulletin A320-35-1003 Revision 1 dated                     39.13
  January 28, 1993.
Service Bulletin A320-35-1016 dated July 31, 1996.                 39.13
Service Bulletin A320-35-1022 dated June 27, 2001.                 39.13
Service Bulletin A320-53-1141 Revision 1 dated                     39.13
  October 4, 1999.
Service Bulletin A320-55-1026 Revision 01 dated                    39.13
  May 20, 1999.
Service Bulletin A320-55A1027 dated May 12, 2000..                 39.13
Service Bulletin A320-56-1007, including Appendix                  39.13
  1 Revision 1 dated February 9, 2001.
Service Bulletin A320-57-1004 Revision 2 dated                     39.13
  June 14, 1993.
Service Bulletin A320-57-1060 Revision 2 dated                     39.13
  December 16, 1994.
Service Bulletin A320-57-1088 Revision 2 dated                     39.13
  July 29, 1999.
Service Bulletin A320-73-1067 dated August 11,                     39.13
  1999.
Service Bulletin A320-92-1007 Revision 2 dated                     39.13
  August 4, 2000.
Service Bulletin A330-25-3105 dated October 22,                    39.13
  1999.
Service Bulletin A330-25-3110 dated December 23,                   39.13
  1999.
Service Bulletin A330-27-3054 Revision 1 dated                     39.13
  November 8, 1999.
Service Bulletin A330-27-3055 Revision 2 dated                     39.13
  March 24, 2000.
Service Bulletin A330-27-3056 Revision 1 dated May                 39.13
  5, 1998.
Service Bulletin A330-27-3062 Revision 1 dated                     39.13
  July 21, 1999.
Service Bulletin A330-27-3068 dated July 29, 1999.                 39.13
Service Bulletin A330-27-3071 dated November 19,                   39.13
  1999.
Service Bulletin A330-27-3073 Revision 1 dated                     39.13
  January 18, 2000.
Service Bulletin A330-27-3075 dated September 24,                  39.13
1999.
[[Page 912]]

Service Bulletin A330-28-3060 Revision 2,                          39.13
  including Appendix 1 dated May 27, 1999.
Service Bulletin A330-28-3063 dated October 6,                     39.13
  1999.
Service Bulletin A330-28A3069 dated July 27, 2000.                 39.13
Service Bulletin A330-29A3073, including Appendix                  39.13
  1 Revision 1 dated April 10, 2000.
Service Bulletin A330-31-3033 dated September 13,                  39.13
  1999.
Service Bulletin A330-32-3089 dated November 2,                    39.13
  1998.
Service Bulletin A330-32-3091 Revision 1 dated                     39.13
  December 2, 1998.
Service Bulletin A330-32-3092 Revision 2 dated                     39.13
  June 10, 1999.
Service Bulletin A330-32-3105 Revision 01 dated                    39.13
  December 14, 1999.
Service Bulletin A330-32-3119 dated July 13, 2000.                 39.13
Service Bulletin A330-32A3088 Revision 2 dated                     39.13
  June 10, 1999.
Service Bulletin A330-34-3015 dated April 3, 1995.                 39.13
Service Bulletin A330-34-3082 Revision 1 dated                     39.13
  September 28, 1999.
Service Bulletin A330-34-3086 Revision 1 dated                     39.13
  September 28, 1999.
Service Bulletin A330-52-3043 dated March 2, 2001.                 39.13
Service Bulletin A330-52-3044 dated March 2, 2001.                 39.13
Service Bulletin A330-52-3058 Revision 1 dated                     39.13
  February 8, 2001.
Service Bulletin A330-53-3054 Revision 1 dated May                 39.13
  17, 1999.
Service Bulletin A330-53-3074 Revision 1 dated May                 39.13
  19, 1998.
Service Bulletin A330-53-3090 Revision 2 dated                     39.13
  January 9, 2001.
Service Bulletin A330-53-3094 Revision 2 dated May                 39.13
  28, 1998.
Service Bulletin A330-54-3005 Revision 1 dated                     39.13
  October 19, 1999.
Service Bulletin A330-55A3025 Revision 1 dated                     39.13
  September 15, 2000.
Service Bulletin A330-55A3026 dated June 23, 2000.                 39.13
Service Bulletin A330-57-3017 Revision 2 dated                     39.13
  October 11, 1999.
Service Bulletin A330-57-3019 Revision 2 dated                     39.13
  September 14, 2000.
Service Bulletin A330-57-3021, including                           39.13
  Appendices 01 and 02 Revision 3 dated November 
  5, 1999.
Service Bulletin A330-57-3053 Revision 1 dated                     39.13
  June 15, 1999.
Service Bulletin A330-57-3054 Revision 2 dated                     39.13
  November 22, 1999.
Service Bulletin A330-57-3060 Revision 1 dated                     39.13
  December 6, 1999.
Service Bulletin A330-78-3006 Revision 5 dated                     39.13
  March 6, 2001.
Service Bulletin A340-25-4131 dated October 22,                    39.13
  1999.
Service Bulletin A340-25-4136 dated December 23,                   39.13
  1999.
Service Bulletin A340-27-4061 Revision 2 dated May                 39.13
  5, 1998.
Service Bulletin A340-27-4062 Revision 1 dated                     39.13
  November 8, 1999.
Service Bulletin A340-27-4072 Revision 1 dated                     39.13
  July 21, 1999.
Service Bulletin A340-27-4079 Revision 1 dated                     39.13
  January 18, 2000.
Service Bulletin A340-27-4081 dated September 24,                  39.13
  1999.
Service Bulletin A340-28-4077 Revision 2,                          39.13
  including Appendix 1 dated May 27, 1999.
Service Bulletin A340-28-4079 dated October 6,                     39.13
  1999.
Service Bulletin A340-28A4087 dated July 27, 2000.                 39.13
Service Bulletin A340-29A4058, including Appendix                  39.13
  1 Revision 1 dated April 10, 2000.
Service Bulletin A340-31-4047 dated September 13,                  39.13
  1999.
Service Bulletin A340-32-4126 dated November 2,                    39.13
  1998.
Service Bulletin A340-32-4128 Revision 1 dated                     39.13
  December 2, 1998.
Service Bulletin A340-32-4131 Revision 1 dated                     39.13
  June 10, 1999.
Service Bulletin A340-32-4148 Revision 01 dated                    39.13
  December 14, 1999.
Service Bulletin A340-32-4157 dated July 13, 2000.                 39.13

[[Page 913]]

Service Bulletin A340-32A4124 Revision 1 dated                     39.13
  November 20, 1998.
Service Bulletin A340-34-4022 dated April 3, 1995.                 39.13
Service Bulletin A340-34-4078 Revision 1 dated                     39.13
  November 26, 1999.
Service Bulletin A340-34-4089 Revision 1 dated                     39.13
  September 28, 1999.
Service Bulletin A340-34-4092 Revision 1 dated                     39.13
  September 28, 1999.
Service Bulletin A340-52-4053 dated March 2, 2001.                 39.13
Service Bulletin A340-52-4054 dated March 2, 2001.                 39.13
Service Bulletin A340-53-4072 dated June 29, 1998.                 39.13
Service Bulletin A340-53-4085 Revision 1 dated May                 39.13
  19, 1998.
Service Bulletin A340-53-4105 Revision 2 dated May                 39.13
  25, 1998.
Service Bulletin A340-54-4003 Revision 1 dated                     39.13
  April 26, 2000.
Service Bulletin A340-57-4022 dated October 8,                     39.13
  1999.
Service Bulletin A340-57-4025, including                           39.13
  Appendices 01 and 02 Revision 2 dated November 
  5, 1999.
Service Bulletin A340-57-4060 Revision 1 dated                     39.13
  November 8, 1999.
Service Bulletin A340-57-4061 Revision 2 dated                     39.13
  November 23, 1999.
Service Bulletin A340-57-4068 Revision 1 dated                     39.13
  December 6, 1999.
Service Bulletin A340-78-4017 dated October 14,                    39.13
  1999.
Temporary Revision 4.03.00/09 dated July 23, 1999.                 39.13
Temporary Revision 4.03.00/10 dated July 23, 1999.                 39.13
Temporary Revision 4.03.00/12 dated July 23, 1999.                 39.13
Temporary Revision 4.03.00/20 dated July 23, 1999.                 39.13
Temporary Revision 4.03.00/22 dated September 18,                  39.13
  2000.
All Operators Telex A320-52A1111 Revision 1 dated                  39.13
  July 23, 2001.
Technical Disposition 959.1492/01 Issue C dated                    39.13
  July 17, 2001.
SB 523-27-M523-1, dated April 25, 1986............                 39.13
SB No. 001, as referenced in Alexander Schleicher                  39.13
  Technical Note 1, dated October 31, 1996 dated 
  October 5, 1996,.
SB No. 2, dated November 13, 1997.................                 39.13
SB No. 13, dated December 19, 1990................                 39.13
SB 73522617402061740120-24-9 dated June 15, 1989..                 39.13


Aircraft Braking Systems Corp.

  1204 Massillon Road, Akron, Ohio 44306-4186
SB F-100-32-46, dated December 24, 1992...........                 39.13
SB F-100-32-48, dated March.......................                 39.13
SB LEAR60-32-03, dated March 5, 1998..............                 39.13
Service Letter DC9-10-SL-12, dated February 10,                    39.13
  1999.
Service Letter MD82-SL-3, dated February 10, 1994.                 39.13
Service Letter DC9-30-SL-16, dated February 10,                    39.13
  2000.
Service Letter DC9-40-SL-16, dated February 10,                    39.13
  2001.
Service Letter DC9-50-SL-8, dated February 10,                     39.13
  2002.
Service Letter MD81-SL-3, dated February 10, 1993.                 39.13
Service Letter MD83-SL-4, dated February 10, 1995.                 39.13
Service Letter MD87-SL-3, dated February 10, 1996.                 39.13
Service Letter MD88-SL-4, dated February 10, 1997.                 39.13
Service Letter MD90-SL-1, dated February 10, 1998.                 39.13


Airglas Engineering Co., Inc. (AECI)

  P.O. Box 190107, Anchorage, AK 99519-0107
Document AE97-13FM, Supplemental Airplane Flight                   39.13
  Manual and Airplane Flight Manual Supplement, 
  dated October 10, 1997.
Drawing No. LW3600-180, Revision F, dated                          39.13
  September 21, 1979.
Drawing No. LW3600-180A, Revision E, dated                         39.13
September 21, 1979.
[[Page 914]]

Drawing No. LW3600-180A-1 and -2, Revision B,                      39.13
  dated September 21, 1979.
Drawing No. LW3600-180A-11, dated September 21,                    39.13
  1979.
Drawing No. LW3600-180A-3, Revision A, dated April                 39.13
  30, 1979.
SB No. LW3600-3, dated September 21, 1979; amended                 39.13
  October 10, 1997.


Alexander Schleicher Segelflugzeubau GmbH and Co.,

  D-36161 Poppenhausen, Federal Republic of 
  Germany
ASH 25 M Technical Note No. 15 dated September 3,                  39.13
  1999.
ASH 26 E Technical Note No. 8 dated August 23,                     39.13
  1999.
ASK 21 Technical Note No. 20, dated October 16,                    39.13
  1987.
ASK 21 Technical Note No. 22, dated November 26,                   39.13
  1990.
ASK 21 Technical Note No. 23, dated January 29,                    39.13
  1991.
ASK 21 Technical Note. No. 14 dated 5/16/85.......                 39.13
ASK-21 Technical Note No. 10, dated October 10,                    39.13
  1983.
ASK-21 Technical Note No. 13a, dated June 4, 1984.                 39.13
ASK21 Technical Note No. 19 dated October 22, 1986                 39.13
ASW 19 Technical Note No. 2, dated September 6,                    39.13
  1976.
ASW-12 Technical Note No. 4, dated May 10, 1989...                 39.13
ASW-15 Technical Note No. 23, dated April 21, 1988                 39.13
ASW-17 Technical Note No. 12, dated May 8, 1989...                 39.13
Technical Note 5 dated July 16, 1999..............                 39.13
Technical Note No. 17 dated 3/27/84...............                 39.13
Technical Note No. 18, dated July 3, 1984.........                 39.13
Technical Note No. 20, dated October 16, 1987.....                 39.13
Technical Note No. 21 dated 11/24/81 and Technical                 39.13
  Note No. 22 dated 11/1/82.
Technical Note No. 21, dated May 12, 1980.........                 39.13
Technical Note No. 23 dated April 21, 1988........                 39.13
Technical Note No. 26, dated July 1, 1993.........                 39.13
Technical Note No. 5, dated July 23, 1998.........                 39.13
Technical Note No. 6, dated August 10, 1998.......                 39.13
Technical Note No. 7, dated September 11, 1978....                 39.13


AlliedSignal Aerospace Company, Garrett Engine Division (See Honeywell 
International, Inc.)

  ATTN: Data Distribution, M/S 64-3/2101-201 P.O. 
  Box 29003, Phoenix AZ 85038-9003, Telephone: 
  602-365-2548
Alert SB No. TPE331-A72-7129, dated June 10, 1994.                 39.13
Alert SB No. TPE331-A72-7522, dated February 17,                   39.13
  1995.
Alert Service Bulletin TFE731-A72-3641 dated                       39.13
  November 24, 1998.
Alert Service Bulletin TFE731-A72-3641 Revision 1                  39.13
  dated October 20, 1999.
ASB No. TFE731-A72-3432, dated April 11, 1991.....                 39.13
ASB No. TFE731-A72-3432, dated April 11, 1991.....                 39.13
ASB No. TFE731-A72-3432, dated April 11, 1991.....                 39.13
ASB No. TFE731-A72-3432, Rev. 1, dated April 30,                   39.13
  1991.
ASB No. TFE731-A72-3432, Rev. 2, dated June 3,                     39.13
  1991.
ASB No. TFE731-A72-3432, Rev. 3, dated October 17,                 39.13
  1991.
ASB No. TFE731-A72-3432, Rev. 4, dated August 6,                   39.13
  1993.
ASB No. TFE731-A72-3432, Rev. 5, dated May 31,                     39.13
  1995.
ASB No. TFE731-A72-3445, Rev. 2, dated May 31,                     39.13
  1995.
ASB No. TFE731-A72-3504, dated November 25, 1992..                 39.13
ASB No. TFE731-A72-3504, Rev. 1, dated July 2,                     39.13
1993.
[[Page 915]]

ASB No. TFE731-A72-3578, dated May 31, 1995.......                 39.13
ASB No. TPE331-A72-7128, dated June 10, 1994......                 39.13
GTCP36-49-7471 dated April 20, 1999...............                 39.13
GTCP36-49-7472 dated March 31, 1999...............                 39.13
GTCP36-49-7473 dated March 31, 1999...............                 39.13
SB 103570-21-4012, Rev. 1, dated May 30, 1995.....                 39.13
SB 103648-21-4022, Rev. 1, dated May 30, 1995.....                 39.13
SB KT 76A-7, dated July 1996......................                 39.13
SB No. ALF 502 72-0004, Rev. No. 12, dated                         39.13
  November 30, 1994.
SB No. ALF502L 72-281, dated November 30, 1994....                 39.13
SB No. ALF502L79-0171, Rev. 1, dated November 27,                  39.13
  1996.
SB No. LF507-1F79-5, Rev. 1, dated November 27,                    39.13
  1996.
SB No. LF507-1H79-5, Rev. 1, dated November 27,                    39.13
  1996.
SB No. LT101-73-20-0165, Rev. 1, dated January 3,                  39.13
  1995.
SB No. LTS101-73-10-0169, dated December 12, 1994.                 39.13
SB No. LTS101A-72-50-0134, dated August 15, 1995..                 39.13
SB No. LTS101A-73-20-0166, dated August 1, 1995...                 39.13
SB No. LTS101B-72-50-0128, dated August 15, 1995..                 39.13
SB No. TPE331-72- 7131, dated June 17, 1994.......                 39.13
SB No. TPE331-72-7130, dated June 17, 1994........                 39.13
SB No. TPE331-72-7523, dated February 17, 1995....                 39.13
SB TFE731-72-3573, dated August 15, 1995..........                 39.13
SB TSCP700-49-7266, dated June 16, 1996...........                 39.13
Service Bulletin 2601042-32-003 dated March 15,                    39.13
  1997.
Service Bulletin ALF/LF 72-1030 Revision 2 dated                   39.13
  December 14, 1998.
Service Bulletin ALF/LF 72-1040 Revision 1 dated                   39.13
  December 14, 1998.
Alert SB 102850-21-A4021,.........................                 39.13
Alert SB 102850-21-A4021, Rev. 2, dated October 6,                 39.13
  1994.
Alert SB 102850-21-A4021, Rev. 2, dated October 6,                 39.13
  1994.
Alert SB 130406-21-A4011, Rev. 2, dated September                  39.13
  28, 1994.
Alert SB 130406-21-A4011, Rev. 2, dated...........                 39.13
Alert SB 130406-21-A4011, Rev. 3, dated January 5,                 39.13
  1995.
Alert SB No. TPE331-A72-0906, dated October 15,                    39.13
  1993.
ASB GTCP85-49-A6706, dated December 7, 1992.......                 39.13
ASB GTCP85-49-A6706, Rev. 1, dated November 12,                    39.13
  1993.
ASB GTCP85-49-A6706, Rev. 2, dated November 28,                    39.13
  1994.
ASB GTCP85-49-A7189, dated March 29, 1996.........                 39.13
ASB GTCP85-49-A7189, Rev. 1, dated July 19, 1996..                 39.13
ASB GTCP85-49-A7189, Rev. 2, dated October 8, 1996                 39.13
ASB No. ATF3-A72-6184, Rev. 1, dated January 11,                   39.13
  1993.
ASB No. GTCP85-49-A6831, Rev. 1, dated January 15,                 39.13
  1995.
ASB No. TFE731-A72-3504, dated November 25, 1992..                 39.13
ASB No. TFE731-A72-3504, dated November 25, 1992..                 39.13
ASB No. TFE731-A72-3504, dated November 25, 1992..                 39.13
ASB No. TFE731-A72-3519, Rev. 3, dated May 6, 1994                 39.13
ASB No. TFE731-A72-3544, dated October 8, 1993....                 39.13
ASB No. TFE731-A72-3557, dated May 12, 1994.......                 39.13
ASB No. TPE/TSE331-A72-0384, Rev. 3, dated July 1,                 39.13
  1987.
ASB No. TPE/TSE331-A72-0384, Rev. 4, dated                         39.13
  September 4, 1987.
ASB No. TPE/TSE331-A72-0559, dated July 1, 1987...                 39.13
ASB No. TPE/TSE331-A72-0559, Rev. 1, dated                         39.13
September 4, 1987.
[[Page 916]]

ASB No. TPE/TSE331-A72-0559, Rev. 2, dated January                 39.13
  15, 1987.
SB 103576-21-4054, dated January 30, 1995.........                 39.13
SB 103576-21-4056, dated January 30, 1995.........                 39.13
SB 103648-21-4055, dated January 30, 1995.........                 39.13
SB 103742-21-4059, dated March 31, 1995; and......                 39.13
SB 103744-21-4060, dated March 31, 1995...........                 39.13
SB 979410-80-1611, dated November 27, 1995........                 39.13
SB 979410-80-1611, Rev. 1, dated March 13, 1997...                 39.13
SB No. ALF/LF 73-1002, dated December 22, 1995....                 39.13
SB No. ALF502R79-9, Rev. 1, dated November 27,                     39.13
  1996.
SB No. GTCP85-49-6919, Rev. 1, dated January 15,                   39.13
  1995.
SB No. TFE73-731-3107, dated July 21, 1992........                 39.13
SB No. TFE73-731-3107, Rev. 1, dated September 23,                 39.13
  1992.
SB No. TFE73-731-3118, dated September 3, 1992....                 39.13
SB No. TFE73-731-3118, Rev. 1, dated February 16,                  39.13
  1993.
SB No. TFE731-72-3502, dated November 25, 1992....                 39.13
SB No. TFE731-72-3502, Rev. 1, dated December 21,                  39.13
  1992.
SB No. TFE731-72-3502, Rev. 2, dated March 15,                     39.13
  1993.
SB No. TFE731-72-3503, Rev. 1, dated December 21,                  39.13
  1992.
SB No. TFE731-72-3530, Rev. 1, dated October 8,                    39.13
  1993, April 4, 1994.
SB No. TPE331-A72-0857, dated October 29, 1992....                 39.13
SB No. TPE331-A72-0858, dated October 29, 1992....                 39.13
SB No. TPE331-A72-0893, dated October 29, 1992....                 39.13
SB No. TPE331-A72-7092, dated October 29, 1992....                 39.13
SB No. TPE331-A72-7519, dated October 30, 1992....                 39.13
SB TSCP700-49-A7168, dated November 7, 1995.......                 39.13
SB VN 411B-21, dated November 1996................                 39.13
ASB No. TFE731-A72-3544, dated October 8, 1993....                 39.13
ASB TFE731-A72-3557, dated May 12, 1994...........                 39.13
SB M-4431.........................................                 39.13
SB M-4426 (RIA-35B-34-6); Rev. 3, dated May 1998..                 39.13
Alert SB TFE731-A72-3569, dated May 31, 1995......                 39.13
Alert SB TFE731-A72-3570, dated May 31, 1995......                 39.13
SB LTS101A-73-20-0166, Rev. 1, dated November 21,                  39.13
  1994.
SB LTS101A-73-20-0166, Rev. 2, dated August 1,                     39.13
  1995.
SB T5313B/T5317-0081, Rev. 1, dated May 28, 1996..                 39.13
Alert SB No. TPE331-A73-0221, Rev. 2, dated                        39.13
  October 10, 1994.
Alert SB No. TPE331-A73-0226, dated October 10,                    39.13
  1994.
Alert SB T53-L-13B-A0092, dated June 4, 1997......                 39.13
Alert SB T53-L-703-A0092, dated June 4, 1997......                 39.13
Alert SB T5313B/17A-A0092, Rev. 1, dated July 1,                   39.13
  1997.
ASB No. TFE731-A73-5119, dated March 4, 1999......                 39.13
ASB No. TPE331-A72-0861, Rev. 2, dated April 23,                   39.13
  1997.
ASB T5317A-1-A0106, dated October 23, 1998........                 39.13
ASB TFE731-A73-3132, dated April 9, 1997..........                 39.13
ASB TFE731-A73-5111, dated April 16, 1998.........                 39.13
Operator Information Wire No. TFE731-40G-99-01,                    39.13
  dated January 7, 1999.
SB No. ALF/LF 72-1020, and List of Effective                       39.13
  Pages, dated September 30, 1998.
SB No. TFE731-72-3509, dated January 4, 1994......                 39.13
SB No. TPE331-73-0217, dated July 9, 1993.........                 39.13

[[Page 917]]

SB No. TPE331-73-0224, Rev. 1, dated September 8,                  39.13
  1994.
SB No. TPE331-73-0228, dated Sept 16, 1994........                 39.13
SB T53-L-13B-0082, Rev. 1, dated October 25, 1996.                 39.13
SB T53-L-13B/D-0083, dated May 28, 1996...........                 39.13
SB T53-L-703-0084, Rev. 1, dated October 25, 1996.                 39.13
SB T5311/T53-L-11-0080, dated May 28, 1996........                 39.13
SB TFE731-73-3107, Revision 4, dated April 20,                     39.13
  1994.
SB No. 73-13, Rev. 1, dated January 3, 1995                        39.13
  (available from AlliedSignal).
No: GNS-XL-SW1, dated February 1997...............                 39.13


Allison Engine Company, Inc.

  P.O. box 420, Indianapolis, Indiana 46206
Alert Service Bulletin AE 3007A-A-79-027 dated                     39.13
  August 17, 2000.


American Champion Aircraft Corp

  32032 Washington Avenue, Rochester, Wisconsin 
  53167
Service Letter 406 Revision A dated May 6, 1998...                 39.13
Service Letter 406, dated March 28, 1994..........                 39.13
Service Letter 408, dated January 24, 1996........                 39.13
Service Letter 408, dated January 24, 1996........                 39.13
Service Letter 409, Rev. A, dated April 22, 1996..                 39.13
Service Letter 410, dated May 6, 1996.............                 39.13
Service Letter 411, dated May 6, 1996.............                 39.13
Service Letter 412, dated May 6, 1996.............                 39.13
Service Letter 413, dated May 6, 1996.............                 39.13
Service Letter 414, Rev. A, dated June 25, 1996...                 39.13
Service Letter 415, Rev. A, dated June 25, 1996...                 39.13
Service Letter 417, dated August 14, 1997.........                 39.13
Service Letter 417, Rev. A, dated October 2, 1997.                 39.13
Service Letter 417, Rev. B, dated February 10,                     39.13
  1998.


American Eurocopter Corporation

  2701 Forum Drive Grand Prairie Texas 75053-4005 
  Telephone: (972) 641-3460
Service Bulletin No. 05.00.53 Revision 1 dated                     39.13
  July 6, 1999.
Alert Service Bulletin EC135-63A-002 Revision 1                    39.13
  dated March 12, 2001.
Alert Service Bulletin 05.40 dated August 7, 2001.                 39.13
Alert Service Bulletin 05.99 dated August 7, 2001.                 39.13
Alert Service Bulletin No. 52A004 dated March 15,                  39.13
  2001.
Alert Service Bulletin Number 01.00.56 Revision 1                  39.13
  dated March 15, 2001.
Service Bulletin No. 05.00.33 for Model AS 350                     39.13
  Series Helicopters dated May 15, 2000.
Service Bulletin No. 05.00.33 for Model AS 355                     39.13
  Series Helicopters dated May 15, 2000.
Service Bulletin No. 71.00.13 Revision 1 dated                     39.13
  October 17, 2000.


American National Standards Institute

  25 West 43rd Street, New York, NY 10036 
  Telephone: (212) 642-4900
Publication No. 179 Precision Sound Level Meters   Part 36, Appendix A, 
  dated 1973.                                              Section A36.3
Publication No. 225 Octave, Half-Octave, Third-    Part 36, Appendix A, 
  Octave Band Filters Intended for the Analysis of         Section A36.3
Sounds and dated 1966.
[[Page 918]]

AMI Industries, Inc

  1275 Newport Road, Colorado Springs, CO 80916-
  2779
SB 25-1108-03, dated May 20, 1992.................                 39.13


Astra Jet Corp

  Technical Publications, 77 McCollough Dr., Suite 
  11, New Castle, DE 19720
Alert Service Bulletin 1125-30A-199 dated April                    39.13
  17, 2000.
Alert Service Bulletin 1125-55A-192 Revision 1                     39.13
  dated June 1, 1999.
ASB 1125-25A-175, dated February 22, 1998.........                 39.13
ASB 1125-73A-191, dated April 2, 1999.............                 39.13
ASB No. 1125-73A-189, dated March 4, 1999.........                 39.13
SB 1123-27-026, Rev. 1 dated Apr. 25, 1990........                 39.13
SB 1123-27-026, Rev. 2 dated Apr. 24, 1991........                 39.13
SB 1124-27-100, Rev. 1 dated Apr. 25, 1990........                 39.13
SB 1124-27-100, Rev. 2 dated Apr. 24, 1991........                 39.13
SB 1125-32-154, dated September 11, 1996..........                 39.13
SB 1125-35-071 dated February 12, 1992............                 39.13
SB 1125-55-017 dated Oct. 16, 1989................                 39.13
SB 1125-55-017, Rev. 1 dated Apr. 24, 1991........                 39.13
SB 1125-55-017, Rev. 1, dated April 24, 1991......                 39.13
SB SB 1125-29-139, dated August 2, 1995...........                 39.13
SB 1125-27-110, Rev. 1, dated February 16, 1994...                 39.13
SB SB1125-53-135, dated April 26, 1995............                 39.13
(1121 Commodore Jet) SB SB 1121-57-018, dated                      39.13
  November 25, 1992.
(1123- Westwind) SB SB 1123-57-035, dated November                 39.13
  25, 1992.
1124-Westwind ASB 1124-29A-140, dated August 15,                   39.13
  1998.
Astra Airplane Flight Manual Temporary Revision                    39.13
  No. 9 dated May 21, 2000.
Astra Alert Service Bulletin 1125-27A-157 dated                    39.13
  September 14, 1999.
SB 1123-27-043, dated June 12, 1995...............                 39.13
SB 1124-27-129, dated June 12, 1995...............                 39.13


Augusta Aerospace Corp

  3050 Red Lion Road, Philadelphia, PA 19114
109-6, Rev. B dated November 2, 1989..............                 39.13
109-79 including Report No. 109-02-79 dated July                   39.13
  27, 1990.
No. 412-65, dated December 2, 1996................                 39.13
No. 412-66, dated June 27, 1997...................                 39.13


Auxiliary Power International Corp. (APIC)

  4450 Ruffin Road, P. O. Box 85757, San Diego, CA 
  92193-9090
SB 4500001-49-52, dated October 1, 1996...........                 39.13


Aviat Aircraft Inc

  The Airport-Box No. 11240, 672 South Washington 
  Street, Afton, Wyoming, 83110; Telephone (307) 
  886-3151; FAX: (307) 886-9674
Installation Instructions in Aviat Aircraft Kit                    39.13
  No. S-2-513, dated May 9, 1997.
SB No. 23, dated March 29, 1996...................                 39.13
SB No. 24, dated February 8, 1996.................                 39.13
SB No. 24, dated March 20, 1996...................                 39.13
SB No. 24, dated November 22, 1996................                 39.13
SB No. 25, dated April 3, 1996, revised November                   39.13
  11, 1997.
SB No. 25, dated April 3, 1996, revised November                   39.13
  12, 1996.
SB No. 25, dated April 3, 1996....................                 39.13

[[Page 919]]

Aviatech, Inc

  2400 Guenette Street, St. Laurent, Quebec, 
  Canada H4R 2H2; Telephone: (514) 335-0166
SB No. 2, Rev. A dated March 1, 1990..............                 39.13


Aviointeriors S.p.A.

  Via Appia Km. 66.4-04013 Latina, Italy
Alert Service Bulletin ASB 312/912-01 Revision 1                   39.13
  dated Oct. 7, 1999.


Avions Mudry & Cie, B.P

  B.P. 214, 27300 Bernay, France
ATR 42 Airplane Flight Manual, chapter 2.06.01,                    39.13
  Temporary Revision, dated February 1999.
ATR 42 Airplane Flight Manual, chapter 4.05.05,                    39.13
  Temporary Revision, dated February 1999.
ATR 72 A Airplane Flight Manual, chapter 2.06.01,                  39.13
  Temporary Revision, dated February 1999.
ATR 72 A Airplane Flight Manual, chapter 4.05.05,                  39.13
  Temporary Revision, dated February 1999.
ATR 72 Airplane Flight Manual, chapter 2.06.01,                    39.13
  Temporary Revision, dated February 1999.
ATR 72 Airplane Flight Manual, chapter 4.05.05,                    39.13
  Temporary Revision, dated February 1999.
ATR Airplane Flight Manual, chapter 2.06.01,                       39.13
  Temporary Revision, dated February 1999.
ATR Airplane Flight Manual, chapter 4.05.05,                       39.13
  Temporary Revision, dated February 1999.
ATR42-400/500 Maintenance Planning Document                        39.13
  Revision 3 dated February 1999.
ATR72 Maintenance Planning Document Revision 4                     39.13
  dated July 1999.
Bulletin ATR42-32-0064, dated January 17, 1994....                 39.19
SB ATR42-21-0069, dated February 5, 1998..........                 39.13
SB ATR42-25-0108, dated January 24, 1997..........                 39.13
SB ATR42-25-0108, Rev. 1, dated February 28, 1997.                 39.13
SB ATR42-25-0108, Rev. 2, dated July 1, 1997......                 39.13
SB ATR42-27-0014, Rev. 2, dated December 20, 1993.                 39.13
SB ATR42-27-0070, dated December 20, 1993.........                 39.13
SB ATR42-32-0070, dated April 3, 1995.............                 39.13
SB ATR42-53-0112, dated January 20, 1998..........                 39.13
SB ATR42-53-0112, Revision 1, dated April 22, 1998                 39.13
SB ATR42-54-0019, dated March 9, 1998.............                 39.13
SB ATR42-57-0050, dated April 17, 1998............                 39.13
SB ATR42-71-0010, Rev. 4, dated October 23, 1996..                 39.13
SB ATR72-21-1048, dated February 5, 1998..........                 39.13
SB ATR72-25-1052, dated February 11, 1997.........                 39.13
SB ATR72-25-1052, Rev. 1, dated July 1, 1997......                 39.13
SB ATR72-32-1021, dated January 17, 1994..........                 39.13
SB ATR72-32-1028, dated September 1, 1994.........                 39.13
SB ATR72-32-1029, dated November 4, 1994..........                 39.13
SB ATR72-34-0090, Rev. 1, dated April 22, 1997....                 39.13
SB ATR72-54-1011, dated March 9, 1998.............                 39.13
SB ATR72-57-0038, Rev. 2, dated December 18, 1997.                 39.13
SB ATR72-57-0040, dated April 21, 1994............                 39.13
SB ATR72-57-1019, dated July 7, 1997..............                 39.13
SB ATR72-57-1019, Revision 1, dated May 12, 1998..                 39.13
SB ATR72-57-1020, dated March 9, 1998.............                 39.13

[[Page 920]]

SB ATR72-71-1006, Rev. 1, dated October 21, 1996..                 39.13
Service Bulletin ATR42-30-0063 Revision 2 dated                    39.13
  October 1, 1999.
Service Bulletin ATR42-30-0064 Revision 2 dated                    39.13
  October 1, 1999.
Service Bulletin ATR42-30-0065 Revision 2 dated                    39.13
  October 25, 1999.
Service Bulletin ATR42-52-0052 Revision 1 dated                    39.13
  March 2, 1993.
Service Bulletin ATR42-52-0058 Revision 1 dated                    39.13
  March 1, 1995.
Service Bulletin ATR42-52-0059 dated February 16,                  39.13
  1995.
Service Bulletin ATR42-53-0070 Revision 2 dated                    39.13
  March 22, 1993.
Service Bulletin ATR42-53-0070 Revision 3 dated                    39.13
  February 19, 1999.
Service Bulletin ATR42-53-0076 Revision 2 dated                    39.13
  October 15, 1996.
Service Bulletin ATR42-53-0076 Revision 3 dated                    39.13
  February 19, 1999.
Service Bulletin ATR72-30-1032 Revision 2 dated                    39.13
  October 1, 1999.
Service Bulletin ATR72-30-1033 Revision 2 dated                    39.13
  October 1, 1999.
Service Bulletin ATR72-30-1034 Revision 2 dated                    39.13
  October 19, 1999.
Service Bulletin ATR72-52-1018 dated May 18, 1995.                 39.13
Service Bulletin ATR72-52-1028 dated July 5, 1993.                 39.13
Service Bulletin ATR72-52-1029 Revision 1 dated                    39.13
  November 16, 1994.
Service Bulletin ATR72-52-1033 dated April 28,                     39.13
  1995.
Service Bulletin ATR72-53-1013 Revision 3 dated                    39.13
  January 22, 1999.
Service Bulletin ATR72-53-1014 Revision 2 dated                    39.13
  October 15, 1992.
Service Bulletin ATR72-53-1019 Revision 3 dated                    39.13
  January 22, 1999.
Service Bulletin ATR72-53-1020 dated October 6,                    39.13
  1992.
Service Bulletin ATR72-53-1021 Revision 1 dated                    39.13
  February 20, 1995.
SB CAP10B No. 15, dated April 14, 1992............                 39.13
SB CAP10B No. 16, dated April 27, 1992............                 39.13
SB CAPIOB No. 13 dated May 14, 1991...............                 39.13
SB No. 15, CAP10B-57-003, Rev. 1, dated April 3,                   39.13
  1996.


Avions Pierre Robin

  1 route de Troyes, 21121 Darois, France
Note NAV 96-3, dated May 2, 1996..................                 39.13
SB No. 101, Rev. 3, dated March 5, 1992...........                 39.13
SB No. 120, dated September 27, 1990..............                 39.13
SB No. 135, dated May 17, 1994....................                 39.13
SB No. 141, Rev. 1, dated November 6, 1995........                 39.13
SB No. 146, Rev. 1, dated September 26, 1996......                 39.13
SB No. 151, dated July 8, 1996....................                 39.13
SB No. 152, dated September 30, 1996..............                 39.13
SB No. 90, dated May 3, 1982......................                 39.13
SB No. 97, dated April 22, 1983...................                 39.13


Avro International Aerospace Division, British Aerospace Holdings, Inc

  P.O. Box 16039, Dulles International Airport, 
  Washington, DC 20041-6039
Alert Inspection SB S.B. 34-A155, Rev. 2, dated                    39.13
  August 9, 1995.
Inspection SB S.B. 24-107, dated January 25, 1995.                 39.13
Inspection SB S.B. 53-130, dated May 10, 1994.....                 39.13
Inspection SB S.B. 53-131, dated March 29, 1995...                 39.13
SB 57-40, dated March 18, 1994....................                 39.13
SB S.B. 24-103, dated March 24, 1994..............                 39.13
SB S.B. 49-40, Rev. 1, dated March 17, 1994.......                 39.13
SB S.B. 57-33, Rev. 1, dated October 29, 1993.....                 39.13
SB S.B. 57-33, Rev. 2 dated February 16, 1994.....                 39.13
SB S.B. 57-33, Rev. 3, dated September 16, 1994...                 39.13

[[Page 921]]

Ayres Corp.

  P.O. Box 3090, Albany, GA 31708
SB No. SB-AG-29, dated June 15, 1992..............                 39.13
SB No. SB-AG-32, dated February 12, 1993..........                 39.13
SB No. SB-AG-39, dated September 17, 1996.........                 39.13
Custom Kit No. CK-AG-29 dated December 23 1997....                 39.13
SB-AG-39 dated 17 September 1996..................                 39.13
Service Bulletin SB-AG-42 dated June 16, 1999.....                 39.13


B. Grob Flugzeugbau, Industriestrabe

  D-8948 Mindelheim-Mattsies, Germany
TM-306-17 dated 6/10/81...........................                 39.13


Beech Aircraft Corp

  P.O. Box 85, Wichita, KS 67201-0085
Kit 58-5016-1 S as referenced in Beech SB 2439,                    39.13
  dated May 1992.
Kit No. 118-9003-1, 118-9003-3, 129-9010-1, and                    39.13
  129-9010-3 as specified in Beech SB No. 2539 and 
  Beech SB No. 2591, dated December 1994.
Landing Gear Motor Circuit Breaker Installation                    39.13
  Kits 101-3069-1 S, 101-3069-3 S, 101-3069-5 S, 
  101-3069-7 Rev. III: Issued February 1985 , 
  Revised April 1995.
Mandatory SB 2416 dated July 1991.................                 39.13
Mandatory SB 2416, Rev. 1 dated Dec. 1991.........                 39.13
Pilot's Operating Handbook/FAA Approved Flight                     39.13
  Manual, B2 Rev., Part No. 130-590031-1 dated 
  Sept. 1991.
SB 2241, Rev. 1 dated Jan. 1991...................                 39.13
SB 2255, Rev. III dated Nov. 1991.................                 39.13
SB 2255, Rev. VI, dated August 1994...............                 39.13
SB 2333 dated Oct. 1989...........................                 39.13
SB 2333, Rev. 1 dated Nov. 1991...................                 39.13
SB 2360 dated Nov. 1990...........................                 39.13
SB 2360 dated Nov. 1990...........................                 39.13
SB 2361 dated Feb. 1991...........................                 39.13
SB 2362, Rev. 1 dated Feb. 1991...................                 39.13
SB 2365 dated Jan. 1991...........................                 39.13
SB 2365, Rev. 1 dated Dec. 1991...................                 39.13
SB 2380 dated Apr. 1991...........................                 39.13
SB 2394 dated Dec. 1990...........................                 39.13
SB 2399 dated Mar. 1991...........................                 39.13
SB 2408 dated June 1991...........................                 39.13
SB 2420 dated February 1992.......................                 39.13
SB 2423 dated Dec. 1991...........................                 39.13
SB 2428 dated Oct. 1991...........................                 39.13
SB 2432 dated Feb. 1992...........................                 39.13
SB 2437 dated April 1992..........................                 39.13
SB 2442 dated May 1992............................                 39.13
SB 2443 and Tosington SB No. 001, both dated July                  39.13
  1993.
SB 2445 dated June 1992...........................                 39.13
SB No. 2188, dated May 1987 including:                             39.13
  instructions to Beech Kit Nos. 35-4016-3, 35-
  4016-5, 35-4016-7 and 35-4016-9; and 
  instructions to Beech Kit No. 35-4017-1, Kit 
  Information Empennage & Aft Fuselage Inspection.
SB No. 2442, Rev. 1, dated September 1993.........                 39.13
SB No. 2444, Rev. 2, dated May 1995...............                 39.13
SB No. 2444, Rev. II, dated May 1995..............                 39.13

[[Page 922]]

SB No. 2475, dated February 1993..................                 39.13
SB No. 2487, dated August 1993....................                 39.13
SB No. 2522, dated January, 1994..................                 39.13
SB No. 2562, dated August 1994....................                 39.13
SB No. 2564, Rev. 1, dated April 1995.............                 39.13
SB NO. 2607, Rev. 1, dated April, 1995............                 39.13
SB SB.49-47-25A825A, dated August 1, 1995.........                 39.13
Mandatory SB 2520, dated August 1993..............                 39.13
Mandatory SB No. 2631, Issued: June, 1995,                         39.13
  Revised: September, 1995.
Mandatory SB No. 2677, dated March, 1996..........                 39.13
Safety Communique 400-101, dated July 1993........                 39.13
Safety Communique 400A-113, dated March 1995......                 39.13
SB 2447, dated June 1992..........................                 39.13
SB 2479, Rev. 1, dated November 1993..............                 39.13
SB 2482, dated December 1992......................                 39.13
SB 2482, dated December 1992......................                 39.13
SB 2549, dated January 1994.......................                 39.13
SB 2563, dated February 1995......................                 39.13
SB No. 2444, Rev. 1, dated September 1992.........                 39.13
SB No. 2458 (ATA Code 39-10), dated August 1992...                 39.13
SB No. 2458 (ATA Code 39-10), dated August 1992...                 39.13
SB No. 2533, dated October 1994...................                 39.13
SB No. 2600, dated November 1995..................                 39.13
SB No. 2630, dated November, 1995.................                 39.13
SB No. 2651, dated January, 1996..................                 39.13
Airplane Flight Manual, A9 Rev., part number 128-                  39.13
  590001-13A9, dated August 14, 1992.


Bell Helicopter Textron Canada

  12,800 Rue de l'Avenir Mirabel Quebec J7J1R4 
  Telephone: (800) 363-8023
Alert Service Bulletin 206L-96-104 Revision B                      39.13
  dated July 24, 1998.
Alert Service Bulletin 407-01-43 dated June 8,                     39.13
  2001.
Alert Service Bulletin No. 407-97-12 dated October                 39.13
  7, 1997.


Bell Helicopter Textron, Inc

  P.O. Box 482, Fort Worth, Texas 76101
Alert Service Bulletin 407-98-18 dated May 27,                     39.13
  1998.
Alert Service Bulletin 407-98-20 dated July 3,                     39.13
  1998.
Alert Service Bulletin 407-99-26 dated April 13,                   39.13
  1999.
Alert Service Bulletin 430-97-4 dated December 19,                 39.13
  1997.
Alert Service Bulletin 430-98-8 dated December 31,                 39.13
  1998.
ASB No. 430-98-5, dated June 12, 1998.............                 39.13
Technical Bulletin 407-98-13 dated December 12,                    39.13
  1998.
Technical Bulletin 407-98-13, dated December 12,                   39.13
  1998.
Alert Service Bulletin No. 205-00-77 Revision A                    39.13
  dated September 13, 2000.
Alert Service Bulletin No. 205B-00-31 Revision A                   39.13
  dated September 13, 2000.
Alert Service Bulletin No. 212-00-107 Revision A                   39.13
  dated September 13, 2000.
Alert Service Bulletin No. 412-00-102 Revision A                   39.13
  dated September 13, 2000.
Alert Service Bulletin No. 412CF-00-10 Revision A                  39.13
dated September 13, 2000.
[[Page 923]]

Alert Service Bulletin 206-00-93 Revision A dated                  39.13
  May 10, 2000.
Alert Service Bulletin 206L-00-116 dated March 10,                 39.13
  2000.
Alert Service Bulletin 222-00-86 dated May 19,                     39.13
  2000.
Alert Service Bulletin 222-99-84 dated February                    39.13
  15, 1999.
Alert Service Bulletin 222U-00-57 dated May 19,                    39.13
  2000.
Alert Service Bulletin 222U-99-55 dated February                   39.13
  15, 1999.
Alert Service Bulletin 230-00-18 dated May 19,                     39.13
  2000.
Alert Service Bulletin 230-99-16 dated February                    39.13
  15, 1999.
Alert Service Bulletin 407-99-33 Revision A dated                  39.13
  March 10, 2000.
Alert Service Bulletin 430-00-17 dated May 19,                     39.13
  2000.
Alert Service Bulletin 430-99-10 dated December                    39.13
  16, 1999.
Alert Service Bulletin 430-99-11 dated May 7, 1999                 39.13
Alert Service Bulletin 430-99-13 dated December                    39.13
  13, 1999.
Alert Service Bulletin ASB 407-99-32 dated                         39.13
  December 7, 1999.
ASB 204B-98-50, dated October 22, 1998............                 39.13
ASB 205-96-68, Revision A, dated May 18, 1998.....                 39.13
ASB 205-96-69, dated September 3, 1996............                 39.13
ASB 205-98-71, Revision A, dated September 21,                     39.13
  1998.
ASB 205-98-73, dated September 25, 1998...........                 39.13
ASB 205B-96-25, dated September 3, 1996...........                 39.13
ASB 212-96-100, Revision A, dated May 18, 1998....                 39.13
ASB 212-96-101, dated September 3, 1996...........                 39.13
ASB 412-98-5, dated March 2, 1998.................                 39.13
ASB 412-98-5, dated March 2, 1998.................                 39.13
ASB 412CF-98-5, dated March 2, 1998...............                 39.13
ASB No. 205-98-70, Revision A, dated September 21,                 39.13
  1998.
ASB No. 205B-98-26, Revision A, dated September                    39.13
  21, 1998.
ASB No. 206L-98-110, dated May 6, 1998............                 39.13
ASB No. 206L-98-111, dated July 24, 1998..........                 39.13
ASB No. 214-96-57, dated August 26, 1996..........                 39.13
ASB No. 214ST-96-75, dated August 26, 1996........                 39.13
ASB No. 222-98-82, Revision A, dated June 9, 1998.                 39.13
ASB No. 222U-98-53, Revision A, dated June 9, 1998                 39.13
ASB No. 230-98-14, Revision A, dated June 9, 1998.                 39.13
ASB No. 230-98-14, Revision A, dated June 9, 1998.                 39.13
ASB No. 407-98-17, Revision A, dated June 26, 1998                 39.13
ASB No. 430-98-6, dated June 12, 1998.............                 39.13
Technical Bulletin 407-96-2 Revision A dated March                 39.13
  11, 1997.
Technical Bulletin 409-99-17 dated April 15, 1999.                 39.13
Technical Bulletin No. 230-98-23, Revision A,                      39.13
  dated July 1, 1998.
Technical Bulletin No. 230-98-23, Revision A,                      39.13
  dated July 1, 1998.
Technical Bulletin No. 222-98-156, dated June 17,                  39.13
  1998.
Technical Bulletin No. 222U-98-84, dated June 17,                  39.13
  1998.
214ST Component Repair and Overhaul Manual, Rev.                   39.13
  12, Section 65-20-07, pages 35 and 36, and 
  Section 65-20-08, page 48 dated April 15, 1986.
214ST Maintenance Manual, Rev. 22, Section 65-20-                  39.13
  00, page 16, and Section 53-11-00, page 40b 
  dated May 14, 1987.
Alert Bulletin 206L-85-35 dated February 26, 1985.                 39.13
Alert SB ASB 206-90-54, dated May 31, 1990........                 39.13
Alert SB ASB 206L-90-67, dated August 5, 1991.....                 39.13
Alert SB 205-92-49, dated October 5, 1992.........                 39.13
Alert SB 205-93-54, dated June 18, 1993...........                 39.13

[[Page 924]]

Alert SB 205B-92-13, dated October 5, 1992........                 39.13
Alert SB 205B-93-16, dated June 18, 1993..........                 39.13
Alert SB 206-85-29 dated June 21, 1985............                 39.13
Alert SB 206-91-60, Pts. I and II dated June 28,                   39.13
  1991.
Alert SB 206-93-74, Rev. B, dated April 4, 1994...                 39.13
Alert SB 206-93-77 and Alert SB 206L-93-92, both                   39.13
  dated November 17, 1993.
Alert SB 206L-85-36 dated June 21, 1985...........                 39.13
Alert SB 206L-87-47, Rev. C, dated October 23,                     39.13
  1989.
Alert SB 206L-93-89, Rev. B, dated................                 39.13
Alert SB 212-93-83, dated June 18, 1993...........                 39.13
Alert SB 214-85-28 dated September 3, 1985........                 39.13
Alert SB 214-86-36 dated October 8, 1986..........                 39.13
Alert SB 214-91-45 dated August 1, 1991...........                 39.13
Alert SB 214ST-85-29 dated September 3, 1985......                 39.13
Alert SB 214ST-86-37, Rev. A dated November 3,                     39.13
  1986.
Alert SB 222-90-57 dated December 21, 1990........                 39.13
Alert SB 222U-90-30 dated December 21, 1990.......                 39.13
Alert SB 407-97-7, dated February 27, 1997........                 39.13
Alert SB 412-92-57, Rev. A, dated January 30, 1992                 39.13
Alert SB 412-92-61, dated May 14, 1992............                 39.13
Alert SB 412-93-72, Rev. A, dated.................                 39.13
Alert SB 412-96-89, Rev. A, dated October 17, 1997                 39.13
Alert SB 412CF-96-01, dated September 3, 1996.....                 39.13
Alert SB 430-97-2, dated July 11, 1997............                 39.13
Alert SB No. 206-93-75, dated October 19, 1993....                 39.13
Alert SB No. 206-93-76, Rev. B, dated September 6,                 39.13
  1994.
Alert SB No. 206L-88-52 dated June 10, 1988.......                 39.13
Alert SB No. 206L-93-90, Rev. A, dated November 9,                 39.13
  1993.
Alert SB No. 206L-94-99, Rev. A, dated May 1, 1995                 39.13
Alert SB No. 214ST-95-72, dated July 24, 1995.....                 39.13
Alert SB No. 222-85-28 dated March 21, 1985.......                 39.13
Alert SB No. 222-85-33 dated August 13, 1985......                 39.13
Alert SB No. 222-86-39, Rev. A dated January 14,                   39.13
  1987.
Alert SB No. 222-89-53 dated March 20, 1989.......                 39.13
Alert SB No. 222U-85-3 dated March 21, 1985.......                 39.13
Alert SB No. 222U-85-8 dated August 13, 1985......                 39.13
Alert SB No. 222U-86-14, Rev. A dated January 14,                  39.13
  1987.
Alert SB No. 222U-89-27 dated March 20, 1989......                 39.13
Alert SB No. 412-92-65, Accomplishment                             39.13
  Instructions, Parts I and II, dated August 17, 
  1992.
ASB No. 205-90-40, Revision A, dated March 21,                     39.13
  1991.
ASB No. 205B-90-1, Revision A, dated March 21,                     39.13
  1991.
ASB No. 205B-90-1, Revision A, dated March 21,                     39.13
  1991.
ASB No. 212-90-64, Revision B, dated March 11,                     39.13
  1992.
ASB No. 214-97-59, dated July 17, 1997............                 39.13
ASB No. 214ST-97-78, dated July 17, 1997..........                 39.13
ASB No. 47-96-22, dated August 16, 1996...........                 39.13
SB No. 141500-29-66 dated July 30, 1985...........                 39.13
SB No. 143000-29-65 dated July 30, 1985...........                 39.13

[[Page 925]]

Bellanca, Inc

  P.O. Box 964, Alexandria, Minnesota 56308; 
  Telephone (612) 762-1501
Service Letter B-107, dated September 20, 1995....                 39.13


Bendix--AlliedSignal Aerospace Co

  Bendix Wheels and Brakes Division, South Bend, 
  IN 46628
SB 737-32-026, dated April 26, 1988...............                 39.13
SB No. 737-32-026, dated June 27, 1998, including                  39.13
  Attachment 1, dated January 17, 1978, and 
  Attachment 2, dated June 27,.
SB 2601182-32-014 dated Jan. 30, 1991.............                 39.13
SB 2601902-32-001, Rev. 2 dated Oct. 10, 1991.....                 39.13
SB 2602012-32-001, Rev. 2 dated Oct. 10, 1991.....                 39.13
SB 2605155-32-001, Rev. 2 dated Oct. 10, 1991.....                 39.13
SB 2605662-32-028, Rev. 2 dated Oct. 10, 1991.....                 39.13
Service Information Letter (SIL) 392, Rev. 1,                      39.13
  dated November 15, 1979.


Bendix/King

  Product Support Department, 400 N. Rogers Road, 
  Olathe, KS 66062-0212
Installation Bulletin 312 dated Mar. 19, 1990.....                 39.13
SB RIA-32A-34-47, Revision 1, dated January 1992..                 39.13
SB RIA-32A-34-48, dated December 1991.............                 39.13
Software Bulletin No: GNS-XLS-SW2, dated February                  39.13
  1997.


BF Goodrich Co. Aircraft Evaluation Systems

  3414 South 5th St., Phoenix, AZ 85040
11331-25-248 dated April 15, 1992.................                 39.13
1474-32-14, Rev. 2 dated Jan. 15, 1992............                 39.13
2-1147-32-13 dated Dec. 21, 1990..................                 39.13
2-1190-32-13 dated Dec. 21, 1990..................                 39.13
2-1444-32-5 dated Jan. 24, 1991...................                 39.13
2-1457-32-13 dated January 30, 1991...............                 39.13
2-1457-32-13, Rev. 1 dated December 16, 1991;                      39.13
  issued February 28, 1991.
2-1474-32-13, Rev. 1 dated July 9, 1992...........                 39.13
2-1474-32-13, Rev. 2 dated Feb. 12, 1992..........                 39.13
25-232 dated Nov. 18, 1991........................                 39.13
25-232, Rev. 1 dated Mar. 16, 1992................                 39.13
4A3416-25-223 dated Oct. 1, 1991..................                 39.13
4A3416-25-233 dated Dec. 14, 1990.................                 39.13
Alert SB 100102-25A-244 dated Dec. 13, 1991.......                 39.13
Alert SB 7A1299-25A274, dated December 15, 1993...                 39.13
SB 101630/655/656-25-269, dated October 28, 1994..                 39.13
SB 25-262, dated February 18, 1994................                 39.13
SB 4A3106/4A3153-25-258, dated March 29, 1993.....                 39.13
SB 4A3221-25-250, dated March 12, 1993............                 39.13
SB 5A2917/27/63-25-278, Rev. 1, dated July 14,                     39.13
  1995.
SB 5A2917/27/63-25-279, dated January 12, 1995....                 39.13
SB 7A1255-25-275, dated February 25, 1994.........                 39.13
SB 7A1323-25-266, Rev. 1, dated September 30, 1994                 39.13
SB 7A1418-25-253, dated April 28, 1993............                 39.13
SB 7A1418-25-253, Rev. 2, dated April 15, 1994....                 39.13
SB 7A1469-25-283, dated November 6, 1995..........                 39.13
SL 1498 dated Oct. 26, 1989.......................                 39.13

[[Page 926]]

SB 2-1598-32-1, dated November 5, 1999............                 39.13
SB 2-1600-32-2, dated November 5, 1999............                 39.13
Service Bulletin 2-1598-32-2 dated June 16, 2000..                 39.13
Service Bulletin 2-1600-32-3 dated June 16, 2000..                 39.13
Service Bulletin 76A-32-03 Revision 1 dated                        39.13
  September 15, 2000.
SB 2-1479-32-2, Revision 1, dated June 17, 1998...                 39.13
SB 2-1585-32-1, Revision 1, dated June 17, 1998...                 39.13
SB 3-1398-32-16, dated August 20, 1993............                 39.13
SB 3-1439-32-13, dated August 20, 1993............                 39.13


BFGoodrich Aerospace

  3100 112th Street, SW Everett Washington 98204-
  3500
767 Flight Attendant Manual Supplement D2000-160                   39.13
  dated August 16, 2000.
B767 Airplane Flight Manual Supplement D2001-025                   39.13
  dated February 26, 2001.
Engineering Order 23-32-767-031, including Parts                   39.13
  List Attachment and Wire List Attachment dated 
  August 16, 2001.


Boeing Airplane Co

  Commercial Airplane Group P.O. Box 3707, 
  Seattle, Washington 98124-2207
SB 1211233-29-21-3, Revision 2, dated June 17,                     39.13
  1994.
SB 1211233-29-21-3, Revision 3, dated February 7,                  39.13
  1997.
SB 2156204A-26-02, dated January 17, 1992.........                 39.13
SB 2156204A-26-02, dated January 17, 1992.........                 39.13
747-24-2193 NSC 1, dated April 13, 1995,..........                 39.13
747-24-2193 NSC 2, dated October 5, 1995,.........                 39.13
747-24-2193 NSC 5, dated May 2, 1996,.............                 39.13
737 Nondestructive Test Manual D6-37239 dated                      39.13
  August 5, 1997.
737 Nondestructive Test Manual D6-37239, Part 6,                   39.13
  List of Effective Pages, dated December 5, 1998.
737 Nondestructive Test Manual D6-37239, Part 6,                   39.13
  Section 51-00-00, Figure 23, dated November 5, 
  1995.
737 Nondestructive Test Manual D6-37239, Part 6,                   39.13
  Section 53-10-54, dated December 5, 1998.
747- 24-2193 NSC 6, dated March 13, 1997..........                 39.13
747-24-2193 NSC 3, dated November 22, 1995,.......                 39.13
747-24-2193 NSC 4, dated December 21, 1995,.......                 39.13
747-400 Operations Manual Bulletin 93-5, dated                     39.13
  July 26, 1993.
767 Component Maintenance Manual, Section 25-66-30                 39.13
  Revision 2 dated November 1, 2000.
767 Maintenance Planning Data Document D622T001-9                  39.13
  Revised June 1997.
767 Operations Manual Bulletin No. 86-13 dated                     39.13
  December 9, 1986.
Aging Airplane SB Structural Modification and                      39.13
  Inspection Program -- Model 737-100/-200/-200C, 
  Rev. F, dated April 23, 1992.
Airplane Maintenance Manual for the Model 737                      39.13
  Aircraft, Temporary Rev's. 12-368, 12-369, 12-
  370, 12-371, dated February 7, 1997.
Alert Service Bulletin 717-27A0002 dated February                  39.13
  11, 2000.
Alert Service Bulletin 717-27A0002 Revision 2                      39.13
  dated March 30, 2000.
Alert Service Bulletin 717-34A0002 dated March 30,                 39.13
  2000.
Alert Service Bulletin 727-55A0090 Revision 1                      39.13
  dated September 20, 2001.
Alert Service Bulletin 727-57A0179 Revision 3                      39.13
dated September 2, 1999.
[[Page 927]]

Alert Service Bulletin 727-57A0179 Revision 4                      39.13
  dated July 13, 2000.
Alert Service Bulletin 737-21A1129, including                      39.13
  Appendices A and B dated June 29, 2000.
Alert Service Bulletin 737-22A1130 dated September                 39.13
  24, 1998.
Alert Service Bulletin 737-23A1170 dated April 27,                 39.13
  2000.
Alert Service Bulletin 737-25A1363 dated November                  39.13
  5, 1998.
Alert Service Bulletin 737-27A1211 dated November                  39.13
  19, 1998.
Alert Service Bulletin 737-27A1211 Revision 1                      39.13
  dated December 9, 1999.
Alert Service Bulletin 737-27A1245 dated April 23,                 39.13
  2001.
Alert Service Bulletin 737-28A1114 Revision 1                      39.13
  dated April 2, 1998.
Alert Service Bulletin 737-28A1168 Revision 1                      39.13
  dated January 11, 2001.
Alert Service Bulletin 737-29A1073 Revision 3                      39.13
  dated December 2,1999.
Alert Service Bulletin 737-29A1076 Revision 1                      39.13
  dated October 21, 1999.
Alert Service Bulletin 737-29A1077 Revision 1                      39.13
  dated October 21, 1999.
Alert Service Bulletin 737-29A1078 dated December                  39.13
  7,2000.
Alert Service Bulletin 737-29A1081 dated December                  39.13
  2,1999.
Alert Service Bulletin 737-29A1082 dated December                  39.13
  7,2000.
Alert Service Bulletin 737-52A1079 Revision 6                      39.13
  dated November 18, 1999.
Alert Service Bulletin 737-53A1173 Revision 2                      39.13
  dated January 15, 1998.
Alert Service Bulletin 737-53A1173 Revision 3                      39.13
  dated May 6, 1999.
Alert Service Bulletin 737-53A1208 dated May 6,                    39.13
  1999.
Alert Service Bulletin 737-53A1220 dated October                   39.13
  4, 1999.
Alert Service Bulletin 737-53A1224 dated August                    39.13
  17, 2000.
Alert Service Bulletin 737-55A1071 dated February                  39.13
  24, 2000.
Alert Service Bulletin 737-55A1072, including                      39.13
  Appendix A Revision 1 dated January 11, 2001.
Alert Service Bulletin 737-57A1256 dated September                 39.13
  30, 1999.
Alert Service Bulletin 747--53A2431 dated February                 39.13
  10, 2000.
Alert Service Bulletin 747-11A2052 Revision 1                      39.13
  dated August 5, 1999.
Alert Service Bulletin 747-21A2412 dated January                   39.13
  20, 2000.
Alert Service Bulletin 747-21A2412 Revision 2                      39.13
  dated November 30, 2000.
Alert Service Bulletin 747-21A2416, including                      39.13
  Appendices A and B dated June 29, 2000.
Alert Service Bulletin 747-24A2118 Revision 3                      39.13
  dated June 24, 1999.
Alert Service Bulletin 747-25A2407 Revision 1                      39.13
  dated September 23, 1999.
Alert Service Bulletin 747-26A2266 dated March 3,                  39.13
  2000.
Alert Service Bulletin 747-27A2373 dated June 24,                  39.13
  1999.
Alert Service Bulletin 747-27A2376 dated July 1,                   39.13
  1999.
Alert Service Bulletin 747-28A2232 Revision 1                      39.13
  dated June 22, 2000.
Alert Service Bulletin 747-30A2078 Revision 1                      39.13
  dated November 16, 2000.
Alert Service Bulletin 747-32A2465 Revision 1                      39.13
  dated July 20, 2000.
Alert Service Bulletin 747-34A2638 Revision 1                      39.13
  dated April 8, 1999.
Alert Service Bulletin 747-35A2035, Revision1,                     39.13
  dated July 22, 1999, as revised by Boeing 
  Service Bulletin dated September 23, 1999.
Alert Service Bulletin 747-38A2073 Revision 2                      39.13
dated April 26, 2001.
[[Page 928]]

Alert Service Bulletin 747-52A2258 dated June 1,                   39.13
  1995.
Alert Service Bulletin 747-53A2293 Revision 8                      39.13
  dated July 13, 2000.
Alert Service Bulletin 747-53A2390 Revision 1                      39.13
  dated July 6, 2000.
Alert Service Bulletin 747-53A2416 Revision 1                      39.13
  dated May 6, 1999.
Alert Service Bulletin 747-53A2417 Revision 2                      39.13
  dated August 10, 2000.
Alert Service Bulletin 747-53A2419 Revision 1                      39.13
  dated September 21, 2000.
Alert Service Bulletin 747-53A2425 dated October                   39.13
  29, 1998.
Alert Service Bulletin 747-53A2427 dated December                  39.13
  17, 1998.
Alert Service Bulletin 747-53A2427 Revision 1                      39.13
  dated October 28, 1999.
Alert Service Bulletin 747-53A2427 Revision 2                      39.13
  dated October 5, 2000.
Alert Service Bulletin 747-53A2444 Revision 2                      39.13
  dated May 24, 2001.
Alert Service Bulletin 747-53A2450 Revision 2,                     39.13
  including Appendix A dated January 4, 2001.
Alert Service Bulletin 747-53A2451, including                      39.13
  Appendix A dated October 5, 2000.
Alert Service Bulletin 747-54A2184 Revision 1                      39.13
  dated May 6, 1999.
Alert Service Bulletin 747-54A2200 dated July 7,                   39.13
  2000.
Alert Service Bulletin 747-54A2201 dated September                 39.13
  28, 2000.
Alert Service Bulletin 747-54A2203 dated August                    39.13
  31, 2000.
Alert Service Bulletin 747-54A2208 dated March 29,                 39.13
  2001.
Alert Service Bulletin 747-57A2298 Revision 3                      39.13
  dated January 7, 1999.
Alert Service Bulletin 747-57A2308 dated August 6,                 39.13
  1998.
Alert Service Bulletin 747-57A2309 dated February                  39.13
  25, 1999.
Alert Service Bulletin 747-57A2311 dated January                   39.13
  27, 2000.
Alert Service Bulletin 747-57A2312 dated June 15,                  39.13
  2000.
Alert Service Bulletin 747-76A2073 Revision 1                      39.13
  dated July 28, 1988.
Alert Service Bulletin 747-78A2159 dated May 18,                   39.13
  1995.
Alert Service Bulletin 747-78A2160 dated May 4,                    39.13
  1995.
Alert Service Bulletin 747-78A2170 dated October                   39.13
  21, 1999.
Alert Service Bulletin 757-21A0084, including                      39.13
  Appendices A and B dated June 29, 2000.
Alert Service Bulletin 757-21A0085, including                      39.13
  Appendices A and B dated June 29, 2000.
Alert Service Bulletin 757-25A0233 dated August                    39.13
  10, 2000.
Alert Service Bulletin 757-27A0086 dated June 9,                   39.13
  1988.
Alert Service Bulletin 757-27A0129 dated March 25,                 39.13
  1999.
Alert Service Bulletin 757-27A0133 dated October                   39.13
  11, 2000.
Alert Service Bulletin 757-27A0134 dated October                   39.13
  11, 2000.
Alert Service Bulletin 757-29A0048 Revision 3                      39.13
  dated December 2,1999.
Alert Service Bulletin 757-29A0049 dated December                  39.13
  7,2000.
Alert Service Bulletin 757-29A0051 dated December                  39.13
  2,1999.
Alert Service Bulletin 757-29A0052 dated December                  39.13
  7,2000.
Alert Service Bulletin 757-32A0135 Revision 1                      39.13
  dated November 30, 2000.
Alert Service Bulletin 757-32A0138 Revision 1                      39.13
  dated November 30, 2000.
Alert Service Bulletin 757-57A0054 dated November                  39.13
  5, 1998.
Alert Service Bulletin 767-11A0031 Revision 1                      39.13
  dated August 12, 1999.
Alert Service Bulletin 767-21A0154, including                      39.13
Appendix A Revision 1 dated August 9, 2001.
[[Page 929]]

Alert Service Bulletin 767-21A0158, including                      39.13
  Appendices A and B dated June 29, 2000.
Alert Service Bulletin 767-24A0126 dated February                  39.13
  24, 2000.
Alert Service Bulletin 767-24A0134 dated March 15,                 39.13
  2001.
Alert Service Bulletin 767-24A0134 Revision 1                      39.13
  dated October 18, 2001.
Alert Service Bulletin 767-24A0135 dated March 15,                 39.13
  2001.
Alert Service Bulletin 767-24A0135 Revision 1                      39.13
  dated October 18, 2001.
Alert Service Bulletin 767-24A0139 dated February                  39.13
  9, 2001.
Alert Service Bulletin 767-24A0140 dated February                  39.13
  9, 2001.
Alert Service Bulletin 767-25A0260 dated July 9,                   39.13
  1998.
Alert Service Bulletin 767-25A0265 dated May 27,                   39.13
  1999.
Alert Service Bulletin 767-27A0159 dated June 10,                  39.13
  1999.
Alert Service Bulletin 767-27A0166 dated August                    39.13
  17, 2000.
Alert Service Bulletin 767-27A0168 dated November                  39.13
  21, 2000.
Alert Service Bulletin 767-27A0169 dated November                  39.13
  21, 2000.
Alert Service Bulletin 767-28A0050 dated December                  39.13
  18, 1997.
Alert Service Bulletin 767-28A0057 dated November                  39.13
  18, 1999.
Alert Service Bulletin 767-29A0083 Revision 4                      39.13
  dated September 28, 2000.
Alert Service Bulletin 767-29A0090 dated December                  39.13
  7,2000.
Alert Service Bulletin 767-32A0163 dated March 5,                  39.13
  1998.
Alert Service Bulletin 767-33A0085 Revision 2                      39.13
  dated December 7, 2000.
Alert Service Bulletin 767-38A0057 dated July 13,                  39.13
  2000.
Alert Service Bulletin 767-53A0085 Revision 1                      39.13
  dated July 1, 1999.
Alert Service Bulletin 767-57A0074 dated May 17,                   39.13
  2000.
Alert Service Bulletin 767-57A0074 Revision 1                      39.13
  dated May 17, 2000.
Alert Service Bulletin 767-78A0081 Revision 2                      39.13
  dated April 19, 2001.
Alert Service Bulletin 767-78A0088 dated April 19,                 39.13
  2001.
Alert Service Bulletin 767-78A0090 Revision 1                      39.13
  dated July 5, 2001.
Alert Service Bulletin 767-78A0091 Revision 1                      39.13
  dated July 5, 2001.
Alert Service Bulletin 777-26A0009 dated October                   39.13
  23, 1997.
Alert Service Bulletin 777-27A0030 dated April 1,                  39.13
  1999.
Alert Service Bulletin 777-28A0019 dated April 27,                 39.13
  2000.
Alert Service Bulletin 777-31A0019 Revision 4                      39.13
  dated April 27, 2000.
Alert Service Bulletin 777-32A0024 dated August                    39.13
  12, 1999.
Alert Service Bulletin 777-32A0025 Revision 1                      39.13
  dated March 8, 2001.
Alert Service Bulletin 777-57A0011 Revision 1                      39.13
  dated January 25, 2001.
Alert Service Bulletin 777-57A0022 dated August                    39.13
  26, 1999.
Alert Service Bulletin 777-57A0029 dated December                  39.13
  22, 1998.
Alert Service Bulletin 777-57A0034 Revision 3                      39.13
  dated May 4, 2000.
Alert Service Bulletin 777-57A0034 Revision 4                      39.13
  dated July 20, 2000.
Alert Service Bulletin 777-57A0036 dated June 24,                  39.13
  1999.
Alert Service Bulletin A3395 Revision 4 dated                      39.13
  October 28, 1999.
Alert Service Bulletin DC9-27A362 dated February                   39.13
  11, 2000.
Alert Service Bulletin DC9-27A362 Revision 2 dated                 39.13
  March 30, 2000.
Alert Service Bulletin DC9-57A218 dated September                  39.13
  20, 2000.
Alert Service Bulletin MD11-24A144 dated May 2,                    39.13
  2000.
Alert Service Bulletin MD11-24A181 dated June 27,                  39.13
  2000.
Alert Service Bulletin MD11-25A253 dated March 10,                 39.13
2000.
[[Page 930]]

Alert Service Bulletin MD11-33A069, including                      39.13
  Appendix Revision 1 dated November 30, 2000.
Alert Service Bulletin MD80-33A115 dated August                    39.13
  10, 2000.
Alert Service Bulletin MD90-27A034 dated February                  39.13
  11, 2000.
Alert Service Bulletin MD90-27A034 Revision 2                      39.13
  dated March 30, 2000.
Alert Service Bulletin Notice of Status Change                     39.13
  747-52A2258 NSC 03 dated December 14, 1995.
Alert Service Bulletin Notice of Status Change                     39.13
  747-52A2258 NSC 1 dated July 20, 1995.
Alert Service Bulletin Notice of Status Change                     39.13
  747-52A2258 NSC 2 dated August 31, 1995.
All Base Message M-7200-01-00062 dated January 5,                  39.13
  2001.
All Operator Message M-7200-00-01854 dated July                    39.13
  27, 2000.
All Operator Message M-7200-99-04035, dated May                    39.13
  21, 1999.
All Operators Telex M-7272-96-1442 dated March 29,                 39.13
  1996.
ASB 2590, Rev. 4, dated May 26, 1967..............                 39.13
ASB 2590, Rev. 5, dated September 20, 1967........                 39.13
ASB 2590, Rev. 6, dated July 8, 1968..............                 39.13
ASB 26 A1100, Pacific Scientific, HTL/Kin-Tech                     39.13
  Division, Appendix 1, pages 1 thru 16, Rev. 1 
  dated April 3, 1991.
ASB 727-28A-0062, Rev. 5, dated May 4, 1995.......                 39.13
ASB 727-28A0125, Revision 1, dated June 10, 1999..                 39.13
ASB 727-28A0126, dated May 24, 1999...............                 39.13
ASB 727-32A0399, dated July 13, 1995..............                 39.13
ASB 727-53A0195 dated May 4, 1989.................                 39.13
ASB 727-53A0195, Rev. 1 dated Sept. 19, 1991......                 39.13
ASB 727-53A0204, Rev. 2 dated Aug. 9, 1990........                 39.13
ASB 727-53A0204, Rev. 3 dated Aug. 15, 1991.......                 39.13
ASB 737-24A1113, dated February 29, 1996..........                 39.13
ASB 737-27A-1212, dated March 26, 1998............                 39.13
ASB 737-27A1191, Rev. 1, dated November 3, 1994...                 39.13
ASB 737-27A1198, dated June 6, 1996...............                 39.13
ASB 737-27A1199, dated June 20, 1996..............                 39.13
ASB 737-27A1202, dated November 1, 1996...........                 39.13
ASB 737-27A1202, Rev. 1, dated December 6, 1996...                 39.13
ASB 737-27A1205, dated August 28, 1997............                 39.13
ASB 737-27A1213, Revision 1, dated May 21, 1998...                 39.13
ASB 737-27A1221, Revision 1, dated January 28,                     39.13
  1999.
ASB 737-27A1222, Revision 1, dated January 28,                     39.13
  1999.
ASB 737-27A1227, dated April 8, 1999..............                 39.13
ASB 737-27A1228, dated April 8, 1999..............                 39.13
ASB 737-28A1032, Rev. 2, dated May 4, 1995........                 39.13
ASB 737-28A1120, dated April 24, 1998, as.........                 39.13
ASB 737-28A1120, Notice of Status Change NSC 01,                   39.13
  dated May 7, 1998,.
ASB 737-28A1120, Rev. 1, dated May 28, 1998.......                 39.13
ASB 737-28A1120, Status Change NSC 02, dated May                   39.13
  8, 1998,.
ASB 737-28A1120, Status Change NSC 03, dated May                   39.13
  9, 1998.
ASB 737-28A1132, dated December 2, 1998...........                 39.13
ASB 737-28A1132, Revision 1, dated January 15,                     39.13
  1999.
ASB 737-28A1134, Revision 1, dated June 10, 1999..                 39.13
ASB 737-32A1224, Revision 1, dated April 12, 1990.                 39.13

[[Page 931]]

ASB 737-32A1314, dated April 15, 1999.............                 39.13
ASB 737-35A1037 dated February 13, 1992...........                 39.13
ASB 737-35A1038 dated March 19, 1992..............                 39.13
ASB 737-52A1124, dated January 11, 1996...........                 39.13
ASB 737-53A1152, Rev. 1 dated October 24, 1991....                 39.13
ASB 737-53A1160, dated October 24, 1991...........                 39.13
ASB 737-53A1160, Rev. 1, dated April 29, 1993.....                 39.13
ASB 737-53A1166, dated June 30, 1994, including                    39.13
  Addendum.
ASB 737-53A1177, dated November 8, 1994...........                 39.13
ASB 737-53A1177, Rev. 1, dated September 19, 1996.                 39.13
ASB 737-53A1177, Rev. 2, dated July 24, 1997......                 39.13
ASB 737-53A1177, Rev. 3, dated September 18, 1997.                 39.13
ASB 737-54A1038, dated May 7, 1998, as............                 39.13
ASB 737-54A1038, NSC 01, dated June 18, 1998......                 39.13
ASB 737-55A1068, Revision 1, dated June 11, 1999..                 39.13
ASB 737-55A1068, Revision 1, dated June 11, 1999..                 39.13
ASB 737-71A1208 dated December 10, 1987...........                 39.13
ASB 737-71A1208, Rev. 2 dated March 23, 1989......                 39.13
ASB 737-71A1212, dated December 22, 1987..........                 39.13
ASB 737-73A1011, dated November 25, 1998..........                 39.13
ASB 737-78A1055 dated April 2, 1992...............                 39.13
ASB 737-78A1056, dated August 11, 1994............                 39.13
ASB 744-24A2193, Revision 1, dated June 19, 1997..                 39.13
ASB 747- 22A2213, Rev. 2, dated June 22, 1995.....                 39.13
ASB 747-11A2052, dated September 11, 1997.........                 39.13
ASB 747-21A-2312 dated May 30, 1991...............                 39.13
ASB 747-21A2381, dated June 27, 1996..............                 39.13
ASB 747-22A2212, Rev. 1, dated April 27, 1995.....                 39.13
ASB 747-22A2213, Rev. 1, dated April 27, 1995.....                 39.13
ASB 747-23A2241, Rev. 3 dated September 5, 1991...                 39.13
ASB 747-24A2168 dated Sept. 24, 1991..............                 39.13
ASB 747-24A2168, dated September 24, 1991.........                 39.13
ASB 747-24A2168, Rev. 1 dated Dec. 5, 1991........                 39.13
ASB 747-24A2168, Rev. 1, dated December 5, 1991...                 39.13
ASB 747-24A2168, Rev. 2, dated September 24, 1992.                 39.13
ASB 747-24A2186, dated January 14, 1993...........                 39.13
ASB 747-24A2190 dated November 16, 1992...........                 39.13
ASB 747-24A2214, dated June 19, 1997..............                 39.13
ASB 747-25A2889 dated Nov. 1, 1990................                 39.13
ASB 747-25A3056, dated July 12, 1993..............                 39.13
ASB 747-25A3064, dated December 21, 1995..........                 39.13
ASB 747-25A3095, dated April 27, 1995.............                 39.13
ASB 747-25A3095, Rev. 1, dated September 28, 1995.                 39.13
ASB 747-25A3142, dated October 16, 1997...........                 39.13
ASB 747-26A2179 dated Feb. 28, 1991...............                 39.13
ASB 747-26A2179, Rev. 1 dated Aug. 26, 1991.......                 39.13
ASB 747-26A2179, Rev. 2 dated Dec. 18, 1991.......                 39.13
ASB 747-26A2210, dated October 29, 1992...........                 39.13
ASB 747-26A2226, dated June 30, 1994..............                 39.13
ASB 747-26A2226, Rev. 1, dated November 23, 1994..                 39.13
ASB 747-26A2250, dated June 26, 1997..............                 39.13
ASB 747-27A-2368, dated March 26, 1998............                 39.13
ASB 747-27A2346, Rev. 1, dated May 19, 1994.......                 39.13

[[Page 932]]

ASB 747-27A2348, Rev. 1, dated January 26, 1995...                 39.13
ASB 747-27A2364, dated September 3, 1998..........                 39.13
ASB 747-27A2368, Revision 1, dated May 7, 1998....                 39.13
ASB 747-27A2368, Revision 2, dated May 28, 1998...                 39.13
ASB 747-28A2185, Rev. 1, dated September 21, 1995.                 39.13
ASB 747-28A2186, dated January 19, 1995...........                 39.13
ASB 747-28A2199, dated August 1, 1996.............                 39.13
ASB 747-28A2204, Rev. 1, dated October 30, 1997...                 39.13
ASB 747-28A2206, dated September 25, 1997.........                 39.13
ASB 747-28A2208, dated May 14, 1998...............                 39.13
ASB 747-28A2210, dated May 14, 1998...............                 39.13
ASB 747-28A2212, Rev. 2, dated May 14, 1998.......                 39.13
ASB 747-28A2215, dated May 14, 1998...............                 39.13
ASB 747-30A2069, dated July 15, 1993..............                 39.13
ASB 747-31-2151, Rev. 1 dated September 27, 1990..                 39.13
ASB 747-33A2252, dated August 1, 1996, as.........                 39.13
ASB 747-33A2261, Rev. 1, dated June 4, 1998.......                 39.13
ASB 747-35A2075, Rev. 1 dated Sept. 19, 1991......                 39.13
ASB 747-36A2087 dated June 6, 1991................                 39.13
ASB 747-38A2090 dated November 21, 1991...........                 39.13
ASB 747-52-2186, Rev. 4, dated October 24, 1991...                 39.13
ASB 747-52A2233, dated August 29, 1991............                 39.13
ASB 747-52A2233, dated August 29, 1991............                 39.13
ASB 747-52A2233, dated August 29, 1991, including                  39.13
  Notice of Status Change 747-52A2233 NSC 1.
ASB 747-52A2237 dated July 11, 1991...............                 39.13
ASB 747-53-2327 dated Dec. 5, 1991................                 39.13
ASB 747-53A-53A2326 dated Dec. 20, 1990...........                 39.13
ASB 747-53A2377, dated December 10, 1992..........                 39.13
ASB 747-53A2390, dated July 31, 1997..............                 39.13
ASB 747-53A2400, dated December 21, 1995..........                 39.13
ASB 747-53A2408, dated April 25, 1996.............                 39.13
ASB 747-53A2409, dated September 26, 1996.........                 39.13
ASB 747-53A2410, Rev. 2, dated October 30, 1997...                 39.13
ASB 747-53A2414, dated August 7, 1997.............                 39.13
ASB 747-53A2420, dated March 26, 1998.............                 39.13
ASB 747-53A2423, dated June 11, 1998..............                 39.13
ASB 747-53A2428, dated December 17, 1998..........                 39.13
ASB 747-53A2430, dated June 10, 1999..............                 39.13
ASB 747-54-2066, dated November 7, 1979...........                 39.13
ASB 747-54-2066, Rev. 1, dated October 10, 1980...                 39.13
ASB 747-54-2066, Rev. 2, dated July 16, 1982......                 39.13
ASB 747-54-2100, dated June 20, 1983..............                 39.13
ASB 747-54-2100, Rev. 1, dated August 25, 1988....                 39.13
ASB 747-54-2100, Rev. 2, dated July 20, 1989......                 39.13
ASB 747-54-2100, Rev. 3, dated November 16, 1989..                 39.13
ASB 747-54-2101, dated April 11, 1983.............                 39.13
ASB 747-54-2101, Rev. 1, dated June 1, 1984.......                 39.13
ASB 747-54-2177, dated June 27, 1996..............                 39.13
ASB 747-54-A2166, Rev. 1, dated May 1, 1997.......                 39.13
ASB 747-54A2069, Rev. 2, dated February 1, 1980...                 39.13
ASB 747-54A2069, Rev. 3, dated May 23, 1980.......                 39.13
ASB 747-54A2069, Rev. 4, dated November 26, 1980..                 39.13

[[Page 933]]

ASB 747-54A2069, Rev. 5, dated August 21, 1980....                 39.13
ASB 747-54A2069, Rev. 6, dated October 22, 1982...                 39.13
ASB 747-54A2069, Rev. 7, dated July 28, 1988......                 39.13
ASB 747-54A2069, Rev. 8, dated June 9, 1994.......                 39.13
ASB 747-54A2069, Rev. 9, dated May 29, 1997.......                 39.13
ASB 747-54A2126, Rev. 5, dated June 26, 1997......                 39.13
ASB 747-54A2126, Revision 7, dated November 20,                    39.13
  1998.
ASB 747-54A2150 dated October 5, 1992.............                 39.13
ASB 747-54A2150, Rev. 1 dated November 13, 1992...                 39.13
ASB 747-54A2150, Rev. 1, dated November 13, 1992..                 39.13
ASB 747-54A2152, dated December 23, 1992..........                 39.13
ASB 747-54A2152, Rev. 1, dated July 15, 1993......                 39.13
ASB 747-54A2153, dated December 23, 1992..........                 39.13
ASB 747-54A2156, dated December 15, 1994..........                 39.13
ASB 747-54A2157, dated January 12, 1995...........                 39.13
ASB 747-54A2158, dated November 30, 1994..........                 39.13
ASB 747-54A2159, dated November 3, 1994...........                 39.13
ASB 747-54A2166, dated April 28, 1994.............                 39.13
ASB 747-54A2171, dated October 31, 1994...........                 39.13
ASB 747-54A2171, Rev. 1, dated June 27, 1996......                 39.13
ASB 747-54A2172, dated February 23, 1995..........                 39.13
ASB 747-54A2179, dated June 27, 1996..............                 39.13
ASB 747-54A2179, Rev. 1, dated November 27, 1996..                 39.13
ASB 747-54A2179, Rev. 2, dated December 4, 1997...                 39.13
ASB 747-54A2184, dated July 3, 1997...............                 39.13
ASB 747-54A2187, dated May 22, 1997...............                 39.13
ASB 747-57A2259, dated February 15, 1990..........                 39.13
ASB 747-57A2259, Rev. 1, dated September 6, 1990..                 39.13
ASB 747-57A2259, Rev. 2, dated June 9, 1994.......                 39.13
ASB 747-57A2266, Rev. 5, dated August 3, 1995.....                 39.13
ASB 747-57A2302, dated April 10, 1997.............                 39.13
ASB 747-71A2269, dated April 14, 1994.............                 39.13
ASB 747-71A2283, dated October 10, 1996...........                 39.13
ASB 747-73A2055 dated June 8, 1990................                 39.13
ASB 747-76A2083 dated Dec. 18, 1991...............                 39.13
ASB 747-76A2083, Rev. 1 dated May 28, 1992........                 39.13
ASB 747-76A2083, Rev. 2, dated February 25, 1993..                 39.13
ASB 747-78A2112, Rev. 1, dated March 7, 1994......                 39.13
ASB 747-78A2113, Rev. 1, dated March 10, 1994.....                 39.13
ASB 747-78A2115, Rev. 1, dated March 4, 1994......                 39.13
ASB 747-78A2128, dated March 10, 1994.............                 39.13
ASB 747-78A2128, Rev. 1, dated May 26, 1994.......                 39.13
ASB 747-78A2130, dated May 26, 1994...............                 39.13
ASB 747-78A2131, dated September 15, 1994.........                 39.13
ASB 757, 26A0026, 747-26A2180, 767-26A0075 and                     39.13
  767-26-0076 dated March 28, 1991.
ASB 757-22A0052, dated May 30, 1996...............                 39.13
ASB 757-24A0025, Rev. H, Sheets 1 and 2, undated;                  39.13
  dated May 10, 1985, and attached Boeing 
  Production Installation Drawing 288N4329,.
ASB 757-24A0069, Rev. 1, dated December 10,1992...                 39.13
ASB 757-24A0079, dated August 8, 1996.............                 39.13
ASB 757-25A0112 dated July 18, 1991...............                 39.13

[[Page 934]]

ASB 757-25A0187, dated September 18, 1997.........                 39.13
ASB 757-26-0027, Rev. 1 dated April 11, 1991......                 39.13
ASB 757-26A0032, dated October 22, 1992, and                       39.13
  Notice of Status Change 757-26A0032 NSC 2, dated 
  February 4, 1993.
ASB 757-26A0040, dated March 27, 1997.............                 39.13
ASB 757-27A-0128, dated March 26, 1998............                 39.13
ASB 757-27A0105 dated December 5, 1991............                 39.13
ASB 757-28A0043, Rev. 1, dated January 18, 1996...                 39.13
ASB 757-28A0045, dated July 30, 1996..............                 39.13
ASB 757-28A0045, Revision 1, dated November 19,                    39.13
  1998.
ASB 757-29A0046, dated October 6, 1994............                 39.13
ASB 757-30A0013, Rev. 5, dated September 7, 1989..                 39.13
ASB 757-30A0013, Rev. 6, dated March 25, 1993.....                 39.13
ASB 757-35A0010 dated February 13, 1992...........                 39.13
ASB 757-52A0023, Rev. 3, dated November 18, 1993..                 39.13
ASB 757-54A0019, Rev. 2 dated Oct. 11, 1991.......                 39.13
ASB 757-54A0019, Rev. 6, dated July 18, 1997......                 39.13
ASB 757-54A0030, Rev. 1, dated December 20, 1993..                 39.13
ASB 757-57A0045 dated Oct. 16, 1991...............                 39.13
ASB 757-78A0027 dated September 9, 1991...........                 39.13
ASB 757-78A0029 dated Feb. 28, 1992...............                 39.13
ASB 757-78A0030 dated Jan. 31, 1992...............                 39.13
ASB 767-11A0031, dated Septeber 11, 1997..........                 39.13
ASB 767-22A0097, dated May 30, 1996...............                 39.13
ASB 767-24A0085, dated September 17, 1992.........                 39.13
ASB 767-24A0088 dated November 16, 1992...........                 39.13
ASB 767-24A0112, Rev. 1, dated August 8, 1996.....                 39.13
ASB 767-24A0113, Rev. 1, dated July 2, 1996.......                 39.13
ASB 767-25A0174 dated Aug. 15, 1991...............                 39.13
ASB 767-26A0089, dated October 22, 1992...........                 39.13
ASB 767-26A0103, dated June 26, 1997..............                 39.13
ASB 767-27A-0156, dated March 26, 1998............                 39.13
ASB 767-27A0094, dated September 28, 1989.........                 39.13
ASB 767-27A0094, dated September 28, 1989.........                 39.13
ASB 767-27A0094, dated September 28, 1989.........                 39.13
ASB 767-27A0094, Rev. 4, dated October 22, 1992...                 39.13
ASB 767-27A0094, Rev. 4, dated October 22, 1992...                 39.13
ASB 767-27A0094, Rev. 4, dated October 22, 1992...                 39.13
ASB 767-27A0095, Rev. 3 dated May 23, 1989........                 39.13
ASB 767-27A0151, Rev. 1, dated April 2, 1997......                 39.13
ASB 767-27AO118, Rev. 1 dated Jan. 9, 1992........                 39.13
ASB 767-28A0036 dated May 3, 1991.................                 39.13
ASB 767-28A0036, Rev. 1 dated June 11, 1991.......                 39.13
ASB 767-28A0045, Rev. 1, dated April 28, 1994.....                 39.13
ASB 767-29A0064, Rev. 1 dated Oct. 24, 1991.......                 39.13
ASB 767-29A0077, dated October 6, 1994............                 39.13
ASB 767-29A0077, Rev. 1, dated June 8, 1995.......                 39.13
ASB 767-29A0080, dated October 12, 1995...........                 39.13
ASB 767-31-0033 dated May 31, 1990................                 39.13
ASB 767-31-0038 dated April 12, 1990..............                 39.13
ASB 767-32A0125, dated November 11, 1993..........                 39.13
ASB 767-32A0127, dated January 29, 1996...........                 39.13
ASB 767-32A0185, dated September 2, 1999..........                 39.13

[[Page 935]]

ASB 767-35A0028, dated September 7, 1995..........                 39.13
ASB 767-35A0029, dated January 30, 1997...........                 39.13
ASB 767-35A0029, Revision 1, dated June 25, 1998..                 39.13
ASB 767-36A0041, dated July 2, 1992...............                 39.13
ASB 767-36A0041, dated July 2, 1992...............                 39.13
ASB 767-54A0062, dated April 14, 1994.............                 39.13
ASB 767-54A0094, dated May 22, 1998...............                 39.13
ASB 767-57A0038, Rev. 1 dated November 21, 1991...                 39.13
ASB 767-57A0038, Rev. 2 dated February 20, 1992...                 39.13
ASB 767-57A0047, Rev. 1, dated May 9, 1996........                 39.13
ASB 767-57A0054, Revision 2, dated April 18, 1996.                 39.13
ASB 767-57A0054, Revision 3, dated October 30,                     39.13
  1997.
ASB 767-57A0066, Revision 1, dated August 6, 1998.                 39.13
ASB 767-71A0082, dated July 6, 1995...............                 39.13
ASB 767-71A0087, dated October 10, 1996...........                 39.13
ASB 767-73A0033 dated June 5, 1990................                 39.13
ASB 767-78-0064, dated July 16, 1992..............                 39.13
ASB 767-78-0065, dated July 16, 1992..............                 39.13
ASB 767-78A0052, Rev. 1 dated Feb. 14, 1992.......                 39.13
ASB 767-78A0080, dated February 25, 1999..........                 39.13
ASB 777-23A0027, dated February 13, 1997..........                 39.13
ASB 777-25A0035, dated December 2, 1996...........                 39.13
ASB 777-26A0004, dated June 21, 1996..............                 39.13
ASB 777-26A0012, dated May 1, 1997................                 39.13
ASB 777-27A0019, dated April 3, 1997..............                 39.13
ASB 777-27A0029, dated March 26, 1998.............                 39.13
ASB 777-27A0029, Revision 1, dated October 1, 1998                 39.13
ASB 777-29A0022, Revision 1, dated May 21, 1999...                 39.13
ASB 777-31A0013, dated August 29, 1996............                 39.13
ASB 777-32A0015, dated September 4, 1997..........                 39.13
ASB 777-55A0003, Rev. 1, dated June 20, 1996......                 39.13
ASB 777-55A0005, Revision 1, dated June 4, 1998...                 39.13
ASB 777-55A0005, Revision 1, dated June 4, 1998...                 39.13
ASB 777-57A0008, dated March 25, 1999.............                 39.13
ASB 777-57A0034, Revision 2, dated November 19,                    39.13
  1998.
ASB A3482 dated Sept. 27, 1990....................                 39.13
ASB A3482, Rev. 1 dated Aug. 29, 1991.............                 39.13
ASB No. 747-27A2378, dated July 15, 1999..........                 39.13
ASBs 757-26A0028, Rev. 1, dated April 23, 1992 and                 39.13
  767-26A0081, dated February 13, 1992.
ASBs 757-26A0028, Rev. 1, dated April 23, 1992 and                 39.13
  767-26A0081, dated February 13, 1992.
ASL 737-SL-27-30, dated April 1, 1985.............                 39.13
ASL 737-SL-78-22 dated November 6, 1991...........                 39.13
ASL 757-SL-28-8-A dated June 5, 1991..............                 39.13
Document D6-15565, 737 Structural Repair Manual                    39.13
  (SRM), Chapter 51, Subject 51-50-1, dated July 
  5, 1997.
Document D6-30N002, Rev. 8 dated January 15, 1991.                 39.13
Document D6-32545, Chap. 78 dated June 14, 1991...                 39.13
Document D6-35999, Aging Airplane SB Structural                    39.13
  Modification Program, Model 747 dated March 
  1989,.
Document D6-36022, Aging Airplane Corrosion                        39.13
Prevention and Control Program, Model 747 Rev. A 
[[Page 936]]28, 1989.

Document D6-37089, Rev. C dated January 1990......                 39.13
Document D6-38505, Aging Airplane SB Structural                    39.13
  Modification Program, Model 737-100, -200, -200C 
  Rev. C dated December 11, 1989,.
Document D6-38528, Aging Airplane Corrosion                        39.13
  Prevention and Control Program, Model 737 Rev. A 
  dated July 28, 1989,.
Document D6-44860, Rev. 1, 707/720 SSID...........                 39.13
Document D6-54860, Aging Airplane SB Modification                  39.13
  Program, Model 727 Rev. C dated December 11, 
  1989,.
Document D6-54928, Aging Airplane Corrosion                        39.13
  Prevention and Control Program, Model 707/720 
  dated July 28, 1989,.
Document D6-54929, Aging Airplane Corrosion                        39.13
  Prevention and Control Program, Model 727 Rev. A 
  dated July 28, 1989,.
Document D6-54996, Aging Airplane SB Structural                    39.13
  Modification Program--Model 707/720, Rev. B 
  dated December 11, 1990.
Document D630T002, Rev. 9, Sec. 78-31-1 dated May                  39.13
  1, 1991.
Document D630T002, Section 78-31-1 dated May 1,                    39.13
  1991.
Document No. D6-35022, Supplemental Structural                     39.13
  Inspection Document (SSID), Rev. C, dated April 
  1989; and Rev. D, dated February 1992.
Document No. D6-35022, Supplemental Structural                     39.13
  Inspection Document, Rev. D, dated February 
  1992, comprised of Volumes I and II.
Document No. D6-35022, Volumes 1 and 2,                            39.13
  Supplemental Structural Inspection Document for 
  Model 747 Rev. E, dated June 17, 1993.
Document No. D6-35655, Supplemental Structural                     39.13
  Inspection Document for 747-100SR, dated April 
  2, 1986.
Document No. D6-35999, Rev. C dated January 21,                    39.13
  1992.
Document No. D6-37089, Supplemental Structural                     39.13
  Inspection Document (SSID), Rev. D, dated June 
  1995.
Document No. D6-38505, Aging Airplane SB                           39.13
  Structural Modification and Inspection Program, 
  Rev. F, dated April 23, 1992.
Document No. D6-48040-1, Volumes 1 and 2,                          39.13
  Supplemental Structural Inspection Document.0 
  (SSID), Rev. H, dated June 1994.
Document No. D6-54996, Aging Airplane SB                           39.13
  Structural Modification and Inspection Program--
  Model 707/720, Rev. E, dated March 8, 1994.
Document No. D6-54996, Aging Airplane SB                           39.13
  Structural Modification and Inspection Program--
  Model 707/720, Rev. E, dated March 8, 1994.
Document Number D6-54996, Aging Airplane SB                        39.13
  Structural Modification and Inspection Program--
  Model 707/720, Rev. D, dated January 23, 1992.
Flight Operations Bulletin DC-10-00-01A, MD-11-00-                 39.13
  03A, MD-10-00-02A dated September 20, 2000.
Information Notice 757-54-0013 IN 02 dated April                   39.13
  8, 1999.
Interim Operating Procedure 2-17 dated March 31,                   39.13
  2000.
M-7200-00-02672, including Attachments 1 and 2                     39.13
  dated November 1, 2000.
Maintenance Tip 737 MT 24-003 dated May 14, 1998..                 39.13
MD-11 Certification Maintenance Requirements                       39.13
  Report No. MDC-K4174 Revision P dated April 5, 
  1999.
MD-11 Certification Maintenance Requirements                       39.13
  Report No. MDC-K4174 Revision Q dated December 
  22, 1999.
Message M-7200-98-00140, dated January 11, 1998...                 39.13
Message M-7200-98-01080, dated March 18, 1998.....                 39.13

[[Page 937]]

Notice of Status Change 727-53-0210 NSC 1, dated                   39.13
  June 17, 1993.
Notice of Status Change 727-53-0210 NSC 2, dated                   39.13
  September 21, 1995.
Notice of Status Change 747-33A2252 NSC 01, dated                  39.13
  October 10, 1996.
Notice of Status Change 747-76A2068, NSC 2 dated                   39.13
  December 12, 1991.
Notice of Status Change 747-78A2160 NSC 1 dated                    39.13
  June 8, 1995.
Processing Spec. BAC 5159, Rev. F dated March 1,                   39.13
  1991.
SB 2330, Rev. 2 dated Nov. 17, 1967...............                 39.13
SB 2590, Rev. 10, dated January 31, 1991..........                 39.13
SB 2590, Rev. 11, dated December 12, 1991.........                 39.13
SB 2590, Rev. 7, dated September 22, 1969.........                 39.13
SB 2590, Rev. 8, dated June 2, 1972...............                 39.13
SB 2590, Rev. 9, dated March 14, 1975.............                 39.13
SB 2959, Rev. 4 dated Aug. 17, 1979...............                 39.13
SB 2983 Rev. 5, dated January 31, 1991............                 39.13
SB 2983 Rev. 6, dated November 12, 1992...........                 39.13
SB 3067, Rev. 3 dated Aug. 24, 1979...............                 39.13
SB 3183, Rev. 1 dated May 13, 1977................                 39.13
SB 3183, Rev. 2 dated Jan. 28, 1988...............                 39.13
SB 3183, Rev. 4 dated July 8, 1992................                 39.13
SB 3240, Rev. 3 dated October 18, 1985............                 39.13
SB 3253, Rev. 4 dated Nov. 17, 1988...............                 39.13
SB 3477 dated July 26, 1990.......................                 39.13
SB 3484, pages 37 and 38 dated December 12, 1991..                 39.13
SB 3485, pages 34 and 35 dated December 12, 1991..                 39.13
SB 3486, pages 55 and 56 dated December 12, 1991..                 39.13
SB 727-28-0110 dated September 6, 1990............                 39.13
SB 727-32-0383 dated December 6, 1990.............                 39.13
SB 727-32-0383, Rev. 1, dated January 30, 1992....                 39.13
SB 727-32-279, dated June 22, 1979................                 39.13
SB 727-52-0142 dated July 26, 1990................                 39.13
SB 727-53-0072, Revision 5, dated June 1, 1989....                 39.13
SB 727-53-0085, Rev. 3 dated September 28, 1989...                 39.13
SB 727-53-0085, Rev. 4 dated July 11, 1991........                 39.13
SB 727-53-0085, Revision 4, dated July 11, 1991...                 39.13
SB 727-53-0086, Rev. 11, dated August 8, 1991.....                 39.13
SB 727-53-0126, Rev. 6 dated Dec. 21, 1989........                 39.13
SB 727-53-0145, Revision 1, dated December 7, 1989                 39.13
SB 727-53-0149, Rev. 3 dated Nov. 2, 1989.........                 39.13
SB 727-53-0149, Rev. 4 dated June 27, 1991........                 39.13
SB 727-53-0194 dated November 8, 1990.............                 39.13
SB 727-53-0196 dated Feb. 14, 1991................                 39.13
SB 727-53-0197, Rev. 1, dated April 9, 1992.......                 39.13
SB 727-53-0210 , dated April 1, 1993..............                 39.13
SB 727-53-149, Rev. 2 dated March 20, 1981........                 39.13
SB 727-53-85, Rev. 2 dated July 3, 1975...........                 39.13
SB 727-53A0124, Rev. 3 dated November 30, 1989....                 39.13
SB 727-53A0219, Revision 1, dated May 8, 1997.....                 39.13
SB 727-54A0010, Rev. 4, dated January 30, 1997....                 39.13
SB 727-55-0089, dated June 29, 1995...............                 39.13
SB 727-57A0182, dated September 18, 1997..........                 39.13

[[Page 938]]

SB 737-22A1098 dated Jan. 17, 1991................                 39.13
SB 737-231096 dated Apr. 12, 1990.................                 39.13
SB 737-24-1077 dated Aug 17, 1990.................                 39.13
SB 737-24-1077 Rev. 1 dated Aug 16, 1990..........                 39.13
SB 737-24-1077 Rev. 2 dated July 25, 1991.........                 39.13
SB 737-24-1084 dated Oct. 11, 1990................                 39.13
SB 737-24-1084 Rev. 1 dated Mar. 21, 1991.........                 39.13
SB 737-25-1291, dated Dec. 18, 1991...............                 39.13
SB 737-25-1294, dated Feb. 20, 1992...............                 39.13
SB 737-25-1334, dated December 19, 1996...........                 39.13
SB 737-25-1334, Rev. 1, dated January 15, 1998....                 39.13
SB 737-25A1283, Rev. 1 dated Mar. 19, 1992........                 39.13
SB 737-27-1033, dated February 13, 1970...........                 39.13
SB 737-27-1154, dated August 25, 1988.............                 39.13
SB 737-27-1155, dated October 26, 1989,...........                 39.13
SB 737-27-1155, NSC2, dated February 15, 1990,....                 39.13
SB 737-27-1155, NSC1, dated January 25, 1990,.....                 39.13
SB 737-27-1155, NSC3, dated May 17, 1990..........                 39.13
SB 737-27-1161 dated November 1, 1990.............                 39.13
SB 737-27-1185, dated April 15, 1993..............                 39.13
SB 737-27-1185, dated April 15, 1993..............                 39.13
SB 737-27A1164, Rev. 1, dated November 14, 1991...                 39.13
SB 737-28-1047, Rev. 3 dated Nov. 1987............                 39.13
SB 737-28-1115, dated March 4, 1999...............                 39.13
SB 737-28A1120, Revision 2, dated November 26,                     39.13
  1998.
SB 737-28A1120, Revision 2, dated November 26,                     39.13
  1998.
SB 737-29-1070, dated June 8, 1995................                 39.13
SB 737-29-1071, dated May 16, 1996................                 39.13
SB 737-32A1224, Revision 2, dated April 25, 1991..                 39.13
SB 737-38-1043, dated January 8, 1998.............                 39.13
SB 737-49-1073 dated July 25, 1991................                 39.13
SB 737-52-1060 dated June 11, 1976................                 39.13
SB 737-52-1079, Revision 5, dated May 16, 1996....                 39.13
SB 737-52-1128, dated April 22, 1999..............                 39.13
SB 737-52-1137, dated May 13, 1999................                 39.13
SB 737-53-1023, Revison 11, dated May 16, 1991....                 39.13
SB 737-53-1042, Rev. 1 dated February 4, 1977.....                 39.13
SB 737-53-1042, Rev. 2 dated March 31, 1978.......                 39.13
SB 737-53-1076, Rev. 2 dated February 8, 1990.....                 39.13
SB 737-53-1076, Rev. 4 dated September 26, 1991...                 39.13
SB 737-53-1096, dated July 24, 1986...............                 39.13
SB 737-53-1096, dated July 24, 1986...............                 39.13
SB 737-53-1096, Rev. 4, dated February 14, 1991...                 39.13
SB 737-53-1096, Rev. 1, dated April 2, 1987.......                 39.13
SB 737-53-1096, Rev. 1, dated April 2, 1987.......                 39.13
SB 737-53-1096, Rev. 2, dated July 30, 1987.......                 39.13
SB 737-53-1096, Rev. 2, dated July 30, 1987.......                 39.13
SB 737-53-1096, Rev. 3, dated February 8, 1990....                 39.13
SB 737-53-1096, Rev. 3, dated February 8, 1990....                 39.13
SB 737-53-1096, Rev. 4, dated February 14, 1991...                 39.13
SB 737-53-1096, Rev. 5, dated January 16, 1992....                 39.13
SB 737-53-1096, Rev. 5, dated January 16, 1992....                 39.13

[[Page 939]]

SB 737-53-1107, Revision 3, dated August 26, 1993,                 39.13
  as revised by Notice of Status Change 737-53-
  1107 NSC 3, dated June 9, 1994 and Notice of 
  Status Change 737-53-1107 NSC 4, dated September 
  22, 1994.
SB 737-53-1107, Revision 4, dated February 8, 1996                 39.13
SB 737-53-1154, dated November 11, 1993...........                 39.13
SB 737-531042, Rev. 3 dated December 4, 1981......                 39.13
SB 737-531042, Rev. 4 dated November 5, 1982......                 39.13
SB 737-531042, Rev. 5 dated October 5, 1984.......                 39.13
SB 737-531042, Rev. 6 dated August 10, 1989.......                 39.13
SB 737-531042, Rev. 7 dated October 19, 1989......                 39.13
SB 737-531042, Rev. 8 dated July 19, 1990.........                 39.13
SB 737-531042, Rev. 9 dated July 25, 1991.........                 39.13
SB 737-53A1108, Revision 1, dated March 12, 1987..                 39.13
SB 737-53A1108, Revision 2, dated August 13, 1987.                 39.13
SB 737-53A1108, Revision 3, dated March 3, 1988...                 39.13
SB 737-53A1108, Revision 4, dated November 17,                     39.13
  1988.
SB 737-53A1108, Revision 5, dated October 26, 1989                 39.13
SB 737-53A1166, Rev. 1, dated May 25, 1995,                        39.13
  including Addendum.
SB 737-54-1007, Rev. 1, dated March 26, 1998......                 39.13
SB 737-54-1009, Rev. 1, dated March 26, 1998......                 39.13
SB 737-54-1028 Rev. 1 dated July 11, 1991.........                 39.13
SB 737-54A1012, Rev. 4, dated March 26, 1998......                 39.13
SB 737-55-1063, dated July 1, 1999................                 39.13
SB 737-55-1063, dated July 1, 1999................                 39.13
SB 737-57-1129, Rev. 1, dated October 30, 1981, as                 39.13
  revised by Notice of Status Change 737-57-
  1129NSC1, dated July 23, 1982; Notice of Status 
  Change 737-57-1129NSC2, dated April 14, 1983; 
  Notice of Status Change 737- 57-1129NSC3, dated 
  May 18, 1995.
SB 737-57-1221, dated August 6, 1992..............                 39.13
SB 737-57-1221, Rev. 2, dated November 17, 1994...                 39.13
SB 737-71-1203, Rev. 3 dated June 1, 1989.........                 39.13
SB 737-71-1250, dated June 14, 1990...............                 39.13
SB 737-71-1289, dated August 19, 1993.............                 39.13
SB 737-76-1023 dated February 14, 1991............                 39.13
SB 737-77-1031, Rev. 1, dated May 14, 1992........                 39.13
SB 737-78-1048, Rev. 1 dated February 22, 1990....                 39.13
SB 737-78-1053, Rev. 1, dated July 1, 1993........                 39.13
SB 737-78-1053, Rev. 2, dated February 17, 1994...                 39.13
SB 737-78-1053, Rev. 3, dated June 30, 1994.......                 39.13
SB 737-78-1058, dated July 1, 1993................                 39.13
SB 737-78-1058, Rev. 1, dated February 17, 1994...                 39.13
SB 737-78-1058, Rev. 2, dated July 7, 1994........                 39.13
SB 737-SL-27-82-B, dated July 13, 1993............                 39.13
SB 747-21-2317 dated May 30, 1991.................                 39.13
SB 747-24-2154 dated February 7, 1991.............                 39.13
SB 747-24-2193, dated January 26, 1995,...........                 39.13
SB 747-24A2186, Rev. 1, dated May 20, 1993........                 39.13
SB 747-25-2734 dated November 3, 1988.............                 39.13
SB 747-25-2734, Rev. 1 dated May 25, 1989.........                 39.13
SB 747-25-2754 dated March 30, 1989...............                 39.13
SB 747-25-2807, Rev. 2 dated Aug. 22, 1991........                 39.13
SB 747-25-2951 dated Aug. 15, 1991................                 39.13

[[Page 940]]

SB 747-25-3073, dated September 21, 1995..........                 39.13
SB 747-25-3132, dated December19, 1996............                 39.13
SB 747-25-3132, Rev. 1, dated January 15, 1998....                 39.13
SB 747-25A3137, dated March 13, 1997..............                 39.13
SB 747-25A3142, Revision 1, dated August 6, 1998..                 39.13
SB 747-26-2143, Rev. 1 dated Aug. 15, 1991........                 39.13
SB 747-26-2162 dated September 20, 1990...........                 39.13
SB 747-26-2164 dated Feb. 14, 1991................                 39.13
SB 747-26-2168 dated Mar. 28. 1991................                 39.13
SB 747-27-2367, dated June 25, 1998...............                 39.13
SB 747-27-2367, Revision 1, dated December 17,                     39.13
  1998.
SB 747-27A2346, Rev. 2, dated January 12, 1995....                 39.13
SB 747-27A2356, Revision 1, dated August 13, 1998.                 39.13
SB 747-28-2146, dated August 13, 1992.............                 39.13
SB 747-28-2153 dated July 18, 1991................                 39.13
SB 747-28-2154 dated June 27, 1991................                 39.13
SB 747-28-2160, dated July 23, 1992...............                 39.13
SB 747-28-2160, Rev. 1, dated December 16, 1993...                 39.13
SB 747-28-2205, Revision 1, dated April 16, 1998..                 39.13
SB 747-28A2194, Rev. 1, dated January 18, 1996....                 39.13
SB 747-28A2209, Revision 1, dated February 18,                     39.13
  1999.
SB 747-31-2288, dated December 17, 1998...........                 39.13
SB 747-31-2288, Revision 1, dated January 28, 1999                 39.13
SB 747-35-2074, Rev. 1 dated Dec. 12, 1991........                 39.13
SB 747-36-2081 dated November 29, 1990............                 39.13
SB 747-36-2092 dated June 28, 1990................                 39.13
SB 747-36A2097, Rev. 3, dated September 28, 1995..                 39.13
SB 747-38A2105, Rev. 1, dated March 2, 1995.......                 39.13
SB 747-51-2048, Rev. 1, dated January 27, 1994....                 39.13
SB 747-52-2186, Rev. 4, dated October 24, 1991....                 39.13
SB 747-52-2186, Rev. 4, dated October 24, 1991....                 39.13
SB 747-53-2275, dated March 26, 1987..............                 39.13
SB 747-53-2275, Rev. 1, dated August 13, 1987.....                 39.13
SB 747-53-2275, Rev. 2, dated March 31, 1988......                 39.13
SB 747-53-2275, Rev. 3, dated March 29, 1990......                 39.13
SB 747-53-2275, Rev. 4, dated March 26, 1992......                 39.13
SB 747-53-2275, Rev. 5, dated January 16, 1997....                 39.13
SB 747-53-2283, Rev. 3 dated Nov. 1, 1989.........                 39.13
SB 747-53-2302 dated December 13, 1990............                 39.13
SB 747-53-2307, Rev. 2, dated October 14, 1993....                 39.13
SB 747-53-2349, dated June 27, 1991...............                 39.13
SB 747-53-2349, dated June 27, 1991...............                 39.13
SB 747-53-2358, dated August 26, 1993.............                 39.13
SB 747-53-2366, including the Addendum, dated                      39.13
  August 6, 1992.
SB 747-53-2367, dated December 18, 1991...........                 39.13
SB 747-53-2367, Rev. 1, dated January 27, 1994....                 39.13
SB 747-53-2371, including the ADDENDUM, dated July                 39.13
  29, 1993.
SB 747-53A2267, Rev. 3, dated March 26, 1992......                 39.13
SB 747-53A2275, Rev. 6, dated August 27, 1998.....                 39.13
SB 747-53A2312, Rev. 2, dated October 8, 1992.....                 39.13
SB 747-53A2377, Rev. 1, dated January 28, 1993....                 39.13
SB 747-53A2377, Rev. 2, dated October 6, 1994.....                 39.13
SB 747-53A2378, Rev. 1, dated March 10, 1994......                 39.13

[[Page 941]]

SB 747-53A2396, Rev. 1, dated February 22, 1996...                 39.13
SB 747-54-2062, Rev. 7, dated December 21, 1994...                 39.13
SB 747-54-2062, Rev. 8, dated August 21, 1997.....                 39.13
SB 747-54-2063, Rev. 9 dated April 23, 1992.......                 39.13
SB 747-54-2091, Rev. 1, dated October 22, 1984....                 39.13
SB 747-54-2091, Rev. 2, dated March 31, 1988......                 39.13
SB 747-54-2091, Rev. 5, dated April 26, 1990......                 39.13
SB 747-54-2091; Rev. 3, dated July 27, 1989.......                 39.13
SB 747-54-2091; Rev. 4, dated December 14, 1989...                 39.13
SB 747-54-2118, dated July 25, 1986...............                 39.13
SB 747-54-2118, Rev. 1, dated May 21, 1987........                 39.13
SB 747-54-2118, Rev. 2, dated April 21, 1988......                 39.13
SB 747-54-2118, Rev. 3, dated September 29, 1988..                 39.13
SB 747-54-2118, Rev. 4, dated May 11, 1989........                 39.13
SB 747-54-2155, Revision 2, dated June 6, 1996....                 39.13
SB 747-54-2160, dated September 9, 1993...........                 39.13
SB 747-54A2126, Revision 6, dated August 28, 1997.                 39.13
SB 747-54A2157, Rev. 1, dated August 3, 1995......                 39.13
SB 747-54A2157, Rev. 2, dated November 14, 1996...                 39.13
SB 747-54A2158, Rev. 1, dated August 17, 1995.....                 39.13
SB 747-54A2158, Rev. 2, dated August 15, 1996.....                 39.13
SB 747-54A2159, Rev. 1, dated June 1, 1995........                 39.13
SB 747-54A2159, Rev. 2, dated March 14, 1996......                 39.13
SB 747-54A2172, Revision 1, dated January 4, 1996.                 39.13
SB 747-57-2263, Revision 1, dated December 21,                     39.13
  1995.
SB 747-57-2263, Revision 2, dated March 26, 1998,                  39.13
  including Appendix A, dated March 26, 1998.
SB 747-57A2266 dated June 6, 1991.................                 39.13
SB 747-57A2266, Rev. 1, dated May 21, 1992........                 39.13
SB 747-57A2266, Rev. 2, dated June 10, 1993.......                 39.13
SB 747-57A2266, Rev. 3, dated March 31, 1994......                 39.13
SB 747-57A2266, Rev. 4, dated November 3, 1994....                 39.13
SB 747-57A2298, Rev. 1, dated September 12, 1996..                 39.13
SB 747-57A2302, Revision 1, dated June 18, 1998...                 39.13
SB 747-57A2303, Revision 1, dated September 25,                    39.13
  1997.
SB 747-71-2206, dated April 16, 1987..............                 39.13
SB 747-71-2206, Revision 1, including List of                      39.13
  Effective Pages, dated November 12, 1987; and 
  Boeing Notice of Status Change 747-71- 2206 NSC 
  1, dated December 4, 1987, and Boeing Notice of 
  Status Change 747-71-2206 NSC 2, dated March 17, 
  1988.
SB 747-71A2277, Revision 1, dated May 21, 1998....                 39.13
SB 747-71A2277, Revision 2, dated January 14, 1999                 39.13
SB 747-78-2052, Rev. 4, dated March 23, 1989......                 39.13
SB 747-78-2112, dated November 11, 1993...........                 39.13
SB 747-78-2113, dated Nov. 11, 1993...............                 39.13
SB 747-78-2115, dated October 28, 1993............                 39.13
SB 747-78-2136, dated May 11, 1995................                 39.13
SB 747-78-2156, dated October 31, 1996............                 39.13
SB 747-78A2148, dated June 1, 1995................                 39.13
SB 747-78A2148, Revision 1, dated July 20, 1996...                 39.13
SB 747-78A2165, Revision 1, dated May 13, 1999....                 39.13
SB 747-78A2166, Revision 1, dated October 9, 1997.                 39.13
SB 747-78A2166, Revision 1, dated October 9, 1997.                 39.13

[[Page 942]]

SB 757-0181, dated June 26, 1997..................                 39.13
SB 757-25-0130, Rev. 1 dated June 4, 1992.........                 39.13
SB 757-25-0175, dated May 30, 1996................                 39.13
SB 757-25-0175, Rev. 1, dated March 6, 1997.......                 39.13
SB 757-25-0175, Rev. 2, dated January 29, 1998....                 39.13
SB 757-25-0180, dated October 9, 1997.............                 39.13
SB 757-25-0182, Revision 1, dated June 12, 1997...                 39.13
SB 757-25-0183, dated December 19, 1996...........                 39.13
SB 757-25-0183, Rev. 2, dated January 15, 1998....                 39.13
SB 757-25-0200, dated January 21, 1999............                 39.13
SB 757-25A0121, Rev. 1 dated Mar. 19, 1992........                 39.13
SB 757-27-0099 dated March 12, 1992...............                 39.13
SB 757-28A0028 dated Oct. 1991....................                 39.13
SB 757-31-0066, Revision 1, dated December 17,                     39.13
  1998.
SB 757-52-0042, Rev. 1, dated April 26, 1990......                 39.13
SB 757-52-0055 dated June 25, 1992................                 39.13
SB 757-53-0056, Original dated Sept. 27, 1990.....                 39.13
SB 757-53A0060 dated Aug. 8, 1991.................                 39.13
SB 757-54-0028, dated March 31, 1994..............                 39.13
SB 757-54-0031, Rev. 2, dated December 19, 1996...                 39.13
SB 757-54-0035, dated July 17, 1997...............                 39.13
SB 757-54A0019, Rev. 3, dated March 26, 1992......                 39.13
SB 757-54A0019, Rev. 4, dated May 27, 1993........                 39.13
SB 757-54A0019, Rev. 5, dated March 17, 1994......                 39.13
SB 757-54A0020, Rev. 4, dated May 27, 1993........                 39.13
SB 757-54A0020, Rev. 5, dated March 17, 1994......                 39.13
SB 757-54A0020, Rev. 6, dated July 18, 1997.......                 39.13
SB 757-56-0007, dated May 6, 1993.................                 39.13
SB 757-57-0027, Rev. 1 dated March 15, 1990.......                 39.13
SB 757-57-0036 dated June 13, 1991................                 39.13
SB 757-57-0053, dated February 6, 1997............                 39.13
SB 757-57-0053, Rev. 1, dated January 15, 1998....                 39.13
SB 757-76-0007, Rev. 2, dated January 23, 1992....                 39.13
SB 757-76-0009, Revision 1, dated December 3, 1998                 39.13
SB 757-76-0010, dated August 12, 1993.............                 39.13
SB 757-76-0011, dated December 2, 1993............                 39.13
SB 757-78-0012, dated August 31, 1989.............                 39.13
SB 757-78-0025 dated September 9, 1991............                 39.13
SB 757-78-0032, Rev. 2, dated May 12, 1994........                 39.13
SB 757-78-0035, Rev. 2, dated June 23, 1994.......                 39.13
SB 767 dated July 18, 1991........................                 39.13
SB 767, Rev. 1 dated Feb. 13, 1992................                 39.13
SB 767-21A0098 dated May 9, 1991..................                 39.13
SB 767-25-0137, Rev. 1 dated May 9, 1991..........                 39.13
SB 767-25-0216, dated February 3, 1994............                 39.13
SB 767-25-0218, dated December 15, 1994...........                 39.13
SB 767-25-0244, dated December 19, 1996...........                 39.13
SB 767-25-0244, Rev. 1, dated January 15, 1998....                 39.13
SB 767-27-0096, dated April 23, 1992..............                 39.13
SB 767-27-0096, dated April 23, 1992..............                 39.13
SB 767-27-0096, dated April 23, 1992..............                 39.13
SB 767-27-0104 dated November 15, 1990............                 39.13
SB 767-27-0104, Rev. 1 dated May 30, 1991.........                 39.13

[[Page 943]]

SB 767-27-0104, Rev. 2 dated Sept. 12, 1991.......                 39.13
SB 767-27-0108, Rev. 1, dated October 1, 1992.....                 39.13
SB 767-27-0108, Rev. 1, dated October 1, 1992.....                 39.13
SB 767-27-0108, Rev. 1, dated October 1, 1992.....                 39.13
SB 767-27A0094, Rev. 5, dated June 9, 1994, and                    39.13
  Boeing SB 767-27-0138, dated August 17, 1995.
SB 767-31-0106, Revision 1, dated December 17,                     39.13
  1998.
SB 767-32-0128, Rev. 1, dated March 31, 1994......                 39.13
SB 767-32A0116, Rev. 1, dated January 13, 1994....                 39.13
SB 767-32A0126, Rev. 1, dated January 13, 1994....                 39.13
SB 767-32A0148, Rev. 1, dated October 10, 1996....                 39.13
SB 767-32A0151, Rev. 1, dated October 10, 1996....                 39.13
SB 767-32A0157, dated October 10, 1996............                 39.13
SB 767-33-0052, Rev. 1, dated December 8, 1994 as                  39.13
  revised by Notice of Status Change 767-33-0052 
  NSC 01, dated May 9, 1996.
SB 767-36A0041, Rev. 1, dated February 25, 1993...                 39.13
SB 767-36A0041, Rev. 1, dated February 25, 1993...                 39.13
SB 767-36A0041, Rev. 2, dated October 28, 1993....                 39.13
SB 767-52A0053, Rev. 2, dated April 30, 1992......                 39.13
SB 767-52A0053, Rev. 2, dated April 30, 1992......                 39.13
SB 767-52A0061, Rev. 1 dated Sept. 26, 1991.......                 39.13
SB 767-56-0002 as amended by Notice of Status                      39.13
  Change Number 767-56-0002 NSC 1, dated July 3, 
  1986.
SB 767-56-0002, dated August 30, 1985.............                 39.13
SB 767-57-0043, Rev. 1, dated May 6, 1993.........                 39.13
SB 767-57-0043, Rev. 2, dated September 16, 1993..                 39.13
SB 767-57-0043, Rev. 3, dated February 2, 1995....                 39.13
SB 767-57A0039, Rev. 1, dated October 15, 1992....                 39.13
SB 767-57A0039, Rev. 1, dated October 15, 1992....                 39.13
SB 767-57A0064, Revision 1, dated July 9, 1998....                 39.13
SB 767-76-0010, Revision 1, dated February 20,                     39.13
  1992.
SB 767-78-0046 dated July 2, 1991.................                 39.13
SB 767-78-0046, Rev. 1 dated Sept. 17, 1992.......                 39.13
SB 767-78-0047 dated August 22, 1991..............                 39.13
SB 767-78-0047, Rev. 1, dated March 26, 1992......                 39.13
SB 767-78-0047, Rev. 2, dated January 21, 1993....                 39.13
SB 767-78-0047, Rev. 3, dated July 28, 1994.......                 39.13
SB 767-78-0048 dated August 15, 1991..............                 39.13
SB 767-78-0048, Rev. 1, dated March 26, 1992......                 39.13
SB 767-78-0051 dated October 9, 1991..............                 39.13
SB 767-78-0054 dated Dec. 13, 1991................                 39.13
SB 767-78-0059, Rev. 2, dated June 10, 1993.......                 39.13
SB 767-78-0059, Rev. 3, dated January 20, 1994....                 39.13
SB 767-78-0060, Rev. 2, dated August 19, 1993.....                 39.13
SB 767-78-0061, Rev. 1, dated August 5, 1993......                 39.13
SB 767-78-0062, Rev. 2, dated June 3, 1993........                 39.13
SB 767-78-0062, Rev. 3, dated February 24, 1994...                 39.13
SB 767-78-0063 dated Dec. 13, 1991................                 39.13
SB 767-78-0063, Rev. 2, dated April 28, 1994......                 39.13
SB 767-78A0052, Rev. 2 dated May 28, 1992.........                 39.13
SB 777-32-0016, dated January 14, 1999............                 39.13
SB 777-53-0006, dated May 8, 1997.................                 39.13
SB 777-53A0018, Revision 1, dated February 11,                     39.13
1999.
[[Page 944]]

SB Notice of Status Change 737-71-1289 NSC 03,                     39.13
  dated October 3, 1996.
SB Notice of Status Change 737-71-1289 NSC 1,                      39.13
  dated September 2, 1993.
SB Notice of Status Change 737-71-1289 NSC 2,                      39.13
  dated January 26, 1995.
SB Notice of Status Change, 747-54-2118, dated                     39.13
  October 5, 1986.
Service Bulletin 1541 Revision 3 dated February                    39.13
  15, 1967.
Service Bulletin 2999 Revision 3 dated January 12,                 39.13
  1972.
Service Bulletin 2999 Revision 4 dated January 31,                 39.13
  1991.
Service Bulletin 3499 Revision 1 dated May 17,                     39.13
  2001.
Service Bulletin 727-25-0294 dated May 25, 2000...                 39.13
Service Bulletin 727-25-0295 Revision 1 dated May                  39.13
  17, 2001.
Service Bulletin 727-52-79 Revision 4 dated June                   39.13
  19, 1981.
Service Bulletin 727-52-79 Revision 5 dated June                   39.13
  17, 1983.
Service Bulletin 727-52A0079 Revision 6 dated                      39.13
  January 11, 1990.
Service Bulletin 727-53-0054 Revision 1 dated                      39.13
  November 16, 1989.
Service Bulletin 727-53-0084 Revision 4 dated                      39.13
  August 2, 1990.
Service Bulletin 727-53-0186 Revision 1 dated May                  39.13
  21, 1992.
Service Bulletin 727-57-0127 Revision 3 dated                      39.13
  August 24, 1989.
Service Bulletin 727-57-0177 dated December 22,                    39.13
  1988.
Service Bulletin 727-57-0177 Revision 1 dated                      39.13
  November 21, 1991.
Service Bulletin 727-57-0177 Revision 2 dated                      39.13
  September 16, 1993.
Service Bulletin 727-57-0177 Revision 3 dated                      39.13
  February 15, 1996.
Service Bulletin 727-57-0177 Revision 4 dated                      39.13
  October 28, 1999.
Service Bulletin 727-57A0179 Revision 5 dated                      39.13
  December 20, 2000.
Service Bulletin 727-57A0182 Revision 1 dated                      39.13
  February 25, 1999.
Service Bulletin 737-24-1128 dated April 29, 1999.                 39.13
Service Bulletin 737-25-1047 dated December 9,                     39.13
  1999.
Service Bulletin 737-25-1322 Revision 2 dated                      39.13
  February 19, 1998.
Service Bulletin 737-25-1371 Revision 2 dated                      39.13
  December 9, 1999.
Service Bulletin 737-25-1404 dated May 25, 2000...                 39.13
Service Bulletin 737-25-1405 dated May 25, 2000...                 39.13
Service Bulletin 737-25-1412 Revision 1 dated May                  39.13
  17, 2001.
Service Bulletin 737-27A1214 Revision 1 dated July                 39.13
  1, 1999.
Service Bulletin 737-28-1164 Revision 1 dated May                  39.13
  10, 2001.
Service Bulletin 737-32-1253 dated November 7,                     39.13
  1991.
Service Bulletin 737-35-1049 dated September 17,                   39.13
  1998.
Service Bulletin 737-52-1100 Revision 2 dated                      39.13
  March 31, 1994.
Service Bulletin 737-53-1173 Revision 1 dated                      39.13
  April 25, 1996.
Service Bulletin 737-53-1212, including Appendix A                 39.13
  dated August 13, 1998.
Service Bulletin 737-55-1067 dated October 19,                     39.13
  2000.
Service Bulletin 737-55A-1064 Revision 1 dated                     39.13
  December 7, 2000.
Service Bulletin 737-55A1070, including Appendices                 39.13
  A, B, and C Revision 1 dated May 10, 2001.
Service Bulletin 737-57-1067 Revision 4 dated                      39.13
  November 7, 1991.
Service Bulletin 737-57-1129 Revision 2 dated May                  39.13
  28, 1998.
Service Bulletin 737-57-1139 Revision 4 dated                      39.13
  April 16, 1992.
Service Bulletin 737-57-1210 dated April 4, 1991..                 39.13
Service Bulletin 737-57-1253 dated December 16,                    39.13
  1999.
Service Bulletin 747-25-3196 Revision 1 dated May                  39.13
  13, 1999.
Service Bulletin 747-25-3244 Revision 1 dated May                  39.13
17, 2001.
[[Page 945]]

Service Bulletin 747-25-3253, including Appendices                 39.13
  A, B, and C dated June 29, 2000.
Service Bulletin 747-26-2233 dated May 11, 1995...                 39.13
Service Bulletin 747-27-2374 dated November 18,                    39.13
  1999.
Service Bulletin 747-28A2199 Revision 1 dated                      39.13
  October 1, 1998.
Service Bulletin 747-28A2199 Revision 2 dated July                 39.13
  8, 1999.
Service Bulletin 747-28A2212 Revision 3 dated                      39.13
  August 3, 2000.
Service Bulletin 747-31-2245 dated June 27, 1996..                 39.13
Service Bulletin 747-31-2246 dated May 2, 1996....                 39.13
Service Bulletin 747-32-2190 Revision 4 dated                      39.13
  October 26, 1989.
Service Bulletin 747-45-2007 dated March 29, 1990.                 39.13
Service Bulletin 747-45-2016 Revision 1 dated May                  39.13
  2, 1996.
Service Bulletin 747-45-2016 Revision 1 dated May                  39.13
  2, 1996.
Service Bulletin 747-52-2260 Revision 1 dated                      39.13
  March 21, 1996.
Service Bulletin 747-53-2327 Revision 2 dated                      39.13
  September 24, 1998.
Service Bulletin 747-53A2410 Revision 3 dated                      39.13
  March 12, 1998.
Service Bulletin 747-53A2417 Revision 1 dated July                 39.13
  23, 1998.
Service Bulletin 747-53A2444 Revision 1 dated June                 39.13
  15, 2000.
Service Bulletin 747-53A2449 Revision 1 dated May                  39.13
  24, 2001.
Service Bulletin 747-54A2196 Revision 1 dated                      39.13
  August 17, 2000.
Service Bulletin 747-54A2200 Revision 1 dated                      39.13
  February 15, 2001.
Service Bulletin 747-54A2206 Revision 1 dated                      39.13
  February 22, 2001.
Service Bulletin 747-54A2206 Revision 2 dated May                  39.13
  17, 2001.
Service Bulletin 747-57-2305 Revision 1 dated                      39.13
  January 21, 1999.
Service Bulletin 747-57A2298 Revision 2 dated                      39.13
  October 2, 1997.
Service Bulletin 747-57A2309 Revision 1 dated                      39.13
  December 22, 1999.
Service Bulletin 747-57A2310 Revision 1 dated                      39.13
  November 23, 1999.
Service Bulletin 747-57A2310 Revision 2 dated                      39.13
  February 22, 2001.
Service Bulletin 747-71-2285 dated October 8, 1998                 39.13
Service Bulletin 747-71-2290 dated March 18, 1999.                 39.13
Service Bulletin 747-73-2052 Revision 1 dated                      39.13
  April 23, 1992.
Service Bulletin 747-76-2067 Revision 1 dated                      39.13
  November 19, 1987.
Service Bulletin 747-76A2068 Revision 3 dated                      39.13
  August 22, 1991.
Service Bulletin 747-78-2121 dated October 29,                     39.13
  1992.
Service Bulletin 747-78-2135 dated August 31, 1995                 39.13
Service Bulletin 747-78-2144 Revision 1 dated                      39.13
  April 11, 1996.
Service Bulletin 747-78-2150 Revision 1 dated July                 39.13
  2, 1998.
Service Bulletin 747-78-2153 Revision 1 dated                      39.13
  November 27, 1996.
Service Bulletin 747-78-2154 Revision 3 dated                      39.13
  December 11, 1997.
Service Bulletin 747-78-2155 Revision 2 dated                      39.13
  November 5, 1998.
Service Bulletin 747-78-2157 Revision 2 dated                      39.13
  November 26, 1997.
Service Bulletin 747-78-2158 Revision 2 dated July                 39.13
  29, 1999.
Service Bulletin 747-78A2113 Revision 2 dated June                 39.13
  8, 1995.
Service Bulletin 747-78A2113 Revision 3 dated                      39.13
  September 11, 1997.
Service Bulletin 747-78A2149 Revision 1 dated May                  39.13
  9, 1996.
Service Bulletin 747-78A2149 Revision 2 dated                      39.13
  August 29, 1996.
Service Bulletin 747-78A2164 Revision 2 dated                      39.13
  December 3, 1998.
Service Bulletin 747-78A2166 Revision 1 dated                      39.13
  October 9, 1997.
Service Bulletin 757-25-0217 dated May 25, 2000...                 39.13
Service Bulletin 757-25-0218 dated May 25, 2000...                 39.13
Service Bulletin 757-25-0223 Revision 1 dated May                  39.13
  17, 2001.
Service Bulletin 757-25-0226, including Appendices                 39.13
A, B, and C dated July 3, 2000.
[[Page 946]]

Service Bulletin 757-25-0228, including Appendices                 39.13
  A, B, and C dated July 3, 2000.
Service Bulletin 757-27A0086 Revision 2 dated July                 39.13
  27, 1989.
Service Bulletin 757-27A0127 Revision 1 dated                      39.13
  September 2, 1999.
Service Bulletin 757-35-0014 dated September 10,                   39.13
  1998.
Service Bulletin 757-54-0013 Revision 3 dated                      39.13
  October 23, 1997.
Service Bulletin 757-54-0027 Revision 1 dated                      39.13
  October 27, 1994.
Service Bulletin 757-54-0031 Revision 4 dated                      39.13
  November 11, 1999.
Service Bulletin 757-54-0034 dated May 14, 1998...                 39.13
Service Bulletin 757-54-0036 dated May 14, 1998...                 39.13
Service Bulletin 757-57A0054 Revision 1 dated                      39.13
  December 16, 1999.
Service Bulletin 76-2019 dated June 9, 1971.......                 39.13
Service Bulletin 767-25-0288 Revision 1 dated May                  39.13
  17, 2001.
Service Bulletin 767-25-0290, including Appedices                  39.13
  A, B, and C dated June 29, 2000.
Service Bulletin 767-27A0159 Revision 1 dated                      39.13
  April 5, 2001.
Service Bulletin 767-28-0059 dated December 22,                    39.13
  1999.
Service Bulletin 767-28A0050 Revision 1 dated                      39.13
  December 22, 1999.
Service Bulletin 767-28A0053 Revision 1 dated                      39.13
  August 5, 1999.
Service Bulletin 767-29-0057 dated December 16,                    39.13
  1993.
Service Bulletin 767-29-0057 dated December 16,                    39.13
  1993.
Service Bulletin 767-29-0057, Notice of Status                     39.13
  Change 1 dated November 23, 1994.
Service Bulletin 767-32A0163 Revision 1 dated                      39.13
  October 1, 1998.
Service Bulletin 767-33A0075 Revision 1 dated May                  39.13
  27, 1999.
Service Bulletin 767-35-0033 dated September 10,                   39.13
  1998.
Service Bulletin 767-51A0020 Revision 1 dated July                 39.13
  22, 1999.
Service Bulletin 767-53-0078 Revision 2 dated                      39.13
  April 19, 2001.
Service Bulletin 767-53-0085 dated May 14, 1998...                 39.13
Service Bulletin 767-54-0059 dated July 28, 1994..                 39.13
Service Bulletin 767-54-0069 Revision 1 dated                      39.13
  January 29, 1998.
Service Bulletin 767-54-0069 Revision 1 dated                      39.13
  January 29, 1998.
Service Bulletin 767-54-0069 Revision 2 dated                      39.13
  August 31, 2000.
Service Bulletin 767-54-0080, including Appendix A                 39.13
  dated October 7, 1999.
Service Bulletin 767-54-0081, including Appendices                 39.13
  A, B, and C dated July 29, 1999.
Service Bulletin 767-54-0082 dated October 28,                     39.13
  1999.
Service Bulletin 767-54-0083 dated September 17,                   39.13
  1998.
Service Bulletin 767-54-0083 dated September 17,                   39.13
  1998.
Service Bulletin 767-54-0088 Revision 1 dated July                 39.13
  29, 1999.
Service Bulletin 767-54-0088 Revision 1 dated July                 39.13
  29, 1999.
Service Bulletin 767-54A0094 Revision 1 dated                      39.13
  September 16, 1999.
Service Bulletin 767-54A0101 Revision 1 dated                      39.13
  February 3, 2000.
Service Bulletin 767-57-0053 Revision 2 dated                      39.13
  September 23, 1999.
Service Bulletin 767-57-0053 Revision 2 dated                      39.13
  September 23, 1999.
Service Bulletin 767-57-0068 dated September 16,                   39.13
  1999.
Service Bulletin 767-57A0060 Revision 1 dated                      39.13
  December 31, 1998.
Service Bulletin 767-57A0070 Revision 1 dated                      39.13
  November 16, 2000.
Service Bulletin 767-71-0088 dated October 8, 1998                 39.13
Service Bulletin 767-73-0051 dated December 20,                    39.13
  2000.
Service Bulletin 767-73A0049 Revision 3 dated                      39.13
  December 20, 2000.
Service Bulletin 767-73A0049 Revision 4 dated                      39.13
April 5, 2001.
[[Page 947]]

Service Bulletin 767-78-0084 dated October 21,                     39.13
  1999.
Service Bulletin 767-78A0079 Revision 2 dated                      39.13
  December 3, 1998.
Service Bulletin 767-78A0081 Revision 1 dated                      39.13
  October 9, 1997.
Service Bulletin 777-25-0111 Revision 1 dated May                  39.13
  13, 1999.
Service Bulletin 777-25-0120 Revision 1 dated                      39.13
  March 16, 2000.
Service Bulletin 777-25-0164, including Appendices                 39.13
  A, B, and C dated June 29, 2000.
Service Bulletin 777-35-0005 dated September 3,                    39.13
  1998.
Service Bulletin 777-53A0015 Revision 1 dated                      39.13
  March 2, 2000.
Service Bulletin 777-57-0033, including Appendix A                 39.13
  dated March 26, 1998.
Service Bulletin 777-57A0029 Revision 1 dated                      39.13
  August 12, 1999.
Service Bulletin A3500 Revision 1 dated April 26,                  39.13
  2001.
Service Bulletin MD11-24-163 Revision 1 dated                      39.13
  November 6, 2000.
Service Bulletin MD11-24-165 Revision 1 dated                      39.13
  November 6, 2000.
Service Bulletin MD11-24-167 Revision 1 dated                      39.13
  November 6, 2000.
Service Bulletin No. 3240 Revision 1 dated                         39.13
  November 13, 1981.
Service Bulletin No. 3240 Revision 2 dated May 3,                  39.13
  1985.
Service Letter 767-SL-73-1........................                 39.13
Service Letter 747-SL-73-14.......................                 39.13
Service Letter 737-SL-24-106, dated March 10,                      39.13
  1995, including Attachments I and II.
Service Letter 737-SL-24-111-B, including                          39.13
  Attachment dated January 16, 2001.
Service Letter 737-SL-24-138, including Attachment                 39.13
  dated May 24, 1999.
Service Letter 737-SL-27-112-B, dated February 6,                  39.13
  1997.
Service Letter 737-SL-27-118-A, dated November 14,                 39.13
  1997.
Service Letter 737-SL-27-118-D dated December 17,                  39.13
  1999.
Service Letter 737-SL-27-120 dated January 28,                     39.13
  1998.
Service Letter 737-SL-27-71-A, dated June 19,                      39.13
  1992, including Attachment 1.
Service Letter 737-SL-28-36 dated November 30,                     39.13
  1990.
Service Letter 737-SL-28-36, dated November 30,                    39.13
  1990.
Service Letter 737-SL-28-36, dated November 30,                    39.13
  1990; 737-SL-28-42, dated December 15, 1992; and 
  737-SL-28-42-A, dated July 15, 1993.
Service Letter 737-SL-28-42, dated December 15,                    39.13
  1992.
Service Letter 737-SL-28-42-A, dated July 15, 1993                 39.13
Service Letter 737-SL-29-21, dated December 16,                    39.13
  1982, including Attachments 1-3, dated April 15, 
  1982.
Service Letter 737-SL-49-14, Rev. A dated Mar. 29,                 39.13
  1989.
Service Letter 737-SL-49-14, Rev. B dated April                    39.13
  20, 1989.
Service Letter 747-SL-32-19, dated January 16,                     39.13
  1980.
Service Letter 747-SL-36-089 dated August 10, 1998                 39.13
Service Letter 757-SL-27-52-B dated April 30, 1990                 39.13
Service Letter 757-SL-52-6 dated September 17,                     39.13
  1991.
Service Letter 767-SL-32-067, dated August 4, 1995                 39.13
Service Letter 777-SL-24-023-B, dated August 16,                   39.13
  1999.
Service Letter 777-SL-24-024, dated August 16,                     39.13
  1999.
Service Letter 777-SL-24-025, dated August 18,                     39.13
  1999.
Special Attention Service Bulletin 737-24-1144                     39.13
  Revision 1 dated June 21, 2001.
Special Attention Service Bulletin 737-25-1403                     39.13
dated May 4, 2000.
[[Page 948]]

Special Attention Service Bulletin 737-28-0060                     39.13
  Revision 1 dated October 26, 2000.
Special Attention Service Bulletin 737-28-0061                     39.13
  Revision 1 dated October 26, 2000.
Special Attention Service Bulletin 737-28-1160                     39.13
  Revision 1 dated October 26, 2000.
Special Attention Service Bulletin 737-28-1164                     39.13
  dated August 24, 2000.
Special Attention Service Bulletin 737-35-1076                     39.13
  dated March 1, 2001.
Special Attention Service Bulletin 737-35-1077                     39.13
  dated March 1, 2001.
Special Attention Service Bulletin 747-31-2288                     39.13
  Revision 2 dated November 18, 1999.
Special Attention Service Bulletin 747-32-2461                     39.13
  dated August 19, 1999.
Special Attention Service Bulletin 747-35-2111                     39.13
  dated March 1, 2001.
Special Attention Service Bulletin 757-31-0066                     39.13
  Revision 2 dated November 18, 1999.
Special Attention Service Bulletin 757-35-0021                     39.13
  dated March 1, 2001.
Special Attention Service Bulletin 757-35-0022                     39.13
  dated March 1, 2001.
Special Attention Service Bulletin 767-31-0106                     39.13
  Revision 2 dated November 18, 1999.
Special Attention Service Bulletin 767-35-0043                     39.13
  dated March 1, 2001.
Special Attention Service Bulletin 767-35-0044                     39.13
  dated March 1, 2001.
Special Attention Service Bulletin 777-35-0008                     39.13
  dated March 1, 2001.
Special Attention Service Bulletin 777-53-0004                     39.13
  dated May 11, 2000.
Special Attention Service Bulletin 777-57-0038                     39.13
  dated February 24, 2000.
Standard Wiring Practice Manual 20-10-11, undated.                 39.13
Standard Wiring Practices Manual 20-10-13, undated                 39.13
Supplemental Structural Inspection Document D6-                    39.13
  35022, Rev. C dated April 1989.
Supplemental Structural Inspection Document for                    39.13
  Model 747 Aircraft, D6-35022 including Rev. A, 
  dated April 1984.
Supplemental Structural Inspection Document for                    39.13
  the Model 727 Aircraft, No. D6-48040-1, Rev. E.
Supplemental Structural Inspection Documents for                   39.13
  the Model 737 Aircraft, No. D6-37089, Volume 1 & 
  2, dated November 1983.
Telegram M-7272-91-1886 dated March 22, 1991......                 39.13
Telegraphic Alert Service Bulletin 737-53A1238                     39.13
  dated October 11, 2001.
Telegraphic Service Letter 737-SL-27-150 dated                     39.13
  February 14, 2000.
Telex M-7200-98-03173, dated October 21, 1998.....                 39.13
Telex M-7200-98-04486, dated December 1, 1998.....                 39.13
Telex M-7200-99-01098, dated February 5, 1999.....                 39.13
Telex Message M-7200-99-01528, dated March 5, 1999                 39.13
test dated erts...................................                 39.13
Wiring Diagram Manual Document D6-54446, Chapter                   39.13
  20, Rev. 21, dated June 1, 1994.
Section 9, Boeing Document D622N001-9 Revision                     39.13
  November 1998.
Section 9, Boeing Document D622N001-9 Revision May                 39.13
  1997.
(AC) 4313-1A, Chapter 11--(Electrical Systems),                    39.13
  Sections 1, 3, 5, and 7, Change 3, dated 1988.
SB 2174200-25-013 dated July 29, 1991.............                 39.13
SB 3092100-25-002 dated July 26, 1991.............                 39.13
SB 327400-27-171, Rev. 1, dated April 14, 1995....                 39.13
SB 93600-27-173, dated May 17, 1995...............                 39.13

[[Page 949]]

ASB 5006286-28-A5, Rev. 2, dated May 3, 1994......                 39.13
ASB 734187-27-A2, Rev. 1, dated September 15, 1990                 39.13
ASB 734378-27-A3, Rev. 1, dated January 25, 1991..                 39.13
ASB 734380-27-A2, Rev. 1, dated September 15, 1990                 39.13
ASB 734382-27-A3, Rev. 1, dated September 15, 1990                 39.13
ASB 734384-27-A2, Rev. 1, dated September 15, 1990                 39.13
ASB 734386-27-A2, Rev. 1, dated September 15, 1990                 39.13
ASB 734388-27-A1, Rev. 1, dated September 15, 1990                 39.13
SB ERPS13GCM-29-3, dated June 24, 1998............                 39.13


Boeing Commercial Aircraft Group

  Long Beach Division 3855 Lakewood Boulevard Long 
  Beach California 90846 ATTN: Data and Service 
  Management Dept. C1-L5A (D800-0024)
Alert Service Bulletin 717-27A0010 dated August                    39.13
  15, 2000.
Alert Service Bulletin 717-27A0016, including                      39.13
  Appendix dated April 9, 2001.
Alert Service Bulletin DC10-24A130 Revision 1                      39.13
  dated March 12, 2001.
Alert Service Bulletin DC10-24A137 Revision 1                      39.13
  dated May 31, 2001.
Alert Service Bulletin DC10-24A149 Revision 2                      39.13
  dated April 5, 2001.
Alert Service Bulletin DC10-24A164 dated June 22,                  39.13
  2000.
Alert Service Bulletin DC8-26A046 dated November                   39.13
  7, 2001.
Alert Service Bulletin DC9-24A160 Revision 2 dated                 39.13
  March 14, 2001.
Alert Service Bulletin DC9-24A193 dated July 31,                   39.13
  2001.
Alert Service Bulletin DC9-27A147 Revision 3 dated                 39.13
  May 8, 2001.
Alert Service Bulletin DC9-34A075 Revision 1 dated                 39.13
  April 30, 2001.
Alert Service Bulletin MD11-24A117 dated May 18,                   39.13
  2000.
Alert Service Bulletin MD11-24A179, including                      39.13
  Appendix A Revision 1 dated October 31, 2000.
Alert Service Bulletin MD11-24A189 dated June 22,                  39.13
  2000.
Alert Service Bulletin MD11-25A244 dated August                    39.13
  10, 2000.
Alert Service Bulletin MD11-25A244 Revision 1                      39.13
  dated October 31, 2000.
Alert Service Bulletin MD80-23A100 Revision 2                      39.13
  dated February 8, 2001.
Alert Service Bulletin MD80-30A092, including                      39.13
  Appendix dated March 14, 2001.
Alert Service Bulletin MD80-33A096 Revision 3                      39.13
  dated August 14, 2001.
Alert Service Bulletin MD80-33A099 Revision 3                      39.13
  dated January 27, 2000.
Alert Service Bulletin MD90-23A018 Revision 1                      39.13
  dated August 10, 2000.
Alert Service Bulletin MD90-30A023, including                      39.13
  Appendix dated March 14, 2001.
Service Bulletin 717-27-0013 dated January 30,                     39.13
  2001.
Service Bulletin 717-27-0013 Revision 1 dated                      39.13
  February 28, 2001.
Service Bulletin MD11-24-128 Revision 3 dated May                  39.13
  17, 2001.
Alert Service Bulletin MD11-29A057 Revision 1                      39.13
  dated October 21, 1999.
Alert Service Bulletin DC10-24A147 Revision 3                      39.13
  dated April 30, 2001.
Alert Service Bulletin DC10-24A174 dated June 29,                  39.13
  2001.
Alert Service Bulletin DC10-29A142 Revision 1                      39.13
dated October 21, 1999.
[[Page 950]]

Alert Service Bulletin DC8-24A068 Revision 1 dated                 39.13
  November 1, 1999.
Alert Service Bulletin DC8-24A075 Revision 1 dated                 39.13
  September 21, 1999.
Alert Service Bulletin DC8-24A075 Revision 2 dated                 39.13
  May 2, 2000.
Alert Service Bulletin DC8-27A275 R03 Revision 3                   39.13
  dated April 5, 1996.
Alert Service Bulletin DC8-30A032 Revision 2 dated                 39.13
  September 21, 1999.
Alert Service Bulletin DC8-33A053 Revision 2 dated                 39.13
  November 1, 1999.
Alert Service Bulletin DC8-33A070 dated November                   39.13
  1, 1999.
Alert Service Bulletin DC9-24A072 Revision 1 dated                 39.13
  May 22, 2000.
Alert Service Bulletin DC9-24A115 Revision 1 dated                 39.13
  April 24, 2000.
Alert Service Bulletin DC9-24A135 Revision 1 dated                 39.13
  May 1, 2000.
Alert Service Bulletin DC9-33A037 Revision 2 dated                 39.13
  July 27, 1999.
Alert Service Bulletin DC9-33A058 Revision 2 dated                 39.13
  January 27, 2000.
Alert Service Bulletin DC9-33A062 Revision 1 dated                 39.13
  April 24, 2000.
Alert Service Bulletin DC9-33A081 Revision 1 dated                 39.13
  November 8, 1999.
Alert Service Bulletin DC9-33A114 Revision 1 dated                 39.13
  February 15, 2000.
Alert Service Bulletin MD11-24A111 Revision 1                      39.13
  dated July 27, 2000.
Alert Service Bulletin MD11-24A157 dated August                    39.13
  10, 2000.
Alert Service Bulletin MD11-24A186 dated October                   39.13
  4, 2000.
Alert Service Bulletin MD11-24A186 Revision 1                      39.13
  dated May 16, 2001.
Alert Service Bulletin MD80-24A126 Revision 2                      39.13
  dated September 22, 1999.
Alert Service Bulletin MD80-29A067 dated October                   39.13
  21, 1999.
Alert Service Bulletin MD80-30A087 dated September                 39.13
  22, 1997.
Alert Service Bulletin MD90-24A003 Revision 1                      39.13
  dated January 11, 2000.
Alert Service Bulletin MD90-24A049 dated September                 39.13
  18, 1997.
Alert Service Bulletin MD90-24A060 Revision 2                      39.13
  dated February 28, 2001.
Alert Service Bulletin MD90-29A018 dated October                   39.13
  21, 1999.
DC-10 Service Bulletin 78-40 Revision 1 dated July                 39.13
  24, 1979.
DC-10 Service Bulletin 78-7 Revision 1 dated April                 39.13
  17, 1975.
DC-8 Alert Service Bulletin A27-275 Revision 2                     39.13
  dated August 5, 1992.
DC-9 Service Bulletin 27-103 dated March 19, 1968.                 39.13
Service Bulletin 30-59 dated September 18, 1989...                 39.13
Service Bulletin 30-59 Revision 1 dated January 5,                 39.13
  1990.
Service Bulletin 30-59 Revision 2 dated August 15,                 39.13
  1990.
Service Bulletin DC-1071-159 dated September 6,                    39.13
  1995.
Service Bulletin DC10-71-159 RO1 Revision 1 dated                  39.13
  July 28, 1997.
Service Bulletin DC10-78-060 dated December 17,                    39.13
  1999.
Service Bulletin DC10-78-061 dated February 9,                     39.13
  2000.
Service Bulletin DC10-78-062 dated February 14,                    39.13
  2000.
Service Bulletin DC9-27-325 R02 Revision 2 dated                   39.13
  December 12, 1995.
Service Bulletin MD11-34-085 Revision 1 dated                      39.13
  September 20, 1999.
Service Bulletin MD80-30-071 Revision 2 dated                      39.13
February 6, 1996.
[[Page 951]]

Service Bulletin MD80-30-078 Revision 1 dated                      39.13
  April 8, 1997.
Service Bulletin MD80-30-090 dated October 19,                     39.13
  1999.
Service Bulletin MD80-32-277 Revision 4 dated                      39.13
  December 7, 1999.
Service Bulletin 71-133 Revision 6 dated June 30,                  39.13
  1992.
Alert Service Bulletin A24-72 dated April 6, 1988.                 39.13
Service Bulletin 24-71 Revision 1 dated February                   39.13
  25, 1991.
Service Bulletin 24-72 dated January 14, 1992.....                 39.13
Service Bulletin 24-73 dated May 30, 1990.........                 39.13
Service Bulletin 33-63 dated May 6, 1976..........                 39.13
Aircraft Systems Modification Drawing 537L68229                    39.13
  dated May 18, 1999.
Aircraft Systems Modification Drawing 537L68230                    39.13
  dated May 18, 1999.
Aircraft Systems Modification Drawing 537L68231                    39.13
  dated May 18, 1999.
Aircraft Systems Modification Drawing 537L68232                    39.13
  dated May 18, 1999.
Service Bulletin MDC-CNS 78-41 dated June 11, 1999                 39.13
Overhaul Manual 24-20-46 Revision 8 dated August                   39.13
  15, 1983.


Boeing Vertol Company

  Boeing Center, P.O. Box 16858, Philadelphia, 
  Pennsylvania 19142
SB 107-113, Rev. A dated November 22, 1963........                 39.13
SB 107-116 (R-1), Rev. B dated February 21, 1983..                 39.13
SB 107-182, Rev. B dated July 26, 1965............                 39.13
SB 107-6, Maintenance Schedule, Section 2,                         39.13
  Temporary Rev. 31 dated February 7, 1986.
SB No. 234-32-1009 dated February 23, 1987........                 39.13
SBe/Boeing No. 234-63-1009 dated June 29, 1984....                 39.13


Bombardier Inc., Canadair, Aerospace Group

  P.O. Box 6087, Station Centre-ville, Montreal, 
  Quebec, Canada H3C 3G9
(Learjet 45) Alert Service Bulletin SB A45-30-2                    39.13
  dated December 18, 2000.
Advisory Wire 32-021 dated February 5, 2001.......                 39.13
Aerospace Information Letter SIL 32-016 dated                      39.13
  March 30, 2000.
Aerospace Repair Drawing RD8-21-23 Issue 2 dated                   39.13
  December 16, 1999.
Alert SB A600-0645, dated January 11, 1995........                 39.13
Alert SB A601-0443, dated January 11, 1995........                 39.13
Alert SB A8-27-73, dated November 25, 1993........                 39.13
Alert SB A8-28-20, Rev. A, dated September 10,                     39.13
  1996.
Alert SB A8-34-117, Rev. C, dated February 14,                     39.13
  1997.
Alert Service Bulletin (Learjet 60) SB A60-35-2                    39.13
  dated November 4, 1999.
Alert Service Bulletin A601R-24-103 Revision B                     39.13
  dated January 26, 2001.
Alert Service Bulletin A601R-28-045 Revision A                     39.13
  dated December 7, 2001.
Alert Service Bulletin A601R-32-079 Revision D                     39.13
  dated December 1, 2000.
Alert Service Bulletin A601R-57-027 Revision C                     39.13
  dated May 30, 2000.
Alert Service Bulletin A604-27-006 dated April 18,                 39.13
  2000.
Alert Service Bulletin A7-32-103 dated September                   39.13
  3, 1999.
Alert Service Bulletin A8-28-32 dated January 14,                  39.13
2000.
[[Page 952]]

Alert Service Bulletin A8-73-23 dated November 3,                  39.13
  2000.
Alert Service Bulletin S.B. A8-32-145 Revision A                   39.13
  dated December 3, 1999.
ASB 215-A476, Revision 3, dated August 21, 1998...                 39.13
ASB A601-0524, dated April 19, 1999...............                 39.13
ASB A604-73-001, dated April 19, 1999.............                 39.13
ASB A7-32-102, Rev. A, dated November 26, 1997....                 39.13
ASB A8-27-82, dated July 10, 1998.................                 39.13
ASB A8-32-139, Rev. A, dated November 26, 1997....                 39.13
ASB A8-33-39, Rev. A, dated October 24, 1997......                 39.13
SB 601R-27-053, Rev. B, dated February 21, 1997...                 39.13
SB 8-21-66, Rev. C, dated March 25, 1995..........                 39.13
SB 8-21-68, dated July 20, 1994...................                 39.13
SB 8-24-50, dated April 25, 1997..................                 39.13
SB 8-25-122, dated October 10, 1997...............                 39.13
SB 8-25-80, Rev. A, dated July 5, 1993............                 39.13
SB 8-25-89, Rev. E, dated July 6, 1994............                 39.13
SB 8-25-90, Rev. C, dated July 5, 1994............                 39.13
SB 8-25-91, Rev. D, dated July 20, 1994...........                 39.13
SB 8-25-92, Rev. E, dated July 20, 1994...........                 39.13
SB 8-25-93, Rev. C, dated July 20, 1994...........                 39.13
SB 8-27-76, dated October 31, 1994................                 39.13
SB 8-27-79, Rev. A, dated March 20, 1998..........                 39.13
SB 8-29-23, dated December 6, 1996................                 39.13
SB 8-29-29, dated February 27, 1998...............                 39.13
SB 8-32-128, Revision C, dated March 27, 1998.....                 39.13
SB 8-52-39, Revision C, dated September 1, 1997...                 39.13
SB 8-52-39, Revision D, dated February 27, 1998...                 39.13
SB 8-53-66, dated March 27, 1998..................                 39.13
SB S.B. 7-51-1, Rev. A, dated March 31, 1995......                 39.13
SB S.B. 7-54-19, Revision C, dated April 16, 1999.                 39.13
SB S.B. 7-57-37, dated August 8, 1997.............                 39.13
SB S.B. 8-32-131, dated September 8, 1995.........                 39.13
SB S.B. 8-33-40, Revision B, dated October 21,                     39.13
  1998.
SB S.B. TUS-28-20-02, dated November 13, 1997.....                 39.13
SB S.B. TUS-28-20-02-1, dated November 13, 1997...                 39.13
Service Bulletin 600-0684 dated July 15, 1998.....                 39.13
Service Bulletin 601-0507 dated June 30, 1998.....                 39.13
Service Bulletin 601R-27-104 dated October 15,                     39.13
  1999.
Service Bulletin 601R-57-029 dated May 30, 2000...                 39.13
Service Bulletin 604-32-007 dated June 30, 1998...                 39.13
Service Bulletin S.B. 8-24-69 Revision A dated                     39.13
  June 11, 1999.
Service Bulletin S.B. 8-33-35 Revision B dated                     39.13
  September 25, 1998.
Service Bulletin S.B. 8-51-2 Revision A dated                      39.13
  September 19, 1998.
Service Bulletin S.B. 8-55-24 dated February 26,                   39.13
  1998.
Service Bulletin S.B. GEN-28-010 Revision A dated                  39.13
  May 15, 2000.
Service Bulletin TUC-33-30-01-1 dated February 1,                  39.13
  2000.
Service Bulletin TUC-33-30-01-1 Revision A dated                   39.13
  March 10, 2000.
ASB A600-0644, Rev. 01, dated March 31, 1995......                 39.13
ASB A601-0441, Rev. 01, dated March 31, 1995......                 39.13
Technical Bulletin 912-08, dated August 16, 1995..                 39.13
Technical Bulletin 912-20 RI, dated February 10,                   39.13
  1998.
Technical Bulletin No. 914-04, dated August 1997..                 39.13

[[Page 953]]

Airplane Flight Manual Temporary Revision RJ/61-2                  39.13
  dated October 30, 1998.
Alert SB 215-A363, dated March 16, 1987...........                 39.13
Alert SB 215-A439, dated July 24, 1991............                 39.13
Alert SB 215-A462, dated June 2, 1993.............                 39.13
Alert SB S.B. A601R-24-019, Rev. ``A,'' dated                      39.13
  August 9, 1994.
Alert SB S.B. A601R-52-002, Rev. ``C,'' dated                      39.13
  December 1, 1993.
Alert Wire TA601-0381-003 dated June 11, 1991.....                 39.13
ASB 215-A3030, Rev. 1, dated April 16, 1992.......                 39.13
ASB 215-A454, Rev. 1, dated May 25, 1995..........                 39.13
ASB 215-A463, Rev. 1, dated May 25, 1995..........                 39.13
ASB 215-A476, Rev. 1, dated January 14, 1997......                 39.13
ASB A601-0370, Rev. 1, dated April 15, 1993.......                 39.13
ASB A601-0381, Rev. 2 dated Jan. 27, 1992.........                 39.13
ASB A601-0415, dated June 25, 1993, including                      39.13
  Appendix 1.
ASB A601R-24-085, Revision C, dated November 5,                    39.13
  1998.
ASB A601R-24-095, Revision A, dated March 25, 1999                 39.13
ASB A601R-27-011, Rev. A, dated September 21, 1993                 39.13
ASB A601R-28-036, Revision ``A,'' dated September                  39.13
  4, 1998.
ASB A601R-73-008, Revision A, dated April 10, 1999                 39.13
ASBs A600-0634 and A601-0421, Rev. 1, dated                        39.13
  September 16, 1993 (combined and issued as a 
  single document).
CL-415 Airplane Flight Manual Temporary Rev. No.                   39.13
  491/9, dated November 30, 1995.
Model CL-215-1A10 ASB 215-A435, dated August 14,                   39.13
  1990.
Model CL-215-1A10 ASB 215-A435, dated August 14,                   39.13
  1990.
SB 215-389, Rev. 1, dated September 30, 1991......                 39.13
SB 215-414, dated January 4, 1989.................                 39.13
SB 600-0638, dated April 25, 1994 and Canadair SB                  39.13
  601-0430, dated April 25, 1994.
SB A600-0581 dated Sept. 8, 1989..................                 39.13
SB A600-0612 dated April 24, 1991.................                 39.13
SB A601-0309 dated Sept. 8, 1989..................                 39.13
SB A601-0370 dated April 24, 1991.................                 39.13
SB S.B. 601R-27-015, Rev. ``A,'' dated October 31,                 39.13
  1994.
SB S.B. 601R-52-007, Rev. ``B,'' dated December 1,                 39.13
  1993.
Airplane Flight Manual Temporary Revision 604/13                   39.13
  dated February 1, 2001.
SB 600-0629, dated November 1, 1993...............                 39.13
SB 600-0679, dated September 12, 1997.............                 39.13
SB 601-0410, dated November 1, 1993...............                 39.13
SB 601-0454, dated May 15, 1995, as amended by                     39.13
  Canadair SB Information Sheet 601-0454, dated 
  July 14, 1995.
SB 601-0501, dated September 12, 1997.............                 39.13
SB 604-53-007, dated September 30, 1997...........                 39.13
SB No. 600-0637, Rev. 1, dated November 15, 1994..                 39.13
SB No. 601-0426, Rev. 1, dated November 15, 1994..                 39.13
Service Bulletin 600-0369 Revision 4 dated June                    39.13
  27, 1984.
Service Bulletin 601-0024 Revision 3 dated                         39.13
  November 27, 1984.
Airplane Flight Manual Temporary Revision RJ/68-1                  39.13
  dated February 15, 2000.
Alert SB A601R-32-037, Rev. ``A,'' dated December                  39.13
  2, 1994.
Alert SB A601R-32-062, Rev. ``C,'' dated September                 39.13
18, 1996.
[[Page 954]]

Alert SB A601R-53-045, dated June 25, 1997........                 39.13
Alert SB S.B. A601R-27-011, Rev. A dated September                 39.13
  21, 1993, as revised by Notice of Rev. A601R-27-
  011A-1, dated October 6, 1993, and Notice of 
  Rev. A601R-27-011A-2, dated June 14, 1994.
Alert SB S.B. A601R-27-041, dated October 28, 1994                 39.13
Alert SB S.B. A601R-27-058, Rev. ``A,'' dated                      39.13
  September 8, 1995.
Alert Service Bulletin A601R-53-045 Revision D                     39.13
  dated December 22, 1997.
ASB A601R-25-152, Revision A, dated February 25,                   39.13
  1999.
ASB A601R-34-028, Rev. A, dated October 22, 1993..                 39.13
ASB S.B.A601R-32-016, dated October 14, 1993......                 39.13
SB 601R-24-056, Rev. A, dated July 9, 1996........                 39.13
SB 601R-27-040, Rev. B, dated September 11, 1995..                 39.13
SB 601R-27-065, dated September 16, 1996..........                 39.13
SB 601R-32-065, dated November 11, 1996...........                 39.13
Service Bulletin 601R-53-046 Revision B dated                      39.13
  December 22, 1997.
Service Bulletin 601R-53-047 Revision D dated                      39.13
  December 22, 1997.
Service Bulletin S.B. 601R-27-100 Revision A dated                 39.13
  March 10, 2000.
Service Bulletin S.B. 601R-34-094 Revision B dated                 39.13
  November 14, 1997.
Temporary Revision RJ/50-2 dated June 1, 1997.....                 39.13
SB No. P180-32-11, dated September 26, 1994.......                 39.13
SB 631-32-125, dated May 7, 1996..................                 39.13
SB 631-32-126, dated May 7, 1996..................                 39.13
SB 631-32-127, Rev. 1, dated October 22, 1996.....                 39.13
SB 631-32-128, Rev. 1, dated November 15, 1996....                 39.13
SB 631-32-132, dated January 21, 1997.............                 39.13
SB 631-32-133, dated February 24, 1997, including                  39.13
  Change Notice No. 1, dated March 18, 1997.
SB F100-32-86, Rev. 2, dated July 3, 1997,                         39.13
  including Appendix A, Rev. 1, dated November 1, 
  1996, and Appendix B, Rev. 1, dated November 1, 
  1996.
SB F100-32-92, dated November 14, 1997............                 39.13
SB F50-32-48, Rev. 4, dated June 21, 1995.........                 39.13
SB No. M-DT 17002-32-10, Rev. 3, dated September                   39.13
  6, 1996.


Bombardier, Inc.

  Bombardier Regional Aircraft Division 123 
  Garratt Boulevard Downsview Ontario M3K 1Y5 
  Canada
Alert Service Bulletin A8-73-23 Revision A dated                   39.13
  December 12, 2000.
Alert Service Bulletin A8-73-23 Revision B dated                   39.13
  January 30, 2001.
Service Bulletin 7-27-90 dated September 3, 1999..                 39.13
Service Bulletin 8-25-306 dated May 5, 2000.......                 39.13
Service Bulletin 8-25-307 dated November 13, 2000.                 39.13
Service Bulletin 8-35-19 dated August 17, 2000....                 39.13
Service Bulletin 8-53-75 dated December 6, 1999...                 39.13
Service Bulletin 8-57-41 Revision C dated August                   39.13
  4, 2000.
Service Bulletin 8-61-31 dated October 17, 2000...                 39.13
Temporary Revision TR AWL 2-15 dated September 3,                  39.13
  1999.
Temporary Revision TR AWL 3-78 dated November 19,                  39.13
  1999.
Temporary Revision TR AWL-71 dated September 3,                    39.13
  1999.


Brackett Aircraft Company, Inc

  7045 Flightline Drive, Kingman, Arizona 86401
Air Filter Document I-194, dated March 16, 1994,                   39.13
including Brackett Installation Instruction 
[[Page 955]]04, dated June 6, 1995.

Air Filter Document I-194, dated March 16, 1994...                 39.13
Installation Instruction Sheet BA-4105, dated June                 39.13
  15, 1995.
Installation Instruction Sheet BA-4205, dated June                 39.13
  14, 1995.
Installation Instruction Sheet BA-5105, dated May                  39.13
  8, 1995.
Installation Instruction Sheet BA-5111, dated May                  39.13
  8, 1995.
Installation Instruction Sheet BA-6105, dated June                 39.13
  5, 1995.
Installation Instruction Sheet BA-8910-3, dated                    39.13
  June 6, 1995.
Installation Instruction Sheet RM-1, dated July 6,                 39.13
  1995.


Britax Sell GmbH & Co. OHG

  MPL Mr. H.D. Poggensee PO Box 1161 35721 Herborn 
  Germany phone 49-2772-707-0 fax 49-2772-707-141
Service Bulletin E33-4-007SB Revision 2 dated                      39.13
  December 4, 2000.
Service Bulletin E33-4-009SB dated October 24,                     39.13
  2000.
Service Bulletin E33-4-010SB dated October 20,                     39.13
  2000.
Service Bulletin E33-4-011SB dated October 21,                     39.13
  2000.
Service Bulletin E33-4-012SB dated October 24,                     39.13
  2000.
Service Bulletin E33-4-013SB dated October 23,                     39.13
  2000.
Service Bulletin E33-4-014SB Revision 1 dated                      39.13
  November 6, 2000.
Service Bulletin E33-4-015SB dated October 23,                     39.13
  2000.
Service Bulletin E33-4-016SB Revision 1 dated                      39.13
  November 6, 2000.


British Aerospace (BAe)

  Prestwick International Airport, Ayrshire, 
  Scotland KA9 2RW or Box 17414, Dulles 
  International Airport, Washington, DC 20041
SB 32-51, Revision 5, dated April 1996............                 39.13
Service Bulletin 1847-32-07 dated February 2000...                 39.13
Service Bulletin 1862-32-07 dated February 2000...                 39.13
Service Bulletin 32-73 dated April 2000...........                 39.13
Service Bulletin No. 1847-32-08 dated July 2001...                 39.13
Service Bulletin No. 1862-32-08 dated July 2001...                 39.13
Service Newsletter, Issue 2, Jetstream 31 Steering                 39.13
  Jack Part Number 618200, as referenced in 
  British dated March 5, 1999.
Alert SB 53-A-PM5993, Issue 1, dated January 11,                   39.13
  1993.
Campaign Wire 76-CW-PM6031, dated May 12, 1994....                 39.13
ASB 32-A-JA980540, dated July 6, 1998.............                 39.13
ASB 57-A-JA 980441 dated April 28, 1998...........                 39.13
ASB 57-A-JA 980441 Revision No. 1, dated July 7,                   39.13
  1998.
MSB 7/5, Rev. 1, dated May 23, 1988...............                 39.13
MSB 7/8, Rev. 3, dated May 23, 1988...............                 39.13
SB 53-JM7297, dated May 10, 1984..................                 39.13
SB 57-JM7298, dated May 16, 1984..................                 39.13
Mandatory SB (MSB) B121/79, Rev. 1 dated Feb. 15,                  39.13
  1991.
ASB ATP A52-30, dated March 19, 1997..............                 39.13
SB No. 26-40-01601A, dated March 25, 1998.........                 39.13
SB No. 71-68-01581A, Pages 1-3, dated March 25,                    39.13
  1998; and Pages 4-18, dated August 14, 1997.
Viscount Alert PTL 182, Issue 2, dated August 7,                   39.13
  1992.
Alert Service Bulletin 32-A-JA-980840 Revision 3                   39.13
  dated May 5, 1999.
Alert Service Bulletin 32-A-JA010740 Revision 2                    39.13
  dated July 23, 2001.
Mandatory Alert Service Bulletin 53-JA-990842                      39.13
  Revision 1 dated February 21, 2000.
Mandatory Service Bulletin 32-JA 991140 dated                      39.13
  April 14, 2000.
SB S.B.32-150-70656A, dated December 1, 1998......                 39.13
Service Bulletin 11-137-30405A dated March 26,                     39.13
1998.
[[Page 956]]

Service Bulletin 32-PM6054 dated February 2000....                 39.13
Service Bulletin ATP-27-86 dated May 15, 1999.....                 39.13
Service Bulletin ATP-30-52 Revision 1 dated June                   39.13
  12, 1998.
Service Bulletin ATP-53-36 Revision 1 dated                        39.13
  February 21, 2000.
Service Bulletin SB.53-144 Revision 1 dated May                    39.13
  21, 1999.
Service Bulletin SB.54-10 dated September 16, 1999                 39.13
Service Bulletin SB.57-56 dated September 2, 1999.                 39.13
PTL 326, Issue 2, dated December 1, 1994..........                 39.13
146 Inspection SB S.B.27-137, dated November 17,                   39.13
  1992.
146 Inspection SB 28-18 dated March 12, 1991......                 39.13
146 Inspection SB 28-18 dated March 12, 1991......                 39.13
146 Inspection SB S.B. 27-133, dated January 31,                   39.13
  1992, which includes Appendix A1 to SB S.B. 27-
  133, dated January 31, 1992.
146 Inspection SB S.B. 27-133, dated January 31,                   39.13
  1992, which includes Appendix A1 to SB S.B. 27-
  133, dated January 31, 1992.
146 Inspection SB S.B. 27-135, dated April 23,                     39.13
  1992, which includes Appendices A1 and A2.
146 Inspection SB S.B. 27-135, dated April 23,                     39.13
  1992, which includes Appendices A1 and A2.
Airplane Flight Manual (Doc. No. ATP 004) Temp.                    39.13
  Rev. 22, Issue 1 dated Nov. 1, 1991.
Alert PTL 264, Issue 3, dated September 1, 1992                    39.13
  and BAe Alert Preliminary Technical Leaflet, 
  Issue 3, dated June 1, 1992.
Alert SB 24-A97 dated November 12, 1991...........                 39.13
Alert SB 27-A-PM6005 Issue 1 dated March 28, 1990.                 39.13
Alert SB 27-A-PM6005 Issue 2 dated June 17, 1991..                 39.13
Alert SB 27-A-PM6007, Issue 1, dated April 10,                     39.13
  1992.
Alert SB 27-A-PM6023, Issue No. 2, dated November                  39.13
  23, 1992.
Alert SB 27-A-PM6025, Issue 1, dated March 23,                     39.13
  1994.
Alert SB 27-PM6005 dated June 11, 1991............                 39.13
Alert SB 53-A-PM5989, Issue No. 1 dated Oct. 3,                    39.13
  1991.
Alert SB 53-A-PM5994, Issue 3, dated April 8, 1993                 39.13
Alert SB 53-A-PM6036, Issue 1, dated November 24,                  39.13
  1995.
Alert SB 57-A-PM5992, Issue 1, dated October 14,                   39.13
  1992.
Alert SB, 27-A-PM6034, Issue 1, dated October 6,                   39.13
  1995.
ASB 27-A-PM6041, Issue 1, dated August 21, 1998...                 39.13
ASB 32-A119 dated Nov. 14, 1990...................                 39.13
ASB 53-A-PM5922, Issue 1, dated January 27, 1987..                 39.13
ASB 53-A-PM5922, Issue 2, dated April 27, 1995....                 39.13
ASB 53-A-PM5990, Issue 1 dated Jan. 7, 1991.......                 39.13
ASB 53-A-PM5991, Issue 1 dated Sept. 5, 1990......                 39.13
ASB 53-A-PM5994, Issue 4, dated August 23, 1996...                 39.13
ASB 53-A-PM5994, Issue 5, dated April 18, 1997....                 39.13
ASB 53-A-PM6032, Issue 1, dated April 7, 1995.....                 39.13
ASB 53-A-PM6035, Rev. 1, dated March 7, 1996......                 39.13
ASB 55-A-PM5827, Issue 2 dated Sept. 5, 1990......                 39.13
ASB 76-A-PM6031, dated January 18, 1995...........                 39.13
ASB AA-ATP-32-26 dated Sept. 25, 1992.............                 39.13
ASB ATP 32-85, Rev. 1, dated March 20, 1998.......                 39.13
ASB ATP 32-87, dated January 29, 1998.............                 39.13
ASB ATP-A32-94, dated October 3, 1998.............                 39.13
ASB ATP-A71-14, dated November 4, 1998............                 39.13
ATP-32-91, dated May 19, 1998.....................                 39.13

[[Page 957]]

ATP-54-12-35274A, Rev. 1, dated December 15, 1993.                 39.13
ATP-57-14, Rev. 1, dated September 27, 1993.......                 39.13
ATP-57-14, Rev. 3, dated December 15, 1993........                 39.13
BAC 1-11 Alert SB 51-A-PM5830, Issue 4, dated                      39.13
  January 28, 1993.
BAC OnE-Eleven Alert SB 27-A-PM5341, Issue 3,                      39.13
  dated September 28, 1981.
BAC OnE-Eleven Alert SB 27-A-PM5341, Issue 3,                      39.13
  dated September 28, 1981.
BAC OnE-Eleven Alert SB 27-A-PM5341, Issue 4,                      39.13
  dated May 6, 1991.
BAC OnE-Eleven Alert SB 27-A-PM5341, Issue 4,                      39.13
  dated May 6, 1991.
Inspection SB 24-83 dated Jan. 22, 1991...........                 39.13
Inspection SB 24-84 dated Jan. 22, 1991...........                 39.13
Inspection SB 26-A29, Rev. 2 dated Jan. 14, 1991..                 39.13
Inspection SB 32-A119, Rev. 1 dated December 2,                    39.13
  1991.
Inspection SB 57-41, dated July 26, 1991..........                 39.13
Modification SB 23-36-01238A dated Dec. 21, 1990..                 39.13
Modification SB 24-82-36097A&B dated Feb. 11, 1991                 39.13
Modification SB 24-83-50143A, Rev. 1 dated Mar.                    39.13
  15, 1991.
Modification SB 24-84-50134B dated Mar. 15, 1991..                 39.13
Modification SB 24-85-01253A dated Mar. 15, 1991..                 39.13
Modification SB S.B.26-32-36128A, dated April 30,                  39.13
  1992.
Modification SB S.B.26-32-36128A, dated April 30,                  39.13
  1992.
Modification SB SB.34- 160-70548A, dated November                  39.13
  21, 1994.
PTL 188 dated Mar.14, 1990........................                 39.13
PTL 190, Issue 1 dated Jan. 13, 1989..............                 39.13
PTL 193, Issue 1 dated Feb. 10, 1991..............                 39.13
PTL 197, Issue 3, dated November 20, 1993.........                 39.13
PTL 321, Issue 1 dated Jan. 13, 1989..............                 39.13
PTL 324, Issue 1 dated Feb. 10, 1990..............                 39.13
PTL 500, dated January 1, 1993, including                          39.13
  Appendices 1 through 4 inclusive, dated November 
  1992, and Appendix 5, dated October, 1992.
PTL 501, dated May 1, 1994........................                 39.13
PTL 501, Issue 2, dated June 1, 1994, including                    39.13
  Appendix 1, dated January 1, 1994.
Repair Drawing 572-40205, Rev. F, dated August 12,                 39.13
  1997.
Repair Drawing 572-40208, Rev. B, dated August 12,                 39.13
  1997.
SB 25-67-25A013A, Rev. 2 dated Oct. 18, 1991......                 39.13
SB Viscount Alert PTL 319 dated Mar. 14, 1990.....                 39.13
SB 24-120, dated September 18, 1997...............                 39.13
SB 24-279-3255A dated Nov. 16, 1990...............                 39.13
SB 26-31 dated Feb. 25, 1991......................                 39.13
SB 27-114-01028B dated Sept. 26, 1990.............                 39.13
SB 27-155 dated Aug. 16, 1991.....................                 39.13
SB 28-86 dated June 28, 1991......................                 39.13
SB 28-A-JA881143 dated Feb. 24, 1989..............                 39.13
SB 29-JA 901242 dated June 18, 1991...............                 39.13
SB 32-103, Rev. 1, dated February 22, 1991........                 39.13
SB 32-124-70491A&B, Rev. 1 dated Nov. 25, 1991....                 39.13
SB 32-124-70491A&B, Rev. 2 dated June 30, 1992....                 39.13
SB 32-144, dated December 11, 1996................                 39.13
SB 32-145, Rev. 1, dated October 6, 1997..........                 39.13
SB 32-226-3257A dated May 3, 1991.................                 39.13

[[Page 958]]

SB 32-46 dated Apr. 9, 1991.......................                 39.13
SB 33-44-7670A, Rev. 1 dated April 4, 1991........                 39.13
SB 33-45-25A027A&B dated December 23, 1991........                 39.13
SB 33-45-25A027A&B dated December 23, 1991........                 39.13
SB 34-128-00950J dated March 22, 1991.............                 39.13
SB 34-131-46041A dated June 24, 1991..............                 39.13
SB 34-132-46042A dated June 24, 1991..............                 39.13
SB 49-37-25A253A&B dated Oct. 28, 1991............                 39.13
SB 49-37-25A253A&B dated Oct. 28, 1991............                 39.13
SB 5-A-PM5987, Time Limits--Aircraft General--                     39.13
  Corrosion Control Programme, Issue 2, dated June 
  30, 1992.
SB 52-89-006684, J, K, L, Rev. 2 dated June 3,                     39.13
  1991.
SB 53-144, dated April 27, 1998...................                 39.13
SB 53-73, Rev. 2 dated May 18, 1991...............                 39.13
SB 53-74-3193C&D dated January 7, 1992............                 39.13
SB 55-15, dated April 14, 1997....................                 39.13
SB 55-16, dated July 14, 1997.....................                 39.13
SB 57-49, dated June 4, 1996......................                 39.13
SB 57-49, Rev. 1, dated June 19, 1997.............                 39.13
SB 57-50, Rev. 2, dated March 20, 1997............                 39.13
SB 57-55, Rev. X, undated dated April 27, 1998,                    39.13
  including.
SB 57-73 dated July 30, 1991......................                 39.13
SB 57-75 dated July 30, 1991......................                 39.13
SB 57-76 dated Dec. 31, 1991......................                 39.13
SB 57-76 dated Dec. 31, 1991......................                 39.13
SB 57-JM 8160 dated June 19, 1991.................                 39.13
SB 57-JM 8160, Rev. 1 dated Aug. 23, 1991.........                 39.13
SB 6/5, dated September 4, 1978...................                 39.13
SB 76-A-JA 910542 dated May 30, 1991..............                 39.13
SB ATP-24-34 dated Apr. 25, 1991..................                 39.13
SB ATP-24-38-10204A, Rev. 2 dated August 14, 1991.                 39.13
SB ATP-24-42-10244a, Rev. 1 dated Nov. 7, 1991....                 39.13
SB ATP-24-45-35229A dated December 20, 1991.......                 39.13
SB ATP-24-49-10247A, Rev. 1, dated October 23,                     39.13
  1992; and Temporary Rev. No. T/26, Issue 1, 
  dated May 22, 1992.
SB ATP-24-49-10247A, Rev. 1, dated October 23,                     39.13
  1992.
SB ATP-26-5-35225A dated Oct. 30, 1991............                 39.13
SB ATP-26-5-35225A dated Oct. 30, 1991............                 39.13
SB ATP-27-41-70031B, Rev. 3 dated June 5, 1992....                 39.13
SB ATP-27-55, dated August 14, 1992...............                 39.13
SB ATP-29-15, dated February 25, 1997.............                 39.13
SB ATP-30-10 dated September 30, 1991.............                 39.13
SB ATP-30-10, Rev. 1 dated February 24, 1992......                 39.13
SB ATP-30-13, Rev. 1 dated Feb. 15, 1991..........                 39.13
SB ATP-30-20-10248A/-10248C, Rev. 1 dated Feb. 17,                 39.13
  1992.
SB ATP-30-20-10248A/-10248C, Rev. 1 dated Feb. 17,                 39.13
  1992.
SB ATP-30-3, Rev. 3 dated October 19, 1990........                 39.13
SB ATP-32-26, Rev. 1 dated June 6, 1992...........                 39.13
SB ATP-32-26, Rev. 2 dated Apr. 22, 1991..........                 39.13
SB ATP-32-26, Rev. 3 dated May, 20. 1991..........                 39.13
SB ATP-32-33 dated Mar. 1, 1991...................                 39.13
SB ATP-32-37, dated February 14, 1992.............                 39.13
SB ATP-32-80, Rev. 1, dated July 9, 1997..........                 39.13

[[Page 959]]

SB ATP-32-84, Rev. 1, dated September 26, 1997....                 39.13
SB ATP-32-93, Revision 1, dated August 2, 1999....                 39.13
SB ATP-33-19-10238A dated March 19, 1992..........                 39.13
SB ATP-33-8, Rev. 2, dated Apr. 11, 1991..........                 39.13
SB ATP-34-40 dated Oct. 20, 1990..................                 39.13
SB ATP-53-10, dated Mar. 7, 1990..................                 39.13
SB ATP-55-3, Rev. 4 dated June 28, 1990...........                 39.13
SB ATP-55-5 dated Nov. 30, 1990...................                 39.13
SB ATP-55-5, Rev. 1 dated Jan. 3, 1991............                 39.13
SB ATP-57-13, Rev. 1, dated January 15, 1993......                 39.13
SB ATP-57-13, Rev. 1, dated January 15, 1993......                 39.13
SB ATP-61-2, Rev. 1 dated Oct. 31, 1989...........                 39.13
SB ATP-61-2, Rev. 2 dated Oct. 25, 1991...........                 39.13
SB ATP-61-2, Rev. 3 dated April 19, 1991..........                 39.13
SB ATP-71-15, dated December 11, 1998.............                 39.13
SB HS748-29-49, dated February 25, 1997...........                 39.13
SB S.B. 24-261-3204A&B, Rev. 1, dated March 24,                    39.13
  1988.
SB S.B. 24-261-3204A&B, Rev. 1, dated March 24,                    39.13
  1988.
SB S.B. 25-328, Rev. 2, dated July 10, 1993.......                 39.13
SB S.B. 32-131 dated December 6, 1991.............                 39.13
SB S.B. 32-131, Rev. 2, dated July 10, 1993.......                 39.13
SB S.B. 32-131, Rev. 3, dated October 18, 1995....                 39.13
SB S.B. 32-216, Rev. 1 dated March 21, 1988.......                 39.13
SB S.B. 57-47, dated June 15, 1995................                 39.13
SB S.B. 57-48, dated June 30, 1995................                 39.13
SB S.B. 57-73, Rev. 1, dated May 29, 1992.........                 39.13
SB S.B. 57-73, Rev. 1, dated May 29, 1992.........                 39.13
SB S.B.26-35, Rev. 1, dated August 30, 1995.......                 39.13
SB S.B.26-44, dated February 25, 1999.............                 39.13
SB S.B.29-89-3269A dated May 22, 1992.............                 39.13
SB SB 28-87 dated December 31, 1991...............                 39.13
SB SB 57-33, dated August 31, 1989, including                      39.13
  Appendix A.
SB SB. 53-74-3193C&D, Rev. 1, dated March 12, 1992                 39.13
SB SB. 53-74-3193C&D, Rev. 1, dated March 12, 1992                 39.13
SB SB.24-288-3284A, dated February 7, 1992........                 39.13
SB SB.24-289-3267A, B,C,D,E,F&G Rev. 1, dated                      39.13
  April 10, 1992.
SB SB.26-35-36179A, dated August 4, 1995..........                 39.13
SB SB.26-36-36179B, dated June 22, 1995...........                 39.13
SB SB.27-150-01510B, dated December 15, 1995......                 39.13
SB SB.27-70-00913A&B, Rev. 7, dated March 21, 1994                 39.13
SB SB.27-77-00955A&C, Rev. 2, dated March 10, 1989                 39.13
SB SB.29-31-01339A, dated May 24, 1993............                 39.13
SB SB.29-31-01339A, dated May 24, 1993............                 39.13
SB SB.29-31-01339A, Rev. 1, dated July 8, 1993....                 39.13
SB SB.32-130-70295C dated September 27, 1991......                 39.13
SB SB.32-143, dated August 22, 1995...............                 39.13
SB SB.53-152, dated October 8, 1998...............                 39.13
SB SB.53-74-3193C&D, dated January 7, 1992........                 39.13
SB SB.53-74-3193C&D, dated January 7, 1992........                 39.13
SB SB.53-74-3193C&D, Rev. 1, dated March 12, 1992.                 39.13
SB SB.55-014-01510A, dated December 15, 1995......                 39.13
SB SB.55-13-01490B, dated July 7, 1995............                 39.13
SB SB.78-4-9949A dated January 20, 1992...........                 39.13

[[Page 960]]

SB SB24-113-01532A, dated March 12, 1996..........                 39.13
SB SB24-113-01532A, Rev. 1, dated June 18, 1996...                 39.13
SB.11-97-01285A, Rev. 1 dated April 3, 1992.......                 39.13
Temporary Rev. (TR) 32, (Document BAe 3.3), Issue                  39.13
  No. 2 dated July, 1996.
Temporary Rev. No. 12 (Document No. BAe 3.11)                      39.13
  dated March 1992.
Temporary Rev. No. 22 (Document No. BAe 3.3) dated                 39.13
  April 1992.
Temporary Rev. No. 23 (Document No. BAe 3.11)                      39.13
  Issue No. 2, dated February 1994.
Temporary Rev. No. 28 (Document No. BAe 3.6) dated                 39.13
  April 1992.
Temporary Rev. No. 30 (Document No. BAe 3.3),                      39.13
  Issue No. 2, dated February 1994.
Temporary Rev. No. 33 (Document No. BAe 3.6) dated                 39.13
  April 1992.
Temporary Rev. No. 41 (Document No. BAe 3.6),                      39.13
  Issue No. 2, dated February 1994.
Temporary Rev. No. 42 (Document No. BAe 3.6),                      39.13
  Issue No. 2, dated February 1994.
Temporary Rev. No. T/24, Issue 1 dated Feb. 17,                    39.13
  1992.
Temporary Rev. No. T/24, Issue 1 dated Feb. 17,                    39.13
  1992.
Temporary Rev. No. T/26, Issue 1, dated May 22,                    39.13
  1992.
Temporary Rev. No. T/33, Issue 1, dated November                   39.13
  1, 1993.
Temporary Rev. No. T/38, Issue 1, Rev. 1, dated                    39.13
  February 16, 1994.
TR 25, (Document BAe 3.11), Issue No. 2 dated                      39.13
  July, 1996.
TR 44, (Document BAe 3.6), Issue No. 2 dated July,                 39.13
  1996.
Viscount Alert PTL 192, Issue 1 dated Jan. 31,                     39.13
  1990.
Viscount Alert PTL 195, Issue 2, dated August 20,                  39.13
  1991.
Viscount Alert PTL 196 dated March 1991...........                 39.13
Viscount Alert PTL 202, VIS 1 Doc. 4, dated                        39.13
  November 1, 1991.
Viscount Alert PTL 323, Issue 1 dated Jan. 31,                     39.13
  1990.
Viscount Alert PTL 325, Issue 2, dated August 22,                  39.13
  1991.
Viscount Alert PTL 331 VIS 1 Doc 12, including                     39.13
  Appendix 1, dated November 1, 1991.
Viscount PTL 170, Issue 2 dated Nov. 2, 1989......                 39.13
Viscount PTL 191, Issue 1 dated Nov. 2, 1989......                 39.13
Viscount PTL 200, Disc 9 Doc.5, dated December 6,                  39.13
  1991.
Viscount PTL 203, Issue 1, Disk 11 Doc. 2, dated                   39.13
  December 2, 1991.
Viscount PTL 301, Issue 2 dated Nov. 2, 1989......                 39.13
Viscount PTL 313, Issue 2, dated February 1, 1993.                 39.13
Viscount PTL 322, Issue 1 dated Nov. 2, 1989......                 39.13
Viscount PTL 329, Disc 9 Doc. 2, dated April 1,                    39.13
  1992.
Viscount PTL 332, Issue 1, Disk 11 Doc. 4, dated                   39.13
  December 2, 1991.
Viscount PTL 334, Issue 2, dated July 8, 1992 and                  39.13
  Viscount Preliminary Technical Leaflet 205, 
  Issue 2, dated July 8, 1992.
2Alert Service Bulletin 8-A-JA990841 Revision 1                    39.13
  dated November 12, 1999.
Alert Service Bulletin 28-A-JA990841 dated                         39.13
  September 8, 1999.
Alert Service Bulletin 55-A-JA-990640 dated                        39.13
  September 1, 1999.
Mandatory Service Bulletin 32-JA000342 dated May                   39.13
  5, 2000.
SB BA03303-24-3 (BAe ATP Series) dated June 12,                    39.13
  1992.


British Aerospace Regional Aircraft

  American Support 13850 McLearen Road Herndon VA 
  20171
Inspection Service Bulletin ISB.34-338 dated                       39.13
  February 14, 2001.
Inspection Service Bulletin ISB.57-064 dated March                 39.13
8, 2001.
[[Page 961]]

Service Bulletin ATP-32-99 dated February 21, 2000                 39.13
Service Bulletin SB.32-157 dated June 2, 2000.....                 39.13
Limited Inspection Service Bulletin ISB.21-148                     39.13
  Revision 1 dated February 6, 2001.
Limited Inspection Service Bulletin ISB.26-60                      39.13
  Revision 2 dated January 18, 2001.
Limited Inspection Service Bulletin ISB.57-57                      39.13
  dated February 25, 2000.
Limited Modification Service Bulletin SB.26-060-                   39.13
  01688A dated January 18, 2001.
Limited Modification Service Bulletin SB.26-061-                   39.13
  36220A dated January 18, 2001.
Limited Service Bulletin S.B.25-418-36215A dated                   39.13
  April 5, 2000.
Limited Service Bulletin S.B.25-418-36215A                         39.13
  Revision 1 dated Ocotber 17, 2000.
Service Bulletin F28/53-149 dated November 15,                     39.13
  1999.
Service Bulletin 146-32-148, including Appendix A                  39.13
  dated April 17, 2000.
Service Bulletin 200-32-263, including Appdx. A                    39.13
  dated February 1, 2000.


Burkhart Grob Luft - und Raumfahrt

  D-86874 Mattsies, Germany
G 103 SB TM 315-47/2, dated January 20, 1993......                 39.13
GROB G-109 SB TM 817-38, dated July 8, 1993,                       39.13
  including GROB 109 Installation Instructions No. 
  817-38 for SB TM817-38, dated October.
GROB G-109 SB TM 817-38/2, dated March 31, 1995...                 39.13
GROB G-110 GROB 109 Installation Instructions No.                  39.13
  817-38/1 forSB TM 817-38/2, dated March 31, 
  1995.
GROB G-111 GROB 109 Installation Instructions No.                  39.13
  817-82/2 for SB TM 817-82/2, dated March 31, 
  1995.
Installation Instructions 306-30/1 SB TM 306-30,                   39.13
  dated October 11, 1994.
Repair Instructions No. 315-45/2, dated October                    39.13
  11, 1991.
SB 306-34, dated December 4, 1994.................                 39.13
SB 869-18, dated March 7, 1996....................                 39.13
SB 869-18, Rev. 869-18/2, dated July 8, 1996......                 39.13
SB TM 306-33, dated September 15, 1994............                 39.13


Burkhart Grob of America Inc

  1070 Navajo Drive, Bluffton Airport Complex, 
  Bluffton, Ohio 45817
TM 306-26 dated March 25, 1985....................                 39.13
TM 817-19 dated March 18, 1985....................                 39.13


Cessna Aircraft Co

  Customer Service Dept. 753, P.O. Box 7706, 
  Wichita, KS 67277
Accomplishment Instructions Attachment to Cessna                   39.13
  SB MEB91-7R1, Rev. 1, dated July 2, 1993.
Accomplishment Instructions SEB90-1 Revision 3                     39.13
  dated March 15, 1999.
Accomplishment Instructions SEB92-33R1, Rev. l,                    39.13
  dated June 25, 1993.
Airplane Flight Manual Model 560 Citation V Serial                 39.13
  -0001 thru -0259 Revision 11 dated July 16, 
  1998.
Airplane Flight Manual Model 560 Citation V Unit -                 39.13
0260 and on Revision 7 dated July 16, 1998.
[[Page 962]]

Alert Service Letter ASL560XL-33-02 dated May 4,                   39.13
  2001.
ASB 750-27-22, dated July 2, 1998.................                 39.13
Attachment to SB CQB91-1R1 dated June 21, 1991....                 39.13
Attachment to SB for Cessna SB CQB91-8R1, Rev. l,                  39.13
  dated November 6, 1992, August 31, 1993.
Citation Alert Service Letter A650-27-30, dated                    39.13
  November 12, 1992.
Citation Alert Service Letter ASL750-12-02, dated                  39.13
  September 29, 1997.
Citation SB 500-78-11, dated September 13, 1991...                 39.13
Citation SB 750-27-10, dated January 16, 1998,                     39.13
  including Supplemental Data, dated January 16, 
  1998.
Citation SB SB650-24-57, dated May 15, 1997.......                 39.13
Citation Service SB550-78-03, dated September 13,                  39.13
  1991.
Citation Service SB560-78-02, dated September 13,                  39.13
  1991.
Citation Service SB650-78-05, Rev. 1, dated June                   39.13
  12, 1992.
Citation Service SBS550-78-04, dated September 13,                 39.13
  1991.
MEB85-3, Rev. 1, dated August 23, 1985, as                         39.13
  referenced in Cessna.
MEB85-3, Rev. 2, dated October 23, 1987...........                 39.13
MEB93-10R1 Accomplishment Instructions supplement                  39.13
  to Cessna SB MEB93-10, Rev. 1, dated December 3, 
  1993.
SB 97-34-02, Rev. 1, dated December 22, 1997......                 39.13
SB 97-53-02, dated September 15, 1997.............                 39.13
SB 98-27-02, dated May 11, 1998...................                 39.13
SB 98-27-03, dated June 1, 1998...................                 39.13
SB 98-27-05, dated June 1, 1998...................                 39.13
SB 98-27-05, Revision 1, dated August 17, 1998....                 39.13
SB 98-27-06, dated June 15, 1998..................                 39.13
SB CAB96-15, Rev. 1, dated October 18, 1996.......                 39.13
SB CQB91-8 dated Oct. 18, 1991....................                 39.13
SB CQB96-3, dated October 18, 1996................                 39.13
SB MEB91-7 dated Oct. 18, 1991....................                 39.13
SB MEB96-10, dated October 18, 1996...............                 39.13
SB MEB99-3, dated May 6, 1999.....................                 39.13
SB SB97-28-01, dated June 6, 1997.................                 39.13
SB SB99-27-01, dated July 12, 1999................                 39.13
SB SEB91-5, Rev. 1, dated June 14, 1991, which                     39.13
  includes Attachment to SB SEB 91-5R1, Rev. 1, 
  dated June 14, 1991.
SB SEB91-5, Rev. 1, dated June 14, 1991, which                     39.13
  includes Attachment to SB SEB 91-5R1, Rev. 1, 
  dated June 14, 1991.
SB SEB96-15, dated October 18, 1996...............                 39.13
Service Bulletin MEB97-12 dated November 17, 1997.                 39.13
Service Bulletin SB 98-78-03 dated December 14,                    39.13
  1998.
Service Bulletin SB0-79-01 dated January 31, 2000.                 39.13
Service Bulletin SB00-55-03 dated August 28, 2000.                 39.13
Service Bulletin SB525-24-20 dated November 16,                    39.13
  2000.
Service Bulletin SB560-34-69 Revision 2 dated July                 39.13
  24, 1998.
Service Bulletin SB560-34-70 dated July 14, 1998..                 39.13
Service Bulletin SB560XL-27-10 dated July 13, 2000                 39.13
Service Bulletin SB750-53-19, including                            39.13
  Supplemental Data dated January 20, 2000.
Service Bulletin SEB00-1 and Accomplishment                        39.13
  Instructions dated January 17, 2000.
Service Bulletin SEB90-1 Revision 3 dated March                    39.13
  15, 1999.
Service Bulletin SEB97-9 dated November 17, 1997..                 39.13

[[Page 963]]

Service Bulletin Supplemental Data SB560XL-27-10                   39.13
  dated July 13, 2000.
Service Kit SK172-151 dated March 15, 1999........                 39.13
Service Kit SK414-19B, Revised dated March 4, 1986                 39.13
Service Kit SK421-135A dated August 5, 1988.......                 39.13
Service Kit SK421-142, dated July 2, 1993.........                 39.13
Service Kit SK421-78A dated October 11, 1977......                 39.13
Service Kit SK425-44, dated November 6, 1992......                 39.13
Service Kit SK441-103A dated June 21, 1991........                 39.13
Special Service Project SSP99-27-02, dated May 18,                 39.13
  1999.
SB CAB96-21, dated October 18, 1996...............                 39.13
Service Bulletin CAB98-16 dated November 2, 1998..                 39.13


CFE Company

  Data Distribution, MS 64-03/2101-201, P.O. Box 
  52170, Phoenix, AZ 85972-2170
Alert Service Bulletin CFE738-A72-8031 Rev. 1                      39.13
  dated June 23, 1999.
Alert Service Bulletin CFE738-A72-8041 dated                       39.13
  August 21, 2000.
Alert Service Bulletin CFE738-A72-8042 Revision 1                  39.13
  dated September 25, 2000.
Service Bulletin CFE738-72-8043 Revision 1 dated                   39.13
  October 2, 2000.


CFM International

  Neumann Way, Cincinnati, Ohio 45215
(CFM56-2) SB 72-620, Rev. 4, dated November 17,                    39.13
  1995.
(CFM56-3/3B/3C) SB 72-530, Rev. 3, dated November                  39.13
  17, 1995.
(CFM56-5) SB 72-A118, Rev. 1, dated August 1, 1997                 39.13
56 SB 73-021 dated August 12/83...................                 39.13
56 SB 73-024 dated October 14/83,.................                 39.13
56 SB 73-034 dated August 17/84...................                 39.13
56-2 73-109 Revision 1 dated January 7, 1998......                 39.13
56-2 73-110 Revision 2 dated April 29, 1999.......                 39.13
56-2 SB 72-817, Rev. 1, dated November 25, 1997...                 39.13
56-2 SB 72-823, dated August 12, 1997.............                 39.13
56-2 SB 72-825, dated January 23, 1998............                 39.13
56-2 SB No. 72-728, Rev. 2, dated December 21,                     39.13
  1994.
56-2A 73-054 Revision 1 dated January 7, 1998.....                 39.13
56-2A 73-055 Revision 1 dated April 29, 1999......                 39.13
56-2A 73-A058 dated August 17, 1999...............                 39.13
56-2A SB 72-419, Rev. 2, dated November 14, 1997..                 39.13
56-2A SB No. 72-338, dated November 25, 1993......                 39.13
56-2B 73-074 Revision 1 dated January 12, 1998....                 39.13
56-2B 73-076 Revision 1 dated April 29, 1999......                 39.13
56-2B 73-A079 Revision 1 dated October 22, 1999...                 39.13
56-2B SB 72-561, Rev. 1, dated January 31, 1997...                 39.13
56-2B SB No. 72-476, dated December 7, 1993.......                 39.13
56-3/-3B/-3C ASB No. 72-A861, Rev. 3, dated                        39.13
  December 3, 1997.
56-3/-3B/-3C SB 72-843, Rev. 1, dated November 25,                 39.13
  1997.
56-3/-3B/-3C SB 72-855, Rev. 1, dated February 9,                  39.13
  1998.
56-3/-3B/-3C SB 72-856, dated January 23, 1998....                 39.13
56-3/-3B/-3C SB 72-877, Rev. 1, dated June 15,                     39.13
  1998.
56-3/-3B/-3C SB No. 72-863, Rev. 1, dated November                 39.13
  18, 1997.
56-3/-3B/-3C SB No. 72-865, dated November 18,                     39.13
  1997.
56-3/-3B/-3C SB No. 72-867, dated November 18,                     39.13
  1997.
56-3/-3B/-3C SB No. 72-873, Rev. 1, dated February                 39.13
5, 1998.
[[Page 964]]

56-3/3B/3C 73-125 Revision 1 dated January 7, 1998                 39.13
56-3/3B/3C 73-126 Revision 1 dated April 29, 1999.                 39.13
56-3/3B/3C 73-A129 dated August 17, 1999..........                 39.13
56-3/3B/3C SB No. 72-695, dated November 25, 1993.                 39.13
56-5 73-135 Revision 1 dated January 7, 1998......                 39.13
56-5 73-136 Revision 2 dated April 29, 1999.......                 39.13
56-5 73-A143 dated June 18, 1999..................                 39.13
56-5 SB No. 72-440, Rev. 2, dated June 23, 1995...                 39.13
56-5 SB No. 72-523, Rev. 1, dated January 30, 1998                 39.13
56-5 SB No. 80-003, Rev. 5, dated October 25, 1994                 39.13
56-5B 73-055 Revision 1 dated January 7, 1998.....                 39.13
56-5B 73-056 Revision 2 dated April 29, 1999......                 39.13
56-5B 73-A062 dated June 18, 1999.................                 39.13
56-5B SB 72-211, Rev. 1, dated January 29, 1998...                 39.13
56-5B SB No. 72-064, Rev. 2, dated June 23, 1995..                 39.13
56-5C 73-070 Revision 1 dated January 7, 1998.....                 39.13
56-5C 73-073 Revision 2 dated April 29, 1999......                 39.13
56-5C 73-A078 dated June 21, 1999.................                 39.13
56-5C SB 72-350, Rev. 1, dated January 30, 1998...                 39.13
56-5C SB No. 72-229, Rev. 2, dated June 23, 1995..                 39.13
56-7B ASB 73-A024, dated September 2, 1998........                 39.13
56-7B SB 72-130, dated June 29, 1998..............                 39.13
56-7B SB 72-132, dated July 2, 1998...............                 39.13
56-7B SB 73-016, Rev. 2, dated August 10, 1998....                 39.13
57 SB 73-024 Rev. 1, dated August 8/84............                 39.13
Alert Service Bulletin CFM56-5C S/B 73-A0106                       39.13
  Revision 1 dated April 19, 2001.
All Operators Wire 98/CFM/312R1, dated August 28,                  39.13
  1998.
CFM56-5 SB No. 72-541, dated July 27, 1998........                 39.13
SB 72-450, Rev. 1 dated Apr. 17, 1989.............                 39.13
SB 72-494 dated June 18, 1990.....................                 39.13
Service Bulletin 56-3/-3B/-3C 72-854 Revision 1                    39.13
  dated August 7, 1998.
Service Bulletin 56-3/-3B/-3C 72-854 Revision 2                    39.13
  dated November 29, 1999.
Service Bulletin CFM56-2 S/B 72-869 dated November                 39.13
  12, 1999.
Service Bulletin CFM56-2A S/B 72-470 dated                         39.13
  November 12, 1999.
Service Bulletin CFM56-2B S/B 72-611 dated                         39.13
  November 12, 1999.
Service Bulletin CFM56-3/3B/3C S/B 72-922 dated                    39.13
  November 12, 1999.


Cirrus Design Corporation

  4515 Taylor Circle Duluth Minnesota 55811
Service Bulletin No. SB 20-55-06 dated November                    39.13
  27, 2001.
Service Bulletin No. SB 22-55-03 dated November                    39.13
  27, 2001.


Collins General Aviation Division

  Rockwell International, 400 Collins Rd. NE., 
  Cedar Rapids, IA 52498
SB 20, DME-700-34-20, Rev. 1, dated August 30,                     39.13
  1991.
SB 24, DME-700-34-24, dated May 15, 1992..........                 39.13
SB 25, DME-700-34-25, dated November 11, 1992.....                 39.13
SB 7 dated April 4, 1991..........................                 39.13
SB 7, Rev. 1 dated May 20, 1991...................                 39.13
SB 8 TPR-720-34-08 dated Sept. 19, 1990...........                 39.13
SB C dated April 24, 1991.........................                 39.13

[[Page 965]]

SB C, Rev. 1 dated May 20, 1991...................                 39.13
SB DPU-85N-34-51 dated June 6, 1991...............                 39.13
SB DU-1000A-34-10, Rev. 1 dated July 24, 1990.....                 39.13
SB MPU-85N-34-51 dated June 6, 1991...............                 39.13
SB TDR-94/94D-34-6, Rev. 2, dated September 21,                    39.13
  1992.


Commander Aircraft Company

  Wiley Post Airport Hangar 8, 7200 NW 63rd 
  Street, Bethany, Oklahoma 73008
Service Bulletin SB-114-33A dated May 9, 2000.....                 39.13


Construcciones Aeronauticas S.A. (CASA)

  Getafe, Madrid, Spain
C-212 SB 212-76-08, dated April 12, 1993..........                 39.13
COM 235-140 Revision 1 dated March 21, 2000.......                 39.13
Communication COM 235-098, Rev. 02, dated October                  39.13
  19, 1995, including Annex 1, Rev. 2, and Annex 
  II, Rev. 2.
Communication COM-235-82, Rev. 3, dated January                    39.13
  31, 1995.
Document Number CPCP C-212-PV01, Corrosion                         39.13
  Prevention and Control Program Document, dated 
  March 31, 1995.
Flight Operation Instructions COM 212-245, Rev. 1,                 39.13
  dated November 16, 1993.
Maintenance Instructions 235-58 dated November 21,                 39.13
  1991.
Maintenance Instructions COM 212-252, Revision 0,                  39.13
  dated July 15, 1996.
Maintenance Instructions COM 212-252, Revision 1,                  39.13
  dated September 15, 1998.
Maintenance Instructions COM 235-092, Rev. 02,                     39.13
  dated May 5, 1995.
Maintenance Instructions COM 235-113, Rev. 02,                     39.13
  dated June 16, 1997, including Annex I, dated 
  June 16, 1997 and Annex II, dated July 1, 1997.
Maintenance Instructions COM 235-123, Revision 01,                 39.13
  dated October 7, 1997.
SB 212-27-34, dated November 22, 1993.............                 39.13
SB 212-27-47, Rev. 1, dated April 13, 1994........                 39.13
SB 212-27-48, dated February 28, 1996.............                 39.13
SB 212-32-38, dated June 16, 1994.................                 39.13
SB 212-76-07 dated July 27, 1990..................                 39.13
SB 235-24-07M, Rev. 1, dated January 25, 1996.....                 39.13
SB 235-52-54, Rev. 1, dated October 24, 1995......                 39.13
SB 235-55-04, dated May 30, 1995..................                 39.13
SB 235-57-05, Rev. 2, dated June 21, 1996,                         39.13
  including Annex 1, dated June 10, 1993.
SB 235-57-14, Rev. 1, dated June 21, 1996.........                 39.13
SB 35-CSB-32-001, dated February 16, 1999.........                 39.13
SB SB-235-21, Rev. 3, dated November 30, 1994.....                 39.13
SB SB-235-21M, Rev. 1, dated November 21, 1994....                 39.13
SB SB-235-27-05, Rev. 1, dated September 29, 1993.                 39.13
SB SB-235-27-05M, Rev. 2, dated January 25, 1996..                 39.13
SB SB-235-52-23, Rev. 2, dated June 9, 1994.......                 39.13
SB SB-235-52-23M, dated March 17, 1994............                 39.13
SB SB-235-53-20, Rev. 2, dated June 9, 1994.......                 39.13
SB SB-235-53-20M, Rev. 1, dated November 27, 1995.                 39.13
SB SB-235-57-20, dated December 23, 1997..........                 39.13
SB SB-235-61-01, dated October 11, 1994...........                 39.13
SB SB-235-61-01M, Rev. 2, dated January 25, 1996..                 39.13

[[Page 966]]

SBV 235-24-07M, dated June 4, 1995................                 39.13
Service Bulletin SB-235-24-14 dated June 27, 2000.                 39.13
Service Bulletin SB-235-30-14 dated August 13,                     39.13
  1999.
Service Bulletin SB-235-53-40 dated June 16, 1994.                 39.13
Service Bulletin SB-235-53-48 dated December 11,                   39.13
  1997.
Supplemental Inspection Document (SID)C-212-PV-01-                 39.13
  SID, dated June 1, 1987.


Continental Airlines, Inc.

  600 Jefferson Street HQJAV Houston Texas 77002
Engineering Change/Repair Authorization 2330-02321                 39.13
  dated August 29, 2000.
Engineering Change/Repair Authorization 2330-02322                 39.13
  dated August 29, 2000.
Engineering Change/Repair Authorization 2330-02323                 39.13
  dated August 29, 2000.
Engineering Change/Repair Authorization 2330-02324                 39.13
  dated August 29, 2000.
Engineering Change/Repair Authorization 2330-02325                 39.13
  dated August 29, 2000.
Engineering Change/Repair Authorization 2330-02326                 39.13
  dated August 29, 2000.
Engineering Change/Repair Authorization 2330-02327                 39.13
  dated August 29, 2000.
Engineering Change/Repair Authorization 2330-02328                 39.13
  dated August 29, 2000.
Engineering Change/Repair Authorization 2330-02334                 39.13
  dated September 15, 2000.
Engineering Change/Repair Authorization 2330-02335                 39.13
  dated September 15, 2000.
Top Drawing 2330DA11072 Revision B dated September                 39.13
  15, 2000.


Corporate Jets, Inc

  22070 Broderick Drive, Sterling, VA 20166
Alert SB S.B. 71-A43, dated February 9, 1993......                 39.13
SB S.B. 26-33, dated December 8, 1992.............                 39.13
SB S.B. 26-33, dated December 8, 1992.............                 39.13
SB S.B. 35-36, dated January 7, 1993..............                 39.13
SB S.B. 35-36, dated January 7, 1993..............                 39.13
SB S.B. 57-77, dated May 20, 1993.................                 39.13
SB S.B.71-43-3644A, dated February 8, 1993........                 39.13
SB SB.24-293-3501A,B,C,D,E,F, & G, Rev. 2, dated                   39.13
  March 31, 1993.
SB SB.24-293-3501A,B,C,D,E,F, & G, Rev. 2, dated                   39.13
  March 31, 1993.
SB SB.24-293-3510A,B,C,D, & E, Rev. 1, dated                       39.13
  February 4, 1993.
SB SB.24-293-3510A,B,C,D, & E, Rev. 1, dated                       39.13
  February 4, 1993.
SB SB.25-68-25A440A, dated August 19, 1992........                 39.13
SB SB.25-68-25A440A, dated August 19, 1992........                 39.13
SB SB.25-68-25A440A, dated August 19, 1993........                 39.13
SB SB.25-68-25A440A, dated August 19, 1993........                 39.13
SB SB.31-44-3645A, dated January 15, 1993.........                 39.13


Dassault Aviation (Falcon Jet Corp.)

  Customer Support Department. Teterboro Airport, 
  Teterboro, NJ 07608
SB F50-122 (F50-53-2), dated June 25, 1986........                 39.13
731 Falcon Retrofit 20 Airplane Flight Manual                      39.13
DTM30528, Revision 10, dated January 20, 1998.
[[Page 967]]

Fan Jet Falcon Airplane Flight Manual DTM589/590/                  39.13
  591/592, Revision 49, dated January 20, 1998.
SB F200-59 (F200-54-4), Rev. 1 dated Sept. 18,                     39.13
  1991.
SB F200-76 (F200-25-2), dated December 11, 1996...                 39.13
SB F200-78 (F200-54-7), Rev. 1 dated Sept. 18,                     39.13
  1991.
SB F200-87 (F200-54-10) dated Sept. 18, 1991......                 39.13
SB F2000-115 (F2000-38-4), dated December 17, 1997                 39.13
SB F2000-118, dated December 17, 1997.............                 39.13
SB F2000-133, Revision 1, dated October 7, 1998...                 39.13
SB F2000-175, dated October 20, 1998..............                 39.13
SB F2000-80 (F2000-28-3), dated December 11, 1996.                 39.13
SB F50-256 (F50-20-5), Rev. 1, dated December 22,                  39.13
  1996.
SB F50-274, dated December 17, 1997...............                 39.13
SB F900-181 (F900-38-12), dated December 4, 1996..                 39.13
SB F900-203, dated December 17, 1997..............                 39.13
SB F900-235, dated October 13, 1998...............                 39.13
SB F900-38-1 (F900-82) dated Oct. 4, 1990.........                 39.13
SB F900-38-2 (F900-83) dated April 25, 1991.......                 39.13
SB F900EX-37, dated December 17, 1997.............                 39.13
SB F900EX-88, dated October 20, 1998..............                 39.13
Service Bulletin F10-280 Revision 1 dated February                 39.13
  10, 1999.
Service Bulletin F50-240 Revision 1 dated October                  39.13
  7, 1998.
Service Bulletin F50-276 dated June 24, 1998......                 39.13
Alert SB F50-A243 (F50-A39-1), Rev. 1, dated                       39.13
  November 10, 1994.
DTM20103 Temporary Change No. 80 dated October 27,                 39.13
  1999.
DTM30528 Temporary Change No. 20 dated October 27,                 39.13
  1999.
DTM308A Temporary Change No. 29 dated October 27,                  39.13
  1999.
DTM561 Temporary Change No. 46 dated October 27,                   39.13
  1999.
DTM589/590/591/592 Temporary Revision No. 19 dated                 39.13
  October 27, 1999.
DTM592 Temporary Revision No. 19 dated October 27,                 39.13
  1999.
DTM813 Temporary Change No. 50 dated October 27,                   39.13
  1999.
DTM918 Temporary Revision No. 11 dated October 27,                 39.13
  1999.
F900-91 SB F900-53-12, including Appendix 1, dated                 39.13
  July 8, 1992.
F900-93 SB F900-53-14, including Appendix 1, dated                 39.13
  July 8, 1992.
FM813EX Temporary Change No. 49 dated October 27,                  39.13
  1999.
FM900C Temporary Change No. 4 dated October 27,                    39.13
  1999.
SB F2000-123 (F2000-28-7), dated November 14, 1997                 39.13
SB F50-229 (F50-54-13), Rev. 1, dated July 21,                     39.13
  1993.
SB F900-113, dated March 25, 1992.................                 39.13
SB F900-115, dated May 6, 1992....................                 39.13
SB F900-115, Rev. 1, dated February 25, 1993......                 39.13
SB F900-150 (F900-32-12), dated May 9, 1994.......                 39.13
SB F900-A149 (F900-A32-11), dated April 13, 1994,                  39.13
  dated May 1993, dated October 27, 1992.
SB FJF-00-26 (FJF-730), Rev. 1 dated December 12,                  39.13
  1990.
Airplane Flight Manual, Temporary Change No. 31,                   39.13
  undated.


Dassault Falcon Jet

  P.O. Box 2000 South Hackensack New Jersey 07606
Service Bulletin F900-232 Revision 1 dated                         39.13
  November 12, 1999.
Service Bulletin F900EX-93 Revision 1 dated                        39.13
  November 12, 1999.
Falcon 900 Service Bulletin No. 0232 dated March                   39.13
1999.
[[Page 968]]

Falcon 900EX Service Bulletin No. 0093 dated March                 39.13
  1999.
Service Bulletin F10-A291 dated June 1, 2001......                 39.13


de Havilland, Inc

  Garratt Boulevard, Downsview, Ontario M3K 1Y5, 
  Canada
5-100 Temporary Revision (5-100) dated December                    39.13
  23, 1998.
Alert SB A7-27-86, dated December 19, 1991........                 39.13
Alert SB 8-28-15, Rev. A dated April 17, 1992.....                 39.13
Alert SB A7-32-100, dated July 7, 1993............                 39.13
Alert SB A7-32-97, dated November 10, 1992........                 39.13
Alert SB A8-24-44, dated October 23, 1992.........                 39.13
Alert SB A8-28-16, dated May 30, 1991 and.........                 39.13
Alert SB A8-28-16, Rev. C, dated January 31, 1992.                 39.13
Alert SB A8-33-30, Rev. A, dated December 18, 1992                 39.13
Alert SB A8-33-30, Rev. A, dated December 18, 1992                 39.13
Alert SB A8-33-33, dated May 31, 1993.............                 39.13
Alert SB A8-53-46, Rev. A, dated May 25, 1993.....                 39.13
Alert SB A8-55-18, dated February 5, 1993.........                 39.13
Alert SB A8-73-14, Rev. B dated April 24, 1992....                 39.13
Alert SB ASB A8-35-5, Rev. A dated April 5, 1991..                 39.13
Alert SB. A8-32-117, dated December 11, 1992......                 39.13
Alert Service Bulletin S.B. A8-61-30 Revision B                    39.13
  dated December 6, 1999.
ASB A8-28-16, Rev. B dated June 24, 1991..........                 39.13
Beaver SB No. 2/52, dated August 30, 1998.........                 39.13
Beaver Service Buletin No. TB/60, dated August 30,                 39.13
  1998.
DHC-7 Maintenance Manual (PSM 1-7-2), chapter 5-                   39.13
  60-00, Temporary Rev. (TR 5-84), dated June 15, 
  1994.
DHC-8 Alert SB A8-53-40, Rev. D, dated June 30,                    39.13
  1995.
Notice of Status Change 7-53-31-1, dated April 20,                 39.13
  1990, for 7-53-31, dated December 15, 1989.
SB 7-29-20, dated March 20, 1992..................                 39.13
SB 2/47, Rev. C dated Sept. 4, 1992...............                 39.13
SB 6/298, Rev. D, dated December 20, 1991.........                 39.13
SB 6/371, Rev. A, dated May 18, 1979..............                 39.13
SB 7-24-69, dated October 8, 1993.................                 39.13
SB 7-27-37 dated October 28, 1981.................                 39.13
SB 7-27-46, Rev. A dated Nov. 19, 1982............                 39.13
SB 7-27-46, Rev. B dated Dec. 17, 1982............                 39.13
SB 7-53-15, Rev. A dated Nov. 27, 1981............                 39.13
SB 7-53-31, dated December 15, 1989...............                 39.13
SB 7-53-32, dated March 15, 1991..................                 39.13
SB 7-54-9, dated February 29, 1980................                 39.13
SB 7-55-10, dated October 25, 1991................                 39.13
SB 7-57-11, dated December 17, 1982...............                 39.13
SB 7-57-12, dated January 15, 1982................                 39.13
SB 7-57-12, dated January 15, 1982................                 39.13
SB 7-57-14, dated June 25, 1982...................                 39.13
SB 7-57-19, dated February 24, 1984...............                 39.13
SB 8-11-14, Rev. A, dated July 31, 1987...........                 39.13
SB 8-11-14, Rev. B, dated July 1, 1988............                 39.13
SB 8-11-14, Rev. C, dated September 29, 1995......                 39.13
SB 8-24-47, Rev. A, dated November 29, 1993.......                 39.13
SB 8-27-47, Rev. A, dated July 6, 1990............                 39.13

[[Page 969]]

SB 8-27-53, dated May 11, 1990....................                 39.13
SB 8-27-61, dated October 25, 1991................                 39.13
SB 8-29-21, dated March 20, 1992..................                 39.13
SB 8-32-98, Revision C, dated July 31, 1998.......                 39.13
SB 8-32-99, Rev. A, dated July 26, 1993...........                 39.13
SB 8-33-19, Rev. A, dated May 31, 1993............                 39.13
SB 8-33-34, dated August 10, 1993.................                 39.13
SB 8-33-34, dated August 10, 1993.................                 39.13
SB 8-33-35, dated September 1, 1995...............                 39.13
SB 8-34-60, Rev. C, dated November 1, 1991........                 39.13
SB 8-53-48, dated August 26, 1994.................                 39.13
SB 8-53-49, dated June 30, 1995...................                 39.13
SB 8-54-12, dated January 27, 1989................                 39.13
SB 8-54-16, Rev. A, dated October 26, 1990........                 39.13
SB 8-54-25, Rev. A, dated July 29, 1994...........                 39.13
SB 8-54-27, Rev. B, dated August 22, 1994.........                 39.13
SB 8-54-30, Rev. B, dated February 5, 1993........                 39.13
SB 8-54-31, dated March 8, 1994...................                 39.13
SB 8-54-34, Rev. A, dated July 21, 1995...........                 39.13
SB 8-57-20, Rev. A, dated January 31, 1992........                 39.13
SB 8-71-17, dated April 3, 1992...................                 39.13
SB 8-71-19, Rev. B, dated February 24, 1995.......                 39.13
SB 8-73-18, dated April 29, 1994..................                 39.13
SB 8-73-19, dated April 29, 1994..................                 39.13
SB A7-32-94 dated Sept. 3, 1991...................                 39.13
SB A7-32-94 dated Nov. 15, 1991...................                 39.13
SB A8-53-40, Rev. A, dated June 12, 1992..........                 39.13
SB A8-53-40, Rev. B, dated February 24, 1993......                 39.13
SB No. 3/46, Rev. B, dated December 1, 1989.......                 39.13
SB No. 3/50, Rev. A, dated February 17, 1995......                 39.13
SB No. 6/295, Rev. D, dated December 20, 1991.....                 39.13
SB No. 6/342, dated February 23, 1976.............                 39.13
SB No. 6/390, Rev. E, dated December 20, 1991.....                 39.13
SB No. 6/399, Rev. E, dated May 25, 1984..........                 39.13
SB No. 6/421, Rev. B, dated November 11, 1983.....                 39.13
SB No. 6/438, Rev. D, dated March 28, 1986........                 39.13
SB No. 6/476, Rev. B, dated January 22, 1988......                 39.13
SB No. 6/492, Rev. A, dated October 23, 1987......                 39.13
SB No. 6/500, dated January 22, 1988..............                 39.13
SB No. 6/502, dated March 24, 1989................                 39.13
SB No. 6/513, dated October 25, 1991..............                 39.13
SB No. 7-33-7, dated October 17, 1980.............                 39.13
SB No. 8-25-53, dated August 4, 1989..............                 39.13
SB S.B. 8-25-122, dated October 10, 1997..........                 39.13
SBs 7-53-32, dated March 15, 1991; 7-53-31, dated                  39.13
  December 15, 1989; Notice of Status Change 7-53-
  31-1, dated April 20, 1990, for 7-53-51, dated 
  December 15, 1989.
Technical News Sheet B55, dated Aug. 1, 1952......                 39.13
Temporary Revision MTC 2-14 of the de Havilland                    39.13
  Maintenance Program Manual PSM 1-82-7TC, dated 
  September 18, 1998.
Temporary Revision MTC 3-14 of the de Havilland                    39.13
Maintenance Program Manual PSM 1-83-7TC, dated 
[[Page 970]]8, 1998.

Temporary Revision MTC-15 of the de Havilland                      39.13
  Maintenance Program Manual PSM 1-8-7TC, dated 
  September 18, 1998.
DHC-7 Maintenance Manual, Section 71-05-00,                        39.13
  consisting of pages 1-3, dated July 15, 1977.
DASH 7 Maintenance Manual, Chapter 5, Section 5-                   39.13
  60-00, Product Support Manual (PSM) 1-7-2, 
  Supplementary Revision TR 5-97, dated December 
  22, 1997.
DASH 7 Maintenance Manual, Chapter 5, Section 5-                   39.13
  60-00, Product Support Manual (PSM) 1-7-2, 
  Supplementary Revision TR 5-99, dated December 
  22, 1997.
SB 32-18, Rev. 1 dated June 5, 1980...............                 39.13


Dee Howard Co

  P.O. Box 469001, San Antonio, TX 78246
D6-8727 Flight Manual Supplement CR102-F-066,                      39.13
  Change 19, dated October 2, 1997.


Detroit Diesel Allison

  Division of General Motors Corp., Detroit Deisel 
  Corporate Offices 13400 Outer Drive W. Detroit 
  MI 48239
Bulletin CEB-A-1174/1146..........................                 39.13
Alert CEB A-72-5009, dated May 21, 1997...........                 39.13
Alert Commercial Engine Bulletin, Engine Fuel and                  39.13
  Control, Inspection of Certain Bendix Fuel 
  Control dated August 1, 1988.
Commercial Engine Alert Bulletin 250-C30 CEB-A-72-                 39.13
  3165, dated August 31, 1987.
Commercial Engine Alert Bulletin 250-C30, C30S                     39.13
  CEB-A-72-3098, Rev. 1, dated January 15, 1985.
Commercial Engine Alert Bulletin CEB-72-3059, Rev.                 39.13
  4; dated September 15, 1985.
Commercial Engine Alert Bulletin CEB-72-3096, Rev.                 39.13
  1; dated September 15, 1985.
Commercial Engine Alert Bulletin CEB-72-3100, Rev.                 39.13
  1; dated September 15, 1985.
Commercial Engine Alert Bulletin CEB-A-1174/1146,                  39.13
  Rev. 3 Dated 1/26/84.
Commercial Engine Alert Bulletin CEB-A-72-2044,                    39.13
  Rev. 4 dated May 1, 1989.
Commercial Engine Alert Bulletin CEB-A-72-3108,                    39.13
  Rev. 3; dated September 15, 1985.
Commercial Engine Alert Bulletin CEB-A-72-3124                     39.13
  dated Nobember 15, 1984, CEB-A-72-3125 dated 
  November 15, 1984, Allison Commercial Engine 
  Bulletins CEB-A-72-3134,.
Commercial Engine Alert Bulletin CEB-A-72-3124                     39.13
  dated 11/15/84, CEB-A-72-3125 dated 11/15/84, 
  CEB-A-72-3128 dated 11/15/84, and Allison 
  Commercial Service Letter CSL-3068 dated 10/1/
  84.
Commercial Engine Alert Bulletin CEB-A-72-3125                     39.13
  Rev. 2; dated September 15, 1985.
Commercial Engine Alert Bulletin CEB-A-72-3127,                    39.13
  dated September 14, 1984 and.
Commercial Engine Alert Bulletin CEB-A-72-3127,                    39.13
  Rev. 1, dated November 15, 1984.
Commercial Engine Alert Bulletin CEB-A-72-3128                     39.13
  dated November 15, 1984.
Commercial Engine Alert Bulletin CEB-A-72-3131,                    39.13
dated November 15, 1984.
[[Page 971]]

Commercial Engine Alert Bulletin CEB-A-72-3135,                    39.13
  Rev. 1; dated September 15, 1985.
Commercial Engine Alert Bulletin CEB-A-72-3143.                    39.13
  dated September 15, 1985.
Commercial Engine Alert Bulletin CEB-A-73-6017,                    39.13
  Rev. 1, dated February 18, 1998.
Commercial Engine Alert Bulletin CEB-A-73-6017,                    39.13
  Rev. 2, dated April 9, 1998.
Commercial Service Letter, CSL-3068, dated October                 39.13
  1, 1984.
Distributor Information Letter 250 DIL 223, dated                  39.13
  October 1, 1984.
message THO-1979W-RMG-84, dated August 22, 1984...                 39.13
message THO-2111W-RMG-84, dated September 21, 1984                 39.13
Rev. THO-2032W-RTM-84, dated September 11, 1984...                 39.13
Alert Commercial Engine Bulletin CEB- A-73-6011,                   39.13
  dated October 31, 1996.
Alert Commercial Engine Bulletin CEB-A-73-6010,                    39.13
  dated October 15, 1996.
Alert Commercial Engine Bulletin CEB-A-73-6012,                    39.13
  dated October 31, 1996.
Alert SB AE 3007A-A-79-014, Rev. 3, dated May 21,                  39.13
  1998.
Alert SB AE 3007A-A-79-014, Rev. 4, dated April                    39.13
  14, 1998.
Alert SB AE 3007C-A-79-018, Rev. 3, dated April                    39.13
  21, 1998.
CEB/AlliedSignal Aerospace Equipment Systems SB                    39.13
  GT-242, Revision 2, dated April 15, 1998.
Bulletin 250-C30 CEB-A-72-3056 Rev. 3.............                 39.13
Bulletin C30S CEB-A-72-3108 revised dated October                  39.13
  15, 1983.


DG Flugzeugbau

  Postbox 41 20, D-76646 Bruchsal, Federal 
  Republic of Germany
Technical Note 843/13 dated November 3, 1999......                 39.13
Technical Note 873/16 dated October 25, 1999......                 39.13
Technical Note No. 348/12 and 843/12 dated October                 39.13
  6, 1999.
Technical Note No. 873/12 (including Working                       39.13
  Instructions No. 1 and No. 2) dated March 9, 
  1999.
Technical Note No. 873/13 dated June 30, 1999.....                 39.13
Working Instructions No. 1 for TN 348/12 (843/12)                  39.13
  dated September 28, 1999.


Diamond Aircraft Industries, Inc

  690 Crumlin Sideroad, Ontario, Canada N5V 1S2; 
  Telephone (519) 457-4000; FAX: (519) 457-4037
SB No. 51, dated March 30,1996....................                 39.13
Work Instruction No. 21, dated March 20, 1996, as                  39.13
  referenced in Diamond.
Alert SB No. DA20-53-01A, Rev. 0, dated June 5,                    39.13
  1997.
Alert SB No. DA20-57-02, Rev. 0, dated March 7,                    39.13
  1996.


Don Luscombe Aviation History Foundation

  P.O. Box 63581, Phoenix, AZ 85082, Telephone 
  606-693-4312
Recommendation No. 2, dated December 15, 1993,....                 39.13
Recommendation No. 2, Revised November 21, 1995...                 39.13
Service Recommendation No. 1, dated November 28,                   39.13
  1993.


Dowty Rotol Ltd

  Cheltenham Road East, Gloucester, England GL2 
  9QH
SB 200-32-137 dated Nov. 6, 1990..................                 39.13
SB F100-32-63, Rev. 2, dated September 23, 1993...                 39.13
SB F100-32-64, Rev. 1, dated February 18, 1994....                 39.13

[[Page 972]]

SB SF340-61-57, dated February 15, 1991...........                 39.13
SB SF340-61-58, Rev. 1, dated July 18, 1991,                       39.13
  including Appendix A dated February 15, 1991; 
  Appendix B, Rev. 1, dated July 18, 1991; and 
  Appendix C, dated February 15, 1991.
SB SF340-61-61, Rev. 1, dated October 19, 1992....                 39.13
SB F100-32-505, Rev. 1, dated April 16, 1993......                 39.13
SB F100-32-506, dated June 9, 1993................                 39.13
SB 32-69SD, Rev. 2, dated January 20, 1993........                 39.13
SB 32-104E, dated January 20, 1993................                 39.13
SB F50-32-27, Rev. 4, dated December 18, 1992.....                 39.13
SB 1150-27-04, dated December 5, 1996.............                 39.13
S2000-61-75 Revision 4 dated September 28, 2000...                 39.13
SB No. S2000-61-75, Revision 1, dated June 11,                     39.13
  1999.
SB 32-77W, Rev. 4, dated February 3, 1993.........                 39.13
SB 32-81W, Rev. 2, dated February 3, 1993.........                 39.13
SB SF340-61-11 dated October 8, 1986..............                 39.13
SF-340-61-A21, Rev. 4 dated October 1, 1987,                       39.13
  including Appendices A through G.


Dunlop Ltd., Aviation Division

  Silverton House, Vincent Square, London SW1P 
  2PL, United Kingdom
SB AHA1752-32-1069, dated June 28, 1993...........                 39.13


Eagle Aircraft Pty. Ltd.

  Lot 700 Cockburn Road Henderson WA 6166 
  Austrailia phone (08)9410 1077 fax (08)9410 2430
Service Bulletin No. 1059 dated January 21, 1999..                 39.13
Service Bulletin No. 1076 Revision 2 dated                         39.13
  December 14, 1999.


Eastern Aero Marine

  P.O. Box 593513, Miami, FL 33159
SB T9-25-1 dated Jan. 31, 1992....................                 39.13


EIRIAVION OY

  Kisallinkatu 8, SF-15170 Lahti, Finland
SF-15170 LAHTI 17 SB..............................                 39.13


Empresa Brasileira de Aeronautica S.A (EMBRAER) Aircraft Corporation

  P.O. Box 343--CEP 12.225, Sao Jose dos Campos--
  SP, Brazil
Alert Service Bulletin 120-31-A046 dated July 13,                  39.13
  2001.
Alert Service Bulletin 145-55-A025 dated June 5,                   39.13
  2001.
Model EMB-145 Airplane Flight Manual, Page 2-11                    39.13
  Revision 40 dated August 11, 2000.
Service Bulletin 120-25-0258 dated May 14, 2001...                 39.13
Service Bulletin 120-25-0258 Change 1 dated August                 39.13
  30, 2001.
Service Bulletin 120-30-0032 Revision 1 dated June                 39.13
  13, 2001.
Service Bulletin 120-30-0033 Change 1 dated                        39.13
  September 6, 2001.
Service Bulletin 120-30-0033 Change 2 dated                        39.13
  September 14, 2001.
Service Bulletin 145-31-0021 dated August 1, 2000.                 39.13
Service Bulletin 145-32-0060 Change No. 1 dated                    39.13
  June 6, 2000.
Service Bulletin 145-78-0029 dated February 2,                     39.13
  2001.
SB 145-31-0017, Changes No. 1, including List of                   39.13
  Effective Pages, dated October 22, 1999.
Service Bulletin AE 3007A-79-025 dated August 1,                   39.13
  2000.


Empresa Brasileira de Aeronautica S.A. (EMBRAER) Aircraft Corporation

  Sales and Distribution Center, 276 Southwest 
  34th Street, Fort Lauderdale, FL 33315

[[Page 973]]

Alert SB 120-27-A081, Change 01, dated October 9,                  39.13
  1997.
Alert Service Bulletin 120-24-A057 dated November                  39.13
  14, 1996.
Alert Service Bulletin 145-36-A018 dated April 14,                 39.13
  2000.
Alert Service Bulletin S.B. 145-55-A022 Change 2                   39.13
  dated October 8, 1999.
Alert Service Bulletin S.B. No. 145-28-A013 dated                  39.13
  August 16, 2000.
Alert Service Bulletin S.B. No. 145-28-A014 dated                  39.13
  August 25, 2000.
ASB 120-51-A004, Change 01, dated November 10,                     39.13
  1997.
ASB 145-27-A054, Change 01, dated February 17,                     39.13
  1999.
ASB 145-32-A029, dated April 15, 1998.............                 39.13
ASB 145-36-A011, dated March 19, 1999.............                 39.13
ASB S.B. 145-31-A010, dated December 15, 1998.....                 39.13
EMB-145 Airplane Flight Manual 145/1153, Revision                  39.13
  19, dated October 23, 1998.
SB 110-027-0089 dated July 19, 1991...............                 39.13
SB 110-27-0091 dated Dec. 5, 1991.................                 39.13
SB 120-076-0009, Change No. 4 dated Nov. 1, 1990..                 39.13
SB 120-24-0008, Change No. 04, dated October 3,                    39.13
  1995.
SB 120-24-0051, Change No. 04, dated March 8, 1995                 39.13
SB 120-27-0068, Change 02, dated March 20, 1998...                 39.13
SB 120-30-0027, dated May 9, 1997.................                 39.13
SB 120-57-0021, Change 1, dated September 10, 1993                 39.13
SB 120-57-0021, Change 2, dated March 8, 1996.....                 39.13
SB 120-57-0031, dated July 6, 1995................                 39.13
SB 145-27-0013, dated August 20, 1997.............                 39.13
SB 145-27-0014, dated August 20, 1997.............                 39.13
SB 145-27-0029, dated November 10, 1997...........                 39.13
SB 145-28-0005, dated May 23, 1997................                 39.13
SB 145-28-0006, dated October 22, 1997............                 39.13
SB 145-30-0007, dated November 13, 1997...........                 39.13
SB 145-30-0008, dated November 10, 1997...........                 39.13
SB 145-32-0009, dated September 1, 1997...........                 39.13
SB 145-32-0012, dated September 1, 1997...........                 39.13
SB 145-34-0008, dated September 10, 1997..........                 39.13
SB 145-34-0010, dated July 25, 1997, including                     39.13
  Change No. 01, dated September 25, 1997.
SB 145-34-0026, Change No. 1, dated June 23, 1999.                 39.13
SB 145-36-0007, Change 03, dated December 9, 1998.                 39.13
SB 145-53-0004, dated July 28, 1997...............                 39.13
SB No. 110-032-0068, dated December 20, 1985......                 39.13
SB No. 110-032-0071, Change No. 01, dated June 21,                 39.13
  1988.
SB S.B. 120-54-0035, Change 02, dated May 29, 1998                 39.13
Service Bulletin 120-27-0077 Revision 1 dated                      39.13
  October 24, 1997.
Service Bulletin 120-29-0047 Change 1 dated                        39.13
  October 22, 1996.
Service Bulletin 120-30-0027 Revision 2 dated                      39.13
  December 3, 1997.
Service Bulletin 120-30-0027 Revision 3 dated June                 39.13
  26, 1998.
Service Bulletin 120-30-0027 Revision 4 dated July                 39.13
  13, 1999.
Service Bulletin 120-30-0028 dated August 25, 1997                 39.13
Service Bulletin 120-53-0064 dated October 31,                     39.13
  1995.
Service Bulletin 145-26-0008 dated December 19,                    39.13
  2000.
Service Bulletin 145-26-0009 dated January 26,                     39.13
  2001.
Service Bulletin 145-29-0003 dated November 13,                    39.13
  1997.
Service Bulletin 145-32-0036 dated February 1,                     39.13
1999.
[[Page 974]]

Service Bulletin 145-32-0037 dated February 12,                    39.13
  1999.
Service Bulletin 145-55-0024 dated May 25, 2000...                 39.13
Service Bulletin S.B. 120-27-0081 dated September                  39.13
  1, 2000.
Service Bulletin S.B. 145-31-0010 dated March 18,                  39.13
  1999.
Service Bulletin120-32-0077 Revision 2 dated                       39.13
  December 23, 1997.
Service Bulletin145-55-0009 Change No. 2 dated May                 39.13
  19, 2000.


Enstron Helicopter Corp

  Twin County Airport, P.O. Box 490, Menominee, MI 
  49858
SB 0081, Rev. A, dated November 16, 1992..........                 39.13
Service Directive Bulletin No. 0077, Rev. B, dated                 39.13
  November 16, 1992.
Service Directive Bulletin No. 0082, Rev. A, dated                 39.13
  March 18, 1993.
Service Directive Bulletin No. 0086, dated March                   39.13
  31, 1996.
Service Information Letter No. 0110, Rev. B, dated                 39.13
  March 18, 1993.


Erickson Air-Crane Company

  3100 Willow Springs Road, P. O. Box 3247, 
  Central Point, OR 97502
SB 64B35-7C, dated November 8, 1995...............                 39.13
SB 64F35-2A, dated November 8, 1995...............                 39.13


Essex PB&R Corp. (formerly DuPont)

  P.O. Box 791, 505 Blue Ball Rd., Elkton, MD 
  21921
SB 002 dated Feb. 5, 1991.........................                 39.13
SB No. 001, Rev. 1, dated October 3, 1991.........                 39.13


Eurocopter (American Eurocopter Corp.)

  2701 Forum Drive, Grand Prairie, TX 75053-4005
Alert SB BO 105 No. ASB-BO 105-10-110, dated                       39.13
  August 27, 1997.
Alert Service Bulletin EC 135-29A-003 dated                        39.13
  February 24, 1999.
Appendix Repair of BK117 Vertical Fin to                           39.13
  Eurocopter Deutschland GmbH, MBB-BK117-30-106, 
  Revision 4, dated December 19, 1997.
AS 332 Service Bulletin 05.00.54 dated July 8,                     39.13
  1999.
AS 365 SB No. 31.00.03, dated June 23, 1998.......                 39.13
Mandatory SB No. 5.00.29, dated February 8, 1999..                 39.13
Mandatory SB No. 5.00.30, dated February 8, 1999..                 39.13
SA 315 SB No. 05.34, Revision No. 1, dated                         39.13
  September 28, 1998.
SA 316/319 SB No. 05.92, Revision 1, dated                         39.13
  September 28, 1998.
SA 341/342 SB No. 05.32, dated July 17, 1997......                 39.13
SA 366 SB No. 31.01, dated June 23, 1998..........                 39.13
SB AS 355 No. 01.39, Rev. 1, dated April 21, 1994.                 39.13
SB AS-350, No. 01.43, Rev. 1, dated April 21, 1994                 39.13
SB No. 01.00.50, dated August 5, 1997.............                 39.13
SB No. 01.41, dated November 1995.................                 39.13
SB No. 05.00.29, Revision 2, dated September 29,                   39.13
  1999.
SB No. 05.00.30, Revision 2, dated September 29,                   39.13
  1999.
SB No. 05.91, Revision 1, dated September 28, 1998                 39.13
Service Bulletin 01-002 dated December 23, 1999...                 39.13
Service Bulletin 05-001 dated September 23, 1999..                 39.13
Service Bulletin 63-001 dated November 10, 1999...                 39.13
Service Telex No. 05-001 EC 120, Version B, dated                  39.13
  August 26, 1999.
Technical Instruction No. 230 c, approved May 17,                  39.13
  1995.
Alert SB No. ASB-BO 105 LS-10-9, dated September                   39.13
  11, 1997.
ASB BO 105 LS A-3 No. ASB-BO 105 LS- 10-10, dated                  39.13
  September 1, 1999.
Alert SB ASB-MBB-BK 117-10-108, Rev. 1, dated                      39.13
October 14, 1994.
[[Page 975]]

Alert SB MBB-BK 117 No. ASB-MBB-BK 117-10-114,                     39.13
  dated August 27, 1997.
Alert Service Bulletin BO 105 ASB-BO 105-10-113                    39.13
  Revision 2 dated November 16, 1999.
Alert Service Bulletin EC 135-53A-004 dated August                 39.13
  14, 1998.
Alert Service Bulletin EC 135-53A-005 Revision 3                   39.13
  dated September 2, 1998.
Alert Service Bulletin EC 135-62A-005 Revision 1                   39.13
  dated November 16, 1999.
Alert Service Bulletin MBB-BK 117-10-120 Revision                  39.13
  1 dated August 31, 1999.
Alert Service Bulletin MBB-BK 117-10-120 Revision                  39.13
  1 dated August 31, 1999.
ASB EC 135-53A-009, dated March 23, 1999..........                 39.13
ASB EC 135-53A-010, Revision 2, dated July 22,                     39.13
  1999.
ASB No. ASB-BO 105-10-113, dated August 11, 1999..                 39.13
MBB-BK117-30-106, Rev. 3, dated May 5, 1997,                       39.13
  including Appendix.
MBB-Helicopters Alert SB ASB-MBB-BK 117-20-104,                    39.13
  Rev. 1, dated December 8, 1989.
Service Bulletin SB-MBB-BK 117-20-109 Revision 2                   39.13
  dated April 30, 1999.
SA 332 SB No. 01.00.47, Rev. No. 1, dated                          39.13
  September 10, 1997.
Alert Service Bulletin No. 52A004 Revision 1 dated                 39.13
  April 19, 2001.
AS 365 SB No. 01.00.40, Rev. 1, dated October 24,                  39.13
  1996.
AS SB No. 01.20, Rev. 1, dated October 24, 1996...                 39.13
SA 330 SB No. 01.00.43, Rev. No. 1, dated February                 39.13
  14, 1996.
SA 330 SB No. 01.52 R1, Rev. No. 1, dated February                 39.13
  14, 1996.
SA 330 SB No. 01.53R1 Accomplishment Instructions,                 39.13
  dated March 13, 1997.
SA 330 SB No. 54.20, Rev. 1, Accomplishment                        39.13
  Instructions, dated February 27, 1996.
SA 330 SB No. 65.73 R3, dated June 22, 1995.......                 39.13
SB 05.20, Rev. 3, dated November 14, 1996.........                 39.13
SB 05.84, Revision 2, dated December 19, 1997.....                 39.13
SB No. 01.00.44, dated March 26, 1996.............                 39.13
SB No. 01.00.49 Accomplishment Instructions, dated                 39.13
  June 30, 1997.
SB No. 01.36, dated December 11, 1997.............                 39.13
SB No. 05.00.34, Rev. 3, dated November 14, 1996..                 39.13
SB No. 05.00.36, Rev. 1, Accomplishment                            39.13
  Instructions, dated December 16, 1996.
SB No. 1.00.45, dated December 11, 1997...........                 39.13
SB No. 5.00.28, applicable to Model AS-350                         39.13
  helicopters.
SB No. 5.00.29, applicable to Model AS-355                         39.13
  helicopters.
SB No. 55.01, Rev. 3, dated April 25, 1997........                 39.13
SB No. 55.10, Rev. 2, dated April 25, 1997........                 39.13
SB No. 62.00.43, dated February 13, 1997..........                 39.13
Service Bulletin 01.00.44 dated November 10, 1998.                 39.13
Service Bulletin 01.00.47 dated November 10, 1998.                 39.13
Service Bulletin 01.00.57 Revision 1 dated                         39.13
  November 24, 1999.
Service Bulletin 05.00.28 dated May 26, 1997......                 39.13
Service Bulletin 05.00.29 dated May 26, 1997......                 39.13
Service Bulletin 05.19 Revision 3 dated May 4,                     39.13
  1998.
Service Bulletin 05.58 Revision 3 dated May 4,                     39.13
  1998.
Service Bulletin 05.66 Revision 3 dated May 4,                     39.13
1998.
[[Page 976]]

Service Bulletin 55.01 Revision 4 dated May 4,                     39.13
  1998.
Service Bulletin 65.137 Revision 1 dated November                  39.13
  17, 1993.
Service Bulletin SA 3130-3180 No. 55.10 Revision 3                 39.13
  dated May 4, 1998.
Service Telex 00067, dated July 24, 1998..........                 39.13
Service Telex 00095 dated October 27, 1999........                 39.13
Service Telex No. 00055/0034/98 (Eurocopter                        39.13
  Service Telex 316/319 No. 01-64 and 315 No. 01-
  29), Paragraphs dated February 3, 1998.
Service Telex No. 10011, paragraphs BB and BB 2A,                  39.13
  dated February 24, 1995.
Telex SB 05.19, dated August 19, 1992.............                 39.13


Extra Flugzeugbau, GmbH

  Schwarze Heide 21, 46569 Hunxe, GERMANY
SB 300-3-95, Issue B, dated May 12, 1998..........                 39.13
instructions section to SB 300-3-94, dated August                  39.13
  3, 1994.
SB 300-1-92, Issue A, dated March 27, 1992........                 39.13
SB 300-1-93, dated February 9, 1993...............                 39.13
SB 300-1-97, Issue B, dated June 11, 1997.........                 39.13
SB 300-3-93, dated January 12, 1994...............                 39.13


Facet Aerospace Products, Co

  1048 Industrial Park Road, Bristol, VA 24201
SB A1-88 dated August 1988........................                 39.13


Fairchild Dornier

  Dornier Luftfahrt GmbH P.O. Box 1103, Airfield 
  Oberpfaffenhofen, D-82230 Wessling, Germany
Service Bulletin Do228-212-32-12 dated November                    39.13
  15, 2000.
Service Bulletin Do228-212-32-13 dated December                    39.13
  15, 2000.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-042 dated January 31, 1997.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-048 dated May 12, 1998.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-050 dated October 2, 1997.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-052 dated December 11, 1997.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-053 dated April 29, 1998.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-054 dated May 12, 1998.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-055 dated May 26, 1998.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-056 dated July 22, 1998.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-057 dated October 23, 1998.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-059 dated December 11, 1998.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-062 dated May 18, 1999.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-063 dated August 10, 1999.
328 Airworthiness Limitations Document Temporary                   39.13
Revision No. ALD-064 dated October 10, 1999.
[[Page 977]]

328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-065 dated November 26, 1999.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-067 dated February 7, 2000.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-068 dated February 4, 2000.
328 Airworthiness Limitations Document Temporary                   39.13
  Revision No. ALD-070 dated May 25, 2000.
328 Airworthiness Limitations Document TM-ALD-                     39.13
  010693-ALL Revision 13 dated July 25, 1997.
328 AOT-328-27-016, dated July 31, 1998...........                 39.13
328-100 Airplane Flight Manual Temporary Rev. (TR)                 39.13
  02-099, dated November 18, 1996.
328JET Aircraft Maintenance Manual Temporary                       39.13
  Revision 71-130 dated March 8, 2001.
Alert SB ASB 328-32-019, dated September 17, 1997.                 39.13
Alert SB ASB-328-00-011, Revision 1, dated June 5,                 39.13
  1996.
Alert SB ASB-328-27-025, Revision 1, dated                         39.13
  September 22, 1999.
Alert SB ASB-328-53-004, dated August 2, 1994,                     39.13
  including Figures 1 and 2 of Annex 1.
Alert SB ASB-328-71-006, Rev. 1, dated February                    39.13
  16, 1995.
Alert Service Bulletin ASB 328J-28-007 dated                       39.13
  September 20, 2000.
Alert Service Bulletin ASB-328-55-028 dated                        39.13
  October 29, 1999.
Alert Service Bulletin ASB-328-76-024 Revision 1                   39.13
  dated August 5, 1998.
Alert Service Bulletin ASB-328J-29-006 dated                       39.13
  August 31, 2000.
Alert Service Bulletin ASB-328J-55-002 dated                       39.13
  October 29, 1999.
All Operators Telefax AOT-328-27-016 Revision 1                    39.13
  dated October 28, 1998.
All Operators Telefax AOT-328J-32-001 dated                        39.13
  September 9, 1999.
AOT0328-28-014, Rev. 1, dated October 16, 1996....                 39.13
ASB 328-31-016, dated April 2, 1997...............                 39.13
ASB ASB-328-27-017, Revision 2, dated July 28,                     39.13
  1998.
ASB ASB-328-30-013, Revision 1, dated February 21,                 39.13
  1997.
ASB ASB-328-53-010, dated October 13, 1995........                 39.13
ASB ASB-328-76-015, Revision 3, dated January 9,                   39.13
  1998.
ASB ASB-328-76-015, Revision 3, dated January 9,                   39.13
  1998.
ASB ASB-328-76-022, dated December 22, 1997.......                 39.13
ASB ASB-328-76-022, dated December 22, 1997.......                 39.13
SB 228-160 dated Dec. 18, 1989....................                 39.13
SB 228-164, Rev. dated Aug. 28, 1990..............                 39.13
SB 228-171 dated July 20, 1990....................                 39.13
SB 228-214, dated January 28, 1994................                 39.13
SB 228-215, Rev. 1, dated January 31, 1995........                 39.13
SB 328-21-215, Rev. 1, dated June 12, 1997........                 39.13
SB 328-21-218, dated July 2, 1997, including                       39.13
  Price/Material Information Sheet.
SB 328-21-227, dated July 16, 1997, including                      39.13
  Price/Material Information Sheet, dated July 16, 
  1997.
SB 328-24-018, dated August 5, 1997...............                 39.13
SB 328-24-021, dated November 25, 1997............                 39.13
SB 328-24-062, Rev. 1, dated June 27, 1995........                 39.13
SB 328-24-188, dated September 11, 1996...........                 39.13
SB 328-25-196, dated November 12, 1996............                 39.13

[[Page 978]]

SB 328-27-236, Rev. 1, dated November 5, 1997.....                 39.13
SB 328-27-247, Rev. 1, dated February 19, 1998....                 39.13
SB 328-28-211, dated March 26, 1997...............                 39.13
SB 328-29-205, dated February 12, 1997............                 39.13
SB 328-30-164, dated April 30, 1996...............                 39.13
SB 328-31-172, dated June 18, 1996................                 39.13
SB 328-31-226, dated June 16, 1997, including                      39.13
  Price/Material Information Sheet.
SB 328-32-183, dated October 9, 1996..............                 39.13
SB 328-32-213, dated April 16, 1997...............                 39.13
SB 328-32-248, Rev. 1, dated April 22, 1998.......                 39.13
SB 328-53-144, Rev. 2, dated September 18, 1996...                 39.13
SB 328-57-020, dated October 28, 1997.............                 39.13
SB 328-57-239, dated July 7, 1997.................                 39.13
SB 328-57-255, dated January 21, 1998.............                 39.13
SB 328-61-138, dated November 13, 1995............                 39.13
SB 328-76-152, dated May 6, 1996..................                 39.13
SB 328-76-168, dated May 6, 1996..................                 39.13
SB No. 1140-0000, dated September 29, 1995........                 39.13
SB No. SB-328-30-265, dated July 24, 1998.........                 39.13
SB SB-328-24-061, Rev. 1, dated November 3,1994...                 39.13
SB SB-328-25-072, dated December 16, 1994.........                 39.13
SB SB-328-25-114, dated July 10, 1995.............                 39.13
SB SB-328-25-114, Rev. 1, dated April 17, 1997....                 39.13
SB SB-328-27-063, Rev. 1, dated January 26, 1995..                 39.13
SB SB-328-27-116, dated September 26, 1995........                 39.13
SB SB-328-27-228, Revision 1, dated December 18,                   39.13
  1997.
SB SB-328-27-243, Revision 1, dated December 18,                   39.13
  1997.
SB SB-328-27-263, dated June 29, 1998.............                 39.13
SB SB-328-29-220, dated May 20, 1997..............                 39.13
SB SB-328-29-220, Revision 1, dated May 4, 1998...                 39.13
SB SB-328-29-237, Revision 1, dated December 17,                   39.13
  1997.
SB SB-328-30-020, dated March 17, 1994............                 39.13
SB SB-328-30-132, dated October 11, 1995..........                 39.13
SB SB-328-32-048, dated August 11,1994............                 39.13
SB SB-328-53-051, dated August 16, 1994...........                 39.13
SB SB-328-53-184, Revision 1, dated July 2, 1997..                 39.13
SB SB-328-56-165, dated April 19,1996.............                 39.13
SB SB-328-57-058, dated November 23, 1994.........                 39.13
SB SB-328-71-086, dated March 6, 1995.............                 39.13
SB SB-328-76-254, dated June 30, 1998.............                 39.13
SB SB-328-76-254, dated June 30, 1998.............                 39.13
SB SB-328-76-254, Revision 1, dated August 6, 1998                 39.13
SB SB-328-76-254, Revision 1, dated August 6, 1998                 39.13
SB SB-328-76-267, Revision 1, dated September 25,                  39.13
  1998.
SB SB-328-76-267, Revision 1, dated September 25,                  39.13
  1998.
SB SB-328-76-267, Revision 2, dated October 8,                     39.13
  1998.
SB SB-328-76-267, Revision 2, dated October 8,                     39.13
  1998.
Service Bulletin SB-328-27-289 dated March 3, 1999                 39.13
Service Bulletin SB-328-27-293 dated November 10,                  39.13
  1999.
Service Bulletin SB-328-27-310 dated June 10, 2000                 39.13
Service Bulletin SB-328-76-268 Revision 1 dated                    39.13
  December 9, 1998.
Service Bulletin SB-328J-29-040 dated June 8, 2000                 39.13

[[Page 979]]

Service Bulletin SB-328J-32-029 Revision 1 dated                   39.13
  August 4, 2000.
Service Bulletin SB-328J-71-109 dated March 26,                    39.13
  2001.
Dornier 228 Service Bulletin SB-228-236 dated                      39.13
  January 11, 2001.
Service Bulletin No. SB-228-234 dated October 13,                  39.13
  2000.


Fairchild Dornier Aircraft Corp.

  P.O. Box 790490, San Antonio, TX 78279-0490
Airframe Airworthiness Limitations Manual ST-UN-                   39.13
  M001, Revision No. C- 6, dated April 7, 1998.
Airframe Airworthiness Limitations Manual ST-UN-                   39.13
  M003, Revision No. 5, dated April 7, 1998.
Airframe Inspection Manual ST-UN-M002, Revision                    39.13
  No. A-6, dated December 8, 1997.
SA226 SB 226-53-007, Revision, dated February 17,                  39.13
  1992.
SA226 SB 226-55-010 dated May 13, 1991............                 39.13
SA226 SB 226-55-010 Revised Dec. 13, 1991.........                 39.13
SA226 SB 57-016, issued June 25, 1981 and revised                  39.13
  December 9, 1981.
SA226 Series Service Letter 226-SL-005, Revised                    39.13
  34067.
SA226 Series Service Letter 226-SL-005, and                        39.13
  Fairchild SA227 Series Service Letter 227-SL-
  011, both Issued: Revised: April 28, 1993, 
  February 12, 1991.
SA226 Series Service Letter 226-SL-014, dated                      39.13
  October 3, 1997.
SA226/227 Series Structural Repair Manual, part                    39.13
  number (P/N) 27-10054- 079, pages 57 through 90, 
  initial Revision 28, dated June 24, 1998.
SA226/227 Structural Repair Manual (SRM) section                   39.13
  53-90-20, pages 2, 101, 102, 103, and 104, Rev. 
  24, dated August 27, 1997.
SA227 SB 227-53-003, Revision, dated February 13,                  39.13
  1986.
SA227 SB 227-55-006 dated May 13, 1991............                 39.13
SA227 SB 227-55-006 dated Dec. 13, 1991...........                 39.13
SA227 Series Service Letter 227-SL-011, Revised,                   39.13
  34087.
SA227 Series Service Letter 227-SL-031, dated                      39.13
  October 3, 1997.
SA227 Series Service Letter CC7-SL-021, dated                      39.13
  October 3, 1997.
SA227 Series Structural Repair Manual P/N 27-                      39.13
  10054-127, pages 47 through 60, initial issue 
  December 1, Revision 7, dated June 24, 1998.
SB 226-24- 026, dated May 27, 1987................                 39.13
SB 226-24-023, Revised 32531......................                 39.13
SB 226-24-027, Revised 32561......................                 39.13
SB 226-24-031, dated July 27, 1989................                 39.13
SB 226-32-049 dated Nov. 14, 1989.................                 39.13
SB 226-32-065, issued August 16, 1995.............                 39.13
SB 226-32-065, Revised 34970......................                 39.13
SB 226-76-008 dated May 9, 1991...................                 39.13
SB 226-76-008 issued Jan. 15, 1991, rev. Dec. 17,                  39.13
  1991.
SB 227-24-005, Revised 32531......................                 39.13
SB 227-24-008, Revised 32561......................                 39.13
SB 227-24-012, Revised 32716......................                 39.13
SB 227-27-029 dated June 6, 1991..................                 39.13
SB 227-32-017 dated Nov. 14, 1984.................                 39.13
SB 227-32-039, issued August 16, 1995.............                 39.13
SB 227-32-039, Revised 34970......................                 39.13
SB 227-76-002 dated May 9, 1991...................                 39.13
SB 24-018, Revised 29593..........................                 39.13

[[Page 980]]

SB CC7- 32-007, Revised 34970.....................                 39.13
SB CC7-32-007, issued August 16, 1995.............                 39.13
SB No. 226-27-032, dated September 14, 1981.......                 39.13
SB No. 226-27-032, revised 30335..................                 39.13
SB No. 226-27-060, issued December 11, 1996.......                 39.13
SB No. 227-27-002, dated September 14, 1981.......                 39.13
SB No. 227-27-002, revised 31345..................                 39.13
SB No. 227-27-041, issued December 11, 1996.......                 39.13
SBs 226-55-010, Horizontal Stabilizer Fitting                      39.13
  Fasteners, revised 33585.
SBs 227-55-006, Horizontal Stabilizer Fitting                      39.13
  Fasteners, revised 33989.
Service Bulletin 226-26-003 revised August 10,                     39.13
  2001.
Service Bulletin 227-26-002 revised March 1, 2000.                 39.13
Approved Repair Procedure (ARP) 53-30-9701, dated                  39.13
  July 28, 1997.
ASB A32-014, Revised 36186........................                 39.13
Engineering Kit Drawing 27K82376, Current Limiter                  39.13
  Rebusing Kit as referenced in Fairchild SBs 226-
  24-034, issued September 29, 1994.
SA 226 Series SL 226-SL-005 Revised August 3, 1999                 39.13
SA 226 Series SL 226-SL-014 Revised February 1,                    39.13
  1999.
SA 227 Series SL 227-SL-011 Revised August 3, 1999                 39.13
SA 227 Series SL 227-SL-031 Revised February 1,                    39.13
  1999.
SA 227 Series SL CC7-SL-021 Revised February 1,                    39.13
  1999.
SA 227 Series SL CC7-SL-028 Issued August 12, 1999                 39.13
SA226 Series Service Letter 226-SL-005, issued                     39.13
  April 8, 1993 and revised March 2, 1995.
SA226 Series Service Letter 226-SL-005, Revised                    39.13
  35207.
SA227 Series Service Letter 227-SL-011, issued                     39.13
  April 8, 1993 and revised March 2, 1995.
SA227 Series Service Letter 227-SL-011, Revised                    39.13
  35207.
SB 226-52-008.....................................                 39.13
SB 226-55-005, dated August 15, 1985..............                 39.13
SB 226-55-005, Revised, dated January 7, 1991.....                 39.13
SB 227-55-002, dated August 15, 1985..............                 39.13
SB 227-55-002, Revised 32429......................                 39.13
SB No. 26-27-30-046, issued December 11, 1996.....                 39.13
SB No. CC7-27-010, issued December 11, 1996.......                 39.13
Service Bulletin 226-32-068 dated June 23, 2000...                 39.13
Service Bulletin 227-32-043 dated June 23, 2000...                 39.13
SB 27-027 dated July 17, 1980.....................                 39.13


Falcon Jet Corp

  P.O. Box 967, Little Rock, AR 72203-0967
SB 900-54 (F900 31-30), dated October 14, 1994....                 39.13
SB 900-54, Rev. 1 (F900 31-1), dated November 17,                  39.13
  1994.


Federal Aviation Administration

  800 Independence Ave., SW., Washington, DC 20590
TSO-C91 dated Oct. 21, 1971.......................      25.1415; 29.1415
TSO-C77 dated May 20, 1963........................      25.1522; 29.1522


Ferranti (Jetstream Aircraft, Inc.)

  P.O. Box 16029, Dulles International Airport, 
  Washington, DC 20041-6029
SB 24-20-171, dated September 1993................                 39.13
SB 24-20-172, dated September 1993................                 39.13

[[Page 981]]

Flight Equipment and Engineering Ltd. (FEEL)

  Technical Manager, Nissen House, Grovebury Road, 
  Leighton Buzzard, Bedfordshire, LU7 8TB, United 
  Kingdom
SB 25-20-1287, Rev. 3, dated March 1993...........                 39.13
SB 25-20-1294, Rev. 1, dated May 1993.............                 39.13


Flight Structures, Inc.

  4407 172nd Street NE, Arlington, Washington 
  98223
ASB No. 92FS024-53-A1, dated March 2, 1999........                 39.13
ASB No. 92FS082-53-A1, dated March 2, 1999........                 39.13
ASB No. 94FS409-53-A2, dated March 2, 1999........                 39.13
ASB No. 94FS448-53-A1, dated February 12, 1999....                 39.13
Service Bulletin 89FS134-23-01 Revision 2 dated                    39.13
  September 21, 2000.
Service Bulletin 90FS062-23-01 Revision 2 dated                    39.13
  September 21, 2000.
Service Bulletin 94FS492-23-01 Revision 2 dated                    39.13
  September 21, 2000.


Fokker Aircraft USA, Inc

  1199 N. Fairfax St., Alexandria, VA 22314
SB Fo100-32-63, dated January 13, 1995............                 39.13
Document SE-291, including all revisions through                   39.13
  34243.
F28/55-28 dated Dec. 21, 1990.....................                 39.13
50 SB SBF50-25-045, dated February 3, 1994........                 39.13
All Operator Message TS96.67591, dated November                    39.13
  14, 1996, including Appendix 1 and Appendix 2.
Component SB D14000-57-004, dated August 21, 1995.                 39.13
Component SB F7941-005-28-03, dated September 15,                  39.13
  1993.
Component SB F7941-011-24-11, dated September 15,                  39.13
  1993.
Component SB P41440-78-04, dated August 15, 1998..                 39.13
Component SB P41440-78-05, dated August 15, 1998..                 39.13
Document SE-253 F28 Corrosion Control Program,                     39.13
  revised through 33862.
F100 All Operator Message (AOM) AOF100.013,                        39.13
  Reference TS96.68988, dated December 19, 1996.
F27 Maint. Circ. 55-3 dated Sept. 10, 1985........                 39.13
F27 Maintenance Circular No. 32-6, dated April 30,                 39.13
  1993.
Fokker SB SBF100-71-019/1, Revised 35489..........                 39.13
Manual Change Notification F27-001, dated June 30,                 39.13
  1997.
Manual Change Notification MCNO F27-008 dated                      39.13
  March 1, 2000.
Report Number SE-278, F27 Aging Aircraft Project -                 39.13
  Final Document, Issue 3, dated Feburary 1, 1993.
SB Change Notification SBF 100-27-032/01, dated                    39.13
  October 19, 1991 (for Fokker SB SBF100-27-032, 
  dated September 20, 1991).
SB Change Notification SBF100-27-069/01, Rev. 1                    39.13
  dated January 8, 1996.
SB F100-22-015 dated Nov. 16, 1990................                 39.13
SB F100-23-014 dated Nov. 7, 1990.................                 39.13
SB F100-31-017 dated Dec. 12, 1990................                 39.13
SB F100-53-048 dated Nov. 29, 1990................                 39.13
SB F100-55-014 dated Nov. 29, 1990................                 39.13
SB F100-55-018, Rev. 1, dated December 27, 1993...                 39.13
SB F100-55-019, Rev. 1, dated May 19, 1993........                 39.13
SB F100-55-023, dated January 3, 1995.............                 39.13
SB F100/28-015 dated Jan. 30, 1991................                 39.13
SB F27/27-130 dated Sept. 11, 1990................                 39.13
SB F27/27-131, Rev. 1, dated June 15, 1994........                 39.13
SB F27/28-62, dated September 1, 1997.............                 39.13

[[Page 982]]

SB F27/32-168, dated October 23, 1996.............                 39.13
SB F27/32/166, dated September 7, 1993............                 39.13
SB F27/32/167, dated November 19, 1993............                 39.13
SB F27/51-10, Rev. 2, dated June 12, 1993, as                      39.13
  amended by Fokker SB Change Notification F27/51-
  -10REV2/01, dated October 1, 1993.
SB F27/53-116, dated April 15, 1994...............                 39.13
SB F27/54-47 dated Nov. 30, 1990..................                 39.13
SB F27/55-66, dated December 21, 1994.............                 39.13
SB F27/57-23, Rev. 6, dated August 13, 1991.......                 39.13
SB F27/57-70, dated May 17, 1993..................                 39.13
SB F27/57-74, dated November 15, 1994.............                 39.13
SB F27/61-40, Revision 1, dated August 1, 1997....                 39.13
SB F28/27-180 dated July 3, 1992..................                 39.13
SB F28/27-183, dated November 21, 1994............                 39.13
SB F28/32-123, Rev. 1, dated June 30, 1994........                 39.13
SB F28/32-149, dated August 30, 1991..............                 39.13
SB F28/32-149, dated August 30, 1991..............                 39.13
SB F28/32-151, Rev. 1, dated March 12, 1997.......                 39.13
SB F28/32-153, dated November 10, 1994............                 39.13
SB F28/52-101, Rev. 1, dated August 24, 1992......                 39.13
SB F28/52-110, dated April 7, 1993................                 39.13
SB F28/52-112, dated February 1, 1995.............                 39.13
SB F28/52/111, dated March 12, 1994...............                 39.13
SB F28/53-101 dated May 31, 1991..................                 39.13
SB F28/53-121, Rev. 1 dated Dec. 13, 1991.........                 39.13
SB F28/53-143, dated August 30, 1996..............                 39.13
SB F28/53-144, dated July 15, 1996................                 39.13
SB F28/55-029, Rev. 1, dated January 23, 1993.....                 39.13
SB F28/55-30, Rev. 1, dated January 4, 1993.......                 39.13
SB F28/76-20, dated January 1, 1979...............                 39.13
SB Notification SBF50-25-069/01, dated February                    39.13
  15, 1995.
SB SBF 100-27-032, dated September 20, 1991.......                 39.13
SB SBF-57-017 dated Sept. 12, 1991................                 39.13
SB SBF100-027-041 dated Feb. 24, 1992.............                 39.13
SB SBF100-20-001, dated January 15, 1994..........                 39.13
SB SBF100-21-045, Rev. 1, dated November 17, 1993.                 39.13
SB SBF100-21-056, Rev. 1, dated November 24, 1993.                 39.13
SB SBF100-22-020, dated September 25, 1990........                 39.13
SB SBF100-22-029, dated January 6, 1992...........                 39.13
SB SBF100-22-031 dated Sept. 9, 1991..............                 39.13
SB SBF100-22-032, dated September 2, 1991.........                 39.13
SB SBF100-22-037, dated May 31, 1993..............                 39.13
SB SBF100-22-037, dated May 31, 1993..............                 39.13
SB SBF100-24-029, dated June 28, 1993, including                   39.13
  Nordskog Engineering Change Order 43589 
  Attachment.
SB SBF100-24-032, dated September 12, 1996........                 39.13
SB SBF100-24-032, Rev. 1, dated April 25, 1997....                 39.13
SB SBF100-25-061, dated March 8, 1994 and Fokker                   39.13
  SB SBF100-25-068, dated March 31, 1994.
SB SBF100-25-064, dated February 23, 1993.........                 39.13
SB SBF100-25-082, Revision 1, dated May 7, 1998...                 39.13
SB SBF100-25-083, dated April 30, 1998............                 39.13
SB SBF100-26-004 dated Aug. 23, 1991..............                 39.13

[[Page 983]]

SB SBF100-27-029, dated January 29, 1991..........                 39.13
SB SBF100-27-051, Rev. 1, dated May 6, 1994.......                 39.13
SB SBF100-27-052, Rev. 1, dated March 29, 1994....                 39.13
SB SBF100-27-061, dated March 2, 1994.............                 39.13
SB SBF100-27-064, dated September 15, 1994........                 39.13
SB SBF100-27-069/01, dated January 1, 1996........                 39.13
SB SBF100-27-071, dated December 21, 1996.........                 39.13
SB SBF100-28-022, dated December 13, 1991.........                 39.13
SB SBF100-28-026, dated March 12, 1993............                 39.13
SB SBF100-28-029, Rev. 1, dated November 30, 1993.                 39.13
SB SBF100-28-030, Rev. 1, dated December 5, 1994..                 39.13
SB SBF100-29-025, dated December 31, 1993.........                 39.13
SB SBF100-30-015, Rev. 2, dated January 25, 1995..                 39.13
SB SBF100-30-019, dated June 20, 1996.............                 39.13
SB SBF100-30-020, dated June 20, 1996.............                 39.13
SB SBF100-31-020, Rev. 1, dated June 12, 1993.....                 39.13
SB SBF100-31-047, Revision 1, dated March 21, 1997                 39.13
SB SBF100-31-051, dated August 15, 1998...........                 39.13
SB SBF100-32-037, Revision 2, and List of                          39.13
  Effective Pages, dated December 4, 1998.
SB SBF100-32-052 dated May 1, 1991................                 39.13
SB SBF100-32-067, Revision 1, and List of                          39.13
  Effective Pages, dated July 6, 1998.
SB SBF100-32-071, dated June 22, 1993.............                 39.13
SB SBF100-32-072, dated March 30, 1993............                 39.13
SB SBF100-32-074, dated July 21, 1993.............                 39.13
SB SBF100-32-079, Rev. 1, dated October 4, 1993...                 39.13
SB SBF100-32-080, dated October 4, 1993...........                 39.13
SB SBF100-32-081, dated March 23, 1994............                 39.13
SB SBF100-32-083, dated March 23, 1994............                 39.13
SB SBF100-32-092, dated January 11, 1995..........                 39.13
SB SBF100-32-094, dated November 10, 1994.........                 39.13
SB SBF100-32-094, Rev. 1, dated March 15, 1995....                 39.13
SB SBF100-32-099, dated June 14, 1996.............                 39.13
SB SBF100-32-108, dated February 7, 1997..........                 39.13
SB SBF100-32-112, dated November 14, 1997.........                 39.13
SB SBF100-32-113, dated May 28, 1998, including                    39.13
  Attachments 1, 2, and 3, dated May 1, 1998.
SB SBF100-34-015, Rev. 2, dated November 27, 1990.                 39.13
SB SBF100-35-004, dated May 17, 1995..............                 39.13
SB SBF100-36-026, Rev. 1, dated July 6, 1996......                 39.13
SB SBF100-49-022, dated August 27, 1992...........                 39.13
SB SBF100-49-023, dated November 20, 1992.........                 39.13
SB SBF100-52-043, dated June 12, 1995.............                 39.13
SB SBF100-52-045, dated August 25, 1993...........                 39.13
SB SBF100-52-048, dated March 5, 1993.............                 39.13
SB SBF100-52-050, Rev. 1, dated September 14, 1994                 39.13
SB SBF100-52-055, dated July 20, 1994.............                 39.13
SB SBF100-52-060, dated October 10, 1995..........                 39.13
SB SBF100-52-061, dated September 28, 1996........                 39.13
SB SBF100-53-039, dated February 10, 1993.........                 39.13
SB SBF100-53-052, Rev. 1, dated June 7, 1993......                 39.13
SB SBF100-53-067 dated July 1, 1991...............                 39.13

[[Page 984]]

SB SBF100-53-067 dated July 1, 1991...............                 39.13
SB SBF100-53-072, dated March 12, 1993............                 39.13
SB SBF100-55-011 dated Oct. 1, 1991...............                 39.13
SB SBF100-55-021, Rev. 2, dated December 27, 1993.                 39.13
SB SBF100-57-008, Rev. 2, dated September 22, 1995                 39.13
SB SBF100-57-018, dated September 23, 1993........                 39.13
SB SBF100-57-029, Rev. 1, dated March 23, 1995....                 39.13
SB SBF100-57-030, dated December 17, 1994.........                 39.13
SB SBF100-57-032, dated August 21, 1995...........                 39.13
SB SBF100-57-034, dated December 20, 1996.........                 39.13
SB SBF100-71-012, dated February 7, 1992..........                 39.13
SB SBF100-71-016, dated February 18, 1994.........                 39.13
SB SBF100-71-019, dated March 21, 1996,...........                 39.13
SB SBF100-76-008 dated May 8, 1991................                 39.13
SB SBF100-76-010, dated October 31, 1993..........                 39.13
SB SBF100-78-014, Revision 2, including List of                    39.13
  Effective Pages, dated May 1, 1999, and and 
  Attachment 1 (undated).
SB SBF50-20-003, dated January 11, 1994...........                 39.13
SB SBF50-25-046, Rev. 1, dated August 5, 1994.....                 39.13
SB SBF50-25-069, dated July 13, 1994, as..........                 39.13
SB SBF50-27-036, dated December 28, 1993..........                 39.13
SB SBF50-27-040, dated May 10, 1996...............                 39.13
SB SBF50-32-029, dated February 11, 1994..........                 39.13
SB SBF50-32-033, dated December 20, 1996..........                 39.13
SB SBF50-53-015, dated August 16, 1989............                 39.13
SB SBF50-53-016, dated December 20, 1989..........                 39.13
SB SBF50-53-048, dated October 17, 1994...........                 39.13
SB SBF50-53-053, dated February 1, 1997...........                 39.13
SB SBF50-57-015, dated February 28, 1996..........                 39.13
SB SBF50-57-018, dated February 28, 1996..........                 39.13
SB SBF50-71-041, dated November 10, 1993..........                 39.13
SB SFB100-36-027, including Appendix I, dated                      39.13
  March 21, 1997.
SB SFB100-53-087, dated November 17, 1997.........                 39.13
SB100-24-032, Rev. 2, dated July 28, 1997.........                 39.13
SBF100-33-015, Rev. 1, dated March 21, 1994.......                 39.13
SBF100-52-039 dated Sept. 17, 1991................                 39.13
Service Bulletin F27/30-45 dated August 11, 1999..                 39.13
Service Bulletin F28/27-186, including Manual                      39.13
  Change Notification MCNM F28-020 dated May 8, 
  2000.
Service Bulletin SBF100-23-032 dated September 22,                 39.13
  1999.
Service Bulletin SBF100-25-088 dated October 14,                   39.13
  1999.
Service Bulletin SBF100-26-015 dated August 15,                    39.13
  1999.
Service Bulletin SBF100-27-076 dated July 1, 1999.                 39.13
Service Bulletin SBF100-32-117 dated September 27,                 39.13
  1999.
Service Bulletin SBF100-32-118 dated October 8,                    39.13
  1999.
Service Bulletin SBF27/25-65 Revision 1 dated                      39.13
  March 1, 2000.
Service Bulletin SBF27/30-44 dated February 20,                    39.13
  1998.
Service Bulletin SBF28/25-103 dated October 14,                    39.13
  1999.
Service Bulletin SBF28/28-046 dated September 1,                   39.13
  1999.
Service Bulletin SBF50-25-051 dated October 14,                    39.13
  1999.
Service Bulletin SBF50-30-025 Revision 2 dated                     39.13
  October 21, 1998.
Service Bulletin SBF50-30-026 dated August 11,                     39.13
  1999.
Service Bulletin SBf50-32-031 dated December 20,                   39.13
1996.
[[Page 985]]

Service Bulletin SBF50-76-016 dated December 20,                   39.13
  1996.
Structural Integrity Program (SIP) Product Support                 39.13
  Document 27438, Part 1, including revisions 
  through 34912.
Structural Integrity Program Doc. No. 27438, Pt. I                 39.13
  revised through Nov. 1, 1991.
SB 94-MG-1000-009, dated May 4, 1994..............                 39.13
SB 23100-27-19, dated November 10, 1995...........                 39.13


Fokker Services B.V.

  P.O. Box 231 2150 AE Nieuw-Vennep The 
  Netherlands
Proforma Service Bulletin F28/57-92 dated July 1,                  39.13
  1992.
Service Bulletin F27/28-63 dated November 21, 1999                 39.13
Service Bulletin F28/53-149 dated November 15,                     39.13
  1999.
Service Bulletin F28/57-90 Revision 1 dated August                 39.13
  28, 2000.
Service Bulletin SBF100-32-114 dated October 1,                    39.13
  1999.
Service Bulletin SBF100-32-123 dated November 15,                  39.13
  2000.
Service Bulletin SBF28/32-157 dated October 1,                     39.13
  1999.
Service Bulletin SBF28/53-148 dated August 15,                     39.13
  2000.
Service Bulletin SBF50-53-054 dated May 1, 2000...                 39.13
Report SE-623, Fokker 70/100                            39.13
  Airworthiness Limitation Items and Safe Life 
  Items, dated June 1, 2000.
Service Bulletin No. F100-32-101, including                        39.13
  Appendices A and B dated October 25, 2001.
Service Bulletin No. 21533 dated December 16, 1996                 39.13


Galaxy Aerospace Corp

  One Galaxy Way, Fort Worth Alliance Airport, 
  Fort Worth, TX 76177
Alert Service Bulletin 1125-28A-230 dated March                    39.13
  13, 2001.
Alert Service Bulletin 1125-31A-236 dated April                    39.13
  16, 2001.
Alert Service Bulletin 1125-32A-095 dated December                 39.13
  4, 2000.
Alert Service Bulletin 1121-27A-028 dated August                   39.13
  28, 2000.
SB 1121-27-023, dated August 14, 1996.............                 39.13
SB 1121-27-023, Rev. 1, dated May 28, 1997........                 39.13
SB 1121-27-025, dated December 22, 1997...........                 39.13
SB 1121-29-022, dated September 11, 1996..........                 39.13
(Israel Aircraft Industries) Alert Service                         39.13
  Bulletin 1124-27A-145 dated March 24, 2000.
Alert Service Bulletin 1123-27A-053 dated August                   39.13
  28, 2000.
Alert Service Bulletin 1124-27A-147 dated August                   39.13
  28, 2000.
SB 1123-27-046, dated August 14, 1996.............                 39.13
SB 1123-27-046, Rev. 1, dated May 28, 1997........                 39.13
SB 1123-27-047, dated September 1, 1997...........                 39.13
SB 1123-29-045, dated September 11, 1996..........                 39.13
SB 1124-27-133, dated August 14, 1996.............                 39.13
SB 1124-27-133, Rev. 1, dated May 28, 1997........                 39.13
SB 1124-27-136, dated September 1, 1997...........                 39.13
SB 1124-29-132, dated September 11, 1996..........                 39.13


Garmin International

  1200 East 151st Street Olathe Kansas 66062
Service Bulletin No. 9905 Revision A dated                         39.13
  September 17, 1999.


Garrett Engine Division, AlliedSignal Inc. (See Honeywell International, 
Inc.)

  ATTN: Data Distribution, M/S 64-3/2101-201 P.O. 
  Box 29003, Phoenix, AZ 85038-9003
SB GTCP36-49-6549, dated February 28, 1992........                 39.13

[[Page 986]]

SB GTCP36-49-A5973, dated May 17, 1990............                 39.13
SB GTCP36-49-A5973, Rev. 1, dated May 22, 1990....                 39.13
SB GTCP85-49-5700, dated July 20,1987.............                 39.13
SB GTCP85-49-5700, Rev. 1, dated October 6, 1988..                 39.13
SB GTCP85-49-5700, Rev. 2, dated August 31, 1989..                 39.13
SB GTCP85-49-6706, dated December 7, 1992.........                 39.13
SB No. TPE331-A73-0198, Rev. 1, dated Jan. 10,                     39.13
  1992.


Garrett General Aviation Services Division

  ATTN: Dept. 64-03/2101-201 P.O. Box 29003, 
  Phoenix, Arizona 85038-9003
Alert SB TFE731-A72-3474 dated April 3, 1992......                 39.13
SB GTC36-49-A6642 dated May 1, 1992...............                 39.13
SB GTC36-49-A6653 dated May 1, 1992...............                 39.13
SB TFE731-A72-3376 dated August 19, 1988..........                 39.13
SB TFE731-A77-3020 dated April 27, 1990...........                 39.13
SB TPE 331-A72-0571 dated March 31, 1988..........                 39.13
SB TSCP700-49-5892, Rev. 2 dated Oct. 10, 1990....                 39.13


Garrett Turbine Engine Company (See Honeywell International, Inc.)

  ATTN: Data Distribution, M/S 64-3/2101-201 P.O. 
  Box 29003, Phoenix, Arizona 85038-9003
36-49-6549, dated February 28, 1992...............                 39.13
36-49-A5973, dated May 17, 1990...................                 39.13
36-49-A5973, Rev. 1, dated May 22, 1990...........                 39.13
Alert SB ATF3-A72-6113, dated February 25, 1985,                   39.13
  ATF3-72-6114, dated February 25, 1985 and Light 
  Maintenance Manual ATF3-6.
Alert SB ATF3-A72-6113, Rev. No. 72-133, dated                     39.13
  February 25, 1986.
Alert SB ATF3-A72-6113, Rev. No. 72-135, dated                     39.13
  February 25, 1987.
Alert SB ATF3-A72-6113, Rev. No. 72-132, dated                     39.13
  February 25, 1985.
Alert SB ATF3-A72-6113, Rev. No. 72-136, dated                     39.13
  February 25, 1988.
Alert SB No. TPE/TSE331-A72-0384, Rev. 3 dated                     39.13
  July 1, 1987.
Alert SB TPE331-A72-0522, Rev. 2 dated July 1,                     39.13
  1987.
Alert SB TPE331-A72-0559 dated July 1, 1987.......                 39.13
Alert SB TPE331-A72-0560 dated July 1, 1987.......                 39.13
Engine TPE 331-72-0327,...........................                 39.13
Engine TPE 331-72-0300,...........................                 39.13
Engine TPE/TSE 331-72-0384,.......................                 39.13
Engine TPE 331-72-0351............................                 39.13
Engine SB TPE/TSE 331-72-0380,....................                 39.13
Light Maintenance Manual Report No. 72-00-52 Rev.                  39.13
  6, dated November 15, 1983.
Light Maintenance Manual Report No. 72-02-32 Rev.                  39.13
  3, dated November 15, 1984.
Light Maintenance Manual report No. 72-03-42 Rev.                  39.13
  4, dated November 15, 1983.
SB TFE 731-72-3239................................                 39.13
SB ATF3-72-6089, 30788............................                 39.13
SB ATF3-72-6090, 30788............................                 39.13
SB ATF3-72-6092, 30827............................                 39.13
SB ATF3-72-6092, dated May 25, 1984...............                 39.13
SB TPE 331-73-0121 Rev. 2, dated 4/18/84..........                 39.13
SB TPE 331-73-0121, Rev. 1, 30836.................                 39.13
SB TPE331-72-0533, Rev. 2 dated March 11, 1988....                 39.13

[[Page 987]]

SB TPE331-73-0121, Rev. 3 dated November 5, 1984..                 39.13
Temporary Rev. No. 72-43, 72-00-00 Trouble                         39.13
  Shooting, dated April 16, 1984,.
Temporary Rev. No. 72-44, 72-00-00 Trouble                         39.13
  Shooting, dated April 16, 1984.
Temporary Rev. No. 72-44, 72-00-00 Trouble                         39.13
  Shooting, dated April 16, 1984.
Temporary Rev. No. 72-45, 72-00-00 Trouble                         39.13
  Shooting, dated April 16, 1984.
Temporary Rev. No. 72-88, 72-00-00, Trouble                        39.13
  Shooting dated April 16, 1984,.
Temporary Rev. No. 72-89, 72-00-00, Trouble                        39.13
  shooting dated April 16, 1984.
No. 72-00-52, Rev. 6, dated November 15, 1983;                     39.13
  Temporary Rev. No. 72-90, 72-00-00, Inspection, 
  dated May 25, 1984; Temporary Rev. No. 72-8, 72-
  00-00, Trouble Shooting, dated April 16, 1984; 
  and Temporary Rev. No. 72-89, 72-00-00, Trouble 
  Shooting, dated April 16, 1984.
No. 72-03-32, Rev. 3, dated November 15, 1983;                     39.13
  Temporary Rev. No. 72-45, 72-00-00, Inspection, 
  dated May 25, 1984; Temporary Rev. No. 72-43, 
  72-00-00, Trouble Shooting, dated April 16, 
  1984; and Temporary Rev. No. 72-44, 72-00-00, 
  Trouble Shooting, dated April 16, 1984.
No. 72-03-42, Rev. 4, dated November 15, 1983;                     39.13
  Temporary Rev. No. 72-46, 72-00-00, Inspection, 
  dated May 25, 1984; Temporary Rev. No. 72-44, 
  72-00-00, Trouble Shooting, dated April 16, 
  1984; and Temporary Rev. No. 72-45, 72-00-00, 
  Trouble Shooting, dated April 16, 1984.


GE (General Electric) Company

  Neumann Way, Cincinnati, Ohio 45215
(CT7-TP Series) SB 72-390, Rev. 1, dated December                  39.13
  11, 1996.
(CT7-TP Series) SB A72-393, dated November 26,                     39.13
  1996.
(CT7-TP Series) SB No. A72-350, Rev. 3, dated June                 39.13
  9, 1994.
6F6-80A SB 72-583, Rev. 3 dated July 24, 1991.....                 39.13
72- 550,..........................................                 39.13
72- 551...........................................                 39.13
90 ASB 72-A318, dated June 27, 1997...............                 39.13
All Operators Wire--Subject: FPI of Deep Disk                      39.13
  Spools, Best Practices, dated August 10, 1995.
ASB 72-A357, Revision 2, dated April 21, 1998.....                 39.13
ASB 73-A283, dated September 18, 1998.............                 39.13
ASB 73-A283, Revision 1, dated October 30, 1998...                 39.13
ASB 73-A283, Revision 2, dated November 18, 1998..                 39.13
CF6-50 ASB 72-a988, Revision 6, dated August 25,                   39.13
  1998.
CF6-50 Engine Task Numbered Shop Manual Temporary                  39.13
  Rev. 05-0011, dated November 3, 1995.
CF6-50 SB 72-1000, Rev. 1 dated Mar. 28, 1991.....                 39.13
CF6-50 SB No. 72-1000, Rev. 2, dated September 9,                  39.13
  1993 and GE CF6-80A SB No. 72-583, Rev. 4, dated 
  September 15, 1993.
CF6-50 SB No. 72-1006, Rev. 1, dated November 14,                  39.13
  1991.
CF6-50 SB No. 72-1057, Rev. 1, dated June 17, 1993                 39.13
CF6-50 SB No. 72-1059, dated February 12, 1993....                 39.13
CF6-50 SB No. 72-1069, dated September 12, 1994...                 39.13
CF6-50 SB No. 72-1108, dated November 6, 1995.....                 39.13
CF6-50 SB No. 72-573, Rev. 5, 29844...............                 39.13

[[Page 988]]

CF6-50 Series Alert SB No. 72-A1139, dated October                 39.13
  17, 1997.
CF6-50/45 SB 72-879 dated Oct. 30, 1990...........                 39.13
CF6-6 ASB 72-A996, Revivion 4, dated June 9, 1998.                 39.13
CF6-6 SB 72-947, Rev. 4 dated Feb. 8, 1991........                 39.13
CF6-6 SB No. 72-1002, dated February 12, 1993.....                 39.13
CF6-6 SB No. 72-1003, Rev. 1, dated June 17, 1993.                 39.13
CF6-80A ASB 72-A565, Revision 5, dated June 9,                     39.13
  1998.
CF6-80A SB 72-459, Rev. 2 dated June 14, 1989.....                 39.13
CF6-80A SB 72-605 dated Dec. 20, 1991.............                 39.13
CF6-80A SB No. 72-604, Rev. 3, dated April 8, 1993                 39.13
CF6-80A SB No. 72-678, dated November 6, 1995.....                 39.13
CF6-80A Series Alert SB ASB A72-510, Rev. 2 dated                  39.13
  Novmber 14, 1988.
CF6-80A Series Alert SB ASB A72-512, Rev. 1 dated                  39.13
  May 24, 1988.
CF6-80A Series SB 71-053, Rev. 2 dated June 26,                    39.13
  1990.
CF6-80A, SB 72-531, Rev. 2 dated May 18, 1990.....                 39.13
CF6-80C2 Alert SB A73-038, Rev. 1 dated January                    39.13
  25, 1989.
CF6-80C2 Alert SB No. 72-A906, dated October 17,                   39.13
  1997.
CF6-80C2 ASB 72-A478, Revision 4, dated June 9,                    39.13
  1998.
CF6-80C2 SB 72-095, Rev. 2, dated January 11, 1993                 39.13
CF6-80C2 SB 72-130, Rev. 2 dated Oct. 18, 1989....                 39.13
CF6-80C2 SB 72-473, Rev. 1 dated Sept. 21, 1990...                 39.13
CF6-80C2 SB 72-474, Rev. 1 dated Dec. 11, 1990....                 39.13
CF6-80C2 SB 72-835, Rev. 1, dated May 2, 1996.....                 39.13
CF6-80C2 SB 73-114, Rev. 2 dated Feb. 4, 1991.....                 39.13
CF6-80C2 SB 73-115, Rev. 1 dated Feb. 5, 1991.....                 39.13
CF6-80C2 SB No. 72-614, Rev. 1, dated September 8,                 39.13
  1992.
CF6-80C2 SB No. 72-812, dated November 6, 1995....                 39.13
CF6-80C2 Service Evaluation Bulletin 72-628, dated                 39.13
  July 15, 1993.
CF6-80C2 Sevice Bulletin 72-648, Rev. 1, dated                     39.13
  January 11, 1993.
CF6-80C2, SB 72-314, Rev. 2 dated June 20, 1990...                 39.13
CF6-80C2A/B Series Alert SB No. A73-038 dated                      39.13
  August 3, 1988.
CF6-Series SB 72-971 dated October 2, 1990........                 39.13
CF700 SB No. A72155, dated May 22, 1997...........                 39.13
CJ610 SB No. A72-147, dated May 22, 1997..........                 39.13
CT58 SB 72-181, CEB-284, Rev. 2, dated July 15,                    39.13
  1997.
CT58 SB 72-188, CEB-293, Rev. 1, dated July 15,                    39.13
  1997.
CT58 SB A72-162, CEB-258, Rev. 8, dated June 16,                   39.13
  1997.
CT58 SB No. A72-126 (CEB-206), Rev. 2, dated......                 39.13
CT7 Turboprop ASB A72-393, Revision 1, dated                       39.13
  February 13, 1997.
CT7 Turboprop SB 74-09 dated October 10, 1986.....                 39.13
CT7 Turboprop SB 74-09 dated October 10, 1986.....                 39.13
CT7 Turboprop SB A72-228, dated January 30, 1990..                 39.13
CT7 Turboprop SB A72-228, dated January 30, 1990..                 39.13
CT7 Turboprop SB A72-228, Rev. 2, dated February                   39.13
  7, 1991.
CT7 Turboprop SB A72-228, Rev. 2, dated February                   39.13
  7, 1991.
CT7 Turboprop SB A72-229, dated January 30, 1990..                 39.13
CT7 Turboprop SB A72-229, dated January 30, 1990..                 39.13
CT7 Turboprop SB A72-229, Rev. 2, dated February                   39.13
  7, 1991.
CT7 Turboprop SB A72-229, Rev. 2, dated February                   39.13
  7, 1991.
CT7 Turboprop SB A72-350, Rev. 3, dated June 8,                    39.13
  1994.
CT7 Turboprop SB A72-381, dated January 17, 1996..                 39.13
ESB EB JT8D-025, dated March 27, 1998.............                 39.13

[[Page 989]]

SB 72-549,........................................                 39.13
SB 72-352, Revision 2, dated March 31, 1998.......                 39.13
SB 72-395, Rev. 3 dated June 30, 1989.............                 39.13
SB 72-906 dated August 21, 1987...................                 39.13
SB 72-947 dated August 17, 1988...................                 39.13
SB 72-957, Rev. 1 dated April 18, 1989............                 39.13
SB 72-958, Rev. 1 dated Oct. 18, 1990.............                 39.13
SB 72-973, Rev. 1 dated April 20, 1990............                 39.13
SB 72-975 dated December 11, 1989.................                 39.13
SB 73-053, Rev. 3 dated April 3, 1990.............                 39.13
SB 73-957, Rev. 2 dated January 9, 1990...........                 39.13
SB 75-46, Rev. 3 dated June 1982..................                 39.13
SB 75-54 dated July 19, 1985......................                 39.13
SB 75-55 dated September 1985.....................                 39.13
SB 75-58 dated April 1986.........................                 39.13
SB CF6-80A SB No. 72-593, Rev. 2, dated March 19,                  39.13
  1992.
SB CF700 dated August 30, 1983....................                 39.13
SB CJ610 dated August 30, 1983....................                 39.13
SB No. CF34 73-5 dated January 22, 1988...........                 39.13
SB No. CF34 73-6 dated January 22, 1988...........                 39.13
Service Document CF6-6, CESM 98, Rev. 2 dated Oct.                 39.13
  5, 1989.
Service Document CF6-6, SB 72-962, Rev. 3 dated                    39.13
  May 22, 1991.
ASB A73-13, Revision 1, May 29, 1998..............                 39.13
ASB A73-18, Revision 1, dated September 24, 1997..                 39.13
ASB A73-19, Revision 1, dated February 20, 1998...                 39.13
ASB A73-32, Revision 1, dated September 24, 1997..                 39.13
ASB A73-32, Revision 2, dated May 29, 1998........                 39.13
ASB A73-33, dated November 21, 1997...............                 39.13
CF6-6 SB 72-971 dated Oct. 2, 1990................                 39.13
CF6-6 SB 72-971, Rev. 2 dated Aug. 27, 1991.......                 39.13
CF6-6 SB 72-977 dated March 15, 1991..............                 39.13
CF700 SB 72-154, dated December 20, 1996..........                 39.13
SB 72-011, dated April 9, 1997....................                 39.13
SB 72-126, Rev. 1, dated April 29, 1997...........                 39.13
SB CF6-50 SB No. 72-1092, dated November 18, 1994.                 39.13
Service Bulletin 72-183, dated February 28, 1997..                 39.13
Service Bulletin 72-263, dated February 5, 1997...                 39.13
Service Bulletin 72-275, dated March 4, 1997......                 39.13
Service Bulletin 72-280, Rev. 3, dated April 15,                   39.13
  1997.
Service Bulletin 72-283, Rev. 4, dated April 17,                   39.13
  1997.
Service Bulletin 72-286, dated April 14, 1997.....                 39.13
ASB CF34AL 73-A0025, dated July 7, 1999...........                 39.13
ASB CF34BJ 73-A0040, dated July 7, 1999...........                 39.13
SB CF34AL S/B 73-0026, dated August 12, 1999......                 39.13
SB CF34BJ S/B 73-0041, dated August 12, 1999......                 39.13
SB HGE 24-23, dated March 11, 1994................                 39.13
Alert Service Bulletin 73-A0060 dated December 23,                 39.13
  1999.
Alert Service Bulletin 73-A0231 Revision 1 dated                   39.13
  May 3, 1999.
Alert Service Bulletin 73-A224 Revision 2 dated                    39.13
  July 9, 1997.
Alert Service Bulletin CF6-50 72-A1196 dated                       39.13
  September 15, 2000.
Alert Service Bulletin CF6-50 72-A1197 dated                       39.13
  December 14, 2000.
Alert Service Bulletin CF6-50 72-A1201 dated                       39.13
December 22, 2000.
[[Page 990]]

Alert Service Bulletin CF6-50 72-A1201 Revision 1                  39.13
  dated February 6, 2001.
Alert Service Bulletin CF6-80C2 72-A0848 Revision                  39.13
  5 dated August 3, 2000.
Alert Service Bulletin CF6-80C2 72-A0964 dated                     39.13
  April 16, 1999.
Alert Service Bulletin CF6-80C2 72-A0964 Revision                  39.13
  1 dated November 12, 1999.
Alert Service Bulletin CF6-80C2 72-A0964 Revision                  39.13
  2 dated January 24, 2000.
Alert Service Bulletin CF6-80C2 72-A0989 dated                     39.13
  January 19, 2000.
Alert Service Bulletin CF6-80E1 72-A0126 Revision                  39.13
  3 dated August 3, 2000.
Service Bulletin A73-19 Revision 2 dated March 9,                  39.13
  1999.
Service Bulletin A73-33 Revision 2 dated March 9,                  39.13
  1999.
Service Bulletin CF 34-AL 73-A0019 Revision 3                      39.13
  dated September 9, 1999.
Service Bulletin CF34-BJ 73-0041 Revision 1 dated                  39.13
  November 1, 1999.
Service Bulletin CF34-BJ 73-A0033 Revision 3 dated                 39.13
  November 1, 1999.
Service Bulletin CF34-BJ 73-A0033 Revision 3 dated                 39.13
  September 9, 1999.
Service Bulletin CF6-50 72-1203 dated November 22,                 39.13
  2000.
Service Bulletin CF6-50 72-1203 Revision 1 dated                   39.13
  February 7, 2001.
Service Bulletin CF6-50 S/B 72-A1144 dated March                   39.13
  19, 1998.
Service Bulletin CF6-50 S/B 72-A1144 Revision 1                    39.13
  dated May 13, 1999.
CF6-80C2D1F Alert Service Bulletin 78A1082 dated                   39.13
  August 25, 1999.
78-1007 Revision 2 dated March 10, 1998...........                 39.13
78-1020 Revision 3 dated March 16, 1998...........                 39.13
ASB 78A1081, dated June 4, 1999...................                 39.13
ASB 78A4022, dated June 4, 1999...................                 39.13
ASB No.78A1015, Revision 5, dated January 21, 1999                 39.13
CF6-50 Service Bulletin 78-3001 Revision 2 dated                   39.13
  December 18, 1997.
CF6-6 Service Bulletin 78-2004 Revision 1 dated                    39.13
  December 18, 1997.
SB No. 78-1002, Revision 3, dated January 21, 1999                 39.13
SB No. 78-3001, Revision 2, dated December 18,                     39.13
  1997.


GE Aircraft Engines

  1000 Western Avenue, Lynn, Massachusetts 01910
Alert Service Bulletin CF34 -AL 72-A0103 dated                     39.13
  August 4, 2000.
Alert Service Bulletin CF34-BJ 72-A0088 Revision 1                 39.13
  dated October 30, 2000.
Alert Service Bulletin CF34-AL S/B 79-A0014                        39.13
  Revision 1 dated August 23, 2001.
Alert Service Bulletin CF34-BJ S/B 79-A0015                        39.13
  Revision 1 dated August 23, 2001.
Service Bulletin (CT58) 72-162 CEB-258 Revision 9                  39.13
  dated October 6, 1998.


General Dynamics Convair Division, Lindberg Field Plant

  P.O. Box 85377, San Diego, CA 92138
Report No. ZS-340-1000, 340/440 Supplemental                       39.13
  Inspection Document (SID) dated November 14, 
  1986,.
Report No. ZS-340-1000, 340/440 Supplemental                       39.13
Inspection Document (SID) Addendum I dated April 
[[Page 991]]

Report No. ZS-340-1000, 340/440 Supplemental                       39.13
  Inspection Document (SID) Addendum II dated May 
  4, 1987,.
Report No. ZS-340-1000, 340/440 Supplemental                       39.13
  Inspection Document (SID) Addendum III dated 
  August 4, 1987.
640 (340D) S.B. No. A55-7, dated March 22, 1993...                 39.13
Alert SB 600 (240D) S. B. No. A55-5, dated March                   39.13
  22, 1993.
Document No. ZS-340-2000, Supplemental Corrosion                   39.13
  Inspection Document dated February 1992.
SB 600 (2400) 55-4, dated Sept. 21, 1990..........                 39.13
SB 600 (240D) 55-4, dated September 21, 1990......                 39.13
SB 640 (3400) 55-5 dated Sept. 21, 1990...........                 39.13
SB 640 (340D) S.B. No. 55-6, dated September 1,                    39.13
  1992.
SB 640 (340D) SB No. A55-7, dated March 22, 1993..                 39.13
SB 640 (340D)55-5, dated September 21, 1990,......                 39.13
SB 640(340D) SB No. 55-6, dated September 1, 1992.                 39.13
SB 640(340D)55-5, dated September 21, 1990........                 39.13
SID Model 340/440, Rep. No. ZS-340-1000, Rev. 1                    39.13
  dated April 15, 1991,.
SID Model 340/440, Rep. No. ZS-340-1000, Rev. 1                    39.13
  Addenda and II dated April 15, 1991.
SID Model 340/440, Rep. No. ZS-340-1000, Rev. 1                    39.13
  Addenda I, dated April 15, 1991.
SID Model 340/440, Rep. No. ZS-340-1000, Rev. 1                    39.13
  Addenda II, dated April 15, 1991,.


GKN Westland Helicopters, Ltd

  Customer Support Division, Yeovil, Somerset BA20 
  2 YB, England
SB No. W30-65-48, dated November 29, 1995,                         39.13
  including Annex A, dated November 8, 1996.
SB No. W30-62-34, dated November 29, 1995.........                 39.13
SB No. W30-62-35, dated November 29, 1995.........                 39.13


Glaser-Dirks Flugzeugbau GmbH

  Schollongarton 19-20, D-7520 Bruchsal 4, Federal 
  Republic of Germany
Technical Note No. 826/22, dated January 10, 1990,                 39.13
  including Working Instruction No. 1, not dated, 
  Working Instruction No. 2, not dated, and 
  Working Instruction No. 3, not dated, and Rotax 
  Technical.
Technical Note No. 826/32, dated July 19, 1996,                    39.13
  including Working Instructions No. 1, dated July 
  1996.
Technical Note SB No. 505-04, pages 3 through 5,                   39.13
  not dated.
Working Instructions No. 1 and No. 2 for Technical                 39.13
  Notes No. 301/18, No. 323/9, and No. 826/34, 
  dated November 4, 1996.
Z 33 Conversion Kit Saprisa regulator Installation                 39.13
  Instructions, dated July 4, 1996,.
Drawing 4 E 26, as referenced in DG Flugzeubau                     39.13
  GmbH Technical Note No. 826/33, dated July 19, 
  1996.
Enclosure to Technical Note 301/15, which is a                     39.13
  supplement to Glaser-Dirks Technical Note 301/
  15, dated July 7, 1989.
Service Instruction 31421 dated March 10, 1987....                 39.13
Service Instruction 31422 dated March 10, 1987....                 39.13
Technical Note No. 301/14 including DG-100 Flight                  39.13
  Manual pages 7 and 9a and Maintenance Manual 
  diagram 6a dated June 24, 1986,.
Technical Note No. 323/6 including DG-200, DG-200/                 39.13
17, and DG-200/17C Flight Manual pages 12, 17/
[[Page 992]]ted June 24, 1986,.

Technical Note No. 359/9 including DG-300 and DG-                  39.13
  300 ELAN Flight Manual pages 8 and 18 and 
  Maintenance dated June 24, 1986,.
Technical Note No. 826/11, dated August 29, 1984..                 39.13
Technical Note No. 826/15, dated October 1, 1985..                 39.13
Technical Note No. 843-9, dated November 21, 1997.                 39.13
Technical Note TN 826/18 dated March 10, 1987.....                 39.13
Technical Note TN 826/19 dated March 3, 1987......                 39.13
Technical Note TN 843/8, dated April 10, 1997.....                 39.13
Working Instruction No. 1 for Technical Note 843/                  39.13
  5, dated November 5, 1992, as referenced in 
  Glaser-Dirks Technical Note No. 843/5, dated 
  November 30, 1992.


Glasflugel

  c/o Hansjorg Streifeneder, Glasfaser-Flugzeug 
  Service, Hofener Weg, D. 72582 Grabenstetten, 
  Germany
Sailplane Flight and Service Manual Amendments:                    39.13
  Club Libelle 205, dated October 1974.
Sailplane Flight and Service Manual Amendments:                    39.13
  H301 Libelle dated May 1965.
Sailplane Flight and Service Manual Amendments:                    39.13
  H301B Libelle, dated May 1965.
Sailplane Flight and Service Manual Amendments:                    39.13
  Kestrel, dated April 1971.
Sailplane Flight and Service Manual Amendments:                    39.13
  Standard Libelle 201B, dated July 1972.
Sailplane Flight and Service Manual Amendments:                    39.13
  Standard Libelle, dated October 1968.
Technical Note 303-18, dated March 1, 1991........                 39.13


GQ Parachutes Ltd

  Portugal Road, Woking, Surrey, GU21 5JE, England
SB No. 25-01 dated January 1989...................                 39.13


GROB Luft-und Raumfahrt

  Lettenbachstrasse 9 D86874 Tussenhausen-Mattsies 
  Federal Republic of Germany Telephone: 49 8268 
  998139
Service Bulletin No. MSB306-36/2 dated November                    39.13
  22, 2001.


GROB Systems, Inc

  Aircraft Division, I-75 and Airport Drive, 
  Bluffton, Ohio 45817
TM 817-36, dated September 14, 1992...............                 39.13
Installation Instructions 1078-64, dated December                  39.13
  11, 1996.
Installation Instructions No. 1078-75, dated May                   39.13
  15, 1998.
Repair Instruction No. 306-27/1 to SB TM 306-1,                    39.13
  dated June 4, 1991.
Repair Instruction No. 315-33/1 for SB TM 315-33                   39.13
  dated August 3, 1987.
Repair Instruction No. 315-33/2 for SB TM 315-33                   39.13
  dated August 3, 1987.
Repair Instruction No. 817-25 for SB TM 817-25,                    39.13
  dated November 9, 1987.
SB 1078-59/3, dated October 24, 1996..............                 39.13
SB 1078-64, dated December 11, 1996...............                 39.13
SB 1078-64/2, dated April 8, 1997.................                 39.13
SB 1078-66, dated February 10, 1997...............                 39.13
SB 1078-75, dated May 15, 1998....................                 39.13
SB TM 306-31, dated September 14, 1992............                 39.13
SB TM 817-35, dated July 20, 1992.................                 39.13
SB TM 817-39, dated January 4, 1994...............                 39.13

[[Page 993]]

SB TM 817-45, dated July 27, 1995.................                 39.13
SB TM-315-32 dated June 12, 1987, including Repair                 39.13
  Instructions No. 315-32.
TM 315-49, dated September 14, 1992...............                 39.13
TM 320-6, dated September 14, 1992................                 39.13


Gulfstream Aerospace Corp

  P.O. Box 2206, M/S D-10, Savannah, GA 31402-9980
Service Kit No. 12 as referenced by American                       39.13
  General SB ME-1A dated Feb. 21, 1991.
Aircraft Service Change No. 179, dated March 15,                   39.13
  1966.
Aircraft Service Change No. 180, dated October 17,                 39.13
  1996.
I Aircraft Service Change No. 190, dated June 28,                  39.13
  1971.
I Aircraft Service Change No. 191, dated August                    39.13
  18, 1972.
Operational Summary 72-5B, dated August 1972......                 39.13
ACB 7A dated Oct. 1, 1991.........................                 39.13
Aircraft Service Change No. 294 dated February 3,                  39.13
  1999.
Alert Customer Bulletin (ACB) 6A dated Oct. 1,                     39.13
  1991.
Customer Bulletin 114A, dated April 27, 1992......                 39.13
Customer Bulletin 208A, dated November 18, 1971...                 39.13
Customer Bulletin 208A, Amendment 1, dated January                 39.13
  18, 1972.
Customer Bulletin 208A, Amendment 2, dated April                   39.13
  21, 1972.
Customer Bulletin 400A, dated April 27, 1992......                 39.13
Customer Bulletin 403A, dated April 27, 1992......                 39.13
Customer Bulletin No. 149 dated March 23, 1999....                 39.13
Customer Bulletin No. 172, dated September 6,1963.                 39.13
G-II Alert Customer Bulletin No. 20, dated                         39.13
  February 2, 1989.
G-II Alert Customer Bulletin No. 27 dated March                    39.13
  20, 2001.
G-III Alert Customer Bulletin No. 13 dated March                   39.13
  20, 2001.
G-III Alert Customer Bulletin No. 4, dated                         39.13
  February 2, 1989.
G-IV Alert Customer Bulletin No. 27 dated March                    39.13
  20, 2001.
G-IV Alert Customer Bulletin No. 5, dated February                 39.13
  2, 1989.
G-V Alert Customer Bulletin No. 12 dated March 20,                 39.13
  2001.
II/IIB Aircraft Service Change No. 401, dated                      39.13
  December 6, 1991.
III Aircraft Service Change No. 195, dated                         39.13
  December 6, 1991.
IV Aircraft Service Change No. 146, dated                          39.13
  September 5, 1991.
IV Aricraft Service Change No. 410 dated February                  39.13
  11, 2000.
IV Customer Service Bulletin No. 112 dated                         39.13
  February 15, 2000.
Alert Customer Bulletin No. 3, dated February 25,                  39.13
  1998.
G-V Alert Customer Bulletin No. 4A, dated July 8,                  39.13
  1998, as.
G-V Alert Customer Bulletin No. 4A, Amendment 1,                   39.13
  dated August 10, 1998.
G-V Customer Bulletin No. 4, dated March 31, 1998.                 39.13
Alert Customer Bulletin No. 30 dated November 2,                   39.13
  2001.
Alert Customer Bulletin No. 14 dated September 20,                 39.13
  2001.


Hamilton Sundstrand, a United Technologies Company,

  Publications Manager Mail Stop 2AM-EE50, One 
  Hamilton Road Windsor Locks, Connecticut 06096
AlertSB ASB 23 LF No. A27 Rev. 1, dated November                   39.13
  1, 1984.
ASB 14SF-61-17, Rev. 1 dated October 1, 1987......                 39.13
ASB 14SF-61-A21, Rev. 2 dated March 27, 1987......                 39.13
ASB 14SF-61-A21, Rev. 2 dated March 27, 1987......                 39.13
SB JFC118-10-73-14, Rev. 1 dated Oct. 26, 1990....                 39.13
SB JFC118-11-73-15, Rev. 1 dated Oct. 26, 1990....                 39.13

[[Page 994]]

SB JFC118-12-73-16, Rev. 1 dated Oct. 26, 1990....                 39.13
SB JFC118-30-73-15, Rev. 1 dated Oct. 26, 1990....                 39.13
SB JFC118-31-73-14, Rev. 1 dated Oct. 26, 1990....                 39.13
Service Bulletin 247F-61-37 Revision 2 dated                       39.13
  September 7, 2001.
Alert SB ASB No. 14RF-9-61-A90, dated November 9,                  39.13
  1995.
Alert SB ASB No. 14RF-9-61-A94, Rev. 1, dated                      39.13
  March 6, 1996.
14RF-19-61-A34, dated April 18, 1994..............                 39.13
14RF-21-61-A53, dated April 18, 1994..............                 39.13
14RF-9-61-A66, dated April 18, 1994...............                 39.13
14SF-61-A73, dated April 18, 1994.................                 39.13
6/5500/F-61-A27, dated April 18, 1994.............                 39.13
Air SB 14RF-21-61-A39, dated October 27, 1993.....                 39.13
Air SB 14RF-9-61-A57, dated October 27, 1993......                 39.13
Alert SB 14RF-19-61-A25, Rev. 2, dated July 28,                    39.13
  1993.
Alert SB 14RF-21-61-A38, Rev. 2, dated July 28,                    39.13
  1993.
Alert SB 14RF-9-61-A53 dated March 12, 1992.......                 39.13
Alert SB 14RF-9-61-A53, Rev. 3, dated July 28,                     39.13
  1993.
Alert SB 14SF-61-A59, Rev. 2, dated July 28, 1993.                 39.13
Alert SB 247F-61-A3, Rev. 1, dated July 28, 1993..                 39.13
Alert SB 54H60-61-A133, Rev. 1, dated May 29, 1997                 39.13
Alert SB 54H60-61-A134, Revision 1, dated June 24,                 39.13
  1998.
Alert SB 54H60-61-A135, dated June 24, 1998.......                 39.13
Alert SB 6/5500/F-61-A11, Rev. 2, dated July 28,                   39.13
  1993.
Alert SB No. 14RF-19-61-A25, Rev. 4, dated April                   39.13
  7, 1994.
Alert SB No. 14RF-19-61-A36, Rev. 1, dated October                 39.13
  5, 1994.
Alert SB No. 14RF-21-61-A38, Rev. 4, dated April                   39.13
  7, 1994.
Alert SB No. 14RF-21-61-A55, Rev. 1, dated October                 39.13
  5, 1994.
Alert SB No. 14RF-9-61-A53, Rev. 5, dated April 7,                 39.13
  1994.
Alert SB No. 14RF-9-61-A69, Rev. 1, dated October                  39.13
  5, 1994.
Alert SB No. 14SF-61-A59, Rev. 4, dated April 7,                   39.13
  1994.
Alert SB No. 14SF-61-A74, Rev. 1, dated October 5,                 39.13
  1994.
Alert SB No. 247F-61-A3, Rev. 3, dated April 7,                    39.13
  1994.
Alert SB No. 6/5500/F-61-A11, Rev. 4, dated April                  39.13
  7, 1994.
Alert SB No. 6/5500/F-61-A29, dated August 29,                     39.13
  1994.
ASB No. 14RF-19-61-A25, Rev. 6, dated May 5, 1995.                 39.13
ASB No. 14RF-19-61-A53, Rev. 1, dated March 6,                     39.13
  1996.
ASB No. 14RF-21-61-A38, Rev. 6, dated May 5, 1995.                 39.13
ASB No. 14RF-21-61-A72, Rev. 1, dated March 6,                     39.13
  1996.
ASB No. 14RF-9-61-A53, Rev. 7, dated May 5, 1995..                 39.13
ASB No. 14RF-9-61-A92, Rev. 2, dated March 6, 1996                 39.13
ASB No. 14SF-61-A59, Rev. 6, dated May 5, 1995....                 39.13
ASB No. 14SF-61-A92, Rev. 1, dated March 6, 1996..                 39.13
ASB No. 247F-61-A3, Rev. 5, dated May 5, 1995.....                 39.13
ASB No. 6/5500/F-61-A11, Rev. 6, dated May 5, 1995                 39.13
ASB No. 6/5500/F-61-A39, Rev. 1, dated March 6,                    39.13
  1996 ,.
General SB No. 73-19, Rev. 1, dated September 20,                  39.13
  1986.
SB 14RF-19-61-32, dated November 27, 1995.........                 39.13
SB 14RF-19-61-32, Rev. 1, dated April 23, 1996....                 39.13
SB 14RF-19-61-A26, dated October 27, 1993.........                 39.13
SB 14RF-21-61-51, dated November 27, 1995.........                 39.13
SB 14RF-21-61-51, Rev. 1, dated April 23, 1996....                 39.13
SB 14RF-61-64, dated November 27, 1995............                 39.13
SB 14RF-61-64, Rev. 1, dated April 23, 1996.......                 39.13

[[Page 995]]

SB 14SF-61-70, dated November 27, 1995............                 39.13
SB 14SF-61-70, dated April 23, 1996...............                 39.13
SB 14SF-61-A61, 6/5500/F-61-A12 dated October 27,                  39.13
  1992.
SB 6/5500/F-61-25, dated November 27, 1995........                 39.13
SB No. 14RF-19-61-29, Rev. 2, dated September 27,                  39.13
  1994.
SB No. 14RF-19-61-29, Rev. 2, dated September 27,                  39.13
  1994.
SB No. 14RF-19-61-37, dated August 29, 1994.......                 39.13
SB No. 14RF-19-61-41, Rev. 2, dated June 22, 1995.                 39.13
SB No. 14RF-19-61-43, Rev. 1, dated May 17, 1995..                 39.13
SB No. 14RF-21-61-48, Rev. 2, dated September 27,                  39.13
  1994.
SB No. 14RF-21-61-48, Rev. 2, dated September 27,                  39.13
  1994.
SB No. 14RF-21-61-56, dated August 29, 1994.......                 39.13
SB No. 14RF-21-61-60, Rev. 2, dated June 22, 1995.                 39.13
SB No. 14RF-21-61-62, Rev. 1, dated May 17, 1995..                 39.13
SB No. 14RF-9-61-105, dated July 24, 1996.........                 39.13
SB No. 14RF-9-61-61, Rev. 1, dated September 27,                   39.13
  1994.
SB No. 14RF-9-61-61, Rev. 1, dated September 27,                   39.13
  1994.
SB No. 14RF-9-61-70, dated August 29, 1994........                 39.13
SB No. 14RF-9-61-75, Rev. 2, dated June 22, 1995..                 39.13
SB No. 14RF-9-61-76, Rev. 1, dated May 17, 1995...                 39.13
SB No. 14RF-9-61-86, Rev. 4, dated November 9,                     39.13
  1995.
SB No. 14SF-61-67, Rev. 2, dated September 27,                     39.13
  1994.
SB No. 14SF-61-67, Rev. 2, dated September 27,                     39.13
  1994.
SB No. 14SF-61-75, dated August 29, 1994..........                 39.13
SB No. 14SF-61-81, Rev. 2, dated June 22, 1995....                 39.13
SB No. 14SF-61-82, Rev. 1, dated May 17, 1995.....                 39.13
SB No. 247F-61-12, Rev. 2, dated June 22, 1995....                 39.13
SB No. 247F-61-13, Rev. 1, dated May 17, 1995.....                 39.13
SB No. 247F-61-6, Rev. 2, dated September 27, 1994                 39.13
SB No. 247F-61-6, Rev. 2, dated September 27, 1994                 39.13
SB No. 6/5500/F-61-19, Rev. 2, dated September 27,                 39.13
  1994.
SB No. 6/5500/F-61-19, Rev. 2, dated September 27,                 39.13
  1994.
SB No. 6/5500/F-61-30, dated August 29, 1994......                 39.13
SB No. 6/5500/F-61-32, Rev. 2 , dated June 22,                     39.13
  1995.
SB No. 6/5500/F-61-33, Rev. 1, dated May 17, 1995.                 39.13
SB No. 72-23, Rev. 1, dated August 15, 1991.......                 39.13
SB No. 73-111, Rev. 1, dated October 27, 1976.....                 39.13
SB No. 73-117, Rev. 3, dated October 15, 1974.....                 39.13
SB No. 73-121, dated May 29, 1974.................                 39.13
SB No. 73-122, Rev. 1, dated September 27, 1977...                 39.13
SB No. 73-127, Rev. 2, dated October 31, 1978.....                 39.13
SB No. 73-128, Rev. 1, dated August 29, 1975......                 39.13
SB No. 73-129; Rev. 3, dated July 1, 1977.........                 39.13
SB No. 73-150, Rev. 1, dated August 15, 1991......                 39.13
SB No. 73-21, Rev. 1, dated October 27,1976.......                 39.13
SB No. 73-24, Rev. 2, dated October 15, 1974......                 39.13
SB No. 73-27, Rev. 1, dated September 27, 1982....                 39.13
SB No. 73-28, dated May 29, 1974..................                 39.13
SB No. 73-29, Rev. 1, dated September 27, 1977....                 39.13
SB No. 73-3, dated January 7, 1977................                 39.13
SB No. 73-35, Rev. 1, dated August 29, 1975.......                 39.13
SB No. 73-36, Rev. 3, dated July 1, 1977..........                 39.13
SB No. 73-42, dated February 27, 1976.............                 39.13

[[Page 996]]

SB No. 73-50, Rev. 2, dated December 13, 1992.....                 39.13
SB No. 75-10, dated September 10, 1974............                 39.13
SB No. 75-11, dated January 3, 1975...............                 39.13
SB No. 75-14, dated May 23, 1975..................                 39.13
SB No. 75-19, Rev. 3, dated August 19, 1991.......                 39.13
SB No. 75-2, Rev. 1, dated November 8, 1979.......                 39.13
SB No. 75-20, dated September 1, 1978.............                 39.13
SB No. 75-22, Rev. 1, dated August 19, 1991.......                 39.13
SB No. 75-23, dated March 31, 1988................                 39.13
SB No. 75-24, Rev. 1, dated August 19, 1991.......                 39.13
SB No. 75-27, dated August 19, 1991...............                 39.13
SB No. 75-27, dated September 10, 1974............                 39.13
SB No. 75-28, dated January 3, 1975...............                 39.13
SB No. 75-28, dated May 13, 1991..................                 39.13
SB No. 75-31, dated May 23, 1975..................                 39.13
SB No. 75-36, Rev. 1, dated September 1, 1978.....                 39.13
SB No. 75-37, Rev. 3, dated August 16, 1991.......                 39.13
SB No. 75-4, Rev. 2, dated August 20, 1991........                 39.13
SB No. 75-41, Rev. 3, dated August 16, 1991.......                 39.13
SB No. 75-42, Rev. 1, dated August 16, 1991.......                 39.13
SB No. 75-43, Rev. 2, dated April 25, 1991........                 39.13
SB No. 75-45, Rev. 1, dated August 16, 1991.......                 39.13
SB No. 75-48, Rev. 1, dated August 16, 1991.......                 39.13
SB No. 75-49, dated May 13, 1991..................                 39.13
SB No. 75-5, dated March 31, 1988.................                 39.13
SB No. 75-6, Rev. 1, dated August 20, 1991........                 39.13
SB No. 75-9, Rev. 1, dated August 20, 1991........                 39.13
SB No. GTA9-73-139; dated February 27, 1976.......                 39.13
SB No. GTA9-73-33, Rev. 2, dated October 31, 1978.                 39.13
SB No. GTA9-75- 17, dated March 31, 1988..........                 39.13
SB No. GTA9-75-16, dated March 20, 1988...........                 39.13
SB No. GTA9-75-17, dated March 31, 1988...........                 39.13
SB No. GTA9-75-19, Rev. 1, dated August 21, 1991..                 39.13
SB No. GTA9-75-26, Rev. 1, dated August 21, 1991..                 39.13
SB No. GTA9-75-9, Rev. 3, dated August 15, 1992...                 39.13
TemporaryRev (TR) No. 61-6 to HS Maintenance                       39.13
  Manual (MM) P5186, dated March 15, 1993.
TR No. 61-4 to HS MM P5189, dated March 15, 1993..                 39.13
TR No. 61-5 to HS MM P5189, dated July 27, 1993...                 39.13
TR No. 61-6 to HS MM P5199, dated April 8, 1993...                 39.13
TR No. 61-7 to HS MM P5186, dated July 27, 1993...                 39.13
TR No. 61-7 to HS MM P5199, dated July 27, 1993...                 39.13
14RF-19-61-A26, dated October 27, 1992............                 39.13
14RF-9-61-A57, dated October 27, 1992.............                 39.13
14SF-61-A61, dated October 27, 1992...............                 39.13
6/5500/F-61-A12 dated October 27, 1992............                 39.13
SB 14RF-21-61-A39, dated October 27, 1992.........                 39.13


Hansjorg Streifeneder Glasfaser-Flugzeug-Service GmbH

  Hofener Weg, 7431, Grabenstetten, Federal 
  Republic of Germany
Technical Note 301-33, dated March 15, 1987.......                 39.13
Technical Note 401-20, dated March 15, 1987.......                 39.13
Technical Note 501-4 dated March 15, 1987.........                 39.13

[[Page 997]]

Technical Note No. 201-26, dated March 15, 1987...                 39.13
Technical Note No. 401-19 dated September 12, 1986                 39.13


Hartzell Propeller Test Lab

  350 Washington Avenue, Piqua, Ohio 45356
Service Instruction No. 159A dated May 13, 1985...                 39.13
Overhaul Manual No. 118-E, dated April, 1985......                 39.13


Hartzell Propeller, Inc

  Product Support Department, One Propeller Place 
  Piqua, Ohio 45356
Alert SB A182A, dated March 11, 1994..............                 39.13
Alert SB A183A, dated March 11, 1994..............                 39.13
Alert SB A188, dated February 25, 1994............                 39.13
Alert SB No. A182, dated April 28, 1993...........                 39.13
Alert SB No. A186, dated January 25, 1994.........                 39.13
Alert SB No. A196A, dated December 27, 1994.......                 39.13
Alert SB No. HC- ASB-61-220, dated July 8, 1996...                 39.13
ASB HC-ASB-61-219, Rev. 1, dated July 2, 1996.....                 39.13
ASB HC-ASB-61-237, dated July 17, 1998............                 39.13
ASB No. A190 dated January 12, 1994...............                 39.13
ASB No. HD-ASB-61-021, Revision 1, dated March 18,                 39.13
  1999.
Instruction Manual No. 132-A, Rev. 1, dated April,                 39.13
  1990.
Overhaul Manual No. 118F, Rev. 2, dated May, 1992.                 39.13
SB 165D, dated August 6, 1993.....................                 39.13
SB HC-SB-61-217, Rev. 1, dated July 11, 1997......                 39.13
SB No. 136C dated March 3, 1986...................                 39.13
SB No. 136F, dated August 10, 1990................                 39.13
SB No. 136F, dated August 10, 1990................                 39.13
SB No. 136G, dated November 15, 1991..............                 39.13
SB No. 136G, dated November 15, 1991..............                 39.13
SB No. 136H, dated March 12, 1993.................                 39.13
SB No. 140B dated June 1, 1987....................                 39.13
SB No. 140C dated September 30, 1987..............                 39.13
SB No. 153 dated May 1, 1987......................                 39.13
SB No. 165E, dated January 21, 1994...............                 39.13
SB No. 202, dated January 5, 1995.................                 39.13
SB No. HC-SB-61-227 Revision 2 dated May 8, 2000..                 39.13
Service Manual No. 202A, dated March, 1993........                 39.13
Standard Practices Manual, Rev. 1, dated June 1994                 39.13
Standard Practices Manual, 61-01-02, Rev. 1, dated                 39.13
  June 1994.
SB 165D, dated August 6, 1993.....................                 39.13


HB Aircraft Industries AG (Ing. Helno Brditschka Flugtechnik Ges.m.b.H.)

  Dr. Adolf Scharfstr. 44, 4053 Haid, Austria; 
  Telephone 43.7229.80904
23/2/90 dated Dec. 1990...........................                 39.13
SB HB-23/17/91, dated October 28, 1991............                 39.13
SB HB-23/18/91, dated October 28, 1991............                 39.13
SB HB-23/19/91, dated October 5, 1991.............                 39.13


Heath Tecna Aerospace Co

  19819 84th Ave. South, Kent, WA 98032
ASB ESCI-25-A1 dated Apr. 30, 1990................                 39.13
ASB MarkI-33-A2, Revision 1, dated July 24, 1996..                 39.13
ASB MarkI-33-A3, Revision 1, dated July 24, 1996..                 39.13
ASB MarkI-33-A4, Revision 1, dated July 24, 1996..                 39.13

[[Page 998]]

ASB MarkI-33-A5, Revision 1, dated July 24, 1996..                 39.13
ASB Spmk-33-A1, Revision 1, dated July 24, 1996...                 39.13
ASB Spmk-33-A2, Revision 1, dated July 24, 1996...                 39.13
SB H0364-35-001, dated March 15, 1996.............                 39.13
SB H0655-33-01, dated March 28, 1996..............                 39.13


Helicopter Technology Company, LLC

  12923 South Spring Street Los Angeles CA 90061 
  Phone (310)523-2750 fax (310)523-2745
Mandatory Service Bulletin Notice No. 2100-2R2                     39.13
  dated November 14, 2000.


Hercules (Lockheed Aeronautical Systems Support Company)

  Field Support Department, Department 693, Zone 
  0755, 2251 Lake Park Drive, Smyrna, GA 30080
188A Airplane Flight Manual, dated October 17,                     39.13
  1996.
188C Airplane Flight Manual, dated October 17,                     39.13
  1996.
SB 382-57-74 (82-688), dated January 31, 1994                      39.13
  (includes Attachment 1, and Appendices A and B).


Hexcel Interiors

  3225 Woburn Street Bellingham, WA 98226 or 
  Boeing Commercial Aircraft Group, Long Beach 
  Division 3855 Lakewood Blvd, Long Beach, CA 
  90846 Attn: Data and Service Management Dept. 
  C1-L5A (D800-0024)
Service Bulletin 110000-25-001 dated March 31,                     39.13
  2001.


Hiller Aircraft Corp

  7980 Enterprise Drive, Newark, CA 94560-3497
Service Bulletin No. 10-4 Revision 2 dated                         39.13
  December 20, 1999.
SB 36-1, Rev. 3, dated October 24, 1979...........                 39.13
SB No. 51-9, dated April 8, 1983..................                 39.13
Service Letter 51-2, dated March 31, 1978.........                 39.13


HOAC Austria GmbH, N.A

  Otto Strasse 5, A-2700 Wiener Neustadt, Austria
Drawing No. DV2-7800R01-00, as referenced in HOAC                  39.13
  Austria SB No. 20-7/2, dated September 8, 1994.
SB No. 33, dated July 15, 1993....................                 39.13


Hoffman Aircraft Ges. m.b.H

  Richard Neutra Gasse 5, A-1210 Wien, AUSTRIA
SB 17, dated January 20, 1987.....................                 39.13
SB No. 15/2 dated January 20, 1987, including Work                 39.13
  Instruction No. 7.
SB No. 19 dated November 10, 1986.................                 39.13
Work Instruction No. 10, dated May 29, 1991, as                    39.13
  referenced in Hoffman.
Work Instruction SB No. 27, dated May 31, 1991....                 39.13


Hollingsead International, Inc.

  7416 Hollister Avenue Goleta California 93117
Service Bulletin 2526-2332-001 dated July 19, 2000                 39.13


Honeywell

  Business and General Aviation, One Technology 
  Center, 23500 W. 105th Street, Olathe, Kansas, 
  66061
Installation Bulletin No. 472 Alert Revision 1                     39.13
  dated January 2001.


Honeywell International, Inc.

  Attn: Data Distribution M/S 64-3/2101-201 P.O. 
  Box 29003 Phoenix Arizona 85038-9003

[[Page 999]]

Service Bulletin LT 101-73-20-0203 dated August                    39.13
  18, 1999.
Alert Service Bulletin HG2030AD-34-A0009 dated                     39.13
  March 9, 2000.
Alert Service Bulletin HG2050AC-34-A0008 dated                     39.13
  March 9, 2000.
Alert Service Bulletin KS 270C-4 Revision 1 dated                  39.13
  February 2000.
Alert Service Bulletin KS 271C-5 Revision 1 dated                  39.13
  February 2000.
Alert Service Bulletin KS 272C-4 Revision 2 dated                  39.13
  February 2000.
SB 7015327-22-2, dated March 4, 1996..............                 39.13
SB 7017000-22-43, dated March 24, 1998............                 39.13
Service Bulletin 7015327-22-4 dated March 31, 1997                 39.13
Service Bulletin LT 101-73-20-0203 Revision 1                      39.13
  dated January 5, 2001.


HR Textron

  25200 W. Rye Canyon Road, Santa Clarita, CA 
  91355-1265
Alert Service Bulletin 41000470-67A-05 Revision 1                  39.13
  dated October 19, 2000.
Alert Service Bulletin 41105950-67A-01 dated                       39.13
  October 19, 2000.


Hughes Helicopters, Inc

  Centinela Avenue and Teale Street, Culver City, 
  California 90230
Service Information EN-19 dated November 14, 1984.                 39.13
Service Information HN-197 dated November 14, 1984                 39.13
Service Information Nos. DN-130, dated November                    39.13
  14, 1984.


IAM Rinaldo Piaggio S.p.A

  Via Cibrario, 4 16154 Genoa, Italy
Mandatory SB No. SB-80-0089, dated May 22, 1996...                 39.13
MSB No. SB-80-0080, dated July 3, 1997............                 39.13
SB Mandatory SB 80-0096, dated January 31, 1997...                 39.13
Avanti P180 SB 80-0008, Rev. 1 dated June 26, 1991                 39.13
Avanti SB 80-0076, dated May 30, 1995.............                 39.13
Mandatory SB No. SB-80-0072, Revision 1, dated                     39.13
  September 9, 1998.
Mandatory SB No. SB-80-0101, dated May 6, 1998....                 39.13
Mandatory Service Bulletin SB-80-0107 dated April                  39.13
  30, 1999.
Mandatory Service Bulletin SB-80-0120 dated July                   39.13
  20, 2000.
SB No. SB-80-0043, dated July 28, 1993............                 39.13
SB No. SB-80-0064, dated December 5, 1994.........                 39.13


International Aero Engines, AG

  400 Main Street, East Hartford, CT 6108
AOW 1053 Revision 2 dated June 20, 2000...........                 39.13


International Civil Aviation Organization,

  Document Sales Unit P.O. Box 400, Succursale 
  Placede L Aviation Internationale, 1000 
  Sherbrooke Street West, Suite 400 Montreal, 
  Quebec, Canada, H3A 2R2
Volume II--Aircraft Engine Emissions, Appendices 3                 34.64
  and 5, First Edition, June 1981.
Volume II--Aircraft Engine Emissions, Appendix 2,                  34.82
  First Edition, June 1981.
Volume II--Aircraft Engine Emissions, Appendix 6,           34.71; 34.89
  June 1981.
olume II, Aircraft Engine Emissions, Appendix 6,            34.71; 34.89
  Second Edition, July 1993.
Volume II, Aircraft Engine Emissions, Appendices 3                 34.64
  and 5, Second Edition, July 1993.
Volume II, Aircraft Engine Emissions, Appendix 2,                  34.82
  Second Edition, July 1993.


International Electrotechnical Commission

  The Bureau Central de la Commission 
  Electrotechnique, Internationale, 1, rue de 
  Varembe, Geneva, Switzerland

[[Page 1000]]

Publication No. 561 ``Electro-acoustical Measuring                  36.6
  Equipment for Aircraft Noise Certification'' 
  First Edition dated 1976.
Publication No. 651 ``Sound Level Meters'' First                    36.6
  Edition dated 1979.
Publication No. 804, Integrating-averaging Sound                    36.6
  Level Meters, 1st Edition dated 1985.


Intreprinderea De Constructii Aeronautice; Sprague Aviation Inc

  699 Linwood, Vacaville, California 95688
SB No. IS-28B2-EO-14 dated August 20, 1985........                 39.13


IPECO Inc

  15201 South Prairie Ave., Lawndale, CA 90260
SB A001-25-29, Issue No. 2 dated April 28, 1989...                 39.13
SB A001-25-30, Issue No. 2 dated April 28, 1989...                 39.13
SB A001-25-31 through A001-25-40, Issue No. 2                      39.13
  dated April 28, 1989.
SB A001-25-74, Issue 2, dated May 6, 1993.........                 39.13
SB A001-25-92, Issue 1, dated June 2, 1997........                 39.13


ITT Aerospace Controls

  28150 Industry Drive, Valencia, CA 91355
SB SB107970-28-01, dated July 15, 1996............                 39.13
SB SB125120-28-01, dated July 15, 1996............                 39.13
SB SB125334-28-01, dated July 15, 1996............                 39.13


J.C. Carter Company (Boeing Commercial Airplane Group)

  P.O. Box 3707, Seattle, Washington 98124-2207
SB 61163-28-08, dated December 2, 1994............                 39.13
SB 61163-28-09, dated September 28, 1995..........                 39.13
SB 61163-28-09, dated May 1, 1996.................                 39.13


JAMCO America, Inc.

  1018 80th Street, SW Everett Washington 98023
Service Bulletin 747-25-M025 dated August 30, 2000                 39.13
Service Bulletin 767-25-M019 dated August 30, 2000                 39.13


JanAero Devices

  Airport Complex, P.O. Box 273, Fort Deposit, 
  Alabama 36032
SB No. A-102, dated September, 1994...............                 39.13
SB No. A-103, dated September, 1995...............                 39.13
Service Bulletin No. A-107 dated January 8, 2001..                 39.13


Jensen Aircraft

  9225 Country Road 140, Salida, CO 812101
Installation Instructions for Modified Lift Strut                  39.13
  Fittings, Revision 2, dated April 20, 1984.


Jetstream Aircraft, Inc. (formerly BAe)

  P.O. Box 16029, Dulles International Airport, 
  Washington, DC 20041-6029
SB 32-41, Rev. 2, dated March 9, 1993.............                 39.13
SB 8679-29-02 dated April 1991....................                 39.13
SB AIR44880-29-01 dated April 1991................                 39.13
SB AIR44880-29-02, Rev. 1, dated March 9, 1993....                 39.13
Alert SB 57-A-JA 920640, dated February 19, 1993..                 39.13
ASB 27-A-JM7847, Rev. 1, dated April 27, 1998.....                 39.13
Mandatory SB 74-JM 7693A, dated May 17, 1990......                 39.13
Mandatory SB 74-JM 7693A, Rev. 3, dated January                    39.13
  28, 1993.
SB 22-A-JA 851231, dated April 9, 1986............                 39.13
SB 28-JM 7161, dated December 19, 1983............                 39.13

[[Page 1001]]

SB 29-JM 7360, Rev. No. 1, dated January 3, 1991..                 39.13
SB 34-JA 891143, dated March 2, 1990..............                 39.13
SB 57-JM 5259, dated February 5, 1993.............                 39.13
SB J41-57-019, Rev. 1, dated November 26, 1997....                 39.13
SB J41-57-020, dated March 20, 1997...............                 39.13
SB J41-57-021, dated May 7, 1998..................                 39.13
MSB B121/105, dated January 12, 1998..............                 39.13
SB B121/106, dated January 12, 1998...............                 39.13
Airplane Flight Manual Temporary Rev. T/40, Issue                  39.13
  1, dated August 3, 1994.
Airplane Flight Manual Temporary Rev. T/41, Issue                  39.13
  1, dated November 15, 1994.
Alert SB 24-A-JA 900443, Rev. 2, dated November                    39.13
  15, 1990.
Alert SB 24-A-JM 7708, Rev. 1, dated May 22, 1990.                 39.13
Alert SB 30-A-JA 920444, dated October 30, 1992...                 39.13
Alert SB 32-A-JA 941245, Rev. 3, dated March 15,                   39.13
  1996.
Alert SB 80-A-JA 911045, Rev. 1, dated November 1,                 39.13
  1991.
Alert SB J41-52-050, dated May 6, 1997............                 39.13
Alert SB J41-53-028, Rev. 1, dated October 12,                     39.13
  1994.
Alert SB J41-53-028, Rev. No. 2, dated January 17,                 39.13
  1995.
Alert SB J41-A-27-026, Rev. 2, dated January 17,                   39.13
  1994.
Alert SB J41-A22-005, dated July 1, 1996..........                 39.13
Alert SB J41-A25-034, Rev. 1, dated October 30,                    39.13
  1993.
Alert SB J41-A25-061, dated June 6, 1995..........                 39.13
Alert SB J41-A26-007, dated December 13, 1996.....                 39.13
Alert SB J41-A27-020, dated August 13, 1993.......                 39.13
Alert SB J41-A27-020, dated August 13, 1993.......                 39.13
Alert SB J41-A27-034, dated June 9, 1994..........                 39.13
Alert SB J41-A27-034, Rev. 1, dated October 28,                    39.13
  1994.
Alert SB J41-A32-042, dated April 13, 1995........                 39.13
Alert SB J41-A32-061, dated July 11, 1997.........                 39.13
Alert SB J41-A52-036, dated June 13, 1994.........                 39.13
Alert SB J41-A52-043, Rev. 2, dated May 6, 1997...                 39.13
Alert SB J41-A53-024, dated April 26, 1996........                 39.13
Alert SB J41-A53-030, dated January 19, 1996......                 39.13
Alert SB No. 27-A-JA 910340 and No. 32-JM 7493,                    39.13
  Rev. 1 dated March 25, 1991.
Alert Service Bulletin J41-11-024 dated May 11,                    39.13
  1999.
Alert Service Bulletin J41-A27-055 dated March 10,                 39.13
  2000.
Alert Service Bulletin J41-A53-023 Revision 1                      39.13
  dated July 30, 1999.
ASB 27-A-JA980606 dated July 6, 1998..............                 39.13
ASB 27-A-JA980607 Revision 1,.....................                 39.13
ASB 32-A-JA 850127, Rev. 2, dated November 11,                     39.13
  1994.
ASB HS748-A27-128, dated December 20, 1996........                 39.13
ASB J41-52-059, Rev. 2, dated January 23, 1998....                 39.13
ASB J41-53-041, dated July 25, 1997...............                 39.13
ASB J41-A26-007, Rev. 1, dated May 21, 1997.......                 39.13
ASB J41-A52-059, dated September 12, 1997.........                 39.13
ASB J41-A53-023, dated December 2, 1996...........                 39.13
ASB J41-A53-030, Rev. 1, dated August 8, 1996.....                 39.13
ASB J41-A53-030, Rev. 2, dated February 14, 1997..                 39.13
ASB J41-A57-015, Revision 1, dated August 23, 1996                 39.13
ASB J41-A57-015, Revision 2, dated June 30, 1997..                 39.13

[[Page 1002]]

ASB No. 32-A-JA 910140 dated May 17, 1991.........                 39.13
ATP-54-13-35274B, Rev. 1, dated July 8, 1994......                 39.13
Erratum No. 1 to SB 57-JM 5259, dated February 8,                  39.13
  1993.
HS 748-27-63, Rev. 4, dated May 12, 1995..........                 39.13
HS 748-27-70, Rev. 2, dated May 20, 1994..........                 39.13
J41-32-070 Revision 1 dated September 14, 1999....                 39.13
Mand. Pup SB B121195, Rev. 2 dated Jan. 28, 1991..                 39.13
Mandatory SB HS748-53-59-INSP, dated May 4, 1994..                 39.13
SB 22-A-JA 860413, dated April 16, 1986...........                 39.13
SB 22-JK-2628, Rev. 2, dated October 21, 1996.....                 39.13
SB 27-JA 910541, Rev. 3, dated November 16, 1992..                 39.13
SB 27-JA 920340, Rev. 2, dated December 21, 1993..                 39.13
SB 30-JM 7453, October 24, 1984,..................                 39.13
SB 30-JM 7453, Rev. 2, dated December 10, 1984....                 39.13
SB 32-JA 960142, dated March 15, 1996.............                 39.13
SB 32-JA900942 dated October 22, 1990.............                 39.13
SB 32-JA900943 Revision No. 5, dated September 4,                  39.13
  1998.
SB 52-A-JA 911140, Rev. 2, dated October 6, 1992..                 39.13
SB 52-A-JA 930901, Rev. 1, dated February 11, 1994                 39.13
SB 52-JM 7752, dated December 17, 1991............                 39.13
SB 52-JM 7793, Rev. 1, dated August 10, 1993......                 39.13
SB 53-A-JA 870510, Rev. 1, dated November 10, 1987                 39.13
SB 53-JM 5285, Rev. 2, dated November 12, 1992....                 39.13
SB 57-A-JA920540, dated September 1, 1992.........                 39.13
SB 57-JA 921140, Rev. 1, dated February 24, 1994..                 39.13
SB 57-JA 921144, Rev. 1, dated April 19, 1994.....                 39.13
SB 57-JA 930941, Rev. 2, dated November 11, 1994..                 39.13
SB 57-JA-921144, Rev. 1, dated April 19, 1994.....                 39.13
SB 57-JM 5218, Rev. 4, dated October 31, 1990.....                 39.13
SB 57-JM 5326, dated September 3, 1993............                 39.13
SB 57-JM5221, dated September 28, 1984 and                         39.13
  Modification No. 5146 Ref. 7/5146, dated October 
  1984.
SB ATP 30-37-30143A, dated August 1, 1994.........                 39.13
SB ATP-21-24-10306A, dated July 30, 1993..........                 39.13
SB ATP-23-21-35288A, Rev. 2, dated February 15,                    39.13
  1994.
SB ATP-24-55, Rev. 1, dated April 24, 1993........                 39.13
SB ATP-26-9, dated May 12, 1993...................                 39.13
SB ATP-27-49-10234A, Rev. 1, dated August 14,                      39.13
  1993; and Rev. 2, dated November 23, 1993, June 
  18, 1993.
SB ATP-27-78, Rev. 1, dated January 31, 1996......                 39.13
SB ATP-27-80, dated April 23, 1996................                 39.13
SB ATP-30-30-35285A, dated July 15, 1994..........                 39.13
SB ATP-30-39-30146A, dated July 29, 1994..........                 39.13
SB ATP-30-44-35274D, dated August 12, 1994........                 39.13
SB ATP-32-48, Rev. 1, dated January 28, 1994......                 39.13
SB ATP-32-48, Rev. 3, dated July 15, 1994.........                 39.13
SB ATP-32-51-35296A, dated May 12, 1994...........                 39.13
SB ATP-32-53-35294A, dated July 18, 1994                           39.13
  (including Erratum No. 1).
SB ATP-32-53-35294A, Rev. 2, dated January 13,                     39.13
  1995.
SB ATP-52-26-10350B, dated June 29, 1994..........                 39.13
SB ATP-53-30-10372A, dated November 3, 1994.......                 39.13
SB ATP-54-11, dated July 13, 1993.................                 39.13

[[Page 1003]]

SB ATP-54-11, Rev. 1, dated November 9, 1993......                 39.13
SB ATP-54-13-35274B, Rev. 2, dated August 18, 1994                 39.13
SB ATP-57-13, Rev. 5, dated June 3, 1994..........                 39.13
SB ATP-57-16-10313A, Rev. 1, dated July 2, 1994                    39.13
  (as corrected by Erratum 2, dated August 30, 
  1994).
SB ATP-76-16, dated October 14, 1994..............                 39.13
SB ATP-76-18, dated June 21, 1995.................                 39.13
SB ATP-79-23, dated August 26, 1994...............                 39.13
SB ATP-79-24-10360A, dated September 4, 1994......                 39.13
SB ATP-80-06, Rev. 2, dated October 16, 1994......                 39.13
SB ATP-80-7-30141A, Rev. 2, dated November 4, 1994                 39.13
SB ATP29-12, dated September 9, 1995,.............                 39.13
SB ATP29-12, Temporary Rev. No. T/52, Issue 1,                     39.13
  dated August 16, 1995.
SB ATP30-37-30143A, Rev. 1, dated September 5,                     39.13
  1994.
SB HS748-27-124, dated November 17, 1995..........                 39.13
SB HS748-27-126, dated February 29, 1996..........                 39.13
SB J41-11-004, Rev. 1, dated March 23, 1994.......                 39.13
SB J41-11-007, dated May 10, 1995.................                 39.13
SB J41-11-010, dated August 9, 1997...............                 39.13
SB J41-11-014, dated January 18, 1996.............                 39.13
SB J41-11-020, dated November 10, 1997............                 39.13
SB J41-22-006, dated July 1, 1996.................                 39.13
SB J41-24-027, dated July 8, 1997, including                       39.13
  Erratum No. 1, dated August 8, 1997.
SB J41-24-033, Rev. 2, dated January 24, 1996.....                 39.13
SB J41-25-018, dated March 15, 1994...............                 39.13
SB J41-27-027, dated January 17, 1994.............                 39.13
SB J41-27-036, dated September 2, 1994............                 39.13
SB J41-27-052, dated September 11, 1998...........                 39.13
SB J41-29-001, dated August 12, 1994..............                 39.13
SB J41-29-001, Rev. 1, dated August 30, 1994......                 39.13
SB J41-29-005, Rev. 1, dated August 12, 1994......                 39.13
SB J41-29-005, Rev. 2, dated August 30, 1994......                 39.13
SB J41-32-017, dated Feruary 7, 1994..............                 39.13
SB J41-32-023, dated May 27, 1996.................                 39.13
SB J41-32-044, dated September 22, 1995...........                 39.13
SB J41-32-049, Rev. 1, dated January 15, 1996.....                 39.13
SB J41-32-054, dated July 4, 1996.................                 39.13
SB J41-32-058, dated May 9, 1997..................                 39.13
SB J41-52-025, dated February 11, 1994............                 39.13
SB J41-52-041-42619, dated June 13, 1994..........                 39.13
SB J41-52-058, dated July 14, 1997................                 39.13
SB J41-52-060, dated August 31, 1998..............                 39.13
SB J41-53-011, dated October 15, 1993.............                 39.13
SB J41-53-012, dated November 30, 1993............                 39.13
SB J41-53-012-41262A, Rev. 1, dated October 3,                     39.13
  1994.
SB J41-53-014, dated July 24, 1995................                 39.13
SB J41-53-014, Rev. 1, dated February 9, 1996.....                 39.13
SB J41-53-039, dated August 22, 1996..............                 39.13
SB J41-55-002, Rev. 1, dated July 25, 1996........                 39.13
SB J41-57-017, dated May 9, 1997..................                 39.13
SB J41-73-007, dated November 22, 1994............                 39.13

[[Page 1004]]

SB J41-76-013, dated May 5, 1995..................                 39.13
SB J41-A22-008, Rev. 1, dated November 21, 1996...                 39.13
SB J41-A24-036, dated February 26, 1996...........                 39.13
SB J41-A27-042, dated May 13, 1996................                 39.13
SB J61-32-71, Rev. 1, dated April 16, 1996........                 39.13
SB No. 27-A-JA 911044, dated January 31, 1992.....                 39.13
SB No. 30-JK 12033, Rev. No. 1, dated October 20,                  39.13
  1995.
SB No. 32-JA 901040, Rev. No. 3, dated August 9,                   39.13
  1995.
SB No. 57-JA 921144, dated March 4, 1993..........                 39.13
SB No. 57-JA 921144, Rev. 1, dated April 19, 1994.                 39.13
SB No. 7/3, dated October 1980....................                 39.13
Series 3100/3200 ASB No. 32-JA 960601, Rev. 1,                     39.13
  Accomplishment Instructions, dated April 11, 
  1997.
Series 3100/3200 SB 30-JA 950641, Rev. 2, dated                    39.13
  March 18, 1998.
Series 4100 Alert SB J41-A24-012, Rev.1, dated                     39.13
  September 13, 1993.
Series 4100 Alert SB J41-A52-016, dated May 18,                    39.13
  1993.
Series 4100 SB J41-57-003, dated October 13, 1993.                 39.13
Service Bulletin J41-27-059 dated May 31, 2000....                 39.13
Service Bulletin J41-32-068 Revision 1 dated May                   39.13
  12, 2000.
Service Bulletin J41-53-046 dated March 15, 2000..                 39.13
Temporary Rev. T/42, Issue 1, dated August 12,                     39.13
  1994.
ATP 80-06, Rev. 1, dated October 22, 1993.........                 39.13
ATP-53-31, Rev. 1, dated December 5, 1995.........                 39.13
ATP-54-12-35274A, dated September 28, 1993........                 39.13
ATP-54-13-35274B, dated October 9, 1993...........                 39.13
ATP-54-14, dated October 14, 1993.................                 39.13
Drawing 141R0370, Issue 3, dated May 27, 1993.....                 39.13
Drawing 141R0370, Issue 3, dated May 27, 1993.....                 39.13
SB ATP-54-10-35256A, Rev. 1, dated April 16, 1993.                 39.13
SB ATP-54-9, dated December 9, 1992...............                 39.13
SB ATP-54-9, Rev. 1, dated May 10, 1993...........                 39.13
SB No. B121/103, dated October 26, 1995...........                 39.13
SB ATP-21-36, dated January 3, 1996...............                 39.13
SB ATP-79-25-10382A, Rev. 1, dated May 25, 1995...                 39.13
SB 32-56, Rev. 3, dated February, 1995............                 39.13
SB 32-66, Rev. 2, as referenced in Jetstream                       39.13
  Series 3100-3200 ASB 32-JA-960601, Rev. 1, 
  Accomplishment Instructions, dated April 11, 
  1997 dated March 1997,.
SB No. 2314M-30-16,as referenced in Jetstream                      39.13
  Series 3100/3200 SB 30-JA 950641, Rev. 2, dated 
  March 18, dated December 1996,.


Korff & Co. KG

  Luftfahrttechnischer Betrieb, LBA II-A 189, 
  Dieselstrasse 5, D-63128 Dietzenbach Germany 
  phone (49)6074/4006 fax (49)6741/4033
Service Bulletin SB-KOCO 05/818 Revision 2 dated                   39.13
  January 16, 2001.
Work Instructions AW-KOCO 05/818 Revision 2 dated                  39.13
  January 16, 2001.


Learjet, Inc.

  One Learjet Way Wichita, KS 67209-2942
Service Bulletin 55-32-14 dated November 9, 1999..                 39.13
Service Bulletin 60-32-10 Revision 1 dated June                    39.13
  22, 2000.
45 Maintenance Manual Temporary Revision No. 30-1                  39.13
  dated January 2, 2001.
45 Maintenance Manual Temporary Revision No. 4-2                   39.13
dated January 2, 2001.
[[Page 1005]]

45 Maintenance Manual Temporary Revision No. 5-2                   39.13
  dated January 2, 2001.
45 Temporary Flight Manual Change TFM 2000-16                      39.13
  dated January 8, 2001.
Airplane Modification Kit AMK No. 90-5 dated Oct.                  39.13
  11, 1991.
Alert SB SB A31-26-3, dated July 14, 1995 and                      39.13
  Learjet Alert SB SB A60-26-1, dated July 14, 
  1995.
Alert SB SB A60-21-1, dated November 1, 1993......                 39.13
Alert SB SB A60-28-3, dated May 12, 1995..........                 39.13
SB 23/24/25-28-2, dated October 6, 1995 and                        39.13
  Learjet SB SB 35/36-28-10, dated October 6, 
  1995.
SB 31-21-10, Rev. 1, dated May 17, 1996...........                 39.13
SB 35-21-24, dated August 11, 1995................                 39.13
SB 35-21-24, Rev. 1, dated May 17, 1996...........                 39.13
SB No. 23/24/25-30-3, dated October 27, 1998......                 39.13
SB No. 28/29-30-3, dated October 27, 1998.........                 39.13
SB No. 31-30-5, dated October 27, 1998............                 39.13
SB No. 55-30-3, dated October 27, 1998............                 39.13
SB No. 60-30-4, dated October 27, 1998............                 39.13
SB SB 24/25-21-4, dated January 3, 1995...........                 39.13
SB SB 28/29-21-8, dated January 3, 1995...........                 39.13
SB SB 31-21-10, dated August 11, 1995.............                 39.13
SB SB 31-21-6, dated January 3, 1995..............                 39.13
SB SB 31-27-19, dated December 14, 1998...........                 39.13
SB SB 35-27-36, dated December 14, 1998...........                 39.13
SB SB 35/36-21-19, dated January 3, 1995..........                 39.13
SB SB 55-21-10, dated January 3, 1995.............                 39.13
SB SB 55-24-4, dated May 3, 1993..................                 39.13
SB SB 60-27-21, dated December 14, 1998...........                 39.13
SB SB 60-28-4, dated May 12, 1995.................                 39.13
SB SB 60-71-2, dated May 12, 1995, which includes                  39.13
  Nordam SB PW300L71-1, dated April 26, 1995.
Temporary Flight Manual Change TFM 2000-01 dated                   39.13
  April 6, 2000.
Temporary Flight Manual Change TFM 2000-02 dated                   39.13
  April 6, 2000.
Temporary Flight Manual Change TFM 2000-03 dated                   39.13
  April 6, 2000.
Temporary Flight Manual Change TFM 2000-04 dated                   39.13
  April 6, 2000.
Temporary Flight Manual Change TFM 2000-05 dated                   39.13
  April 6, 2000.
Temporary Flight Manual Change TFM 2000-06 dated                   39.13
  April 6, 2000.
Temporary Flight Manual Change TFM 2000-07 dated                   39.13
  April 6, 2000.
Temporary Flight Manual Change TFM 2000-08 dated                   39.13
  April 6, 2000.


LET Aeronautical Works

  Kunovice 686 04, Czech Republic
Mandatory Bulletin L13/085a dated November 17,                     39.13
  1999.
Mandatory Bulletin No. L13/082a, dated December                    39.13
  10, 1998.
Mandatory Bulletin No. L33/008a, dated January 20,                 39.13
  1998.


Lockheed Aeronautical Systems Company

  86 South Cobb Drive, Marietta, GA 30063
Hercules ASB A382-53-57, Revision 1, including                     39.13
  List of Effective Pages, dated January 30, 1997.
Airplane Flight Manual 382/E/G, Rev. 24, dated                     39.13
  November 15, 1996.
Airplane Flight Manual for Electra Model 188A,                     39.13
  dated March 10, 1998.
Airplane Flight Manual for Electra Model 188C,                     39.13
dated March 10, 1998.
[[Page 1006]]

Airplane Flight Manual Supplement 382-16, dated                    39.13
  August 11, 1993.
Alert SB A382-71-19/A82-687, dated December 23,                    39.13
  1993.
Change Notification 093-57-203, R3-CN1, dated June                 39.13
  22, 1992.
Change Notification 093-57-203, R3-CN1, dated June                 39.13
  22, 1992.
Document LCC-7622-373, dated May 9, 1995..........                 39.13
Document LCC-7622-374, dated May 9, 1995..........                 39.13
Document Number LG92ER0060, L-1011-385 Series                      39.13
  Supplemental Inspection Document, revised 
  January 1994.
Document Number LR 31889, Corrosion Prevention and                 39.13
  Control Program, Tristar L-1011, dated March 15, 
  1991; including Errata Sheet, LR 31889, 
  Corrosion Prevention and Control Program, 
  TriStar L-1011, issued September 29, 1992.
Document Number LR 31889, Corrosion Prevention and                 39.13
  Control Program, Tristar L-1011, dated March 15, 
  1991; including Errata Sheet, LR 31889, 
  Corrosion Prevention and Control Program, 
  TriStar L-1011, issued September 29, 1992.
Document Number LR 31889, Corrosion Prevention and                 39.13
  Control Program, Tristar L-1011, Rev. A, dated 
  April 15, 1994.
L-1011 SB 093-53-105, Rev. 1, dated November 17,                   39.13
  1995.
L-1011 SB 093-53-258, dated February 20, 1990.....                 39.13
L-1011 SB 093-53-268, dated April 15, 1993........                 39.13
L-1011 SB 093-53-268, Revision 1, dated July 2,                    39.13
  1996.
L-1011 SB 093-53-272, dated November 12, 1996.....                 39.13
L-1011 SB 093-55-031, dated April 26, 1996........                 39.13
L-1011 SB 093-57-184, Rev. 7, dated December 6,                    39.13
  1994, as amended by Change Notification 093-57-
  184, R7-CN1, dated August 22, 1995.
L-1011 SB 093-57-196, Rev. 6, dated December 6,                    39.13
  1994, as amended by Change Notification 093-57-
  196, R6-CN1, dated August 22, 1995.
L-1011 SB 093-57-203, Rev. 4, dated March 27, 1995                 39.13
L-1011 SB 093-57-203, Rev. 6, dated August 18,                     39.13
  1997.
L-1011 SB 093-57-215, dated April 11, 1996........                 39.13
L-1011 SB 093-57-218, dated April 11, 1996........                 39.13
SB 093-25-294, Revision 2, dated April 13, 1981...                 39.13
SB 093-26-036, dated April 1, 1986................                 39.13
SB 093-26-039, dated November 11, 1992............                 39.13
SB 093-26-039, Rev. 1, dated April 10, 1996.......                 39.13
SB 093-27-301, dated June 9, 1992.................                 39.13
SB 093-27-304, Rev. 1 dated May 28, 1992..........                 39.13
SB 093-27-306, dated January 14, 1998.............                 39.13
SB 093-28-093, Revision 1, including List of                       39.13
  Effective Pages, dated February 8, 1999.
SB 093-32-256, dated November 11, 1994............                 39.13
SB 093-51-035 dated June 28, 1990.................                 39.13
SB 093-51-035, Rev. 1, dated December 16, 1991, as                 39.13
  revised by L-1011 SB Change Notification 093-51-
  035, R1-CN1,.
SB 093-52-155, Rev. 1, dated October 23, 1989.....                 39.13
SB 093-53-252, Rev. 2, dated April 25, 1989.......                 39.13
SB 093-53-264 dated Oct. 4, 1991..................                 39.13
SB 093-53-277, dated July 2, 1996.................                 39.13
SB 093-57-184, Revision 6, dated October 28, 1991.                 39.13
SB 093-57-184, Revision 7, dated December 6, 1994.                 39.13
SB 093-57-196, Revision 5, dated October 28, 1991.                 39.13
SB 093-57-196, Revision 6, dated December 6, 1994.                 39.13
SB 093-57-203, Rev. 3, dated October 28, 1991.....                 39.13

[[Page 1007]]

SB 093-57-203, Rev. 3, dated October 28, 1991.....                 39.13
SB 093-57-203, Revision 3, dated October 28, 1991.                 39.13
SB 093-57-203, Revision 4, dated March 27, 1995...                 39.13
SB 093-57-215, dated April 11, 1996...............                 39.13
SB 093-57-218, Revision 1, and List of Effective                   39.13
  Pages, dated September 9, 1996.
SB 093-71-067, Rev. 1, dated April 1, 1986........                 39.13
SB 093-71-067, Rev. 2, dated December 12, 1988,                    39.13
  March 8, 1994.
SB 382-53-50, Rev. 1 dated Dec. 13, 1991..........                 39.13
SB A329-299, Rev. 1 dated Apr. 12, 1991...........                 39.13
SB A329II-55-3 dated Apr. 12, 1991................                 39.13
Service Bulletin 093-36-065 dated February 9, 1999                 39.13
Service Bulletin 093-51-040 Revision 1 dated                       39.13
  October 1, 1997.
Service Bulletin 093-51-040 Revision 2 dated                       39.13
  October 21, 1999.
Service Bulletin 093-53-277 Revision 1 dated                       39.13
  November 19, 1998.
Service Bulletin 093-77-059 dated February 25,                     39.13
  1998.
Service Bulletin 093-77-059 Revision 1 dated                       39.13
  February 2, 1999.
Service Bulletin No. 093-53-279 dated May 6, 1998.                 39.13
Tristar L-1011 SB 093-29-098, dated December 6,                    39.13
  1993.
Tristar L-1011 SB 093-53-266, dated March 2, 1992,                 39.13
  as.
Tristar L-1012 Change Notification 093-53-266, CN                  39.13
  1, dated July 10, 1992.
Service Bulletin 78-1007 Revision 1 dated March                    39.13
  18, 1997.
Service Bulletin 78-1020 Revision 2 dated March                    39.13
  20, 1997.


Lockheed Martin Aircraft and Logistics Center

  120 Orion Street Greenville, South Carolina, 
  29605
Service Bulletin 093-28-094 dated March 3, 2000...                 39.13
Service Bulletin 093-30-057 dated April 27, 1984..                 39.13
Service Bulletin 093-30-060 dated March 6, 2001...                 39.13


Lockheed Martin Technology Services

  10525 Chester Road, ATTN: Distribution Suite C 
  Cincinnati Ohio 45215 (513) 672-8400 FAX: (513) 
  672-8422
Alert Service Bulletin CF6-50 72-A0958 Revision 3                  39.13
  dated May 25, 2001.
Alert Service Bulletin CF6-50 72-A1200 Revision 1                  39.13
  dated July 20, 2000.
Alert Service Bulletin CF6-50 72-A1200 Revision 2                  39.13
  dated November 2, 2000.
Alert Service Bulletin CF6-50 72-A1200 Revision 3                  39.13
  dated May 30, 2001.
Alert Service Bulletin CF6-80C2 72-A1026 dated                     39.13
  January 17, 2001.
Alert Service Bulletin No. GE90 73-A0060 Revision                  39.13
  3 dated September 14, 2000.
Alert Service Bulletin No. GE90 S/B 75-0031                        39.13
  Revision 3 dated March 30, 2001.
Martin Marietta CF6-80C2 SB No. 78-1002, Rev. 1,                   39.13
  dated March 23, 1995.
Service Bulletin CF6-50 72-1200 dated May 8, 2000.                 39.13


Matsushita Avionics Systems Corporation

  22333 29th Drive SE Bothell Washington 98021
Service Bulletin S2GFAB767-23-1 dated February 7,                  39.13
  2001.


Maule Aerospace Technology, Inc.

  2099 Georgia Highway, 133 South, Moultrie, 
  Georgia 31768
Mandatory Service Bulletin No. 20 dated December                   39.13
27, 1999.
[[Page 1008]]

McCauley Accessory Division, Cessna Aircraft Company

  3535 McCauley Drive, Box 430 Vandalia, Ohio 
  45377
Alert Service Bulletin 234 dated May 1, 2000......                 39.13
SB No. 147........................................                 39.13
SB No. 151........................................                 39.13
SB 184 dated Mar. 15, 1991........................                 39.13
Service Letter 1989-5A, sections A through I,                      39.13
  dated July 16, 1990.
Service Letter No. 1993-13, dated September 15,                    39.13
  1993.
Service Manual 720415, Chapter I, undated.........                 39.13
Service Manual No. 720415 dated January 7, 1977...                 39.13
SB 200C, dated January 20, 1994...................                 39.13
Alert SB 221B, dated December 16, 1996............                 39.13


McDonnell Douglas Corp. (MD)

  3955 Lakewood Blvd., Long Beach, CA 90846
Alert Service Bulletin DB9-25A357 Revision 1 dated                 39.13
  March 16, 1998.
Alert Service Bulletin DB9-25A357 Revision 2 dated                 39.13
  May 28, 1998.
Alert Service Bulletin DC10-24A149 Revision 1                      39.13
  dated July 28, 1999.
Alert Service Bulletin DC10-24A161 dated October                   39.13
  29, 1999.
Alert Service Bulletin DC10-24A162 dated July 28,                  39.13
  1999.
Alert Service Bulletin DC10-24A163 dated July 28,                  39.13
  1999.
Alert Service Bulletin DC10-24A165 dated April 14,                 39.13
  1999.
Alert Service Bulletin DC10-57A143 dated December                  39.13
  20, 1999.
Alert Service Bulletin DC10-78A056 dated January                   39.13
  19, 1998.
Alert Service Bulletin DC10-78A056 Revision 1                      39.13
  dated June 4, 1998.
Alert Service Bulletin DC10-78A056 Revision 2                      39.13
  dated February 18, 1999.
Alert Service Bulletin DC10-78A057 dated November                  39.13
  30, 1998.
Alert Service Bulletin DC10-78A057 Revision 1                      39.13
  dated February 18, 1999.
Alert Service Bulletin DC10-78A057 Revision 1                      39.13
  dated February 18, 1999.
Alert Service Bulletin DC9-25A357 Revision 1 dated                 39.13
  March 16, 1998.
Alert Service Bulletin DC9-25A357 Revision 1 dated                 39.13
  March 16, 1998.
Alert Service Bulletin DC9-25A357 Revision 2 May                   39.13
  28, 1998.
Alert Service Bulletin DC9-74A001 Revision 1 dated                 39.13
  October 26, 1998.
Alert Service Bulletin MD11-24A008 Revision 2                      39.13
  dated March 27, 2000.
Alert Service Bulletin MD11-24A040 Revision 1                      39.13
  dated October 11, 1999.
Alert Service Bulletin MD11-24A041 Revision 1                      39.13
  dated April 26, 1999.
Alert Service Bulletin MD11-24A068 Revision 1                      39.13
  dated March 8, 1999.
Alert Service Bulletin MD11-24A071 Revision 01                     39.13
  dated May 20, 1999.
Alert Service Bulletin MD11-24A078 Revision 1                      39.13
  dated June 16, 1999.
Alert Service Bulletin MD11-24A097 dated April 3,                  39.13
  2000.
Alert Service Bulletin MD11-24A116 Revision 1                      39.13
  dated October 11, 1999.
Alert Service Bulletin MD11-24A130 Revision 1                      39.13
  dated September 20, 1999.
Alert Service Bulletin MD11-24A138 dated April 3,                  39.13
  2000.
Alert Service Bulletin MD11-24A141 dated May 17,                   39.13
  1999.
Alert Service Bulletin MD11-24A141 Revision 1                      39.13
  dated August 23, 1999.
Alert Service Bulletin MD11-24A147 dated March 24,                 39.13
1999.
[[Page 1009]]

Alert Service Bulletin MD11-24A150 dated March 25,                 39.13
  1999.
Alert Service Bulletin MD11-24A152 dated August 9,                 39.13
  1999.
Alert Service Bulletin MD11-24A172 dated September                 39.13
  8, 1999.
Alert Service Bulletin MD11-24A180 dated January                   39.13
  4, 2000.
Alert Service Bulletin MD11-24A182 dated April 3,                  39.13
  2000.
Alert Service Bulletin MD11-25A187 Revision 1                      39.13
  dated January 5, 2000.
Alert Service Bulletin MD11-25A194 Revision 5                      39.13
  dated June 21, 1999.
Alert Service Bulletin MD11-25A194 Revision 6                      39.13
  dated January 27, 2000.
Alert Service Bulletin MD11-25A233 dated June 9,                   39.13
  1999.
Alert Service Bulletin MD11-30A020 Revision 3                      39.13
  dated May 5, 1999.
Alert Service Bulletin MD11-33A027 Revision 1                      39.13
  dated June 2, 1999.
Alert Service Bulletin MD11-33A027 Revision 2                      39.13
  dated June 12, 2000.
Alert Service Bulletin MD11-33A069 dated March 10,                 39.13
  2000.
Alert Service Bulletin MD11-36A030 Revision 1                      39.13
  dated September 28, 1998.
Alert Service Bulletin MD11-36A030 Revision 2                      39.13
  dated July 27, 1999.
Alert Service Bulletin MD11-36A030 Revision 3                      39.13
  dated December 14, 1999.
Alert Service Bulletin MD80-25A357 dated February                  39.13
  11, 1997.
Alert Service Bulletin MD90-24A060 Revision 1                      39.13
  dated September 2, 1999.
Alert Service Bulletin MD90-25A019 dated February                  39.13
  11, 1997.
Service Bulletin 78-40 Revision 1 dated July 24,                   39.13
  1979.
Service Bulletin DC10-25-368 dated October 31,                     39.13
  1997.
Service Bulletin DC10-55-023 Revision 2 dated                      39.13
  October 30, 1996.
Service Bulletin DC10-55-023 Revision 3 dated                      39.13
  March 25, 1998.
Service Bulletin DC8-53-075 dated August 17, 1995.                 39.13
Service Bulletin DC8-57-030 Revision 4 dated                       39.13
  August 17, 1995.
Service Bulletin DC8-57-030 Revision 5 dated April                 39.13
  28, 1998.
Service Bulletin DC8-57-090 Revision 5 dated June                  39.13
  16, 1997.
Service Bulletin DC8-57-100 Revision 1 dated                       39.13
  August 26, 1998.
Service Bulletin DC8-57-100 Revision 2 dated June                  39.13
  21, 2000.
Service Bulletin DC9-53-280 Revision 2 dated July                  39.13
  26, 1999.
Service Bulletin DC9-54-030 Revision 6 dated                       39.13
  November 11, 1999.
Service Bulletin DC9-74-001 dated May 23, 1997....                 39.13
Service Bulletin MD11-23-082 dated August 17, 1999                 39.13
Service Bulletin MD11-24-128 dated September 17,                   39.13
  1998.
Service Bulletin MD11-24-128 Revision 1 dated July                 39.13
  30, 1999.
Service Bulletin MD11-24-161 dated April 10, 2000.                 39.13
Service Bulletin MD11-24-161 Revision 1 dated                      39.13
  November 6, 2000.
Service Bulletin MD11-24-162 dated April 10, 2000.                 39.13
Service Bulletin MD11-24-162 Revision 1 dated                      39.13
  November 6, 2000.
Service Bulletin MD11-24-163 dated April 4, 2000..                 39.13
Service Bulletin MD11-24-165 dated April 4, 2000..                 39.13
Service Bulletin MD11-24-167 dated April 4, 2000..                 39.13
Service Bulletin MD11-24-170 dated April 12, 2000.                 39.13
Service Bulletin MD11-24-170 Revision 1 dated                      39.13
  November 6, 2000.
Service Bulletin MD11-24-171 dated April 4, 2000..                 39.13
Service Bulletin MD11-24-171 Revision 1 dated                      39.13
  November 6, 2000.
Service Bulletin MD11-24-188 dated April 28, 2000.                 39.13
Service Bulletin MD11-24-188 Revision 1 dated                      39.13
November 6, 2000.
[[Page 1010]]

Service Bulletin MD11-25-200 Revision 1 dated                      39.13
  March 20, 1998.
Service Bulletin MD11-25A227 dated January 27,                     39.13
  2000.
Service Bulletin MD11-36-018 R01 Revision 1 dated                  39.13
  July 18, 1995.
Service Bulletin MD11-36-025 R01 Revision 1 dated                  39.13
  July 31, 1997.
Service Bulletin MD11-36-026 dated September 30,                   39.13
  1996.
Service Bulletin MD11-36-026 dated September 30,                   39.13
  1996.
Service Bulletin MD11-36-028 dated December 7,                     39.13
  1998.
Service Bulletin MD80-25-355 Revision 1 dated                      39.13
  November 5, 1997.
Service Bulletin MD80-29-056 dated June 18, 1996..                 39.13
Service Bulletin MD80-29-062 Revision 1 dated                      39.13
  August 3, 1999.
Service Bulletin MD80-53-286 dated September 3,                    39.13
  1999.
Service Bulletin MD90-24-062 dated February 3,                     39.13
  2000.
Service Bulletin MD90-25-015 Revision 1 dated                      39.13
  November 5, 1997.
Service Bulletin MD90-32-012 dated May 19, 1997...                 39.13
Service Bulletin MD90-32-012 Revision 1 dated June                 39.13
  6, 1998.
Service Bulletin MD90-53-004 dated August 20, 1998                 39.13
Service Bulletin MD90-53-018 dated September 3,                    39.13
  1999.
Airworthiness Limitations Instructions Report No.                  39.13
  MDC- 94K9000, Revision 3, and List of Effective 
  Pages, dated November 1997.
Alert SB A34-57, dated December 19, 1994..........                 39.13
Alert SB 24A090, dated July 21, 1995..............                 39.13
Alert SB 24A090, Rev. 1, dated November 14, 1995..                 39.13
Alert SB 24A094, dated October 12, 1995...........                 39.13
Alert SB 24A104, dated May 7, 1996................                 39.13
Alert SB 25A181, dated September 28, 1995.........                 39.13
Alert SB 27A057, dated August 31, 1995............                 39.13
Alert SB 28A081, dated November 30, 1995..........                 39.13
Alert SB 28A082, dated May 14, 1996...............                 39.13
Alert SB 28A083, dated March 13, 1996.............                 39.13
Alert SB 28A083, Rev. 1, including Summary, dated                  39.13
  May 29, 1996.
Alert SB 32A058, dated June 30, 1995..............                 39.13
Alert SB 38A044, dated March 22, 1995.............                 39.13
Alert SB 38A044, Rev. 1, dated June 30, 1995......                 39.13
Alert SB 54A049 R03, Rev. 3, dated May 18, 1995...                 39.13
Alert SB 71A073, Rev. 1, dated May 16, 1995.......                 39.13
Alert SB A24-123 dated Mar. 19, 1991..............                 39.13
Alert SB A24-132, Rev. 1 dated March 2, 1992......                 39.13
Alert SB A24-48, dated February 17, 1993..........                 39.13
Alert SB A24-51, dated September 11, 1992.........                 39.13
Alert SB A24-64 dated March 29, 1993..............                 39.13
Alert SB A24-75, dated December 22, 1993..........                 39.13
Alert SB A26-16, dated November 22, 1993..........                 39.13
Alert SB A26-46, dated December 6, 1993...........                 39.13
Alert SB A27-220 dated May 29, 1992...............                 39.13
Alert SB A27-275, Rev. 1 dated February 3, 1992...                 39.13
Alert SB A27-29 dated June 23, 1992...............                 39.13
Alert SB A27-30 dated August 20, 1992.............                 39.13
Alert SB A27-325, Rev. 1 dated February 3, 1992...                 39.13
Alert SB A27-327, Rev. 1, dated March 9, 1992.....                 39.13
Alert SB A27-342, dated August 4, 1994............                 39.13
Alert SB A27-342, Rev. 1, dated May 15, 1995......                 39.13
Alert SB A27-38, dated July 8, 1993...............                 39.13
Alert SB A28-56, dated May 25, 1993...............                 39.13

[[Page 1011]]

Alert SB A28-56, Rev. 1, dated June 14, 1993......                 39.13
Alert SB A32-237, dated April 11, 1994............                 39.13
Alert SB A32-238, dated July 15, 1994.............                 39.13
Alert SB A32-47, dated July 15, 1994..............                 39.13
Alert SB A34-55, dated April 22, 1994.............                 39.13
Alert SB A52-178, dated July 10, 1992.............                 39.13
Alert SB A52-212, Rev. 4, dated November 3, 1993..                 39.13
Alert SB A53-158, dated May 29, 1992..............                 39.13
Alert SB A53-158, dated May 29, 1992..............                 39.13
Alert SB A53-158, Rev. 1, dated January 22, 1993..                 39.13
Alert SB A53-158, Rev. 1, dated January 22, 1993..                 39.13
Alert SB A53-164, dated December 16, 1992.........                 39.13
Alert SB A53-264, dated December 22, 1993.........                 39.13
Alert SB A54-106 dated July 9, 1992...............                 39.13
Alert SB A54-106, Rev. 2, dated November 3, 1994..                 39.13
Alert SB A54-31 dated September 17, 1992..........                 39.13
Alert SB A54-31, Rev. 1, dated June 3, 1993.......                 39.13
Alert SB A54-49, dated December 2, 1994...........                 39.13
Alert SB A55-18 dated March 23, 1987..............                 39.13
Alert SB A55-18, Rev. 1 dated May 21, 1987........                 39.13
Alert SB A55-18, Rev. 2 dated February 8, 1988....                 39.13
Alert SB A55-18, Rev. 3 dated August 17, 1990.....                 39.13
Alert SB A55-18, Rev. 4 dated September 10, 1991..                 39.13
Alert SB A56-15, Rev. 2, dated November 9, 1993...                 39.13
Alert SB A56-16, Rev. 2, dated December 13, 1993..                 39.13
Alert SB A57-123, Rev. 1, dated June 8, 1993......                 39.13
Alert SB A57-99, dated December 10, 1992..........                 39.13
Alert SB A71-59, dated December 20, 1993..........                 39.13
Alert SB A71-59, Rev. 1, dated January 14, 1994...                 39.13
Alert SB A71-61, dated May 18, 1994...............                 39.13
Alert SB A71-61, dated May 18, 1994...............                 39.13
Alert SB A71-63, dated July 21, 1994..............                 39.13
Alert SB A71-63, Rev. 1, dated December 15, 1994..                 39.13
Alert SB A78-67, dated February 27, 1995..........                 39.13
Alert SB ASB DC-9-24A157, Rev. 1, dated November                   39.13
  9, 1995.
Alert SB DC-9-53A282, dated March 20, 1996........                 39.13
Alert SB DC10-71A159, Rev. 1, dated January 31,                    39.13
  1995.
Alert SB MD11-54A049, Rev. 1, dated February 7,                    39.13
  1995.
Alert SB MD80-32A286, dated September 11, 1995....                 39.13
Alert SB MD80-33A107, dated April 25, 1996........                 39.13
Alert SB MD80-33A110, dated February 25, 1997.....                 39.13
Alert SB MD80-33A110, Rev. 1, dated March 11, 1997                 39.13
Alert SB MD90-32A019, dated December 19, 1996.....                 39.13
ASB 25A353, dated March 14, 1996..................                 39.13
ASB 53-245, Rev. 1 dated June 12, 1991............                 39.13
ASB 53A-147, Rev. 05, dated November 24, 1997.....                 39.13
ASB A25-311 dated Jan. 31, 1990...................                 39.13
ASB A27-291, Rev. 3 dated Aug. 24, 1988...........                 39.13
ASB A27-316 dated Dec. 22, 1990...................                 39.13
ASB A27-316 dated Jan. 4, 1991....................                 39.13
ASB A27-317 dated June 17, 1991...................                 39.13
ASB A27-317, Rev. 2, dated May 22, 1992...........                 39.13
ASB A27-320 dated May 10, 1991....................                 39.13

[[Page 1012]]

ASB A27-322 dated Aug. 22, 1991...................                 39.13
ASB A28-22, Rev. 4 dated Sept. 16, 1991...........                 39.13
ASB A31-18 dated Nov. 11, 1991....................                 39.13
ASB A31-39 dated Aug. 19, 1991....................                 39.13
ASB A31-39: Telex dated Aug. 15, 1991.............                 39.13
ASB A32-244 dated Nov. 20, 1990...................                 39.13
ASB A53-232, Rev. 2, dated April 28, 1995.........                 39.13
ASB A53-243, Rev. 1 dated Feb. 8, 1991............                 39.13
ASB A53-244, Rev. 1 dated Feb. 8, 1991............                 39.13
ASB A53-251 dated Aug. 9, 1991....................                 39.13
ASB A57-123 dated July 25, 1991...................                 39.13
ASB A57-15, Rev. 2 dated Oct. 28, 1991............                 39.13
ASB DC10-55A028, dated April 27, 1998.............                 39.13
ASB DC10-57A137, dated July 31, 1997..............                 39.13
ASB DC10-57A137, Revision 01, dated May 26, 1998..                 39.13
ASB DC9-32A311, Revision 1, dated March 8, 1999...                 39.13
ASB MD-80-27-318, Rev. 1 dated June 10, 1991......                 39.13
ASB MD11-24A139, dated November 23, 1998..........                 39.13
ASB MD11-24A146, dated February 1, 1999...........                 39.13
ASB MD11-24A155, dated June 1, 1999...............                 39.13
ASB MD11-24A160, dated August 30, 1999............                 39.13
ASB MD11-24A160, Revision 1, dated November 11,                    39.13
  1999.
ASB MD11-28A101, dated August 24, 1998............                 39.13
ASB MD11-33A027, dated March 10, 1999.............                 39.13
ASB MD11-33A061, dated December 21, 1998..........                 39.13
ASB MD80-27A322, Revision 3, dated August 4, 1998.                 39.13
ASB MD80-32A286, Revision 03, dated May 28, 1998..                 39.13
ASB MD80-32A308, dated March 5, 1998..............                 39.13
ASB MD80-32A308, Revision 1, dated May 12, 1998...                 39.13
ASB MD90-24A001, dated April 11, 1995.............                 39.13
ASB MD90-30A021, dated March 31, 1998.............                 39.13
ASB MD90-32A030, dated March 26, 1998.............                 39.13
ASB MD90-32A030, Revision 1, dated May 11, 1998...                 39.13
ASB-24A157, dated April 11, 1995..................                 39.13
Document No. MDC K4606, DC-9/MD-80 Corrosion                       39.13
  Prevention and Control Document, Rev. 1 dated 
  December 1990.
Document No. MDC K4607, DC-10/KC-10 Corrosion                      39.13
  Prevention and Control Document, Rev. 1 dated 
  December 1990.
Document No. MDC K4608, DC-8 Corrosion Prevention                  39.13
  and Control Document, Rev. 1 dated December 
  1990.
Document Number MDC K4606, DC-9/MD-80 Corrosion                    39.13
  Prevention and Control Document, Rev. 1, dated 
  December 1990.
Document Number MDC K4606, DC-9/MD-80 Corrosion                    39.13
  Prevention and Control Document, Rev. 1, dated 
  December 1990.
Document Number MDC K4607, DC-10/KC-10 Corrosion                   39.13
  Prevention and Control Document, Rev. 1, dated 
  December 1990.
Document Number MDC K4607, DC-10/KC-10 Corrosion                   39.13
  Prevention and Control Document, Rev. 1, dated 
  December 1990.
Report No. L26-008, DC-9 Supplemental Inspection                   39.13
  Document (SID), Volume III-95, dated September, 
  1995.
Report No. L26-008, DC-9 Supplemental Inspection                   39.13
Document Vol. I, Section 2; Vol. II; Vol. III, 
[[Page 1013]]ted May 1986.

Report No. L26-008, DC-9 Supplemental Inspection                   39.13
  Document, Volume I--All Series, Rev. 1, Volume 
  II--10/20, Volume II--20/30, Rev. 1, Volume II--
  40, Volume II--50, and Volume III--87 dated 
  November 1987.
Report No. L26-008, DC-9 Supplemental Inspection                   39.13
  Document--Vol. I--All Series, Rev. 3, dated 
  April 1991; Vol. II--10/20, Rev. 3, dated April 
  1991; Vol. II--10/30, Rev. 4, dated April 1991; 
  Vol. II--40, Rev. 3, dated April 1991; Vol. II--
  50, Rev. 3, dated April 1991; Vol. III--92, All 
  Series, dated.
Report No. L26-011, DC-8 Supplemental Inspection                   39.13
  Document, Volume I, Rev. 3, dated March 1991.
Report No. L26-011, DC-8 Supplemental Inspection                   39.13
  Document, Volume II, (SID), Volume I, Rev. 5, 
  dated April 1991.
Report No. L26-011, DC-8 Supplemental Inspection                   39.13
  Document, Volume III-91, dated April 1991.
Report No. L26-011, DC-8 Supplemental Ispection                    39.13
  Document, Vol. I; Section 2, Vol. II; and Vol. 
  III, dated December 1985.
Report No. L26-012, DC-10 SID, Rev. 1, Volumes I,                  39.13
  II, and III dated May 1990.
Report No. L26-012, DC-10 Supplemental Inspection                  39.13
  Document dated November 1988.
Report No. L26-012, DC-10 Supplemental Inspection                  39.13
  Document Rev. 3, dated December 1992, Volume II, 
  Rev. 3, dated December 1992, and Volume III-92, 
  dated October, 1992.
Report No. L26-012, DC-10 Supplemental Inspection                  39.13
  Document (SID), Volume 1, Rev. 3, dated December 
  1992.
Report No. L26-012, DC-10 Supplemental Inspection                  39.13
  Document (SID), Volume I, Rev. 5, dated October 
  1994, Volume II Rev. 5, dated October 1994, and 
  Volume III-94, dated November 1994.
Report No. L26-012, DC-10: Supplemental Inspection                 39.13
  Document; (SID), Volumes I, II, III, Rev. 1, 
  dated May 1990.
Report No. L26-012, DC-10: Supplemental Inspection                 39.13
  Document; (SID), Volumes I, II, III, Rev. 1, 
  dated May 1990.
Report No. L26-012, Volume II, Rev. 3, dated                       39.13
  December 1992.
Report No. L26-012, Volume III-92, dated October                   39.13
  1992.
Report No. L26-013, Rev. 1 dated January 1990.....                 39.13
Report No. L26-014, D-6 Supplemental Inspection                    39.13
  Document, dated January 1992.
Report No. L26-014, D-6 Supplemental Inspection                    39.13
  Document, dated January 1992.
Report No. L26-014, DC-6 Supplemental Inspection                   39.13
  Document, dated January 1992.
Report No. MDC K1571, Rev. B, dated March 24, 1993                 39.13
Report No. MDC K1571, Rev. B, dated March 24, 1993                 39.13
Report No. MDC K1572, Rev. B, dated January 15,                    39.13
  1993, DC-9/MD-80 Aging Aircraft Service Action 
  Requirements Document.
Report No. MDC-K1571, Rev. A dated February 28,                    39.13
  1990.
Report No. MDC-K1572, Rev. A dated June 1, 1990...                 39.13
Report No. MDC-K1579, Rev. A dated March 1, 1990..                 39.13
Report Supplemental Inspection Document No. L26-                   39.13
  012, DC-10: (SID), Volume 1, Rev. 3, dated 
  December 1992,.
Report Supplemental Inspection Document No. L26-                   39.13
  012, DC-10: (SID), Volume II, Rev. 3, dated 
  December 1992,.
Report Supplemental Inspection Document No. L26-                   39.13
012, DC-10: (SID), Volume III-92, dated October 
[[Page 1014]]

ROD Sketch 95-09-14-005, dated September 14, 1995.                 39.13
SB 22-111, dated May 23, 1995.....................                 39.13
SB 22-122, dated August 6, 1996...................                 39.13
SB 22-14, dated November 30, 1994.................                 39.13
SB 24-111, dated December 3, 1996.................                 39.13
SB 24-121, dated February 24, 1992................                 39.13
SB 24-150, dated March 28, 1994...................                 39.13
SB 24-150, Rev. 1, dated April 7, 1995............                 39.13
SB 24-151, dated September 29, 1994...............                 39.13
SB 24-78, dated May 10, 1994......................                 39.13
SB 24-94, Rev. 4, dated June 7, 1993..............                 39.13
SB 25-116, Rev. 1 dated May 15, 1992..............                 39.13
SB 25-331, dated December 10, 1993................                 39.13
SB 25-335, dated April 28, 1993...................                 39.13
SB 25-87 dated January 23, 1992...................                 39.13
SB 25-A364, dated October 30, 1997................                 39.13
SB 25A-030, dated October 30, 1997................                 39.13
SB 26-018, dated August 24, 1995..................                 39.13
SB 26-025, Rev. 03, dated July 25, 1996...........                 39.13
SB 26-025, Rev. 04, dated April 30, 1997..........                 39.13
SB 26-025, Rev. 05, dated May 29, 1998............                 39.13
SB 26-25, dated May 25, 1994......................                 39.13
SB 26-25, Rev. 1, dated September 30, 1994........                 39.13
SB 26-25, Rev. 2, dated April 18, 1995............                 39.13
SB 27-051, dated December 19, 1995................                 39.13
SB 27-067, dated July 31, 1997....................                 39.13
SB 27-067, Rev. 01, dated February 24, 1998.......                 39.13
SB 27-120, dated February 10, 1975................                 39.13
SB 27-152, dated August 9, 1976...................                 39.13
SB 27-18 dated August 30, 1991....................                 39.13
SB 27-18, Rev. 1 dated October 16, 1991...........                 39.13
SB 27-181, Rev. 1, dated May 28, 1981.............                 39.13
SB 27-196, Rev. 2 dated Dec. 17, 1990.............                 39.13
SB 27-201, dated December 30, 1985................                 39.13
SB 27-208, dated September 5, 1989................                 39.13
SB 27-209, dated October 20, 1989.................                 39.13
SB 27-222, dated November 1, 1993.................                 39.13
SB 27-250, Rev. 2 dated Jan. 3, 1990..............                 39.13
SB 27-301 dated June 21, 1989.....................                 39.13
SB 27-301, Rev. 1 dated May 24, 1991..............                 39.13
SB 27-321, dated May 18, 1992.....................                 39.13
SB 27-34, dated November 1, 1993..................                 39.13
SB 27-346, Rev. 01, dated July 29, 1997...........                 39.13
SB 27-36, Rev. 1, dated December 9, 1994..........                 39.13
SB 27-71, Rev. 1, dated February 14, 1973.........                 39.13
SB 27-A067, Rev. 02, dated May 18, 1998...........                 39.13
SB 27-A067, Rev. 03, dated June 9, 1998...........                 39.13
SB 28-089, dated October 24, 1996.................                 39.13
SB 28-14 dated May 17, 1991.......................                 39.13
SB 28-204, dated August 5, 1993...................                 39.13
SB 28-22 dated Sept. 24, 1991.....................                 39.13
SB 28-42, dated August 12, 1993...................                 39.13
SB 28-48, dated September 30, 1993................                 39.13

[[Page 1015]]

SB 28-97, dated May 10, 1982......................                 39.13
SB 28-97, Rev. 1, dated October 8, 1985...........                 39.13
SB 29-109, Rev. 1, dated September 22, 1978.......                 39.13
SB 29-125, Rev. 2, dated October 23, 1987.........                 39.13
SB 29-132, Rev. 1 dated Aug. 26, 1991.............                 39.13
SB 29-16, dated August 6, 1992....................                 39.13
SB 30-59 dated Sept. 18, 1989.....................                 39.13
SB 30-59, Rev. 1 dated Jan. 5, 1990...............                 39.13
SB 30-59, Rev. 2 dated Aug. 15, 1990..............                 39.13
SB 30-65, dated October 8, 1992...................                 39.13
SB 32-060, dated November 6, 1995.................                 39.13
SB 32-134, dated March 22, 1977...................                 39.13
SB 32-143, dated August 8, 1978...................                 39.13
SB 32-157, Rev. 1, dated October 29, 1980.........                 39.13
SB 32-182, dated January 20, 1995.................                 39.13
SB 32-227, Rev. 1, dated April 30, 1992...........                 39.13
SB 32-228, Rev. 1, dated October 6, 1989..........                 39.13
SB 32-228, Rev. 1, dated October 6, 1989..........                 39.13
SB 32-30, dated March 3, 1993.....................                 39.13
SB 33-045, dated June 14, 1995....................                 39.13
SB 33-23 dated May 29, 1992.......................                 39.13
SB 33-23, Rev. 1 dated July 1, 1992...............                 39.13
SB 33-99, dated May 24, 1994......................                 39.13
SB 33-99, Rev. 1, dated February 23, 1995.........                 39.13
SB 34-060, Rev. 3, dated July 14, 1995 and MD SB                   39.13
  MD11-22-015, dated July 3, 1995.
SB 34-063, dated July 10, 1995....................                 39.13
SB 34A-083, dated April 6, 1998...................                 39.13
SB 36A-030, dated April 2, 1998...................                 39.13
SB 38-27, Revision 1, dated May 16, 1978..........                 39.13
SB 38-41, Rev. 3, dated July 5, 1994..............                 39.13
SB 38-47, dated April 17, 1992....................                 39.13
SB 53-043, Revision 02, dated May 28, 1996........                 39.13
SB 53-102 dated Aug. 15, 1977.....................                 39.13
SB 53-104 dated July 28, 1978.....................                 39.13
SB 53-140, Rev. 05, dated February 15, 1996.......                 39.13
SB 53-150, Rev. 2, dated February 27, 1991........                 39.13
SB 53-167, Rev. 1, dated February 15, 1995........                 39.13
SB 53-179 Change Notification 53-179 CN1, dated                    39.13
  February 28, 1985.
SB 53-179 Change Notification 53-179 CN2, dated                    39.13
  May 30, 1985.
SB 53-179, dated January 18, 1985.................                 39.13
SB 53-186, Rev. 6, dated May 13, 1993.............                 39.13
SB 53-199, Rev. 3 dated July 15, 1991.............                 39.13
SB 53-216, Rev. 3, dated April 23, 1993...........                 39.13
SB 53-235, dated September 15, 1993...............                 39.13
SB 53-253, dated March 31, 1994...................                 39.13
SB 53-253, as amended by Change Notification 53-                   39.13
  253 CN1, dated April 15, 1994.
SB 53-256, dated August 12, 1993..................                 39.13
SB 53-256, Revision 1, dated November 29, 1994....                 39.13
SB 53-257, Rev. 1, dated February 9, 1996.........                 39.13
SB 53-262, dated October 11, 1994.................                 39.13
SB 53-265, dated June 13, 1994....................                 39.13

[[Page 1016]]

SB 53-269, dated August 11, 1994..................                 39.13
SB 53-276, dated September 30, 1996...............                 39.13
SB 53-277, dated September 30, 1996...............                 39.13
SB 53-284, dated August 20, 1996..................                 39.13
SB 53-288, dated February 10, 1997................                 39.13
SB 53-31, dated January 29, 1993..................                 39.13
SB 54-049 R01, Rev. 1, dated May 18, 1995.........                 39.13
SB 54-049, dated March 31, 1995...................                 39.13
SB 54-100, Rev. 1, dated September 17, 1993.......                 39.13
SB 54-108, dated February 9, 1995.................                 39.13
SB 54-17 dated February 24, 1992..................                 39.13
SB 54-17, Rev. 1 dated July 16, 1992..............                 39.13
SB 54-74, dated December 21, 1979.................                 39.13
SB 55-14, Rev. 5, dated August 24, 1990...........                 39.13
SB 55-14, Rev. 6, dated January 11, 1993..........                 39.13
SB 55-20, Rev. 1, dated March 8, 1991.............                 39.13
SB 55-20, Rev. 2, dated August 4, 1994............                 39.13
SB 55-23, dated December 17, 1992.................                 39.13
SB 55-23, Rev. 1, dated December 17, 1993.........                 39.13
SB 55-24, Rev. 1, dated August 3, 1994............                 39.13
SB 55-25, Rev. 1, dated August 3, 1994............                 39.13
SB 57-031, dated August 15, 1995..................                 39.13
SB 57-114, Rev. 1, dated July 26, 1993............                 39.13
SB 57-123, dated June 8, 1993.....................                 39.13
SB 57-126, dated October 30, 1992.................                 39.13
SB 57-129, dated August 12, 1994..................                 39.13
SB 57-184, Rev. 1, dated December 22, 1994........                 39.13
SB 57-36, Rev. 7, dated December 11, 1992.........                 39.13
SB 57-61, Rev. 2, dated August 15, 1990...........                 39.13
SB 57-78, Revision 1, dated August 26, 1986.......                 39.13
SB 57-79, Revision 1, dated September 21, 1979, as                 39.13
  revised by MD DC-10 SB Change Notification 57-
  59, dated January 23, 1980.
SB 57-82, dated February 19, 1980.................                 39.13
SB 71-133, Rev. 6, dated June 30, 1992............                 39.13
SB 71-154 dated Jan. 18, 1991.....................                 39.13
SB 78-112, Rev. 2, dated March 8, 1994............                 39.13
SB 80-010, dated August 22, 1997..................                 39.13
SB 80-014, dated August 22, 1997..................                 39.13
SB A27-250, Rev. 3 dated May 15, 1991.............                 39.13
SB A28-14 dated Apr. 11, 1991.....................                 39.13
SB A29-53, Rev. 1, dated April 21, 1994...........                 39.13
SB A32-44, dated March 22, 1994...................                 39.13
SB A76-3, dated November 11, 1992.................                 39.13
SB DC10-32-248, dated December 17, 1997...........                 39.13
SB DC10-33-073, dated June 18, 1996...............                 39.13
SB DC8-32-182 RO1, Rev. 1, dated July 21, 1995....                 39.13
SB DC8-32-182 RO2, Rev. 02, dated August 30, 1995.                 39.13
SB DC9-27-355, dated February 24, 1998............                 39.13
SB DC9-28-077, dated June 8, 1999.................                 39.13
SB DC9-32-311, dated July 6, 1998.................                 39.13
SB DC9-33-103, dated May 30, 1996.................                 39.13
SB DC9-33-111, dated May 6, 1997..................                 39.13
SB DC9-36-012, Revision 3, dated February 3, 1998.                 39.13

[[Page 1017]]

SB DC9-36-012, Revision 4, dated October 16, 1998.                 39.13
SB DC9-53-267, dated October 20, 1997.............                 39.13
SB DC9-53-278, dated November 4, 1996.............                 39.13
SB DC9-53-278, Revision 01, dated April 29, 1999..                 39.13
SB DC9-53-279, dated December 10, 1996............                 39.13
SB DC9-53-279, Revision 01, dated May 6, 1997.....                 39.13
SB DC9-53-280, dated December 1, 1997.............                 39.13
SB DC9-53-280, Revision 01, dated July 30, 1998...                 39.13
SB MD11-28-102, Revision 1, dated June 23, 1999...                 39.13
SB MD11-32-074, dated December 15, 1997...........                 39.13
SB MD80-27-322, Revision 2, dated February 11,                     39.13
  1998.
SB MD80-32-277, dated October 4, 1995.............                 39.13
SB MD80-32-277, Rev. 1, dated February 23, 1996...                 39.13
SB MD80-35-022, dated August 29, 1995.............                 39.13
SB MD80-53-201, Revision 2, dated July 20, 1998...                 39.13
SB MD80-55-054, dated March 3, 1998...............                 39.13
SB MD90-22-005, dated August 6, 1996..............                 39.13
SB MD90-24-001, dated November 9, 1995............                 39.13
SB MD90-25-022, Revision R01, dated October 15,                    39.13
  1997.
SB MD90-25-023, Revision R01, dated October 15,                    39.13
  1997.
SB MD90-25A-017, Revision R01, dated October 16,                   39.13
  1997.
SB MD90-27-024, dated February 24, 1998...........                 39.13
SB MD90-27A-032, dated June 22, 1998..............                 39.13
SB MD90-32-032, dated July 8, 1998................                 39.13
SB MD90-35-001, dated August 29, 1995.............                 39.13
SB No. MD90-27-026, dated September 30, 1998......                 39.13
SB-24-111 RO1, Rev. 1, dated August 14, 1995......                 39.13
SB-24-157, dated November 9, 1995.................                 39.13
SB-26-047, Rev. 1, dated August 22, 1996..........                 39.13
SB-27-300, Rev. 02, dated June 29, 1995...........                 39.13
SB-28-082, dated July 29, 1996....................                 39.13
SB-32-241, dated December 13, 1995................                 39.13
SB-32-242, dated November 1, 1995.................                 39.13
SB-32-289, dated March 7, 1996....................                 39.13
SB-32A298, dated December 19, 1996................                 39.13
SB-40-SL-16, DC9 SB-50-SL-8, dated February 10,                    39.13
  1993.
SB-53-168, dated August 9, 1995...................                 39.13
SB-53-268, dated August 11, 1995..................                 39.13
SB-57-126, Rev. 1, dated March 1, 1996............                 39.13
SB-57-134, dated August 15, 1995..................                 39.13
Service Rework Drawing No. DR03548001, Rev. A                      39.13
  dated March 7, 1989.
Service Rework Drawing No. SR03578001 dated March                  39.13
  11, 1988.
Service Rework Drawing No. SR03578002, Rev. A                      39.13
  dated September 26, 1988.
Service Rework Drawing No. SR03578003 dated April                  39.13
  6, 1988.


MD Helicopters Inc.

  Attn: Customer Support Division 4555 E. McDowell 
  Road, Mail Stop M615-G048 Mesa, Arizona 85215-
  9734
Mandatory SB No. 600N-009, dated February 24, 1998                 39.13
SB SB 900-058R1, dated July 6, 1998...............                 39.13
SB SB900-039, Rev. 2, dated March 12, 1997........                 39.13
SIN HN-211.4, DN-51.6, EN-42.4, FN-31.4, dated                     39.13
January 27, 1993.
[[Page 1018]]

SIN HN-234, DN-181, EN-73, FN-60, dated January                    39.13
  17, 1992.
SIN HN-238, DN-187, EN-80, FN-66, dated October                    39.13
  26, 1994.
SIN HN-239, DN-188, EN-81, FN-67, NN-008, dated                    39.13
  October 27, 1995.
SIN No. DN-185, EN-78, FN-64, dated September 23,                  39.13
  1994.
Incorporated Service Bulletin SB900-072 dated                      39.13
  December 10, 1999.
SB500N-020R1/SB600N-027R1 dated 24 November, 1999.                 39.13
SB500N-021/SB600N-028 dated 19 November, 1999.....                 39.13
Service Bulletin 600N-025 dated July 2, 1999......                 39.13
Service Bulletin SB 369D-199, SB369E-093, SB500N-                  39.13
  019 dated January 11, 2000.
Service Bulletin SB600N-026 dated January 11, 2000                 39.13
Service Bulletin SB900-071 dated January 10, 2000.                 39.13
Mandatory SIN DN-151/EN-39/FN-28 dated October 10,                 39.13
  1987.
Mandatory SIN HN-215/DN-156/EN-46/FN-34 dated                      39.13
  March 18, 1988.
Service Information Notice (SIN) DN-147/EN-35/FN-                  39.13
  24 dated April 23, 1987.
SIN DN-148.1/EN-36.1/FN-25.1 dated October 30,                     39.13
  1987.
SIN DN-148/En-36/FN-25 dated April 23, 1987.......                 39.13
SIN DN-190, EN-83, FN-70, NN-011, dated July 25,                   39.13
  1997.
SIN EN-4 dated April 29, 1983.....................                 39.13
SIN FN-4 dated July 29, 1983......................                 39.13
SIN HN-214/DN-154/EN-44/FN-33 dated January 15,                    39.13
  1988.
SIN HN-215.2, DN-156.2, EN-46.2, FN-34.2, NN-010,                  39.13
  dated April 11, 1997.
SIN HN-232, DN-179, EN-70, FN-57 dated Sept. 27,                   39.13
  1991.


MDB Flugtechnik AG

  Flugplatz, CH-3368 Bleienbach, Switzerland
SB No. MD-SB-27-001, dated May, 1995..............                 39.13


Messerschmitt-Bolkow-Blohm Helicopter Corp

  P.O. Box 2349, West Chester, Pennsylvania 19380
Alert SB No. ASB-BO 105 LS-60-4, Rev. 1 dated Nov.                 39.13
  15, 1991.
Alert SB No. ASB-MBB-BK 117-70-101 dated April 11,                 39.13
  1988.
ASB-MBB-BK 117-60-107 dated Dec. 12, 1989.........                 39.13
ASB-MBB-BK 117-60-108 dated Dec. 22, 1989.........                 39.13
ASB-MBB-BK 117-90-104 dated Aug. 11, 1989.........                 39.13
ASB-MBB-BK 117-90-105 dated May 23, 1990..........                 39.13
BK 117 Maintenance Manual, Section 34-2...........                 39.13
SB BO 105-80-108, Rev. 1 dated May 11, 1990.......                 39.13
SB BO-105 No. 30-13, Rev. 2 dated April 24, 1978..                 39.13
SB BO-105 No. 30-18, Rev. 3 dated October 30, 1984                 39.13
SB MBB-BK-117-30-1, Rev. 1 dated June 12, 1986....                 39.13
SB MBB-BK-117-40-7 dated April 14, 1986...........                 39.13
Alert SB ASB-BO 105-40-102, dated April 20, 1989..                 39.13


Messier-Eram

  Technical Publications Department, Zone 
  Aeronautique Luis Breget, B.P. 10, 78142 Velizy 
  Cedex, France
Airbus A310 SB 470-32-744, dated March 31, 1993...                 39.13
Airbus A310 SB 470-32-744, Rev. 1, dated January                   39.13
  13, 1994.
Airbus A310 SB 470-32-760, dated December 31, 1993                 39.13
  as.
Airbus A311 SB 470-32-760, Change Notice 1, dated                  39.13
  January 28, 1994.
SB 631-32-070, Rev. 1, dated......................                 39.13
SB 631-32-070, Rev. 1, dated February 12, 1991....                 39.13

[[Page 1019]]

SB 631-32-099, dated April 12, 1994...............                 39.13
Technical Instruction No. 20403, Issue 2, dated                    39.13
  March 1998.


Met-Co-Aire

  P.O. Box 2216, Fullerton, CA 92633, 714-870-4610
SB No. 23-001, dated July 1992....................                 39.13


Mitsubishi Heavy Industries, Ltd., Nagoya Aircraft Works

  10 Oye-cho, Minato-Ku, Nagoya 455, JapanSee 
  alsoTest Instrumentation, Inc.
SB 211 dated Nov. 20, 1990........................                 39.13
YS-11 Flight Manual Publication No. YS-FM-001,                     39.13
  Transmittal Letter E32 dated Oct. 2, 1990.
YS-11A-200/300 Flight Manual Publication No. YS-                   39.13
  FM-002, Transmittal Letter No. E2027 dated Oct. 
  2, 1990.
YS-11A-500 Flight Manual Publication No. YS-FM-                    39.13
  005, Transmittal Letter No. E5021 dated Oct. 2, 
  1990.
YS-11A-600 Flight Manual Publication No. YS-FM-                    39.13
  006, Transmittal Letter No. E6021 dated Oct. 2, 
  1990.
Airplane Flight Manual Model MU-2B-26A, Pages 1,                   39.13
  2, REVISION LOG 2, 1-5, 5-10, 5-13, and 5-23, 
  FAA REVISION 4; REISSUED 03-25-86,.
Airplane Flight Manual MU-2B-36 Modified by STC                    39.13
  SA2413SW, Pages 1 through 31, FAA APPROVED 2-1-
  78, REVISION 1 REISSUED 12-18-92,.
Airplane Flight Manual MU-2B-36A, Pages 1, 2,                      39.13
  REVISION LOG 2, 1-5, 2-10, 5-10, 5-13, and 5-23, 
  FAA REVISION 6; REISSUED 02-28-86,.
Airplane Flight Manual MU-2B-40, Pages 1, 2,                       39.13
  REVISION LOG 2, 1-5, 2-10, 5-10, 5-13, 5-14, and 
  5-24, FAA REVISION 4; REISSUED 03-25-86,.
Airplane Flight Manual MU-2B-60, Pages 1, 2,                       39.13
  REVISION LOG 2, 1-5, 2-9, 5-10, 5-13, 5-14, and 
  5-24, FAA REVISION 5; REISSUED 09-24-85,.
MU-2 SB No. 089/57-002A, dated November 5, 1996...                 39.13
MU-2 SB No. 130A, dated July 19, 1971.............                 39.13
MU-2 SB No. 225, dated September 29, 1995.........                 39.13
MU-300 Diamond Service Recommendation SR 71-001,                   39.13
  Revision 2, and List of Effective Pages, dated 
  June 1, 1984.
MU-300 SB No. 30-007, dated January 12, 1996......                 39.13
SB 71-004 dated Jan. 8, 1992......................                 39.13
SB No. 079/27-010, dated August 28, 1992..........                 39.13
SB No. 216, dated September 11, 1992..............                 39.13
Service Bulletin MU-2 SB No. 086/74-002 dated                      39.13
  November 15, 1995.
Service Bulletin MU-2 SB No. 226 Revision B dated                  39.13
  October 27, 1997.
Service Bulletin MU-2 SB No. 231 dated July 2,                     39.13
  1997.
Service Bulletin MU-2 SB No. 231 dated July 2,                     39.13
  1997.
Service Bulletin MU-2 SB No. 232 dated July 2,                     39.13
  1997.
Publication No. YS-MR-301, YS-11 Corrosion Control                 39.13
  Program, dated November 1, 1993.
SB 57-77, Revision 2, dated September 14, 1994....                 39.13
SB 57-77, List of Effective Pages, dated September                 39.13
  14, 1994.


Mooney Aircraft Corp

  P.O. Box 72, Kerrville, TX 78029-0072
Engineering Design SB No. M20-264, dated February                  39.13
1, 1998.
[[Page 1020]]

Instructions-Retrofit Kit, part number 940095-501-                 39.13
  1, dated March 31, 1995 and Mooney Special 
  Letter 95-1, dated April 20, 1995.
Instructions-Retrofit Kit, part number 940095-501-                 39.13
  1, Revised April 21, 1995.
SB M20-250B, dated December 1995..................                 39.13
SB M20-252 dated April 6, 1992....................                 39.13
SB M20-253A, dated December 1995..................                 39.13
SB M20-256, dated January 24, 1995................                 39.13
SB M20-259, issued September 1, 1996..............                 39.13
SB M20-265, dated April 13, 1998..................                 39.13


Morris Aviation Ltd

  Statesboro Airport, Box 718, Statesboro, Georgia 
  30458
Installation Instruction to Technical Note No. 10/                 39.13
  818 dated June 20, 1986.
Technical Note No. 10/818 dated June 20, 1986.....                 39.13
Technical Note No. 11/818 dated March 9, 1987.....                 39.13


MT-Propeller Entwicklung GmbH

  Airport Straubing-Wallhuhle, D-94348 Atting, 
  Germany
SB 12A, dated July 17, 1997.......................                 39.13
SB No. 12C, dated March 4, 1998...................                 39.13
SB No. 17A, dated March 5, 1999...................                 39.13


National Aircraft Service, Inc. (NASI)

  9133 Tecumse-Clinton Road, Tecumseh, MI 49286
SB-98-01R1 dated January 26, 1999.................                 39.13
SB-99-01 Revision A dated October 15, 1999........                 39.13


National Flight Services, Inc.

  10971 East Airport Service Road, Swanton, OH 
  43558, 419-865-2311
ASB NF331-A72-11921, dated November 9, 1992.......                 39.13
ASB No. NF-TPE331-A72-10961, dated April 28, 1997.                 39.13


Nordam (The Nordam Group)

  624 East 4th Street, Tulsa, OK 74120
SB 71-03, dated March 17, 1995....................                 39.13
SB SB 71-03, Rev. 1, dated June 16, 1995; and 71-                  39.13
  04, Rev. 1, dated June 16, 1995.


Nordskog Industries, Inc.

  16000 Strathern Street, Van Nuys, CA 91406
SB SB-93-34, dated October 21, 1993...............                 39.13
SB SB-93-35, dated October 21, 1993...............                 39.13


Pacific Scientific Co., HTL/Kin-Tech Division

  Attn.: Product Support Dept., 1800 Highland 
  Ave., Duarte, CA 91010
Alert SB 26A1106, dated March 10, 1993............                 39.13
SB 1108435-25-01, dated April 28, 1994............                 39.13
SB 1108460-25-01, dated April 28, 1994............                 39.13


Parker Hannifin Corp

  Aircraft Wheel & Brake, 1160 Center Road, P.O. 
  Box 158, Avon, OH 44011
Airborne Service Letter No. 48, dated October 20,                  39.13
  1998.
SB SB7034, Rev. B, dated December 19, 1995........                 39.13


Partenavia Costruzioni Aeronautiche, S.p.A

  Via G. Pascoli N. 7, 80026 Casoria (NA, Italy)
SB 39 dated Feb. 14, 1991.........................                 39.13

[[Page 1021]]

SB 40 dated Feb. 14, 1991.........................                 39.13
SB 85 dated July 16, 1991.........................                 39.13


Pemco Aeroplex, Inc

  P.O. Box 2287, Birmingham, AL 35201-2287
Alert Service Letter 737-53-0003, Rev. 3, dated                    39.13
  December 22, 1994.
Alert Service Letter 737-53-0004, including                        39.13
  Appendices I and II, dated January 10, 1995.
SB 737-52-0012, dated February 9, 1993............                 39.13
Service Bulletin 737-53-0003 Revision 4 dated                      39.13
  February 22, 1995.
Service Bulletin 737-53-0003 Revision 5 dated                      39.13
  March 25, 1999.


Pemco World Air Services

  100 Pemco Drive, Dothan, Alabama 36303
Service Bulletin 737-52-0037 dated August 10, 2000                 39.13
Service Bulletin 737-52-0037, including Attachment                 39.13
  1 Revision 2 dated September 13, 2000.


Percival Aviation, Ltd

  The Sidings, Knowle, Fareham, Hampshire P017 5LZ 
  England
SB 26-110, Revision 1, dated January 1998.........                 39.13


Pilatus Aircraft Ltd.,

  Customer Liaison Manager, CH-6371 Stans, 
  Switzerland; or Pilatus Business Aircraft Ltd., 
  Product Support Department, 11755 Airport Way, 
  Broomfield Colorado 80021
PC-12 Aircraft Maintenance Manual 27-50-03, pages                  39.13
  601 through 608 dated April 30, 2000.
PC-12 Maintenance Manual Temporary Revision No.                    39.13
  27-14 dated December 4, 2000.
PC-12 Service Bulletin No. 27-008 Revision 2 dated                 39.13
  September 13, 2000.
PC-12 Service Bulletin No. 27-011 Revision 1 dated                 39.13
  January 26, 2001.
PC-12 Service Bulletin No. 27-012 dated September                  39.13
  13, 2000.
Service Bulletin No. 52-004 dated April 20, 2001..                 39.13
Service Bulletin No. 28-009 dated August 10, 2001.                 39.13
Service Bulletin No. 28-006 dated August 10, 2001.                 39.13


Pilatus Britten-Norman Ltd

  Bembridge, Isle of Wight, United Kingdom, PO35 
  5PR
SB No. BN-2/SB.67, Issue 1, dated October 24, 1973                 39.13
PC-12 Maintenance Manual, Temporary Revision No.                   39.13
  34-03, dated July 16, 1998.
PC-7 Service Bulletin No. 32-020 dated July 5,                     39.13
  2001.
PC12 SB No. 24-002, Rev. 1, dated September 20,                    39.13
  1996.
SB 28-003, Rev. 1, dated September 30, 1997.......                 39.13
SB 55-001, dated November 8, 1996.................                 39.13
SB No. 27-003, dated March 8, 1999................                 39.13
SB No. 24-009, dated September 23, 1998...........                 39.13
SB No. 24-012, dated February 19, 1999............                 39.13
SB No. 25-003, dated May 7, 1997..................                 39.13
SB No. 25-003, Rev. 1, dated April 7, 1998........                 39.13
SB No. 25-006, dated April 7, 1998................                 39.13
SB No. 27-001, dated March 25, 1997...............                 39.13
SB No. 27-004, dated September 15, 1998...........                 39.13
SB No. 27-005, dated November 18, 1998............                 39.13
SB No. 28-004, dated March 27, 1998...............                 39.13
SB No. 28-005, dated May 4, 1998..................                 39.13

[[Page 1022]]

SB No. 30-002, dated August 19, 1996..............                 39.13
SB No. 32-018, dated March 6, 1998................                 39.13
SB No. 34-006, dated September 3, 1998............                 39.13
SB No. 55-002, dated November 7, 1997.............                 39.13
SB No. 57-001, dated February 28, 1997............                 39.13
SB No. 57-004, dated June 11, 1999................                 39.13
SB No. PC-6-171, dated October 18, 1995...........                 39.13
SB No. PC7-55-001, Rev. 1, dated June 20, 1995....                 39.13
SB PC-6 165, dated February 7, 1994...............                 39.13
Service Bulletin 178 dated September 29, 1999.....                 39.13
Service Bulletin 24-014 dated October 27, 1999....                 39.13
Service Bulletin 30-006 dated May 22, 2000........                 39.13
Service Bulletin 55-003 dated July 7, 1999........                 39.13
Service Bulletin 55-005 dated March 23, 2000......                 39.13
Service Bulletin 71-004 dated December 22, 1999...                 39.13
SB No. BN-2/SB.111, Issue 1, dated October 25,                     39.13
  1977.
SB No. BN-2/SB.214, Issue 1, dated September 23,                   39.13
  1993.
SB No. BN-2/SB.228, Issue 2, dated January 17,                     39.13
  1996.
SB No. BN-2/SB.229, dated October 17, 1996........                 39.13
SB No. BN-2/SB.56, Issue 2, dated February 13,                     39.13
  1978.
SB No. BN-2/SB.61, Issue 5, dated December 9, 1981                 39.13
SB No. BN2/SB.231, Issue 2, dated October 1, 1997.                 39.13


Piper Aircraft, Inc., The New

  Customer Services, 2926 Piper Drive, Vero Beach, 
  Florida 32960
Elevator and Rudder Hinge Replacement Kit No. 760                  39.13
  465 Revised October 25, 1989.
Elevator Butt Rib Refinement Kit No. 766-219 dated                 39.13
  August 2, 1989.
Elevator Butt Rib Reinforcement Kit No. 766-642                    39.13
  dated September 29, 1997.
Elevator Trim Cable Guide Tube Splice Kit, Piper                   39.13
  part No. 766-272 as referenced in Piper SB 953 
  dated October 29, 1991.
Elevator Trim Tab System Modification Kit No. 760                  39.13
  989 Revised September 4, 1975.
F. Atlee Dodge Installation Instructions No. 3233-                 39.13
  I for Modified Piper Wing Lift Struts 
  (Supplemental Type dated February 1, 1991.
Instructions to Piper Kit No. 763-986, Revised                     39.13
  April 15, 1991.
Kit 764 093, dated November 10, 1980..............                 39.13
Kit No. 766-646 Instructions, as referenced in                     39.13
  Piper SB No. 1007, dated September 30, 1997.
Main Spar Splice Plate Replacement (Lower) Kit No.                 39.13
  766-640, Rev. A, dated May 12, 1997.
Main Spar Splice Plate Replacement (Lower) Kit No.                 39.13
  766-641, Rev. A, dated May 12, 1997.
SB 787B, dated August 25, 1993....................                 39.13
SB 827A dated November 4, 1988....................                 39.13
SB 828 dated April 7, 1986........................                 39.13
SB 893 dated October 11, 1988.....................                 39.13
SB 899 dated February 10, 1989....................                 39.13
SB 944 dated October 5, 1990......................                 39.13
SB 947A dated October 29, 1991....................                 39.13
SB No. 1007, dated September 30, 1997.............                 39.13
SB No. 1027, dated November 19, 1998..............                 39.13
SB No. 488, dated October 24, 1975................                 39.13

[[Page 1023]]

SB No. 528D, dated October 19, 1990...............                 39.13
SB No. 528D, dated October 19, 1990...............                 39.13
SB No. 626C, dated February 28, 1997..............                 39.13
SB No. 682, dated July 24, 1980...................                 39.13
SB No. 686, dated May 23, 1980....................                 39.13
SB No. 693 dated July 28, 1980....................                 39.13
SB No. 700A, dated October 12, 1981...............                 39.13
SB No. 822, dated April 2, 1986...................                 39.13
SB No. 910A, dated October 10, 1989...............                 39.13
SB No. 910A, dated October 10, 1989...............                 39.13
SB No. 923, dated August 16, 1989.................                 39.13
SB No. 965, dated September 1, 1993...............                 39.13
SB No. 967, dated January 24, 1994................                 39.13
SB No. 974, dated October 19, 1994................                 39.13
SB No. 975, dated November 2, 1994................                 39.13
SB No. 982, dated April 3, 1995...................                 39.13
SB No. 998A, dated August 4, 1997.................                 39.13
Service Bulletin No. 1008 dated September 30, 1997                 39.13
Service Bulletin No. 1062 dated May 11, 2001......                 39.13
Service Bulletin No. 323 dated September 21, 1970.                 39.13
Service Bulletin No. 477A dated November 3, 1975..                 39.13
Service Bulletin No. 682 dated July 24, 1980......                 39.13
Service Bulletin No. 897B dated July 15, 1997.....                 39.13
Wing to Fuselage Reinforcement Installation Kit                    39.13
  Piper Part No. 766-656, dated November 6, 1998.


Polskie Zaklady

  Lotnicze Spolka zo.o., Wojska Polskiego 3, 39-
  300 Mielec, Poland
E/02.170/2000 dated August 3, 2000................                 39.13


Porsche Aviation Products, Inc

  1600 Holcomb Avenue, Reno, NV 89502
SB No. N/105-036, dated October 8, 1998...........                 39.13


Pratt & Whitney Aircraft Co

  400 Main St., East Hartford, CT 06108
708400-73-101 dated April 16, 1999................                 39.13
708600-73-110 dated April 14, 1999................                 39.13
708600-73-113 dated May 24, 1999..................                 39.13
714900-73-106 dated April 9, 1999.................                 39.13
714900-73-107 dated April 13, 1999................                 39.13
714900-73-108 dated April 13, 1999................                 39.13
Overhaul Manual Temporary Revision No. 28-1, dated                 39.13
  November 13, 1998.
SB No. 73-36, Rev. 1, dated October 1, 1988.......                 39.13
SB No. 73-43, dated December 15, 1989.............                 39.13
NDIP-795, dated October 7, 1995...................                 39.13
NDIP-835, Rev. A, dated October 7, 1995...........                 39.13
Alert SB 5639, Rev. 10, dated July 7, 1995........                 39.13
Alert SB 5676, Rev. No. 6 dated June 26, 1989.....                 39.13
Alert SB 5729, Rev. No. 2 dated July 8, 1988......                 39.13
Alert SB 5748, Rev. 5, dated August 3, 1993.......                 39.13
Alert SB 5841 dated February 15, 1989.............                 39.13
Alert SB 5913, Rev. No. 4 dated February 20, 1992,                 39.13
  including Appendix A, Rev. No. 3 dated November 
  1, 1991.
Alert SB 5944, Rev. 3, dated December 16, 1994....                 39.13

[[Page 1024]]

Alert SB 6038, Rev. 5, dated August 17, 1994,                      39.13
  including Appendix A, Rev. No. 5, dated August 
  17, 1994.
Alert SB A6131, Rev. 2, dated July 28, 1997.......                 39.13
Alert SB A6153, Rev. No. 1, dated June 8, 1994....                 39.13
Alert SB A6169, Rev. No. 2, dated October 26, 1994                 39.13
Alert SB A6170, Rev. No. 2, dated October 20, 1994                 39.13
Alert SB A6202, Rev. 1, dated January 4, 1996.....                 39.13
Alert SB A6208, Rev. 3, dated January 11, 1996....                 39.13
Alert SB A6228, dated November 7, 1995............                 39.13
Alert SB A6241, dated January 25, 1996............                 39.13
Alert SB A6274, dated November 7, 1996, including                  39.13
  Attachment NDIP-889, dated November 1, 1996.
Alert SB A6274, Rev. 1, dated December 9, 1996....                 39.13
Alert SB A6322, Revision 1, dated August 13, 1998.                 39.13
Alert SB No. 4723, Rev. 12, dated March 8, 1990...                 39.13
Alert SB No. 4723, Rev. 9 dated 6/13/83 and P & W                  39.13
  Aircraft Alert SB No. 4841, Rev. 6 dated 7/15/
  83.
Alert SB No. 5676, Rev. 1 dated September 24, 1986                 39.13
Alert SB No. 5729 dated January 29, 1987..........                 39.13
Alert SB No. 5842, Rev. 3, dated October 10, 1990,                 39.13
  including Appendix A, dated May 26, 1989, 
  Appendix B, Rev. 3, dated October 10, 1990, and 
  Appendix C, dated May 26, 1989.
Alert SB No. 5913, Rev. No. 5, dated August 10,                    39.13
  1992, including Appendix A, Rev. No. 5, dated 
  August 10, 1992.
Alert SB No. 5944, Rev. 2, dated June 8, 1992.....                 39.13
Alert SB No. 6104, Rev. No. 2, dated June 18,                      39.13
  1993, including Attachment No. NDIP-764, dated 
  December 8, 1992.
Alert SB No. A5913, Rev. 6, dated October 15,                      39.13
  1993, including Appendix A, Rev. 6, dated 
  October 15, 1993.
Alert SB No. A5913, Rev. 6, dated October 15,                      39.13
  1993, including Appendix A, Rev. 6, dated 
  October 15, 1993.
Alert SB No. A6104, Rev. 3, dated June 16, 1994,                   39.13
  including Appendix A and Appenix B; and 
  Attachment 1, NDIP-764, dated December 8,.
Alert SB No. A6110, Rev. 1, dated October 15, 1993                 39.13
Alert SB No. A6110, Rev. 1, dated October 15, 1993                 39.13
Alert SB No. A6131, dated August 24, 1993.........                 39.13
Alert SB No. A6131, dated August 24, 1993.........                 39.13
Alert SB No. A6202, dated February 20, 1995.......                 39.13
Alert SB No. A6226, dated October 17, 1995........                 39.13
Alert SB No. A6322, dated March 19, 1998..........                 39.13
Alert SB No. JT9D-7R4-72-480, dated April 20, 1993                 39.13
Alert SB No. JT9D-7R4-72-481, dated April 20, 1993                 39.13
Alert SB No. PW2000 A75-36 dated October 28, 1987.                 39.13
Alert SB No. PW2000 A75-38 dated December 21, 1987                 39.13
Alert SB No. PW4ENG 72-328 dated September 28,                     39.13
  1990.
All Operator Wire JT9/73-13/PSE:DAB:3-10-14-1; P &                 39.13
  W SB JT9D-7R4-73-4 dated 5/3/83; P & W Special 
  Instruction No. 77F-83 and P & W Aircraft Manual 
  P/N 785057 TR 72-1.
All Operator Wire No. JT8D/72-33/CTS: CRC-5-4-5-1,                 39.13
  dated April 5, 1995.
ASB A6232, Revision 2, including List of Effective                 39.13
Pages, dated June 26, 1997.
[[Page 1025]]

ASB JT9D-7R4-A72-524, Revision 1, including List                   39.13
  of Effective Pages, dated June 26, 1997.
ASB No. 6053, Rev. 7, dated May 24, 1993..........                 39.13
ASB No. 6053, Rev. 7, dated May 24, 1993..........                 39.13
ASB No. 6272, Rev. 1, dated September 24, 1996,                    39.13
  including NDIP-892 dated September 15, 1996 and 
  Attachment 1, dated September 15, 1996.
ASB No. A6153, Rev. 1, dated June 8, 1994.........                 39.13
ASB No. A6169, Rev. 1, dated June 15, 1994........                 39.13
ASB No. A6170, dated May 13, 1994.................                 39.13
ASB No. A6241, Revision 2, dated June 29, 1998....                 39.13
ASB No. A6332, Rev. 2, dated June 26, 1997........                 39.13
ASB No. A6346, dated September 10, 1998...........                 39.13
ASB No. A6346, and List of Effective Pages, dated                  39.13
  April 23, 1999.
ASB No. JT9D-7R4-A72-524, Rev. 1, dated June 26,                   39.13
  1997.
ASB No. PW4ENG-A72-628, Rev. 1, dated February 17,                 39.13
  1998, including NDIP-894, dated November 12, 
  1996 and NDIP-896, dated November 7, 1996.
ASB No. PW4G-100-A72-80, Rev. 1, dated February                    39.13
  17, 1998, including NDIP-894, dated November 12, 
  1996 and NDIP-896, dated November 7, 1996.
ASB PW4NAC A71-149, Rev. 1, dated August 30, 1995.                 39.13
ASB PW7R4 A71-129, Rev. 1, dated August 30, 1995..                 39.13
Cactus Wire C042 G 930302 ZRH, dated September 2,                  39.13
  1993.
Engine Manual No. 50A443, Section 71-00-00, dated                  39.13
  June, 15, 1999.
Engine Manual No. 50A605, Section 71-00-00, dated                  39.13
  June 15, 1999.
Engine Manual No. 50A822, Section 71-00-00, dated                  39.13
  June 15, 1999.
Engine Manual P/N 646028, Section 72-52-06,                        39.13
  Inspection 01, Paragraph 4E dated December 1, 
  1986, including figure 810 dated August 1, 1984.
Engine Manual PW785058 dated June 15, 1990........                 39.13
Engineering Change No. 197707.....................    Part 11, SFAR 27, 
                                                              Sec. 14(b)
JT8D Maintenance Manual, section 72-00, Engine                     39.13
  Troubleshooting, page 117 dated May 1, 1990, 
  pages 118-124 dated Sept. 1, 1986.
JT8D Maintenance Manual, section 72-00-00,                         39.13
  Troubleshooting-02, pages 120, 121, and 122 
  dated Aug. 1, 1991 and pages 123, 124, 135, and 
  136 dated May 15, 1990.
Mandatory SB JT9D 6329, dated May 20, 1998........                 39.13
NDIP-620, Rev. A, dated October 7, 1995...........                 39.13
NDIP-691, Rev. B, dated October 7, 1995...........                 39.13
NDIP-781, dated October 7, 1995...................                 39.13
NDIP-829, dated October 7, 1995...................                 39.13
NDIP-834, Rev. A, dated October 7, 1995...........                 39.13
NDIP-856, dated October 7, 1993...................                 39.13
Nondestructive Investigations Procedure NDIP-858,                  39.13
  dated November 7, 1995.
SB 2417...........................................    Part 11, SFAR 27, 
                                                              Sec. 14(b)
SB 2531...........................................    Part 11, SFAR 27, 
                                                              Sec. 14(b)
SB 4835, Rev. 5 dated September 27, 1983..........                 39.13
SB 5510, Rev. 1 dated February 13, 1984...........                 39.13
SB 5541, Rev. 1 dated May 4, 1984.................                 39.13

[[Page 1026]]

SB 5566, Rev. No. 4, dated June 23, 1988..........                 39.13
SB 5591, Rev. No. 7, dated August 25, 1992........                 39.13
SB 5667, Rev. 2, dated June 11, 1992..............                 39.13
SB 5711, Rev. 3 dated April 1, 1987...............                 39.13
SB 5744, Rev. 1 dated Mar. 21, 1990...............                 39.13
SB 5749, Rev. 4, dated May 10, 1993...............                 39.13
SB 5751, Rev. 1 dated September 30, 1987..........                 39.13
SB 5753, Rev. 2 dated December 11, 1987...........                 39.13
SB 5805, Rev. No. 6, dated September 15, 1993.....                 39.13
SB 5873, Rev. 1 dated December 20, 1989...........                 39.13
SB 6076, Rev. No. 1, dated August 20, 1992........                 39.13
SB 6088, dated August 5, 1992.....................                 39.13
SB 6105, Rev. No. 2, dated May 14, 1993...........                 39.13
SB 72-255, Rev. No. 5, dated January 8, 1990......                 39.13
SB 72-309, Rev. No. 10, dated September 2, 1993...                 39.13
SB JT9D-7R4-536, Rev. 2, dated April 30, 1998.....                 39.13
SB JT9D-7R4-72-117, Rev. 4 dated June 30, 1989....                 39.13
SB JT9D-7R4-72-311, Rev. 3 dated February 19, 1988                 39.13
SB JT9D-7R4-72-312, Rev. 5 dated March 31, 1989...                 39.13
SB JT9D-7R4-72-336, Rev. 5 dated June 23, 1988....                 39.13
SB JT9D-7R4-72-375, Rev. 2 dated Dec. 22, 1989....                 39.13
SB JT9D-7R4-72-392, Rev. 2 dated March 2, 1990....                 39.13
SB JT9D-7R4-72-393, Rev. 1 dated December 21, 1989                 39.13
SB JT9D-7R4-72-553, Revision 1, and List of                        39.13
  Effective Pages, dated February 17, 1999.
SB JT9D-7R4-A72-546, Revision 1, dated August 13,                  39.13
  1998.
SB JT9D-A722-546, dated March 19, 1998............                 39.13
SB NDIP-858, dated November 7, 1995...............                 39.13
SB NDIP-899, dated February 17, 1997..............                 39.13
SB NDIP-899, Rev. A, dated March 25, 1997.........                 39.13
SB No. 1787, dated September 7, 1983..............                 39.13
SB No. 4482, Revision 1, and List of Effective                     39.13
  Pages, dated July 8, 1976.
SB No. 5486, Rev. 3 dated August 29, 1983.........                 39.13
SB No. 5618 dated November 26, 1985...............                 39.13
SB No. 5735 dated February 20, 1987...............                 39.13
SB No. 5745, Rev. No. 2, dated October 24, 1990...                 39.13
SB No. 5745, Revision 2, dated October 24, 1990...                 39.13
SB No. 5749, Revision 8, dated October 30, 1998...                 39.13
SB No. 5749, List of Effective Pages, dated                        39.13
  November 6, 1998.
SB No. 5847, Rev. No. 2, dated October 31, 1990...                 39.13
SB No. 5847, Pages 1-4, 6, 8, 10, Revision 2,                      39.13
  dated October 31, 1990; Pages 5, 7, 9, dated 
  April 11, 1989.
SB No. 5856, Rev. 1, dated December 13, 1991......                 39.13
SB No. 5889, Rev. 6, dated December 20, 1993......                 39.13
SB No. 5907, dated March 27, 1990.................                 39.13
SB No. 5977, dated December 14, 1990..............                 39.13
SB No. 5978, Rev. No. 3, dated May 20, 1992.......                 39.13
SB No. 5978, Revision 4, and List of Effective                     39.13
  Pages dated May 6, 1998.
SB No. 5978, Pages 1, 3, 4, 6, 12, 19, Revision 4,                 39.13
dated May 6, 1998; Page 2, dated December 19, 
[[Page 1027]]5, 7-11, 13-18, 20- 33, Revision 1, 
  dated October 10, 1991.
SB No. 5979, Rev. No. 2, dated April 28, 1992.....                 39.13
SB No. 6054 Pages 1-4, 8, Revision 1, dated April                  39.13
  24, 1992; Pages 5-7, 9-16, dated November 6, 
  1991.
SB No. 6054, Rev. No. 1, dated April 24, 1992.....                 39.13
SB No. 6113, dated April 13, 1993.................                 39.13
SB No. 6118, Rev. 3, dated January 10, 1996.......                 39.13
SB No. 6127, dated September 10, 1993.............                 39.13
SB No. 6149, dated January 19, 1994...............                 39.13
SB No. 6149, and List of Effective Pages, dated                    39.13
  August 27, 1998.
SB No. 72-311, Rev. 2 dated August 19, 1987.......                 39.13
SB No. 72-312, Rev. 2 dated June 26, 1987.........                 39.13
SB No. 72-316 dated October 22, 1986..............                 39.13
SB No. JT9D A6343, Revision 1, and List of                         39.13
  Effective Pages, dated October 8, 1998.
SB No. JT9D-7R4-72-466, Rev. 2, dated May 10, 1996                 39.13
SB No. JT9D-7R4-72-473, Rev. 2, dated February 8,                  39.13
  1993.
SB No. JT9D-7R4-72-479, Rev. 1, dated November 12,                 39.13
  1993.
SB No. JT9D-7R4-72-484, Rev. 1, dated October 9,                   39.13
  1993.
SB No. JT9D-7R4-72-488, Rev. 1, dated November 20,                 39.13
  1993.
SB No. JT9D-7R4-72-534, dated October 18, 1996....                 39.13
SB No. PW2000 72-588, dated February 17, 1997.....                 39.13
SB No. PW2000 72-588, dated February 17, 1997,                     39.13
  including NDIP-899, dated February 16, 1997.
SB No. PW2000 72-588, Rev. 1, dated March 31, 1997                 39.13
SB No. PW2000 72-588, Rev. 1, dated March 31,                      39.13
  1997, including NDIP-899, Rev. A, dated March 
  25, 1997.
SB No. PW2000 72-592, dated March 18, 1997........                 39.13
SB No. PW4ENG 72-636, dated May 16, 1997..........                 39.13
SB No. PW4ENG 72-637, dated May 16, 1997..........                 39.13
SB No. PW4ENG 72-657, dated November 25, 1997.....                 39.13
SB No. PW4G-100-72-105, dated November 12, 1997...                 39.13
SB No. PW4G-100-72-93, dated May 22, 1997.........                 39.13
SB No. PW4G-100-72-94, dated May 22, 1997.........                 39.13
SB No. PW4G-100-A71-9, Rev. 1, dated November 24,                  39.13
  1997.
SB No. SB No. 6157, Rev. 1, dated July 17, 1996...                 39.13
SB No. SB No. 6243, dated February 1, 1996........                 39.13
SB No. SB No. JT9D-7R4-72-407, Rev. 1, dated                       39.13
  August 16, 1990.
SB No. SB No. JT9D-7R4-72-513, Rev. 3, dated                       39.13
  November 13, 1996.
SB PW2000 72-628, dated January 4, 1999...........                 39.13
SB PW4ENG 72-484, Revision 3, dated July 1, 1997..                 39.13
SB PW4ENG 72-486, Revision 1, dated November 23,                   39.13
  1994.
SB PW4ENG 72-575, Revision 1, dated June 30, 1997.                 39.13
SB PW4ENG-72-514, Revision 1, dated August 2, 1996                 39.13
SB PW4G-100-72-69, dated August 6, 1996...........                 39.13
SB PW4G-100-72-81, dated December 18, 1996,                        39.13
  including NDIP-883 and NDIP-893, dated December 
  11, 1996.
SB PW4G-100-72-92, dated April 24, 1997...........                 39.13
SB PW4MD11 78-67, Rev. 5, dated March 6, 1996.....                 39.13
SB PW4NAC 71-105, Rev. 1 dated July 25, 1991......                 39.13
SB PW4NAC 71-86, Rev. 2 dated February 28, 1992...                 39.13
SB PW4NAC 78-78, Rev. 6, dated March 6, 1996......                 39.13
SB PW7R4 71-100, Rev. 1 dated July 25, 1991.......                 39.13
SB PW7R4 71-90, Rev. 2 dated May 14, 1992.........                 39.13

[[Page 1028]]

Service Bulletin No. 5730 dated February 4, 1987..                 39.13
Special Instruction 32F-99, dated April 13, 1999..                 39.13
Special Instruction 49F-96, dated August 9, 1996..                 39.13
Special Instruction 7F-96, dated January 10, 1996.                 39.13
Temporary Revision No. 71-0016, dated March 15,                    39.13
  1999.
Temporary Revision No. 71-0025, dated March 15,                    39.13
  1999.
Temporary Revision No. 71-0030, dated March 15,                    39.13
  1999.
Alert Service Bulletin JT8D A6336 Revision 1 dated                 39.13
  June 29, 1999.
Alert Service Bulletin JT8D A6381 dated March 15,                  39.13
  2000.
Alert Service Bulletin JT9D-7R4-A72-563 dated July                 39.13
  28, 1999.
Alert Service Bulletin JT9D-A6367 dated July 28,                   39.13
  1999.
Alert Service Bulletin PW4ENG A72-722 Revision 1                   39.13
  dated June 7, 2001.
Alert Service Bulletin PW4G-100-A71-18 Revision 1                  39.13
  dated December 9, 1999.
Alert Service Bulletin PW4G-100-A71-20 dated                       39.13
  December 9, 1999.
Alert Service Bulletin PW4G-100-A71-9 Revision 1                   39.13
  dated November 24, 1997.
Alert Service Bulletin PW4G-112-A72-233 Revision 3                 39.13
  dated August 3, 2001.
Clean, Inspection, and Repair Manual 51A357,                       39.13
  Section 72-35-68 Inspection/Check 04 dated 
  September 15, 2001.
Clean, Inspection, and Repair Manual 51A357,                       39.13
  Section 72-35-68 Repair 16 dated June 15, 1996.
Internal Engineering Notice 96KC973D dated October                 39.13
  12, 2001.
Service Bulletin 5707 dated September 17, 1986....                 39.13
Service Bulletin JT9D-7R4-72-289 dated March 26,                   39.13
  1986.
Service Bulletin PW4ENG72-714 Revision 1 dated                     39.13
  November 8, 2001.
Temporary Revision No. 71-0018 dated November 14,                  39.13
  2001.
Temporary Revision No. 71-0026 dated November 14,                  39.13
  2001.
Temporary Revision No. 71-0035 dated November 14,                  39.13
  2001.
SB No. 73-28, Rev. 2, Dated April 15, 1977........                 39.13
SB No. 73-29, Rev. 1, dated September 1, 1980.....                 39.13
SB No. 73-31, dated September 1, 1979.............                 39.13
SB No. 73-32, Rev. 3, dated April 1, 1985.........                 39.13
SB No. 73-5; dated April 30, 1981.................                 39.13
SB No. 73-8; dated September 1, 1982..............                 39.13


Pratt & Whitney Canada

  1000 Marie-Victorin Boulevard East Longueuil 
  Quebec Canada J4G1A1
Alert SB ASB A-11033 dated December 31, 1987......                 39.13
Alert SB No. A16159R1, Rev. 1, dated May 12, 1993.                 39.13
Alert SIL No. 4019, consisting of pages 1-2, dated                 39.13
  October 20, 1988.
Alert SIL No. 4019, consisting of pages 1-2, dated                 39.13
  October 20, 1988.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  1, dated April 5, 1976.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  202, dated April 5, 1976.
PT6A-50 Maintenance Manual, Section 79-35-02,                      39.13
  consisting of page 1, dated April 5, 1976.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  2, dated March 1, 1977.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
2, dated March 1, 1977.
[[Page 1029]]

PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  201, dated January 26, 1983.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  201, dated January 26, 1983.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  202, dated April 5, 1976.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  203, dated January 15, 1991.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  203, dated January 15, 1991.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  204, dated January 26, 1983.
PT6A-50 Maintenance Manual, Section 79-35-02, page                 39.13
  204, dated January 26, 1983.
SB 11022 dated September 28, 1987.................                 39.13
SB 20002, Rev. 4 dated November 21, 1988..........                 39.13
SB 20341R2, Rev. 2, Sept. 3, 1991.................                 39.13
SB 20355, Rev. 1 dated Aug. 1, 1990...............                 39.13
SB 20412, Nov. 27, 1989...........................                 39.13
SB 20417R2, Rev. 2, Aug. 20, 1990.................                 39.13
SB 20419R3, Rev. 3, Nov. 26, 1990.................                 39.13
SB 20436, March 6, 1989...........................                 39.13
SB 20456R3, Rev. 3, Aug. 20, 1990.................                 39.13
SB 20604R1, Rev. 1, Feb. 25, 1991.................                 39.13
SB 20726, Feb. 19, 1991...........................                 39.13
SB 20742R4, Rev. 4, June 17, 1991.................                 39.13
SB 20869R1, Rev. 1, April 26, 1991................                 39.13
SB 20872R2, Rev. 2, July 8, 1991..................                 39.13
SB 20873R3, Rev. 3, April 8, 1991.................                 39.13
SB 20886R2, Rev. 2, Feb. 11, 1991.................                 39.13
SB 20896R3, Rev. 3, Aug. 26, 1991.................                 39.13
SB 20897, Rev. 1 dated Oct. 15, 1990..............                 39.13
SB 20907 dated Aug. 20, 1990......................                 39.13
SB 20914, Rev. 3, dated October 15, 1991..........                 39.13
SB 20938R2, Rev. 2 dated November 18, 1991........                 39.13
SB 20962R4, Rev. 4, dated August 10, 1992.........                 39.13
SB 20979, dated April 29, 1991....................                 39.13
SB 21018R2, Rev. 2 dated November 25, 1991........                 39.13
SB 21053R2, Rev. 2, dated December 9, 1991........                 39.13
SB 21077, Rev. 8, dated April 4, 1998.............                 39.13
SB 21088, Rev. 1, dated November 12, 1991.........                 39.13
SB 21097, dated November 8, 1991..................                 39.13
SB 21111, dated December 16, 1991.................                 39.13
SB 21112, dated February 13, 1992.................                 39.13
SB 21113, Rev. 1, dated May 4, 1992...............                 39.13
SB 21364, Rev. 1, dated April 28, 1995............                 39.13
SB 21373, Rev. 3, dated October 11, 1996..........                 39.13
SB 21516, dated August 14, 1997...................                 39.13
SB 21549, dated September 18, 1997................                 39.13
SB JT15D 72-7296R3, Rev. 3, dated October 18, 1991                 39.13
SB JT15D 72-7297R1, Rev. 1, dated May 25, 1991....                 39.13
SB JT15D 72-7297R1, Rev. 1, dated May 25, 1991....                 39.13
SB JT15D 72-7307R2, Rev. 2, dated December 19,                     39.13
1991.
[[Page 1030]]

SB JT15D, Rev. 2, dated December 19, 1991.........                 39.13
SB JT15D, Rev. 3, dated October 18, 1991..........                 39.13
SB No. 12134, Rev. 1, dated December 2, 1996......                 39.13
SB No. 13287, Rev. 1, dated December 2, 1996......                 39.13
SB No. 14128, Rev. No. 3, dated April 19, 1993....                 39.13
SB No. 14132, Rev. No. 1, dated May 12, 1993......                 39.13
SB No. 14142, Rev. No. 1, dated May 12, 1993......                 39.13
SB No. 14251, Rev. 1, dated December 2, 1996......                 39.13
SB No. 1538, Rev. 3, dated December 2, 1996.......                 39.13
SB No. 20914R3, Rev. 3, dated October 15, 1991....                 39.13
SB No. 20957R5, Rev. 5, dated August 10, 1992.....                 39.13
SB No. 21065R4, Rev. 4, dated February 1, 1993....                 39.13
SB No. 21088R1, Rev. 1, November 12, 1991.........                 39.13
SB No. 21097, dated November 8, 1991..............                 39.13
SB No. 21111R1, Rev. 1, dated June 22, 1992.......                 39.13
SB No. 21112, dated February 13, 1992.............                 39.13
SB No. 21113R1, Rev. 1, dated May 4, 1992.........                 39.13
SB No. 21211, dated January 28, 1993..............                 39.13
SB No. 3344, Rev. 1, dated December 3, 1996.......                 39.13
SB No. 4143R2, Rev. 2, dated December 6, 1991.....                 39.13
SB No. 4143R2, Rev. 2, dated December 6, 1991.....                 39.13
SB No. 4204, dated December 10, 1996..............                 39.13
SB No. 7257, Rev. No. 2 dated July 2, 1987........                 39.13
SB No. JT15D-72-7371, dated October 14, 1992......                 39.13
SB PW100-72--21211, Rev. 4, dated April 20, 1995..                 39.13
SB PW100-72-21113, Rev. 1, dated May 4, 1992......                 39.13
SB PW500-72-30044, Rev. 2, dated July 10, 1998....                 39.13
SB PW500-72-30063, Rev. 2, dated July 10, 1998....                 39.13
SB SB 20946R2, Rev. 2 dated May 13, 1991..........                 39.13
Service Information Letter PW100-003, dated June                   39.13
  18, 1997.
Service PT 6A-50 Maintenance Manual, Section 79-                   39.13
  25-04, pages 207, 208 and 210, dated April 2, 
  1987.
Service PT 6A-50 Maintenance Manual, Section 79-                   39.13
  25-04, consisting of pages 202A&B, 204 and 209 
  dated January 26, 1983.
Service PT 6A-50 Maintenance Manual, Section 79-                   39.13
  25-04, consisting of pages 202A&B, 204 and 209 
  dated January 26, 1983.
Service PT 6A-50 Maintenance Manual, Section 79-                   39.13
  25-04, page 203, dated April 5, 1976.
Service PT 6A-50 Maintenance Manual, Section 79-                   39.13
  25-04, page 203, dated April 5, 1976.
Service PT 6A-50 Maintenance Manual, Section 79-                   39.13
  25-04, pages 205 and 206, dated January 15, 
  1991.
Service PT 6A-50 Maintenance Manual, Section 79-                   39.13
  25-04, pages 205 and 206, dated January 15, 
  1991.
Service PT 6A-50 Maintenance Manual, Section 79-                   39.13
  25-04, pages 207, 208 and 210, dated April 2, 
  1987.
Temporary Rev. 72-95 to Maintenance Manual Part                    39.13
  No. 3017542 dated Jan. 16, 1991.
Temporary Rev. 72-96 to Maintenance Manual Part                    39.13
  No. 3017542 dated Jan. 16, 1991.
Service Bulletin PT6A-72-1574 Revision 2 dated                     39.13
  October 14, 1999.
Service Bulletin PT6A-72-1581 Revision 1 dated                     39.13
  February 1, 2000.
Service Bulletin PT6A-72-1588 dated February 18,                   39.13
  2000.
Service Bulletin PT6A-72-1589 dated November 1,                    39.13
2000.
[[Page 1031]]

Precise Flight, Inc

  63120 Powell Butte Road, Bend, OR 97701
Instructions for Continued Airworthiness, Section                  39.13
  3.3 of Installation Report No. 50050, Revision 
  25, dated August 26, 1996.
SB No. PL9303001, dated March 10, 1993............                 39.13


Precision Airmotive Corp

  3220 100th Street, SW., Bldg. E, Everett, WA 
  98204
SB No. A1-78, dated September, 1978 and Precision                  39.13
  Airmotive Corp. SB No. MSA-6, dated April 6, 
  1994.
SB No. MSA-2, dated November 11, 1991.............                 39.13
SB No. MSA-2, Rev. 1, dated November 11, 1991.....                 39.13
SB No. MSA-2, Rev. 2, dated December 28, 1993.....                 39.13
SB No. MSA-2, Rev. 3, dated October 10, 1995......                 39.13
SB No. MSA-7, dated September 30, 1994............                 39.13
SB No. MSA-8, dated July 10, 1995.................                 39.13
SB No. MSA-9, dated October 10, 1995..............                 39.13


PTC Aerospace

  607 Bantam Road, Litchfield, CT 6759
SB 25-1192, Rev. A, dated March 16, 1992..........                 39.13
SB 25-1330, dated July 27, 1994...................                 39.13
SB No. 25-1233, Rev. E, dated April 15, 1994......                 39.13


PTI Technologies, Inc.(Purolator)

  950 Rancho Conejo Boulevard, Newbury Park, CA 
  91320
SB FSC-912, dated December 1972...................                 39.13


Puritan Bennett Aero Systems Company

  108000 Pfluum Road, Lenexa, KS 66215
SB C351-2000-35-1, Revision 2, dated February 1998                 39.13
Kit No. 280041-00: Lanyard Retrofit Drop Out Box,                  39.13
  Revision A01, dated October 21, 1998.
SB 174250-35-1, dated August 1994.................                 39.13


PZL-Mielec

  Ludowego Wojska Polkiego 3, 39-300, Mielec, 
  Poland
Mandatory Engineering Bulletin K/02.141/90 dated                   39.13
  Apr. 1990.


PZL-RZESZOW (Wytwornia Sprzetu komunikacyjnego)

  PZL Warzawa-Okecie, AL. Krakowska 110/110, 00-
  973 Warsaw, Poland
Mandatory Service Bulletin 10400030 dated June 26,                 39.13
  2000.
Engine Servicing Instructions, section 3.3.5, page                 39.13
  3-11 dated February 1984,.
Engine Servicing Instructions, section 3.3.5,                      39.13
  pages 3-12 and 3-13 dated March 1984.


Raytheon Aircraft Company

  Customer Support Dept., Adams Field, P.O. Box 
  3356 Little Rock, AR 72203; or 3 Bishops Square, 
  St. Albans Road West, Hatfield, Hertfordshire, 
  AL109NE, United Kingdom
Update Procedures for the ET EM630 Blower                          39.13
  Installation Instructions to Raytheon Kit No. 
  EM630-201-1 or as referenced in Raytheon SB No. 
  2721.
Service Bulletin 1FA10043-0001, dated October 1997                 39.13
SB 24-317, dated December 22, 1994................                 39.13
SB 27-161, Rev. 1, dated July 29, 1994............                 39.13
SB.27-168, dated July 17, 1995....................                 39.13
SB.29-95, dated March 24, 1995....................                 39.13

[[Page 1032]]

SB.30-61-7676A, dated February 15, 1995...........                 39.13
SB.49-45, dated May 15, 1995......................                 39.13
SB.49-47-25A825A, dated August 1, 1995............                 39.13
SB.53-82-3566G, Rev. 3, dated December 14, 1995...                 39.13
SB.53-85-3566D, dated March 10, 1995..............                 39.13
SB.53-85-3566D, Rev. 1, dated May 23, 1995........                 39.13
SB.78-14-3691A,B&E, dated June 21, 1995...........                 39.13
SB.53-76-3627A, dated February 25, 1994...........                 39.13
SB.53-81-3661B, dated February 25, 1994...........                 39.13
SB.24-310-3544A&B, dated February 14, 1994........                 39.13
SB.25-75-25A699A, dated February 10, 1994.........                 39.13
SB.25-75-25A699A, dated February 10, 1994.........                 39.13
SB.25-76-25A698A&B, dated February 10, 1994.......                 39.13
SB 24-313, dated December 19, 1994................                 39.13
SB 49-3018, dated August 1997.....................                 39.13
SB No. 2522, Rev. 1, dated May 1996...............                 39.13
SB No. 2691, Rev. 1, dated October, 1996..........                 39.13
SB No. SB 21-151-25A683C, dated July 12, 1994.....                 39.13
SB No. SB.52-48, including Appendix A, dated June                  39.13
  19, 1996.
SB.32-233, Rev. 1, dated July 8, 1994.............                 39.13
SB.32-233, Rev. 2, dated July 28, 1995............                 39.13
SB.32-233-3597A, dated July 28, 1995..............                 39.13
SB.54-1-3815B, dated March 26, 1996...............                 39.13
SB.55-36-25F017A&B, dated April 15, 1996..........                 39.13
SB53-93, dated May 16, 1996.......................                 39.13
Beech 1900 Airliner Series Structural Repair                       39.13
  Manual P/N 114-590021-9B, Temporary Rev. No. 57-
  1, dated May 16, 1997.
Engine Fire Detector Harness Kit, part No. 101-                    39.13
  3208-1, as referenced in Raytheon Mandatory SB 
  No. 2701, issued May 1997.
Field Repair drawing FR-SS-00010, Revision A,                      39.13
  dated February 24, 1999.
Field Service Kit 122-4019, Revision B, dated                      39.13
  March 12, 1999.
Installation Instructions to Raytheon Kit No. 129-                 39.13
  9013-1 as referenced in Raytheon Mandatory SB 
  No. 2686, dated June, 1996.
Kit No. 129-5035-1................................                 39.13
Mandatory SB No. 2361, Rev. III, dated June, 1996.                 39.13
Mandatory SB No. 2572, dated July 1996............                 39.13
Mandatory SB No. 2668, dated September, 1996......                 39.13
Mandatory SB No. 2676, dated January 1997.........                 39.13
Mandatory SB No. 2678, dated June, 1996...........                 39.13
Mandatory SB No. 2693, dated May, 1996............                 39.13
Mandatory SB No. 2730, issued November, 1996......                 39.13
Mandatory SB No. 2740, Revision 1, dated June 1997                 39.13
Mandatory SB No. 2741, which references the                        39.13
  following kits: Raytheon Part No. 114-5050-3, 
  Raytheon Part No. 114-5050-1, and Raytheon Part 
  No. 129-5050-1 dated February, 1997.
Mandatory SB SB 27-3158, Issued July 1998.........                 39.13
Mandatory SB SB.35-46, dated September 30, 1997...                 39.13
Mandatory SB SB.71-48-25F021B, Modification No.                    39.13
  25F021B, dated May 20, 1997.
Mandatory Service Bulletin dated July 1999........                 39.13
Mandatory Service Bulletin 2572, Revision 1, dated                 39.13
May 1998.
[[Page 1033]]

Mandatory Service Bulletin No. 2620 referencing                    39.13
  Installation Instructions in Raytheon Kit Part 
  Number 130-5011-3 and Raytheon Kit Part Number 
  130-5011-9 issued November, 1996.
Mandatory Service Bulletin No. 2670, Revision No.                  39.13
  1, dated May 1998.
Mandatory Service Bulletin No. 27-3080, issued                     39.13
  October, 1998.
Mandatory Service Bulletin No. 27-3080, Revision                   39.13
  1, issued December, 1998.
Mandatory Service Bulletin S.B.32-3141, Issued                     39.13
  January 1998.
Mandatory Service Bulletin SB 2290 Revision 1                      39.13
  dated August 1999.
Mandatory Service Bulletin SB 24-3097, issued                      39.13
  December, 1998.
Mandatory Service Bulletin SB 27-3013 dated June                   39.13
  2000.
Mandatory Service Bulletin SB 27-3013 dated June                   39.13
  2000.
Mandatory Service Bulletin SB 27-3232, dated March                 39.13
  1999.
Mandatory Service Bulletin SB 27-3396 Revision 1                   39.13
  dated June 2000.
Mandatory Service Bulletin SB 27-3478 dated                        39.13
  September 2001.
Mandatory Service Bulletin SB 28-3299 dated                        39.13
  December 1999.
Mandatory Service Bulletin SB 32-3073, Revision 1,                 39.13
  dated July 1998.
Mandatory Service Bulletin SB 34-3222 dated                        39.13
  January 2000.
Mandatory Service Bulletin SB 35-3233, dated                       39.13
  December 1998.
Mandatory Service Bulletin SB 53-3341 Revision 1                   39.13
  dated May 2000.
Mandatory Service Bulletin SB 53-3375 dated                        39.13
  December 1999.
Mandatory Service Bulletin SB 57-3329 dated                        39.13
  February 2000.
Mandatory Service Bulletin SB.28-3104, dated                       39.13
  September 1997.
Mandatory Service Bulletin SB27-3265 dated January                 39.13
  2000.
Mandatory Service Bulletin SB34-3267 dated March                   39.13
  1999.
Mandatory Service Bulletin SB34-3268 dated April                   39.13
  2000.
Mandatory Service Bulletin SB34-3269 dated January                 39.13
  2000.
Mandatory Service Bulletin SB34-3269 Revision 1                    39.13
  dated October 2000.
MSB No. 2718, Rev. 1, dated June 1997.............                 39.13
MSB 1900D No. 2643, dated August 1996.............                 39.13
MSB 2714, dated June 1997.........................                 39.13
MSB No. 2728, dated June 1997,....................                 39.13
MSB No. 2728, Rev. 1, dated February 1998.........                 39.13
MSB No. 2741, Rev. 1, dated May 1997..............                 39.13
Recommended Service Bulletin SB 23-3094 dated                      39.13
  November 1999.
Safety Communique No. 137, dated May, 1997........                 39.13
Safety Communique No. 137, Revision 1, dated                       39.13
  December 1997.
Safety Communique No. 158, dated March 1999.......                 39.13
Safety Communique No. 1900-128, dated October 25,                  39.13
  1996.
SB 2476, Rev. II, dated June 1997.................                 39.13
SB 26-3250 Revision 1 dated July 1999.............                 39.13
SB 49-44, dated January 20, 1995..................                 39.13
SB.26-3197, dated April 1998......................                 39.13
SB.34-3028, dated January 1998....................                 39.13
Service Bulletin 32-3391 dated August 2000........                 39.13
Service Bulletin 51-3336 Revision 1 dated January                  39.13
  2001.
Service Bulletin SB 21-3108 dated November 1998...                 39.13
Service Bulletin SB 21-3377- Revision 1 dated July                 39.13
  2000.
Service Bulletin SB 21-3414 Revision 1 dated July                  39.13
  2000.
Service Bulletin SB 24-3201, dated October 1998...                 39.13
Service Bulletin SB 24-3212 dated August 1999.....                 39.13
Service Bulletin SB 24-3213 Revision 1 dated                       39.13
February 2000.
[[Page 1034]]

Service Bulletin SB 30-3008 Revision 1 dated                       39.13
  August 1999.
Service Bulletin SB 32-3274 dated August 1999.....                 39.13
Service Bulletin SB 32-3300 dated December 1999...                 39.13
Service Bulletin SB 32-3386 dated June 2000.......                 39.13
Service Bulletin SB 34-3207 dated August 1999.....                 39.13
Service Bulletin SB 34-3223 dated August 1999.....                 39.13
Service Bulletin SB 34-3282 dated August 1999.....                 39.13
Service Bulletin SB 35-3034 dated September 1998..                 39.13
Service Bulletin SB 35-3168 dated September 1998..                 39.13
Service Bulletin SB 35-3171 dated September 1998..                 39.13
Service Bulletin SB 53-93 Revision 2 dated April                   39.13
  2000.
Service Bulletin SB-35-3167 dated September 1998..                 39.13
Service Bulletin SB-35-3169 dated September 1998..                 39.13
Service Bulletin SB-35-3170 dated September 1998..                 39.13
Service Bulletin SB.28-3076, dated October, 1997..                 39.13
Service Bulletin SB.54-1-3815B Revision 1 dated                    39.13
  May 1998.
Service Instructions No. T-1A-0064 (undated)......                 39.13
Mandatory Service Bulletin 2255 Revision 10 dated                  39.13
  June 1999.
Mandatory Service Bulletin SB 27-3397 dated                        39.13
  January 2001.
Mandatory Service Bulletin SB 71-3144 Revision 1                   39.13
  dated April 1999.
Service Bulletin SB 24-3253 dated January 1999....                 39.13
Service Bulletin SB.71-3024 dated September 1997..                 39.13
P/N 128-590001-13BTC1 dated November 12, 2001.....                 39.13
P/N 128-590001-13BTC2 dated November 12, 2001.....                 39.13
P/N 128-590001-107TC5 dated November 12, 2001.....                 39.13
P/N 128-590001-109TC5 dated November 12, 2001.....                 39.13
P/N 128-590001-167TC7 dated November 12, 2001.....                 39.13
P/N 128-590001-169TC3 dated November 12, 2001.....                 39.13
P/N 128-590001-91TC5 dated November 12, 2001......                 39.13
P/N 128-590001-95TC5 dated November 12, 2001......                 39.13
P/N 132-590002-5TC3 dated November 12, 2001.......                 39.13
P/N 134-590002-1TC3 dated November 12, 2001.......                 39.13
Alert SB SB A29-92, dated May 19, 1994............                 39.13
Hawker SB SB.24-308-7673A, Rev. 1, dated July 11,                  39.13
  1994.
SB 57-77, Rev. 1, dated October 28, 1993..........                 39.13
SB 21-A150, dated February 22, 1994...............                 39.13
SB 32-233, dated June 24, 1994....................                 39.13
SB 78-12, dated January 24, 1994..................                 39.13
SB.78-9-3662B, Rev. 2, dated October 6, 1994......                 39.13
P/N MR-0460TC1 dated November 12, 2001............                 39.13
P/N MR-0873TC1 dated November 12, 2001............                 39.13


Raytheon Aircraft Integration Systems

  7500 Maehr Road Waco Texas 76715
A340 Flight Crew Operating Manual                                  39.13
  Electrical Controls and 
  Indicators, 1.24.20, page 4 Revision 
  7 dated October 1995.
Airplane Flight Manual Supplement 747-430 dated                    39.13
  October 17, 2000.
Airplane Flight Manual Supplement 747SP-21 dated                   39.13
  October 16, 2000.
Airplane Flight Manual Supplement B737-700 IGW                     39.13
  dated October 16, 2000.
Airplane Operations Manual Supplement 767-27G                      39.13
  dated October 18, 2000.
Service Bulletin 737IGW-24-1 dated August 11, 2000                 39.13
Service Bulletin 747(400)VIP-24-1 dated September                  39.13
22, 2000.
[[Page 1035]]

Service Bulletin 747(SP)VIP-24-1 dated September                   39.13
  22, 2000.
Service Bulletin 767VIP-24-1 dated August 28, 2000                 39.13
Service Bulletin A340VIP-24-1 dated August 28,                     39.13
  2000.


Relative Workshop

  1645 N. Lexington Avenue, DeLand, FL 32724
Product Service Bulletin 091098-B, dated                  39.13
  September 10, 1998.


REVO, Inc.

  PO Box 312 One High Street Sanford Maine 04073
B-79 R1 Revised January 5, 2000...................                 39.13
SB B-78, dated April 3, 1998......................                 39.13


Rigging Innovations, Inc.

  236-C East 3rd Street, Perris, CA 92570
SB 1513, Rev. A, dated June 22, 1992..............                 39.13


Robinson Helicopter Co.

  24747 Crenshaw Blvd., Torrance, CA 90505
KI-112 R44 Pilot's Grip Assembly Upgrade Kit                       39.13
  instructions, dated December 20, 1996.
KI-114 O-360 Engine Carburetor Change Kit                          39.13
  Instructions, Rev. A,.
R22 SB No. 74, dated July 18, 1994................                 39.13
R22 SB SB-77, dated April 25, 1995................                 39.13
R22 SB SB-82, dated March 3, 1997.................                 39.13
R44 SB SB-21, dated April 18, 1997................                 39.13
R44 SB SB-23, dated May 30, 1997..................                 39.13
R44 SB SB-26, dated January 31, 1998..............                 39.13
R44 Service Bulletin SB-35, dated July 26, 1999...                 39.13
SB-4, dated January 24, 1995......................                 39.13


Rocket Engineering Corp.

  East 6247 Rutter Road, Felts Field, Spokane, WA 
  99212
Mandatory SB MSB95-305-1, dated August 9, 1995....                 39.13
Alert Service Bulletin ASB CF6-80A3-NAC-A71-061                    39.13
  Revision 1 dated February 22, 2000.
Alert Service Bulletin ASB CF6-80A3-NAC-A71-064                    39.13
  dated April 4, 2000.
ASB CF6-80A3-NAC-A71-060, dated January 30, 1998..                 39.13
Service Bulletin RA34078-47, Revision 1, dated                     39.13
  November 30, 1996.
Service Bulletin TBC-CNS 78-32 Revision 1 dated                    39.13
  August 20, 1996.
Service Bulletin TBC-CNS 78-33 Revision 1 dated                    39.13
  August 20, 1996.


Rockwell Collins

  Business and Regional Systems 400 Collins Road 
  Northeast Cedar Rapids Iowa 52498
Service Bulletin 33 (CTL-92-34-33) dated April 5,                  39.13
  2001.


Rolladen-Schneider Flugzeugbau GmbH

  Muhlstrasse 10, D-63329 Egelsbach, Germany
Technical Bulletin No. 3051 dated September 14,                    39.13
  1999.
Technical Bulletin No. 4042 dated July 2, 1999....                 39.13
Technical Bulletin No. 4043 dated September 14,                    39.13
  1999.
Technical Bulletin No. 6036 dated June 8, 1999....                 39.13
Technical Bulletin No. 6037 dated September 14,                    39.13
  1999.


Rolls Royce PLC

  Technical Publications Department P.O. Box 31, 
  Moor Lane Derby, England DE248BJ
SB-BR700-79-900215 Revision 2 dated August 2, 2000                 39.13

[[Page 1036]]

Service Bulletin BR700-72-100900, Revision 1,                      39.13
  dated September 10, 1999.
Service Bulletin BR700-72-900062, Revision 1,                      39.13
  dated October 29, 1998.
Service Bulletin BR700-72-900062, Revision 2,                      39.13
  dated November 3, 1998.
Service Bulletin BR700-72-900062, Revision 3,                      39.13
  dated March 24, 1999.
AOW 1046, Issue 2, dated May 21, 1999.............                 39.13
SB V2500-ENG-72-0316, Rev. 2, dated August 28,                     39.13
  1998.
Service Bulletin V2500-ENG-0120: Pages 1, 3, 8-9,                  39.13
  Revision 3, dated May 14, 1999.
Service Bulletin V2500-ENG-0120: Pages 2, 4-7, 10,                 39.13
  Revision 2, dated October 30, 1992.
Service Bulletin V2500-ENG-72-0120, Revision 2,                    39.13
  dated October 30, 1992.
Service Bulletin V2500-ENG-72-0190, Pages 1, 19,                   39.13
  Revision 2, dated September 26, 1996.
Service Bulletin V2500-ENG-72-0190, Pages 2-18,                    39.13
  21-22, Revision 1, dated April 30, 1994.
Service Bulletin V2500-ENG-72-0293, dated December                 39.13
  19, 1997.
Service Bulletin V2500-ENG-72-0344, dated December                 39.13
  18, 1998.
Service Bulletin V2500-ENG-72-0344, Revision 1,                    39.13
  dated February 12, 1999.
R.B. 211-71-B551, Revision 1, and List of                          39.13
  Effective Pages, dated March 20, 1998.
Alert SB No. R.B. 211-72-A5722, Rev. 3, 29683.....                 39.13
Alert SB No. R.B. 211-72-A7774, Rev. 2 dated                       39.13
  February 6, 1987.
Alert Service Bulletin AE 2100A-A-72-191, dated                    39.13
  December 17, 1998.
Alert Service Bulletin AE 2100C-A-72-141, dated                    39.13
  December 17, 1998.
Alert Service Bulletin AE 2100D3-A-72-130, dated                   39.13
  December 17, 1998.
Alert Service Bulletin AE 3007A-A-72-105/AE 3007C-                 39.13
  A-72-105 dated January 29, 1999.
Alert Service Bulletin Da73-A87, dated May 1998...                 39.13
Alert Service Bulletin No. AE 2100A-A-72-193/AE                    39.13
  2100C-A-72- 143, Revision 1, dated October 20, 
  1998.
Alert Service Bulletin No. AE 2100A-A-72-197/AE                    39.13
  2100C-A-72- 149, dated May 19, 1999.
Mandatory SB R.B. 211-72-6847, Rev. 2 dated March                  39.13
  30, 1984.
Mandatory SB R.B. 211-73-B869, Rev. 1, dated May                   39.13
  24, 1996.
Mandatory Service Bulletin No. RB.211-78-C931                      39.13
  Revision 1 dated June 13, 2000.
Mandatory Service Bulletin RB.211-72-C329 Revision                 39.13
  1 dated November 6, 1998.
Mandatory Service Bulletin RB.211-72-C491 Revision                 39.13
  1 dated October 8, 1999.
Mandatory Service Bulletin RB.211-72-C817 Revision                 39.13
  1 dated January 24, 2000.
Mandatory Service Bulletin RB.211-72-C817 Revision                 39.13
  2 dated March 7, 2001.
Mandatory Service Bulletin RB.211-72-C818 Revision                 39.13
  2 dated October 8, 1999.
Mandatory Service Bulletin RB.211-72-C877 dated                    39.13
  January 29, 2000.
Mandatory Service Bulletin RB.211-72-C877 Revision                 39.13
1 dated March 7, 2001.
[[Page 1037]]

R.B. 211-73-8457, Rev. 1 dated August 7, 1987.....                 39.13
RB.211-72-9764 Revision 3 dated January 16, 1998..                 39.13
RB.211-72-C878 Revision 1 dated December 10, 1999.                 39.13
RB.211-78-B115, Rev. 1, dated March 14, 1997......                 39.13
RB.211-78-C955 Revision 1 dated June 20, 2000.....                 39.13
SB No. R.B. 211-72-9672, Rev. 1, dated November 6,                 39.13
  1992.
SB No. Sp72-1034, Rev. 1, dated May, 1990.........                 39.13
SB No. Sp72-1044, dated September 1992............                 39.13
SB OL.593-72-8951-364, Rev. 5, dated August 31,                    39.13
  1995.
SB OL.593-72-9016-416, Rev. 1, dated December 5,                   39.13
  1997.
SB OL.593-72-9038-417, dated June 26, 1996........                 39.13
SB OL.593-72-9042-422, Rev. 1, dated May 23, 1997.                 39.13
SB OL.593-72-9047-423, dated January 31, 1997.....                 39.13
SB OL.593-72-9048-424, dated April 25, 1997.......                 39.13
SB OL.593-76-9039-71, Rev. 2, dated July 23, 1997.                 39.13
SB R.B. 211-72-4666, Rev. 4, dated May 16, 1986...                 39.13
SB R.B. 211-72-4666, Supplement Page 1, dated                      39.13
  October 14, 1977.
SB R.B. 211-72-4666, Supplement Page 2, dated                      39.13
  August 26, 1977.
SB R.B. 211-72-5787, including the Supplement                      39.13
  dated March 20, 1981,.
SB R.B. 211-72-8301, Rev. 2 dated March 27, 1987..                 39.13
SB R.B. 211-72-8301, Rev. 5 dated May 13, 1988....                 39.13
SB R.B. 211-72-9594, Rev. 5, dated February 12,                    39.13
  1993.
SB R.B. 211-72-9764, Rev. 2, dated November 10,                    39.13
  1995.
SB R.B. 211-72-B482, Rev. 3, dated September 27,                   39.13
  1996.
SB R.B. 211-72-C089, Rev. 1, dated January 24,                     39.13
  1997.
SB R.B. 211-72-C114, including Supplement dated                    39.13
  February 6, 1997.
SB R.B. 211-72-C129, Rev. 2, dated March 21, 1997.                 39.13
SB R.B. 211-73-8195 dated May 2, 1986.............                 39.13
SB R.B. 211-73-8438, Rev. 1 dated July 31, 1987...                 39.13
SB R.B. 211-73-8502 dated August 28, 1987.........                 39.13
SB R.B. 211-73-8534 dated September 18, 1987......                 39.13
SB R.B. 211-73-B048, Rev. 1 including Supplement                   39.13
  1, dated July 22, 1994.
SB R.B. 211-78-9822, dated October 1, 1993........                 39.13
SB R.B. 211-79-C093, Rev. 1, dated February 28,                    39.13
  1997.
SB R.B.211-72-4666, Rev. 3, dated October 14, 1997                 39.13
SB R.B.211-72-8138, dated March 21, 1986..........                 39.13
SB RB.211-72-C270, dated June 1, 1997.............                 39.13
SB RB.211-72-C445, Rev. 2 including Appendixes A                   39.13
  and 2, dated July 3, 1998.
SB RB.211-73-C297, Rev. 1, dated January 8, 1998..                 39.13
SB RB.211-79-C135, dated July 4, 1997.............                 39.13
SB Supplement, Rev. 1, dated November 6, 1992.....                 39.13
Service Bulletin 73-A115, dated August 1997.......                 39.13
Service Bulletin 73-A118, dated August 1997.......                 39.13
Service Bulletin B.211-71-9043 dated May 4, 1990..                 39.13
Service Bulletin Da72-348 Revision 13 dated April                  39.13
  1999.
Service Bulletin RB.211-71-9600 Revision 8 dated                   39.13
  May 24, 1996.
Service Bulletin RB.211-71-9608 Revision 3 dated                   39.13
  April 18, 1997.
Service Bulletin RB.211-71-B545, Revision 2, and                   39.13
  List of Effective Pages, dated August 8, 1997.
Service Bulletin RB.211-72-9594 Revision 8 dated                   39.13
January 14, 1999.
[[Page 1038]]

Service Bulletin RB.211-72-9594 Appendix Revision                  39.13
  5 dated February 12, 1993.
Service Bulletin RB.211-72-9594 Supplement                         39.13
  Revision 1 dated August 12, 1994.
Service Bulletin RB.211-72-9594 Transmittal dated                  39.13
  January 14, 1999.
Service Bulletin RB.211-72-9618 Revision 2 dated                   39.13
  January 14, 1999.
Service Bulletin RB.211-72-9993 dated August 26,                   39.13
  1994.
Service Bulletin RB.211-72-C445 Revision 6 dated                   39.13
  September 3, 1999.
Service Bulletin RB.211-72-C445, Appendix 01                       39.13
  Revision 6 dated September 3, 1999.
Service Bulletin RB.211-72-C445, Appendix 02                       39.13
  Revised dated November 6, 1998.
Service Bulletin RB.211-72-C813, Revision 1, dated                 39.13
  July 16, 1999.
Service Bulletin RB.211-72-C891 dated February 2,                  39.13
  2000.
Service Bulletin RB.211-78-9601 Revision 5 dated                   39.13
  February 20, 1998.
Service Bulletin RB.211-78-B207 dated November 19,                 39.13
  1994.
Service Bulletin RB.211-78-B552, including                         39.13
  Supplement, pages 1 and 2, dated June 21, 1996.
Service Bulletin Sp72-1063 dated May 1999.........                 39.13
Service Bulletin TAY-72-1479 dated July 20, 1999..                 39.13
Service Bulletin No. RB.211-72-C445 Revision 7                     39.13
  dated May 10, 2001.
Mandatory Service Bulletin TAY 72-1442 Revision 1                  39.13
  dated December 19, 1997.
Mandatory Service Bulletin TAY-72-1447 Revision 2                  39.13
  dated July 25, 2000.
Service Bulletin No. RB.211-72-C878 Revision 4                     39.13
  dated January 22, 2001.


Rolls-Royce Corporation

  P.O. Box 420 Indianapolis Indiana 46206-0420
Alert Service Bulletin AE 2100A-A-72-234 Revision                  39.13
  2 dated October 13, 2000.
Alert Service Bulletin AE 2100A-A-72-234 Revision                  39.13
  3 dated June 19, 2001.
Alert Service Bulletin AE 2100C-A-72-183 Revision                  39.13
  2 dated October 13, 2000.
Alert Service Bulletin AE 2100C-A-72-183 Revision                  39.13
  3 dated June 19, 2001.
Alert Service Bulletin AE 2100D3-A-72-179 Revision                 39.13
  2 dated October 13, 2000.
Alert Service Bulletin AE 2100D3-A-72-179 Revision                 39.13
  3 dated June 19, 2001.
Alert Service Bulletin AE 3007A-A-72-179 Revision                  39.13
  2 dated October 17, 2000.
Alert Service Bulletin AE 3007A-A-72-179 Revision                  39.13
  3 dated June 19, 2001.
Alert Service Bulletin AE 3007C-A-72-153 Revision                  39.13
  2 dated October 17, 2000.
Alert Service Bulletin AE 3007C-A-72-153 Revision                  39.13
  3 dated June 19, 2001.


Rolls-Royce Defence (Europe) Technical Publications Department

  P.O. Box 3 Filton Bristol BS34 7QE England 
  Telephone 011 44 7979 6060
Service Bulletin OL.593-71-9056-33 Revision 2                      39.13
dated December 7, 2000.
[[Page 1039]]

Rolls-Royce Deutschland GmbH

  Eschenvey 11 D-15827 DAHLEWITZ Germany Phone: 
  International Access Code 011, Country Code 49, 
  33 7086- 2935 Fax: International Access Code 
  011, Country Code 49, 33 7086- 3276
SB-BR700-72-900229 Revision 2 dated November 23,                   39.13
  2000.


Rolls-Royce Ltd., Dart Service

  East Kilbride, Glascow, G74 4PY Scotland
SB No. Da72-423, Part 2, Rev. 16 dated July 13,                    39.13
  1984.
SB No. Da72-470, Rev. 1 dated March 30, 1984......                 39.13
SB No. Da72-480, Rev. 4 dated December 1984.......                 39.13
SB No. Da72-485 dated July 2, 1984................                 39.13
SB No. Da72-A488, Rev. 1 dated October 18, 1984...                 39.13
Service Bulletin No. Da61-12, Rev. 2, dated                        39.13
  September 1978.
Alert SB Da73-A86, including the Appendix, dated                   39.13
  March 5, 1993.


Rosenbalm Aviation, Inc.

  c/o Zantop International Airlines, Macon 
  International Airport, P.O. Box 10138, Macon, GA 
  31297
SB DC-8 51-01 dated May 12, 1991..................                 39.13
SB DC-8 51-02 dated June 1, 1991..................                 39.13


S.N. Centrair

  Aerodome, 36300 LeBlanc, France Telephone: 
  02.54.37.07.96; FAX: 02.54.37.48.64
Process Sheet for Fitment of the Release Unit for                  39.13
  the Rear Canopy Strap on Glider Centrair 201 
  Marianne dated March 17, 
  1999.
SB No. 101-16, Rev. 02, dated September 10, 1997..                 39.13
Service Bulletin No. 101-16 Revision 3 dated                       39.13
  February 2, 1999.
Service Bulletin No. 101-19, Revision 1, dated May                 39.13
  20, 1997.
Service Bulletin No. 201-16 Revision 1 dated                       39.13
  December 12, 1999.


Saab Aircraft AB

  Saab Aircraft Product Support S-581.88, 
  Linkoping, Sweden
Abex NWL SB 4208901-29-232 (Attachment 2), dated                   39.13
  September 15, 1995.
Abex NWL SB 42103-29-232 (Attachment 1), dated                     39.13
  August 23, 1995.
Alert SB 2000-A27-020, dated March 25, 1996.......                 39.13
Alert SB 2000-A27-021, Rev. 1, dated June 19, 1996                 39.13
ASB 2000-A25-080, Rev. 01, dated April 3, 1998....                 39.13
ASB 2000-A72-001, dated June 12, 1998.............                 39.13
ASB 2000-A72-001, Rev. 01, dated June 26, 1998....                 39.13
SB 2000-23-017, dated March 10, 1997..............                 39.13
SB 2000-26-002, including Attachments 1 and 2                      39.13
  dated May 9, 1995,.
SB 2000-26-006, dated November 9, 1995............                 39.13
SB 2000-26-010, dated July 5, 1996................                 39.13
SB 2000-29-004, dated September 18, 1995..........                 39.13
SB 2000-29-007, Rev. 01, dated August 18, 1997....                 39.13
SB 2000-29-007, Rev. 02, dated May 8, 1998........                 39.13
SB 2000-30-006, dated December 22, 1995...........                 39.13
SB 2000-30-012, dated November 21, 1997...........                 39.13
SB 2000-30-014, Rev. 01, dated January 9, 1998....                 39.13
SB 2000-32-019, dated January 18, 1996............                 39.13
SB 2000-32-042, dated March 27, 1998, including                    39.13
  Attachments 1 and 2, dated June 1997.
SB 2000-32-050, dated August 24, 1998.............                 39.13
SB 2000-33-009, dated June 19, 1996...............                 39.13

[[Page 1040]]

SB 2000-33-014, dated May 16, 1997................                 39.13
SB 2000-35-001, dated February 20, 1996...........                 39.13
SB 2000-49-005, dated December 19, 1995, including                 39.13
  Attachment 1, dated November 30, 1995.
SB 2000-53-010, Rev. 1, dated October 10, 1995....                 39.13
SB 2000-53-024, dated December 2, 1996............                 39.13
SB 2000-53-026, dated February 27, 1998...........                 39.13
SB 2000-54-008, dated March 7, 1996...............                 39.13
SB 2000-55-005, dated February 2, 1996............                 39.13
SB 2000-57-010, dated February 25, 1997...........                 39.13
SB 2000-57-014, Rev. 02, dated February 11, 1997..                 39.13
SB 2000-A25-022, Rev. 1, dated January 23, 1996...                 39.13
SB 340-25-181 dated March 7, 1991.................                 39.13
SB 340-25-235, dated December 11, 1996............                 39.13
SB 340-25-244, dated June 13, 1997................                 39.13
SB 340-26-012, Rev. 1, dated October 5, 1993......                 39.13
SB 340-26-015, Rev. 1, dated December 8, 1995.....                 39.13
SB 340-26-016, dated November 9, 1995.............                 39.13
SB 340-27-079, dated December 22, 1995............                 39.13
SB 340-28-013 dated March 14, 1991................                 39.13
SB 340-30-073, dated August 18, 1997..............                 39.13
SB 340-30-080, dated November 21, 1997............                 39.13
SB 340-30-081, dated November 14, 1997, including                  39.13
  Attachment 1,Rev. 1, dated September 14, 1997.
SB 340-32-066, Rev. 1 dated Oct. 17, 1990                          39.13
  including Attachments 1 through 8 dated Jan. 
  1990 and Attachment 6, Rev. 1 dated Aug.
SB 340-32-094, dated October 29, 1993.............                 39.13
SB 340-32-094, Rev. 1, dated March 4, 1994........                 39.13
SB 340-32-100, Rev. 02, dated March 25, 1996......                 39.13
SB 340-32-105, dated September 5, 1995............                 39.13
SB 340-32-107, dated January 18, 1996.............                 39.13
SB 340-32-114, dated May 4, 1998..................                 39.13
SB 340-32-115, dated April 7, 1998................                 39.13
SB 340-32-115, Rev. 01, dated August 12, 1998.....                 39.13
SB 340-33-030, Rev. 2 dated Sept. 27, 1991........                 39.13
SB 340-33-040, Rev. 2, dated February 20, 1997....                 39.13
SB 340-33-047, dated May 16, 1997.................                 39.13
SB 340-34-068 dated Nov. 9, 1990..................                 39.13
SB 340-51-012, dated November 10, 1993............                 39.13
SB 340-52-013, Rev. 1 dated Dec. 18, 1990.........                 39.13
SB 340-52-014 dated April 16, 1991................                 39.13
SB 340-53-028, dated August 20, 1992..............                 39.13
SB 340-53-047, dated December 14, 1994............                 39.13
SB 340-54-027, Rev. 2 dated March 10, 1992........                 39.13
SB 340-55-032, dated May 22, 1995.................                 39.13
SB 340-57-020, Rev. 1 dated April 3, 1992.........                 39.13
SB 340-71-035, Rev. 1 dated Dec. 18, 1990.........                 39.13
SB 340-76-031, Rev. 04, dated February 25, 1996...                 39.13
SB 340-76-032, Rev. 03, dated March 25, 1996......                 39.13
SB 340-76-032, Rev. 2, dated December 8, 1995.....                 39.13
SB 340-76-032, Rev. 3, dated March 25, 1996.......                 39.13
SB 340-76-033, dated March 31, 1994...............                 39.13

[[Page 1041]]

SB 340-76-034, dated January 4, 1995..............                 39.13
SB 340-76-038, dated December 8, 1995.............                 39.13
SB 340-76-041, dated May 29, 1997, including......                 39.13
SB 340-76-041, Rev. 1, dated July 2, 1997.........                 39.13
SB SAAB 340-28-016, dated October 21, 1992........                 39.13
SB SAAB 340-57-027, Rev. 01, dated June 30, 1995..                 39.13
SB SF340-76-018 dated October 24, 1986............                 39.13
Service Bulletin 2000-27-033, dated April 29, 1997                 39.13
Service Bulletin 2000-27-033, Revision 01, dated                   39.13
  March 27, 1998.
Service Bulletin 2000-27-037, dated March 11, 1998                 39.13
Service Bulletin 2000-27-046 dated November 30,                    39.13
  2000.
Service Bulletin 2000-29-016, dated April 17, 1998                 39.13
Service Bulletin 2000-33-015 dated January 29,                     39.13
  1999.
Service Bulletin 2000-33-016 dated April 21, 1999.                 39.13
Service Bulletin 2000-54-023 Revision 2 dated                      39.13
  February 23, 2000.
Service Bulletin 2000-57-011, dated October 1,                     39.13
  1998.
Service Bulletin 2000-57-029, dated June 4, 1999..                 39.13
Service Bulletin 2000-57-037 dated April 13, 2000.                 39.13
Service Bulletin 2000-79-005 dated May 22, 2000...                 39.13
Service Bulletin 2000-A32-052 Revision 1 dated                     39.13
  March 16, 1999.
Service Bulletin 340-25-244 Revision 1 dated May                   39.13
  5, 2000.
Service Bulletin 340-26-023 dated December 21,                     39.13
  1999.
Service Bulletin 340-28-022 dated February 25,                     39.13
  2000.
Service Bulletin 340-29-009, Revision 2, dated                     39.13
  July 2, 1999.
Service Bulletin 340-32-120 Revision 1 dated                       39.13
  August 29, 2000.
Service Bulletin 340-33-047 Revision 1 dated June                  39.13
  26, 1998.
Service Bulletin 340-33-048 Revision 1 dated                       39.13
  January 21, 1999.
Service Bulletin 340-33-049 Revision 2 dated                       39.13
  February 2, 2000.
Service Bulletin 340-51-020 Revision 1 dated May                   39.13
  16, 2001.
Service Bulletin 340-53-061, dated April 21, 1999.                 39.13
Service Bulletin 340-55-033, Revision 4, dated                     39.13
  December 1, 1998.
Service Bulletin 340-55-034, dated October 16,                     39.13
  1998.
Service Bulletin 340-57-033, Revision 01, dated                    39.13
  August 18, 1997.
Service Bulletin 340-57-033, Revision 02, dated                    39.13
  January 29, 1998.
Service Bulletin 340-57-035 dated January 18, 2000                 39.13
Service Bulletin 340-57-036 dated October 20, 1999                 39.13
Service Bulletin 340-57-037 dated January 18, 2000                 39.13
Service Bulletin 340-57-038 dated January 18, 2000                 39.13
Service Bulletin 340-76-042, and List of Effective                 39.13
  Pages, dated.
Service Bulletin 340-92-027 dated December 10,                     39.13
  1999.
Service Bulletin SAAB 340-71-057, Revision 02,                     39.13
  dated January 26, 1999, including Attachment 1, 
  dated January 20, 1999.
SB 340-30-039 dated December 16, 1991.............                 39.13
SB 340-36-006, dated August 6, 1992...............                 39.13
SB SF340-29-004, Rev. 1 dated November 9, 1990....                 39.13


Sabreliner

  18118 Chesterfield Airport Road, Chesterfield, 
  MO 63005-1121
SB 92-5, dated December 11, 1992..................                 39.13


SAFT America, Inc.

  711 Industrial Boulevard, Valdosta, GA 31601
SB Document No. A00027, Rev. G, dated July 14,                     39.13
1998.
[[Page 1042]]

Scheibe Flugzeugbau GmbH

  August Pfaltz--Strasse 23, Dachau, Germany
Technical Note 336-2, dated March 10, 1989........                 39.13


Schempp-Hirth GmbH and Company KG

  Krenben Strasse 25, 7312 Kirchhim-Teck Federal 
  Republic of Germany
Appendix to Technical Note No. 278-36, 286-33,                     39.13
  295-26, 328-11, 798-3, dated November 11, 1994.
Technical Note No. 265-10, dated November 5, 1992.                 39.13
Technical Note No. 265-8, dated February 11, 1985.                 39.13
Technical Note TN 278-33, 286-28, 295-22, 328-10,                  39.13
  349-16, 360-9, 373-5, including the Appendix 
  dated November 19, 1992,.
TN 265-6 dated Apr. 27, 1982......................                 39.13
TN 286-24 dated August 14, 1987...................                 39.13
TN 295-19 dated August 14, 1987...................                 39.13
TN 328-8 dated August 14, 1987....................                 39.13


Schweizer Aircraft Corp.

  P.O. Box 147, Elmira-Corning Regional Airport, 
  Elmira, New York 14902
CKP-C-41 ``Installation Instructions for 269                       39.13
  Series Helicopters, SA-269K-057-1 Main Rotor 
  Thrust dated June 9, 1994.
SB B-235.1, dated March 20, 1992..................                 39.13
SB B-244.2, dated February 19, 1996...............                 39.13
SB B-247, dated October 30, 1992, September 28,                    39.13
  1994.
SB B-255.1, dated February 1, 1993................                 39.13
SB B-256.2, dated June 11, 1993...................                 39.13
SB B-257.1, dated May 21, 1993....................                 39.13
SB No. N-59, dated October 9, 1968................                 39.13
SB No. SA-001 dated October 3, 1986...............                 39.13
SB No. SA-001.3 dated January 31, 1988............                 39.13
SB No. SA-005.1 dated January 31, 1988............                 39.13
Service Bulletin B-271, dated March 12, 1999......                 39.13
Service Bulletin B-271.1 dated October 14, 1999...                 39.13
Service Bulletin C1B-009, dated March 12, 1999....                 39.13
Service Bulletin C1B-009.1 dated October 14, 1999.                 39.13
Service Bulletin DB-007, dated March 12, 1999; and                 39.13
  September 22, 1999.
Service Bulletin DB-007.1 dated October 14, 1999..                 39.13
Service Information Notice N-183.1 dated February                  39.13
  24, 1987.
Service Information Notice No. N-217 dated January                 39.13
  29, 1988.
Service Information Notice No. N-220 dated January                 39.13
  29, 1988.
Service Information Notice No. N-221 dated January                 39.13
  29, 1988.
SIN N-146.2 dated December 7, 1979................                 39.13
SIN N-164 dated December 7, 1979..................                 39.13


Scott Aviation

  225 Erie Street, Lancaster, New York 14086
Airworthiness Alert for Scott high-pressure oxygen                 39.13
  cylinder assemblies dated 9/29/83.
SB 289-35-15 dated April 27, 1992.................                 39.13
SB 289-35-15, Rev. 1 dated June 12, 1992..........                 39.13


Sensenich Propeller Manufacturing Company Inc.

  519 Airport Road, Lititz, PA 17543; Telephone 
  (717) 569-0435, fax (717) 560-3725.

[[Page 1043]]

SB No. R-13, dated April 11, 1969.................                 39.13
SB No. R-14A, dated July 28, 1995.................                 39.13


Servo-Aero Engineering Inc.

  37 Mortensen Ave., Salinas, CA 93905
SB001 dated July 24, 1990.........................                 39.13


Shaw Aero Devices

  12291 Towne Lake Drive, Ft. Myers, Fl 33913
Document ILS-193, dated November 1998.............                 39.13


Short Brothers

  Airworthiness and Engineering Quality PO Box 241 
  Airport Road Belfast BT3 9DZ Northern Ireland
Service Bulletin 53-68 Revision 1 dated May 30,                    39.13
  1996.
Service Bulletin 53-68 Revision 1 dated January                    39.13
  10, 1996.
Service Bulletin 53-68 Revision 2 dated September                  39.13
  1998.
Service Bulletin 53-68 Revision 3 dated May 1999..                 39.13
Service Bulletin SD3 SHERPA-24-5 dated April 30,                   39.13
  2001.
Service Bulletin SD3 Sherpa-35-3 Revision 1 dated                  39.13
  May 5, 1999.
Service Bulletin SD3 SHERPA-71-2 Revision 1 dated                  39.13
  August 2, 2001.
Service Bulletin SD3-60 Sherpa-35-2 dated February                 39.13
  25, 1999.
Service Bulletin SD3-60 SHERPA-76-1 Revision 2                     39.13
  dated March 21, 2000.
Service Bulletin SD330-24-29 dated April 30, 2001.                 39.13
Service Bulletin SD330-35-1 dated February 25,                     39.13
  1999.
Service Bulletin SD330-71-24 Revision 1 dated                      39.13
  August 2, 2001.
Service Bulletin SD360 SHERPA-24-4 dated April 30,                 39.13
  2001.
Service Bulletin SD360 SHERPA-71-2 Revision 1                      39.13
  dated August 2, 2001.
Service Bulletin SD360-11-23 dated November 17,                    39.13
  1998.
Service Bulletin SD360-24-25 dated April 30, 2001.                 39.13
Service Bulletin SD360-71-19 Revision 1 dated                      39.13
  August 2, 2001.


Short Brothers (USA, Inc.)

  Civil Technical Operations, P.O. Box 211 (Route 
  76 East), Bridgeport, WV 26330
SB 26-107, Rev. 1, dated November 2, 1992.........                 39.13
SB 26-108, dated September 1992...................                 39.13
SB SD330-26-14, dated September 1994..............                 39.13
SB SD360-26-11, dated July 1994...................                 39.13


Short Brothers, PLC

  2011 Crystall Drive, Suite 713, Arlington, VA 
  2202-3719
SB SD3 SHERPA-35-2, dated April 8, 1997...........                 39.13
SB SD3-25-30, Original dated Jan. 8, 1982.........                 39.13
SB SD3-53-01, Rev. 2 dated Jan. 19, 1977..........                 39.13
SB SD3-53-18, Original dated Nov. 25, 1977........                 39.13
SB SD3-53-41, Original dated May 21, 1980.........                 39.13
SB SD3-53-48, Rev. 1 dated Jan. 5, 1983...........                 39.13
SB SD3-55-16, Rev. 3 dated Nov. 1987..............                 39.13
SB SD3-57-10, Rev. 1 dated Oct. 11, 1982..........                 39.13
SB SD3-60 SHERPA-35-1, dated April 8, 1997........                 39.13
SB SD3-76-01, Original dated Sept. 8, 1981........                 39.13
SB SD330-55-19, dated February 11, 1997...........                 39.13
SB SD360-24-18, Rev. 3 dated Nov. 29, 1990........                 39.13
SB SD360-33-23, dated June 1, 1992................                 39.13
SB SD360-55-17 dated May 7, 1991..................                 39.13

[[Page 1044]]

Service Bulletin SD3-60 SHERPA-53-3, dated                         39.13
  November 4, 1997.
Service Bulletin SD360-53-42, dated September 1996                 39.13
SB SD 330-53-66, dated July 1993..................                 39.13
SB SD3 SHERPA 27-2, dated January 14, 1997........                 39.13
SB SD3 SHERPA 53-2, dated July 1993...............                 39.13
SB SD3 SHERPA-24-1, dated May 1992................                 39.13
SB SD3 SHERPA-27-1, dated September 12, 1995......                 39.13
SB SD3 SHERPA-32-2, dated September 22, 1995......                 39.13
SB SD3 SHERPA-33-1, includes Attachment to SB                      39.13
  Drawing SD3 SHERPA-33-1/A dated January 17, 
  1993.
SB SD3 SHERPA-53-1, Rev. 1, dated May 1993........                 39.13
SB SD3-27-36, dated January 14, 1997..............                 39.13
SB SD3-57-10, Rev. 2, dated January 4, 1993.......                 39.13
SB SD3-60 SHERPA-53-2, dated November 4, 1997.....                 39.13
SB SD3-SHERPA-53-1, dated March 29, 1993..........                 39.13
SB SD330-24-25, Rev. 2 dated Nov. 29, 1990........                 39.13
SB SD330-27-34, dated September 12, 1995..........                 39.13
SB SD330-28-35, dated February 22, 1991...........                 39.13
SB SD330-32-90, Rev. 2, dated June 29, 1992.......                 39.13
SB SD330-53-65, dated March 29, 1993..............                 39.13
SB SD330-53-65, Revison 1, dated May 1993.........                 39.13
SB SD330-55-18, dated April 20, 1995..............                 39.13
SB SD360 SHERPA 27-1, dated January 14, 1997......                 39.13
SB SD360-27-23, Rev. 1, dated April 15, 1994......                 39.13
SB SD360-27-24, dated September 12, 1995..........                 39.13
SB SD360-27-26, dated January 14, 1997............                 39.13
SB SD360-28-20, dated February 22, 1991...........                 39.13
SB SD360-32-33, dated August 7, 1992..............                 39.13
SB SD360-32-34, dated September 22, 1995..........                 39.13
SB SD360-39-04, Rev. 1, dated January 12, 1998....                 39.13
SB SD360-53-38, dated March 25, 1993..............                 39.13
SB SD360-53-38, Rev. 1, dated May 1993............                 39.13
SB SD360-53-39, dated June 11, 1993...............                 39.13
SB SD360-55-12, Rev. 2, dated November 1986.......                 39.13
SB SD360-55-16, Original, dated April 1988........                 39.13
SB SD360-55-19, dated January 18, 1993............                 39.13
SD3 SHERPA SB SD3 SHERPA-55-1, dated April 20,                     39.13
  1995.
SD3-30 SB SD3-32-90, Rev. 2, dated June 29, 1992..                 39.13
Service Bulletin SD3 SHERPA 27-2, dated January                    39.13
  14, 1997.
Service Bulletin SD3 SHERPA-27-3, Revision 1, and                  39.13
  List of Effective Pages, dated November 23, 
  1998.
Service Bulletin SD3 SHERPA-29-2, dated October                    39.13
  22, 1998.
Service Bulletin SD3 Sherpa-53-4, dated November                   39.13
  27, 1998.
Service Bulletin SD3 SHERPA-71-1, Revision 1, and                  39.13
  List of Effective Pages, dated February 3, 1999.
Service Bulletin SD3 SHERPA-71-1, Revision 2, and                  39.13
  List of Effective Pages, dated April 26, 1999.
Service Bulletin SD3-60 SHERPA-27-3, Revision 1,                   39.13
  and List of Effective Pages, dated November 23, 
  1998.
Service Bulletin SD3-60 SHERPA-71-1, Revision 1,                   39.13
  and List of Effective Pages, dated February 3, 
  1999.
Service Bulletin SD3-60 SHERPA-71-1, Revision 2,                   39.13
and List of Effective Pages, dated April 26, 
[[Page 1045]]

Service Bulletin SD3-60 SHERPA-76-1, dated July                    39.13
  1998.
Service Bulletin SD3-60 SHERPA-76-1, Revision 1,                   39.13
  dated October 14, 1998.
Service Bulletin SD330-27-37, Revision 1, and List                 39.13
  of Effective Pages, dated November 23, 1998.
Service Bulletin SD330-29-19, dated October 22,                    39.13
  1998.
Service Bulletin SD330-30-33, dated June 1998.....                 39.13
Service Bulletin SD330-53-68, dated November 27,                   39.13
  1998.
Service Bulletin SD330-71-23, dated November 20,                   39.13
  1998.
Service Bulletin SD330-71-23, Revision 1, and List                 39.13
  of Effective Pages, dated April 26, 1999.
Service Bulletin SD360 SHERPA-29-1, dated October                  39.13
  22, 1998.
Service Bulletin SD360-27-27, Revision 1, dated                    39.13
  April 1, 1999.
Service Bulletin SD360-27-28, Revision 1, and List                 39.13
  of Effective Pages, dated November 23, 1998.
Service Bulletin SD360-29-06, dated October 22,                    39.13
  1998.
Service Bulletin SD360-53-43, Revision 1, dated                    39.13
  November 27, 1998.
Service Bulletin SD360-71-18, Revision 1, and List                 39.13
  of Effective Pages, dated February 3, 1999.
Service Bulletin SD360-71-18, Revision 2, and List                 39.13
  of Effective Pages, dated April 26, 1999.
Service Bulletin SD360-Sherpa-53-4, dated November                 39.13
  27, 1998.


SIAI Marchetti S.p.A.

  Product Support Department, via Indipendenza 2, 
  21018 Sesto Calende (VA), Italy
Mandatory SB No. 205B58, dated December 31, 1995..                 39.13
Mandatory SB No. 205B60, dated July 24, 1995......                 39.13
SB No. 205B54, dated May 28, 1993.................                 39.13
SB No. 205B59, dated July 29, 1995................                 39.13


Sikorsky Aircraft Corporation

  ATTN: Manager, Commercial Tech Support 6900 Main 
  Street, P.O. Box 9729 Stratford, Connecticut 
  06615
Service Bulletin 970001 Revision A dated September                 39.13
  18, 1997.
Service Bulletin 970002 dated December 18, 1997...                 39.13
SB No. 141450-0000-840-003, dated July 9, 1996....                 39.13
Airworthiness and Inspection Requirements Manual                   39.13
  Publication No. SA-4047-76-2-1 dated 11/12/84.
Alert SB 58B35-32, dated July 6, 1993.............                 39.13
Alert SB 61B15-29A, Rev. A, dated May 9, 1997.....                 39.13
Alert SB 76-65-35A, Rev. A, dated February 29,                     39.13
  1984.
Alert SB No. 58B35-31A, Rev. A, dated February 17,                 39.13
  1993.
Alert SB No. 64B10-4A dated July 17, 1985.........                 39.13
Alert SB No. 64B15-8A dated October 16, 1984......                 39.13
Alert SB No. 76-24-8 dated January 30, 1987.......                 39.13
Alert SB No. 76-34-6A (287A), Rev. A, dated                        39.13
  September 12, 1996.
Alert SB No. 76-52-10A, Rev. A dated August 27,                    39.13
  1987.
Alert SB No. 76-66-20 dated July 25, 1985.........                 39.13
Alert SB No. 76-71-7 dated 11/7/84................                 39.13
Alert SB, No. 61B10-48 dated Jan. 18, 1991........                 39.13
Alert Service Bulletin 61B20-33 dated September 3,                 39.13
  1999.
Alert Service Bulletin 61B20-33 dated September 3,                 39.13
  1999.
Alert Service Bulletin 76-55-16, dated May 12,                     39.13
  1999.
Alert Service Bulletin 76-65-35B (153B) Revision B                 39.13
dated October 2, 1997.
[[Page 1046]]

Alert Service Bulletin 76-65-50 dated May 25, 2000                 39.13
Alert Service Bulletin 76-66-31 (318B) Revision B                  39.13
  dated November 7, 2000.
Alert Service Bulletin 76-66-32A Revision A dated                  39.13
  January 17, 2001.
Composite Materials Manual paragraphs 7 & 7-A                      39.13
  dated 1/15/82,.
Customer Service Notice No. 76-141B (133B) dated                   39.13
  January 15, 1985.
No. CST-P-83-171 Rev. 2 dated 12/5/83.............                 39.13
SB No. 61B15-20E..................................                 39.13
SB No. 61B15-6P...................................                 39.13
SB No. 61 B10-14 dated 12/5/83....................                 39.13
Alert Service Bulletin No. 76-34-7A (320A)                         39.13
  Revision A dated September 17, 2001.


Slingsby Engineering Ltd.

  Ings Lane, Kirbymoorside, York Y066EZ, England
Technical Instruction No. 104/T65, Issue 1 dated                   39.13
  9/22/82.
Technical Instruction No. 100/T53 dated October                    39.13
  20, 1981.
Technical Instruction No. 68 dated August 14, 1974                 39.13
Technical Instruction No. 70 dated September 11,                   39.13
  1974.


Socata Groupe AEROSPATIALE

  Socata Product Support, Aeroport Tarbes-Ossun-
  Lourdes, B P 930, F65009 Tarbes Cedex, France; 
  Telephone 62.41.74.26; FAX: 62.41.74.32; or the 
  Product Support Manager, U.S. AEROSPATIALE, 
  Socata Aircraft, North Perry Airport, 7501 
  Pembroke Road, Pembroke Pines, Florida 33023.
Alert Service Bulletin SB 70-077-55, dated                         39.13
  February 1999.
Mandatory Service Bulletin SB 155-27 dated April                   39.13
  2000.
Mandatory Service Bulletin SB 155-27 dated April                   39.13
  2000.
MSB 10-085, Amendment 2, dated April 1996.........                 39.13
MSB 70-046-35, dated May 1998.....................                 39.13
SB 10-080 57, Amendment 2, dated November 1995....                 39.13
SB 10-081-57, Amendment 1, dated August 1996......                 39.13
SB 10-082-57, Amendment 1, dated April 1996,                       39.13
  including Technical Instruction of Modification 
  OPT10 9203-57, Wind Rear Attachment Bracket, 
  dated April 1996, and Technical Instruction of 
  Modification OPT10 9205-57, Wing Rear Attachment 
  Rod, dated April 1996.
SB 10-103, dated June 1996........................                 39.13
SB 10-104, dated June 1996........................                 39.13
SB 70-048-57, Amendment 1, dated January 1995.....                 39.13
SB 70-061-25, dated June 1995.....................                 39.13
SB 70-072, accomplishment instructions section,                    39.13
  dated January 1996.
Service Bulletin 70-088 dated November 2000.......                 39.13
Service Bulletin SB 70-084 dated September 2000...                 39.13
Service Bulletin SB 70-085 71 dated October 2000..                 39.13
Service Bulletin SB 70-087 57 Amendment 1 dated                    39.13
  November 2000.
Service Bulletin SB-10-114-55 dated September 2000                 39.13
Service Bulletin SB-10-115-25 dated December 2000.                 39.13
Service Bulletin SB-70-090-28 dated December 2000.                 39.13
TBM Aircraft SB 70-079-55, dated April 1996.......                 39.13
TBM SB 70-027, dated September, 1993..............                 39.13
TBM SB 70-028, dated September, 1993..............                 39.13
Technical Instruction 9110, dated October 1985....                 39.13
Technical Instruction 9110, Amendment 1, dated                     39.13
  January 31, 1992.
Technical Instruction of Modification No. OPT70                    39.13
K020-30, dated February 1993.
[[Page 1047]]

Technical Instruction of Modification OPT10 9198-                  39.13
  53, including Amendment 2 dated October 1994.
Technical Instruction of Modification OPT10 9201-                  39.13
  57, Reinforcement of the Main Landing Gear 
  Support Ribs, Amendment 1, dated April 1996.
Technical Instruction of Modification OPT70 KO59-                  39.13
  32, dated December 1995, as referenced in Socata 
  SB 70-073, Amdt. 1, dated June 1996.


Society of Automotive Engineers, Inc.

  400 Commonwealth Dr., Warrenton, PA 15096
Standard Values at Atmospheric Absorption as a     Part 36, Appendix A, 
  Function of Temperature and Humidity for Use in              Sec A36.9
  Evaluating dated Mar. 15, 1975.


Sogerma-Socea--Airbus Industrie

  Airbus Support Division, Avenue Didier Daurat, 
  31700 Blagnac, France
SB 25-188, Rev. 1 dated July 2, 1991..............                 39.13


Soloy Conversions, Ltd.

  450 Pat Kennedy Way, S.W., Olympia, WA 98508
SB 02-680 dated May 28, 1991......................                 39.13


Stemme GmbH & Co. KG

  Flugplatz Gebaude 47, D-15344 Staussberg, 
  Germany.
Installation Instruction No. A34-10-017-E,                         39.13
  Amendment-Index 01.a, dated August 10, 1998, as 
  referenced in Stemme SB No. A31-10-017, 
  Amendment-Index 02.a, dated May 20, 1998.
Procedural Instruction A17-10AP-V/2-E, Amendment-                  39.13
  Index:01.a dated August 24, 1999.
SB A31-10-018, dated June 3, 1994.................                 39.13
SB A31-10-021, dated June 28, 1995................                 39.13
SB A31-10-022, dated August 16, 1996..............                 39.13
SB A31-10-032, Amendment-Index 02.a, dated July                    39.13
  10, 1998.
Service Bulletin A31-10-051, Amendment-Index: 05.a                 39.13
  dated December 6, 1999.
Service Bulletin A31-10-055 dated October 9, 2000.                 39.13
Technical Bulletin A31-10-003, dated February 7,                   39.13
  1992.
SB A31-10-020, Am-index: 02.a, pages 3 and 4,                      39.13
  dated October 7, 1996.
Service Bulletin No. A31-10-034, Amendment 01.a,                   39.13
  Pages 3 and 4, dated July 24, 1998.


Superior Air Parts, Inc.

  14280 Gillis Rd., Dallas, TX 75244-3792; 
  Telephone (800) 487-4884, fax(214) 490-8471.
MSB 96-001, dated August 5, 1996..................                 39.13
Mandatory SB 96-002, Rev. A, dated December 17,                    39.13
  1996.
SB No. T95-SB001, Rev. A, dated September 29, 1995                 39.13
SB No. T95-SB002, Rev. A, dated September 29, 1995                 39.13


Switlik Parachute Co., Inc.

  1325 East State Street, P.O. Box 1328, Trenton, 
  NJ 8607
SB No. 25-00-19 dated September 8, 1987...........                 39.13


Teledyne Continental Motors, Aircraft Products Division

  P.O. Box 90, Mobile, Alabama 36601
LTS101B-72-50-0116 Rev. 6 dated August 14, 1992...                 39.13
LTS101B-72-50-0119 Rev. 2 dated June 17, 1991.....                 39.13
LTS101B-72-50-0127 Rev. 2 dated August 14, 1992...                 39.13

[[Page 1048]]

LTS101B-72-50-0129 Rev. 3 dated August 14, 1992...                 39.13
M91-10, Rev. 1, dated November 27, 1991...........                 39.13
Continental Motors Critical SB 99-6A, dated July                   39.13
  21, 1999.
Continental Motors Mandatory SB 99-3C, dated July                  39.13
  27, 1999.
Critical SB 93-13, dated August 12, 1993..........                 39.13
Critical SB CSB641, dated February 1, 1994........                 39.13
Critical SB CSB96-8, dated June 25, 1996..........                 39.13
Critical SB CSB97-10A, dated July 15, 1997........                 39.13
Mandatory SB M93-9, Rev. 1, dated March 10, 1993..                 39.13
Mandatory SB M85-3 dated February 4, 1985.........                 39.13
Mandatory SB M87-26 dated December 21, 1987.......                 39.13
Mandatory SB MSB96-10, dated August 15, 1996......                 39.13
Mandatory SB No. 93-12, dated May 12, 1993........                 39.13
Mandatory SB No. MSB645, dated April 4, 1994; and                  39.13
  TCM SB No. 639, dated March, 1993.
Mandatory SB No. MSB94-9, dated October 21, 1994..                 39.13
MSB 00-5C dated October 10, 2000..................                 39.13
SB M84-15, dated December 21, 1984................                 39.13
SB M87-25 dated December 15, 1987.................                 39.13
SB M87-5, Rev. 1 dated May 25, 1987...............                 39.13
SB M88-10, dated August 24, 1988..................                 39.13
SB M88-5 dated April 4, 1988......................                 39.13
SB M88-6 dated April 4, 1988......................                 39.13
SB M89-14 dated June 29, 1989.....................                 39.13
SB M92-13, dated September 4, 1992................                 39.13
SB No. M92-4, Rev. 1, dated February 5, 1992......                 39.13
SB No. MSB644, dated April 4, 1994................                 39.13
SB No. SB94-8, dated September 14, 1994...........                 39.13
SB TCM CSB95-1A, Rev. A, dated April 5, 1995......                 39.13


Terra Corp

  3520 Pan American Freeway NE, Albuquerque, NM 
  87107-4796
Mandatory SB No. SB-104, Rev. 1, dated June 27,                    39.13
  1994.


Test Instrumentation, Inc.

  4809 11th Avenue, S.E., Bellevue, Washington 
  98006See alsoMitsubishi Heavy Industries
Doc. No. MU2-1001 Revision C dated June 15, 1997..                 39.13
Doc. No. MU2-1001 Revision C dated June 15, 1997..                 39.13
Doc. No. MU2-1001 Revision D dated December 17,                    39.13
  1997.
Doc. No. MU2-1001 Revision D dated December 17,                    39.13
  1997.
Doc. No. MU2-4001 Revision C dated June 30, 1997..                 39.13
Doc. No. MU2-4001 Revision C dated June 30, 1997..                 39.13
Doc. No. MU2-4001 Revision F dated July 14, 1998..                 39.13
Doc. No. MU2-5001 Revision E dated May 21, 1997...                 39.13
Doc. No. MU2-5001 Revision E dated May 21, 1997...                 39.13


TEXTRON Lycoming, Williamsport Division

  Williamsport, PA 17701
ALF502-72-0008 Revision 1 dated October 14, 1980..                 39.13
ALF502-72-0010 dated October 14, 1980.............                 39.13
RS-88 Including Supplement No. 1, Revised August                   39.13
  10, 1983.
SB 465A...........................................                 39.13
SB No. LTS101A-73-0043............................                 39.13
SB No. 381C, dated November 7, 1975...............                 39.13
SB No. 398, dated April 30, 1976..................                 39.13

[[Page 1049]]

SB No. 467, Bendix Energy Control SB Nos. RS-85                    39.13
  Including Supplement No. 1, Revised August 10, 
  1983,.
SB No. 477A dated February 16, 1987...............                 39.13
SB No. ALF502L-72-0163 dated June 8, 1987.........                 39.13
SB No. ALF502R-72-0160, Rev. 1 dated March 20,                     39.13
  1987.
SB No. ALF502R-72-0160, Rev. 1, dated March 23,                    39.13
  1987.
SB No. ALF502R-72-0160, Rev. 2, dated May 26, 1987                 39.13
SB No. ALF502R-72-0163 dated June 8, 1987.........                 39.13
SB No. ALF502R-79-0162 dated March 23, 1987.......                 39.13
SB No. ALF502R-79-0162, Rev. 1, dated May 26, 1987                 39.13
SB No. ALF502R-79-0162, Rev. 2, dated September 8,                 39.13
  1987.
Service Instruction No. 1191, dated March 31, 1972                 39.13
Service Letter 047 dated October 10, 1986.........                 39.13
SB No. 385C, dated October 3, 1975, with                           39.13
  Supplement No. 1, dated March 18, 1977.
SB No. 454B, dated January 2, 1987................                 39.13
SB No. 455D, dated January 2, 1987................                 39.13
Service Letter 047 dated October 10, 1986.........                 39.13
Alert SB No. A-ALF-502R 73-12, Rev. 1, dated April                 39.13
  7, 1992.
Alert SB No. A-LT101-72-50-0163, Rev. 1, dated....                 39.13
CSL 063 R-1, Rev. 1 dated May 31, 1991............                 39.13
LTS101B-72-50-0116, Rev. 6, dated August 14, 1992.                 39.13
LTS101B-73-10-0127, Rev. 2, dated August 14, 1992.                 39.13
LTS101C-72-50- 0119, Rev. 2, dated June 17, 1991..                 39.13
LTS101C-73-10-0129, Rev. 3, dated August 14, 1992.                 39.13
Mandatory SB 525A, dated October 7, 1996..........                 39.13
Mandatory SB No. 527C, dated April 18, 1997,                       39.13
  including Attachments I and II, dated April 18, 
  1997.
MSB 505B, dated December 1, 1997..................                 39.13
MSB 530, dated December 1, 1997...................                 39.13
SB 475, Rev. A dated July 16, 1990................                 39.13
SB 484 dated Jan. 30, 1989........................                 39.13
SB 499A dated June 14, 1991.......................                 39.13
SB 529, dated December 1, 1997....................                 39.13
SB ALF502 72-0002, Rev. 22, dated December 23,                     39.13
  1992.
SB ALF502 72-0004, Rev. 11, dated June 17, 1987...                 39.13
SB ALF502L 72-259, dated August 13, 1993..........                 39.13
SB ALF502L 72-259, dated August 13, 1993..........                 39.13
SB ALF502L 72-270, dated April 30, 1993...........                 39.13
SB ALF502R 72-259 dated August 13, 1993...........                 39.13
SB ALF502R 72-259 dated August 13, 1993...........                 39.13
SB ALF502R 72-270, Rev. 1, dated March 31, 1992...                 39.13
SB LT 101-72-00-0093, Rev. 5 dated Jan. 15, 1990..                 39.13
SB LT101-72-50-0144, dated January 15, 1993.......                 39.13
SB LT101-72-50-0145, dated November 27, 1991......                 39.13
SB LT101-72-50-0150, dated September 1, 1993......                 39.13
SB LTS 101C-72-00-0131 dated Sep. 17, 1990........                 39.13
SB LTS101B-72-50-0122, Rev. 4, dated June 17, 1991                 39.13
SB No. 342A, dated May 26, 1992...................                 39.13
SB No. 456F, dated February 8, 1993...............                 39.13
SB No. 501, Rev. B (501B) dated Nov. 15, 1991.....                 39.13
SB No. 524 (including Attachment), dated September                 39.13
  1, 1995.
SB No. LT 101-72-00-0093, Rev. 2 dated May 12,                     39.13
1987.
[[Page 1050]]

SB No. LT 101-72-00-0093, Rev. 3 dated May 29,                     39.13
  1987.
SB No. LT 101-72-30-0088, Rev. 5, dated September                  39.13
  25, 1992.
SB No. LT 101-72-40-0103 dated January 15, 1988...                 39.13
SB No. LT 101-77-30-0104, Rev. 1 dated March 18,                   39.13
  1988.
SB No. T5313B/17-0020, Rev. 4, dated July 5, 1994.                 39.13
SB No. T5313B/17-0052, Rev. 2, dated December 16,                  39.13
  1993.
SB No. T5508D-0002, Rev. 7, dated June 25, 1993...                 39.13
SB No. T5508D-0040, dated June 25, 1993...........                 39.13
SB, 72-203 dated June 16, 1989....................                 39.13
SB, 72-218 dated May 26, 1989.....................                 39.13
SB, 72-237 dated November 30, 1989................                 39.13
SB, ALF, 502 L-72-203, Rev. 3 dated Dec. 7, 1990..                 39.13
Service Instruction (SI) No. 1009AJ, dated July 1,                 39.13
  1992.


Tosington Enterprises, Inc

  2261 Madera Road, Simi Valley, CA 93065
SB 001, dated July 1993...........................                 39.13


Transaero Industries Inc

  502 North Oak St., Inglewood, CA 90302-2942
SB 192, Rev. C dated Aug. 12, 1991................                 39.13


Turbomeca

  Technical Publications Department, 64511 Bordes 
  Cedex, France
Arrius Service Bulletin 319-73-0016 Revision 1                     39.13
  dated December 22, 1997.
Artouste III Service Bulletin 218-72-0099 dated                    39.13
  September 14, 1998.
Makila IA298-71-0137 dated December 22, 1997......                 39.13
SB 292 72 0150, dated April 10, 1992..............                 39.13
SB 292 72 0153, dated February 22, 1993...........                 39.13
SB 292 72 0157, Update 1 dated April 16, 1992.....                 39.13
SB 292 72 0181, dated July 23, 1993...............                 39.13
SB No. 292 72 0157, Rev. 2, dated July 30, 1993...                 39.13
SB No. 292 72 0157, Rev. 2, dated July 30, 1993                    39.13
  and Turbomeca SB No. 292 72 0169, dated July 12, 
  1993.
SB No. 292 72 0169, dated July 12, 1993...........                 39.13
SD 72.292.0141 dated July 13, 1990................                 39.13
Service Bulletin 292-72-0163 Revision 1 dated                      39.13
  April 3, 1996.
Service Document (SD) 292.72.0146 dated Aug. 5,                    39.13
  1991.


Turbomeca, S.A.

  40220 Tarnos France Telephone 33 05 59 64 40 00 
  Fax No. 33 05 59 64 60 80
Alert Service Bulletin A319 73 2012 Revision 2                     39.13
  dated May 25, 1999.
Alert Service Bulletin A319 73 2012 Revision 3                     39.13
  dated July 21, 2000.
Alert Service Bulletin A319 73 4001 Revision 3                     39.13
  dated May 25, 1999.
Alert Service Bulletin A319 73 4001 Revision 4                     39.13
  dated October 20, 2000.
Service Bulletin 218 80 0093 Revision 2 dated                      39.13
  January 14, 1999.
Service Bulletin 218 80 0098 dated January 14,                     39.13
  1999.
Service Bulletin 223 72 0070 dated January 21,                     39.13
  1999.


Twin Commander Aircraft Corp

  19010 59th Dr. NE, Arlington, Washington, 98223-
  7832; Telephone: (360) 435-9797 FAX: (360) 435-
  1112
MSB 226, dated April 14, 1997.....................                 39.13
MSB 226, Rev. 1, dated July 15, 1997..............                 39.13
SB 218, dated May 19, 1994,.......................                 39.13

[[Page 1051]]

SB 218, Rev. Notice 1 dated July 11, 1994,........                 39.13
SB 218, Rev. Notice 2, dated September 23, 1994...                 39.13
SB 223, dated October 24, 1996,...................                 39.13
SB 223, Rev. 2, dated August 18, 1997.............                 39.13
SB 223, Rev. Notice 1, dated May 8, 1997..........                 39.13
SB 224, Rev. A, dated April 24, 1996..............                 39.13
SB 224, Rev. C, dated July 25, 1996...............                 39.13
SB No. 213, dated July 29, 1994...................                 39.13


U.S. Government Printing Office

  Superintendent of Documents, P.O. Box 371954 
  Pittsburgh PA 15250-7954 Phone: 1-866-512-1800; 
  202-512-1800 if calling within Washington DC 
  metropolitan area
Design of Wood Aircraft Structures dated June                      39.13
  1951, Second Ed.
MIL-HDBK-17A Plastics for Aerospace Vehicles dated      23.613; 25.613; 
  Jan., 1971.                                             27.613; 29.613
MIL-HDBK-23A Structural Sandwich Composites dated       23.613; 25.613; 
  Dec. 30, 1968.                                          27.613; 29.613
MIL-HDBK-5C, Vol. 1 & Vol. 2 Metallic Materials         23.613; 23.615; 
  and Elements for Flight Vehicle Structures,           25.693; 27.613; 
  dated Sept. 15, 1976, as amended through Dec.           29.613; 29.685
  15, 1978.
MIL-STD-6866 dated November 29, 1985..............                 39.13


Univair Aircraft Corp

  2500 Himalaya Road, Aurora, CO 80011 Telephone 
  (303) 375-8882; FAX:(303) 375-8888
SB No. 29, Rev. B, dated January 2, 1995..........                 39.13


Ursula Hanle

  Haus Schwalbenwerder, D-14728 Strodehne, Federal 
  Republic of Germany, Telephone and FAX: +;49 (0) 
  33875-30389
101-25/2, dated January 21, 1998, including                        39.13
  drawing No. 101-44-3(2), as referenced therein.


VALSAN Partnership Ltd

  Aviation Products Management, Product Support 
  Office, 39450 Third Street East, Suite 121, 
  Palmdale, CA 93550
SB 71-006, Rev. 1, dated March 3, 1995............                 39.13


Vazer Aerospace

  3025 Eldridge Avenue, Bellingham, WA 98226
A.M. Luton Electrical System Schematic, Drawing                    39.13
  20075, Rev. G and E, Sheets 1, 2, and 3, dated 
  May 15, 1998.
A.M. Luton Service Information Letter No. SA-SIL-                  39.13
  98-11-03, Electrical Systems, Rev. A, dated May 
  15, 1998.


Vulcanair S.p.A.

  Via G. Poscoli, 7, 80026 Casoria (Naples), Italy
Service Bulletin No. 98 dated July 31, 1999.......                 39.13


Weatherly Aviation Company, Inc

  2100 Flightline Drive, suite 1, P.O. Box 68, 
  Lincoln, California 95648
Service Note No. 15, dated July 17, 1996..........                 39.13


Williams Rolls

  2280 West Maple Road, P.O. Box 200, Walled Lake, 
  MI 48390-0200
ASB FJ44-A72-38, dated October 21, 1997...........                 39.13
SB FJ44-72-36, dated October 21, 1997.............                 39.13

[[Page 1052]]

Woodward (AlliedSignal Inc.)

  Aviation Services Division, Data Distribution, 
  Dept. 64-3/2102-1M, P.O. Box 29003, Phoenix, AZ 
  85038-9003; Telephone (602) 365-2548
SB No. WG4044, June 28, 1993......................                 39.13
SB No. WG64047, Rev. 4, October 3, 1994...........                 39.13
SB No.WG64050, October 3, 1994 (available from                     39.13
  AlliedSignal).


Z.1. de l'Arsenal

  BP. 109-17303 Rochefort Cedex France
Service Bulletin SB TAA12-25-402 Revision 1 dated                  39.13
  December 21, 2000.



[[Page 1053]]



                    Table of CFR Titles and Chapters




                     (Revised as of January 1, 2002)

                      Title 1--General Provisions

         I  Administrative Committee of the Federal Register 
                (Parts 1--49)
        II  Office of the Federal Register (Parts 50--299)
        IV  Miscellaneous Agencies (Parts 400--500)

                          Title 2--[Reserved]

              

                        Title 3--The President

         I  Executive Office of the President (Parts 100--199)

                           Title 4--Accounts

         I  General Accounting Office (Parts 1--99)

                   Title 5--Administrative Personnel

         I  Office of Personnel Management (Parts 1--1199)
        II  Merit Systems Protection Board (Parts 1200--1299)
       III  Office of Management and Budget (Parts 1300--1399)
         V  The International Organizations Employees Loyalty 
                Board (Parts 1500--1599)
        VI  Federal Retirement Thrift Investment Board (Parts 
                1600--1699)
       VII  Advisory Commission on Intergovernmental Relations 
                (Parts 1700--1799)
      VIII  Office of Special Counsel (Parts 1800--1899)
        IX  Appalachian Regional Commission (Parts 1900--1999)
        XI  Armed Forces Retirement Home (Part 2100)
       XIV  Federal Labor Relations Authority, General Counsel of 
                the Federal Labor Relations Authority and Federal 
                Service Impasses Panel (Parts 2400--2499)
        XV  Office of Administration, Executive Office of the 
                President (Parts 2500--2599)
       XVI  Office of Government Ethics (Parts 2600--2699)
       XXI  Department of the Treasury (Parts 3100--3199)
      XXII  Federal Deposit Insurance Corporation (Part 3201)

[[Page 1054]]

     XXIII  Department of Energy (Part 3301)
      XXIV  Federal Energy Regulatory Commission (Part 3401)
       XXV  Department of the Interior (Part 3501)
      XXVI  Department of Defense (Part 3601)
    XXVIII  Department of Justice (Part 3801)
      XXIX  Federal Communications Commission (Parts 3900--3999)
       XXX  Farm Credit System Insurance Corporation (Parts 4000--
                4099)
      XXXI  Farm Credit Administration (Parts 4100--4199)
    XXXIII  Overseas Private Investment Corporation (Part 4301)
      XXXV  Office of Personnel Management (Part 4501)
        XL  Interstate Commerce Commission (Part 5001)
       XLI  Commodity Futures Trading Commission (Part 5101)
      XLII  Department of Labor (Part 5201)
     XLIII  National Science Foundation (Part 5301)
       XLV  Department of Health and Human Services (Part 5501)
      XLVI  Postal Rate Commission (Part 5601)
     XLVII  Federal Trade Commission (Part 5701)
    XLVIII  Nuclear Regulatory Commission (Part 5801)
         L  Department of Transportation (Part 6001)
       LII  Export-Import Bank of the United States (Part 6201)
      LIII  Department of Education (Parts 6300--6399)
       LIV  Environmental Protection Agency (Part 6401)
      LVII  General Services Administration (Part 6701)
     LVIII  Board of Governors of the Federal Reserve System (Part 
                6801)
       LIX  National Aeronautics and Space Administration (Part 
                6901)
        LX  United States Postal Service (Part 7001)
       LXI  National Labor Relations Board (Part 7101)
      LXII  Equal Employment Opportunity Commission (Part 7201)
     LXIII  Inter-American Foundation (Part 7301)
       LXV  Department of Housing and Urban Development (Part 
                7501)
      LXVI  National Archives and Records Administration (Part 
                7601)
      LXIX  Tennessee Valley Authority (Part 7901)
      LXXI  Consumer Product Safety Commission (Part 8101)
    LXXIII  Department of Agriculture (Part 8301)
     LXXIV  Federal Mine Safety and Health Review Commission (Part 
                8401)
     LXXVI  Federal Retirement Thrift Investment Board (Part 8601)
    LXXVII  Office of Management and Budget (Part 8701)

                          Title 6--[Reserved]

              

[[Page 1055]]

                         Title 7--Agriculture

            Subtitle A--Office of the Secretary of Agriculture 
                (Parts 0--26)
            Subtitle B--Regulations of the Department of 
                Agriculture
         I  Agricultural Marketing Service (Standards, 
                Inspections, Marketing Practices), Department of 
                Agriculture (Parts 27--209)
        II  Food and Nutrition Service, Department of Agriculture 
                (Parts 210--299)
       III  Animal and Plant Health Inspection Service, Department 
                of Agriculture (Parts 300--399)
        IV  Federal Crop Insurance Corporation, Department of 
                Agriculture (Parts 400--499)
         V  Agricultural Research Service, Department of 
                Agriculture (Parts 500--599)
        VI  Natural Resources Conservation Service, Department of 
                Agriculture (Parts 600--699)
       VII  Farm Service Agency, Department of Agriculture (Parts 
                700--799)
      VIII  Grain Inspection, Packers and Stockyards 
                Administration (Federal Grain Inspection Service), 
                Department of Agriculture (Parts 800--899)
        IX  Agricultural Marketing Service (Marketing Agreements 
                and Orders; Fruits, Vegetables, Nuts), Department 
                of Agriculture (Parts 900--999)
         X  Agricultural Marketing Service (Marketing Agreements 
                and Orders; Milk), Department of Agriculture 
                (Parts 1000--1199)
        XI  Agricultural Marketing Service (Marketing Agreements 
                and Orders; Miscellaneous Commodities), Department 
                of Agriculture (Parts 1200--1299)
      XIII  Northeast Dairy Compact Commission (Parts 1300--1399)
       XIV  Commodity Credit Corporation, Department of 
                Agriculture (Parts 1400--1499)
        XV  Foreign Agricultural Service, Department of 
                Agriculture (Parts 1500--1599)
       XVI  Rural Telephone Bank, Department of Agriculture (Parts 
                1600--1699)
      XVII  Rural Utilities Service, Department of Agriculture 
                (Parts 1700--1799)
     XVIII  Rural Housing Service, Rural Business-Cooperative 
                Service, Rural Utilities Service, and Farm Service 
                Agency, Department of Agriculture (Parts 1800--
                2099)
      XXVI  Office of Inspector General, Department of Agriculture 
                (Parts 2600--2699)
     XXVII  Office of Information Resources Management, Department 
                of Agriculture (Parts 2700--2799)
    XXVIII  Office of Operations, Department of Agriculture (Parts 
                2800--2899)
      XXIX  Office of Energy, Department of Agriculture (Parts 
                2900--2999)
       XXX  Office of the Chief Financial Officer, Department of 
                Agriculture (Parts 3000--3099)

[[Page 1056]]

      XXXI  Office of Environmental Quality, Department of 
                Agriculture (Parts 3100--3199)
     XXXII  Office of Procurement and Property Management, 
                Department of Agriculture (Parts 3200--3299)
    XXXIII  Office of Transportation, Department of Agriculture 
                (Parts 3300--3399)
     XXXIV  Cooperative State Research, Education, and Extension 
                Service, Department of Agriculture (Parts 3400--
                3499)
      XXXV  Rural Housing Service, Department of Agriculture 
                (Parts 3500--3599)
     XXXVI  National Agricultural Statistics Service, Department 
                of Agriculture (Parts 3600--3699)
    XXXVII  Economic Research Service, Department of Agriculture 
                (Parts 3700--3799)
   XXXVIII  World Agricultural Outlook Board, Department of 
                Agriculture (Parts 3800--3899)
       XLI  [Reserved]
      XLII  Rural Business-Cooperative Service and Rural Utilities 
                Service, Department of Agriculture (Parts 4200--
                4299)

                    Title 8--Aliens and Nationality

         I  Immigration and Naturalization Service, Department of 
                Justice (Parts 1--599)

                 Title 9--Animals and Animal Products

         I  Animal and Plant Health Inspection Service, Department 
                of Agriculture (Parts 1--199)
        II  Grain Inspection, Packers and Stockyards 
                Administration (Packers and Stockyards Programs), 
                Department of Agriculture (Parts 200--299)
       III  Food Safety and Inspection Service, Department of 
                Agriculture (Parts 300--599)

                           Title 10--Energy

         I  Nuclear Regulatory Commission (Parts 0--199)
        II  Department of Energy (Parts 200--699)
       III  Department of Energy (Parts 700--999)
         X  Department of Energy (General Provisions) (Parts 
                1000--1099)
      XVII  Defense Nuclear Facilities Safety Board (Parts 1700--
                1799)
     XVIII  Northeast Interstate Low-Level Radioactive Waste 
                Commission (Part 1800)

                      Title 11--Federal Elections

         I  Federal Election Commission (Parts 1--9099)

[[Page 1057]]

                      Title 12--Banks and Banking

         I  Comptroller of the Currency, Department of the 
                Treasury (Parts 1--199)
        II  Federal Reserve System (Parts 200--299)
       III  Federal Deposit Insurance Corporation (Parts 300--399)
        IV  Export-Import Bank of the United States (Parts 400--
                499)
         V  Office of Thrift Supervision, Department of the 
                Treasury (Parts 500--599)
        VI  Farm Credit Administration (Parts 600--699)
       VII  National Credit Union Administration (Parts 700--799)
      VIII  Federal Financing Bank (Parts 800--899)
        IX  Federal Housing Finance Board (Parts 900--999)
        XI  Federal Financial Institutions Examination Council 
                (Parts 1100--1199)
       XIV  Farm Credit System Insurance Corporation (Parts 1400--
                1499)
        XV  Department of the Treasury (Parts 1500--1599)
      XVII  Office of Federal Housing Enterprise Oversight, 
                Department of Housing and Urban Development (Parts 
                1700--1799)
     XVIII  Community Development Financial Institutions Fund, 
                Department of the Treasury (Parts 1800--1899)

               Title 13--Business Credit and Assistance

         I  Small Business Administration (Parts 1--199)
       III  Economic Development Administration, Department of 
                Commerce (Parts 300--399)
        IV  Emergency Steel Guarantee Loan Board (Parts 400--499)
         V  Emergency Oil and Gas Guaranteed Loan Board (Parts 
                500--599)

                    Title 14--Aeronautics and Space

         I  Federal Aviation Administration, Department of 
                Transportation (Parts 1--199)
        II  Office of the Secretary, Department of Transportation 
                (Aviation Proceedings) (Parts 200--399)
       III  Commercial Space Transportation, Federal Aviation 
                Administration, Department of Transportation 
                (Parts 400--499)
         V  National Aeronautics and Space Administration (Parts 
                1200--1299)
        VI  Office of Management and Budget (Parts 1300--1399)

                 Title 15--Commerce and Foreign Trade

            Subtitle A--Office of the Secretary of Commerce (Parts 
                0--29)
            Subtitle B--Regulations Relating to Commerce and 
                Foreign Trade
         I  Bureau of the Census, Department of Commerce (Parts 
                30--199)

[[Page 1058]]

        II  National Institute of Standards and Technology, 
                Department of Commerce (Parts 200--299)
       III  International Trade Administration, Department of 
                Commerce (Parts 300--399)
        IV  Foreign-Trade Zones Board, Department of Commerce 
                (Parts 400--499)
       VII  Bureau of Export Administration, Department of 
                Commerce (Parts 700--799)
      VIII  Bureau of Economic Analysis, Department of Commerce 
                (Parts 800--899)
        IX  National Oceanic and Atmospheric Administration, 
                Department of Commerce (Parts 900--999)
        XI  Technology Administration, Department of Commerce 
                (Parts 1100--1199)
      XIII  East-West Foreign Trade Board (Parts 1300--1399)
       XIV  Minority Business Development Agency (Parts 1400--
                1499)
            Subtitle C--Regulations Relating to Foreign Trade 
                Agreements
        XX  Office of the United States Trade Representative 
                (Parts 2000--2099)
            Subtitle D--Regulations Relating to Telecommunications 
                and Information
     XXIII  National Telecommunications and Information 
                Administration, Department of Commerce (Parts 
                2300--2399)

                    Title 16--Commercial Practices

         I  Federal Trade Commission (Parts 0--999)
        II  Consumer Product Safety Commission (Parts 1000--1799)

             Title 17--Commodity and Securities Exchanges

         I  Commodity Futures Trading Commission (Parts 1--199)
        II  Securities and Exchange Commission (Parts 200--399)
        IV  Department of the Treasury (Parts 400--499)

          Title 18--Conservation of Power and Water Resources

         I  Federal Energy Regulatory Commission, Department of 
                Energy (Parts 1--399)
       III  Delaware River Basin Commission (Parts 400--499)
        VI  Water Resources Council (Parts 700--799)
      VIII  Susquehanna River Basin Commission (Parts 800--899)
      XIII  Tennessee Valley Authority (Parts 1300--1399)

                       Title 19--Customs Duties

         I  United States Customs Service, Department of the 
                Treasury (Parts 1--199)

[[Page 1059]]

        II  United States International Trade Commission (Parts 
                200--299)
       III  International Trade Administration, Department of 
                Commerce (Parts 300--399)

                     Title 20--Employees' Benefits

         I  Office of Workers' Compensation Programs, Department 
                of Labor (Parts 1--199)
        II  Railroad Retirement Board (Parts 200--399)
       III  Social Security Administration (Parts 400--499)
        IV  Employees' Compensation Appeals Board, Department of 
                Labor (Parts 500--599)
         V  Employment and Training Administration, Department of 
                Labor (Parts 600--699)
        VI  Employment Standards Administration, Department of 
                Labor (Parts 700--799)
       VII  Benefits Review Board, Department of Labor (Parts 
                800--899)
      VIII  Joint Board for the Enrollment of Actuaries (Parts 
                900--999)
        IX  Office of the Assistant Secretary for Veterans' 
                Employment and Training, Department of Labor 
                (Parts 1000--1099)

                       Title 21--Food and Drugs

         I  Food and Drug Administration, Department of Health and 
                Human Services (Parts 1--1299)
        II  Drug Enforcement Administration, Department of Justice 
                (Parts 1300--1399)
       III  Office of National Drug Control Policy (Parts 1400--
                1499)

                      Title 22--Foreign Relations

         I  Department of State (Parts 1--199)
        II  Agency for International Development (Parts 200--299)
       III  Peace Corps (Parts 300--399)
        IV  International Joint Commission, United States and 
                Canada (Parts 400--499)
         V  Broadcasting Board of Governors (Parts 500--599)
       VII  Overseas Private Investment Corporation (Parts 700--
                799)
        IX  Foreign Service Grievance Board Regulations (Parts 
                900--999)
         X  Inter-American Foundation (Parts 1000--1099)
        XI  International Boundary and Water Commission, United 
                States and Mexico, United States Section (Parts 
                1100--1199)
       XII  United States International Development Cooperation 
                Agency (Parts 1200--1299)
       XIV  Foreign Service Labor Relations Board; Federal Labor 
                Relations Authority; General Counsel of the 
                Federal Labor Relations Authority; and the Foreign 
                Service Impasse Disputes Panel (Parts 1400--1499)

[[Page 1060]]

        XV  African Development Foundation (Parts 1500--1599)
       XVI  Japan-United States Friendship Commission (Parts 
                1600--1699)
      XVII  United States Institute of Peace (Parts 1700--1799)

                          Title 23--Highways

         I  Federal Highway Administration, Department of 
                Transportation (Parts 1--999)
        II  National Highway Traffic Safety Administration and 
                Federal Highway Administration, Department of 
                Transportation (Parts 1200--1299)
       III  National Highway Traffic Safety Administration, 
                Department of Transportation (Parts 1300--1399)

                Title 24--Housing and Urban Development

            Subtitle A--Office of the Secretary, Department of 
                Housing and Urban Development (Parts 0--99)
            Subtitle B--Regulations Relating to Housing and Urban 
                Development
         I  Office of Assistant Secretary for Equal Opportunity, 
                Department of Housing and Urban Development (Parts 
                100--199)
        II  Office of Assistant Secretary for Housing-Federal 
                Housing Commissioner, Department of Housing and 
                Urban Development (Parts 200--299)
       III  Government National Mortgage Association, Department 
                of Housing and Urban Development (Parts 300--399)
        IV  Office of Housing and Office of Multifamily Housing 
                Assistance Restructuring, Department of Housing 
                and Urban Development (Parts 400--499)
         V  Office of Assistant Secretary for Community Planning 
                and Development, Department of Housing and Urban 
                Development (Parts 500--599)
        VI  Office of Assistant Secretary for Community Planning 
                and Development, Department of Housing and Urban 
                Development (Parts 600--699) [Reserved]
       VII  Office of the Secretary, Department of Housing and 
                Urban Development (Housing Assistance Programs and 
                Public and Indian Housing Programs) (Parts 700--
                799)
      VIII  Office of the Assistant Secretary for Housing--Federal 
                Housing Commissioner, Department of Housing and 
                Urban Development (Section 8 Housing Assistance 
                Programs, Section 202 Direct Loan Program, Section 
                202 Supportive Housing for the Elderly Program and 
                Section 811 Supportive Housing for Persons With 
                Disabilities Program) (Parts 800--899)
        IX  Office of Assistant Secretary for Public and Indian 
                Housing, Department of Housing and Urban 
                Development (Parts 900--999)
         X  Office of Assistant Secretary for Housing--Federal 
                Housing Commissioner, Department of Housing and 
                Urban Development (Interstate Land Sales 
                Registration Program) (Parts 1700--1799)

[[Page 1061]]

       XII  Office of Inspector General, Department of Housing and 
                Urban Development (Parts 2000--2099)
        XX  Office of Assistant Secretary for Housing--Federal 
                Housing Commissioner, Department of Housing and 
                Urban Development (Parts 3200--3899)
       XXV  Neighborhood Reinvestment Corporation (Parts 4100--
                4199)

                           Title 25--Indians

         I  Bureau of Indian Affairs, Department of the Interior 
                (Parts 1--299)
        II  Indian Arts and Crafts Board, Department of the 
                Interior (Parts 300--399)
       III  National Indian Gaming Commission, Department of the 
                Interior (Parts 500--599)
        IV  Office of Navajo and Hopi Indian Relocation (Parts 
                700--799)
         V  Bureau of Indian Affairs, Department of the Interior, 
                and Indian Health Service, Department of Health 
                and Human Services (Part 900)
        VI  Office of the Assistant Secretary-Indian Affairs, 
                Department of the Interior (Parts 1000--1199)
       VII  Office of the Special Trustee for American Indians, 
                Department of the Interior (Part 1200)

                      Title 26--Internal Revenue

         I  Internal Revenue Service, Department of the Treasury 
                (Parts 1--899)

           Title 27--Alcohol, Tobacco Products and Firearms

         I  Bureau of Alcohol, Tobacco and Firearms, Department of 
                the Treasury (Parts 1--299)

                   Title 28--Judicial Administration

         I  Department of Justice (Parts 0--199)
       III  Federal Prison Industries, Inc., Department of Justice 
                (Parts 300--399)
         V  Bureau of Prisons, Department of Justice (Parts 500--
                599)
        VI  Offices of Independent Counsel, Department of Justice 
                (Parts 600--699)
       VII  Office of Independent Counsel (Parts 700--799)
      VIII  Court Services and Offender Supervision Agency for the 
                District of Columbia (Parts 800--899)
        IX  National Crime Prevention and Privacy Compact Council 
                (Parts 900--999)
        XI  Department of Justice and Department of State (Parts 
                1100--1199)

[[Page 1062]]

                            Title 29--Labor

            Subtitle A--Office of the Secretary of Labor (Parts 
                0--99)
            Subtitle B--Regulations Relating to Labor
         I  National Labor Relations Board (Parts 100--199)
        II  Office of Labor-Management Standards, Department of 
                Labor (Parts 200--299)
       III  National Railroad Adjustment Board (Parts 300--399)
        IV  Office of Labor-Management Standards, Department of 
                Labor (Parts 400--499)
         V  Wage and Hour Division, Department of Labor (Parts 
                500--899)
        IX  Construction Industry Collective Bargaining Commission 
                (Parts 900--999)
         X  National Mediation Board (Parts 1200--1299)
       XII  Federal Mediation and Conciliation Service (Parts 
                1400--1499)
       XIV  Equal Employment Opportunity Commission (Parts 1600--
                1699)
      XVII  Occupational Safety and Health Administration, 
                Department of Labor (Parts 1900--1999)
        XX  Occupational Safety and Health Review Commission 
                (Parts 2200--2499)
       XXV  Pension and Welfare Benefits Administration, 
                Department of Labor (Parts 2500--2599)
     XXVII  Federal Mine Safety and Health Review Commission 
                (Parts 2700--2799)
        XL  Pension Benefit Guaranty Corporation (Parts 4000--
                4999)

                      Title 30--Mineral Resources

         I  Mine Safety and Health Administration, Department of 
                Labor (Parts 1--199)
        II  Minerals Management Service, Department of the 
                Interior (Parts 200--299)
       III  Board of Surface Mining and Reclamation Appeals, 
                Department of the Interior (Parts 300--399)
        IV  Geological Survey, Department of the Interior (Parts 
                400--499)
        VI  Bureau of Mines, Department of the Interior (Parts 
                600--699)
       VII  Office of Surface Mining Reclamation and Enforcement, 
                Department of the Interior (Parts 700--999)

                 Title 31--Money and Finance: Treasury

            Subtitle A--Office of the Secretary of the Treasury 
                (Parts 0--50)
            Subtitle B--Regulations Relating to Money and Finance
         I  Monetary Offices, Department of the Treasury (Parts 
                51--199)
        II  Fiscal Service, Department of the Treasury (Parts 
                200--399)
        IV  Secret Service, Department of the Treasury (Parts 
                400--499)
         V  Office of Foreign Assets Control, Department of the 
                Treasury (Parts 500--599)

[[Page 1063]]

        VI  Bureau of Engraving and Printing, Department of the 
                Treasury (Parts 600--699)
       VII  Federal Law Enforcement Training Center, Department of 
                the Treasury (Parts 700--799)
      VIII  Office of International Investment, Department of the 
                Treasury (Parts 800--899)
        IX  Federal Claims Collection Standards (Department of the 
                Treasury--Department of Justice) (Parts 900--999)

                      Title 32--National Defense

            Subtitle A--Department of Defense
         I  Office of the Secretary of Defense (Parts 1--399)
         V  Department of the Army (Parts 400--699)
        VI  Department of the Navy (Parts 700--799)
       VII  Department of the Air Force (Parts 800--1099)
            Subtitle B--Other Regulations Relating to National 
                Defense
       XII  Defense Logistics Agency (Parts 1200--1299)
       XVI  Selective Service System (Parts 1600--1699)
     XVIII  National Counterintelligence Center (Parts 1800--1899)
       XIX  Central Intelligence Agency (Parts 1900--1999)
        XX  Information Security Oversight Office, National 
                Archives and Records Administration (Parts 2000--
                2099)
       XXI  National Security Council (Parts 2100--2199)
      XXIV  Office of Science and Technology Policy (Parts 2400--
                2499)
     XXVII  Office for Micronesian Status Negotiations (Parts 
                2700--2799)
    XXVIII  Office of the Vice President of the United States 
                (Parts 2800--2899)

               Title 33--Navigation and Navigable Waters

         I  Coast Guard, Department of Transportation (Parts 1--
                199)
        II  Corps of Engineers, Department of the Army (Parts 
                200--399)
        IV  Saint Lawrence Seaway Development Corporation, 
                Department of Transportation (Parts 400--499)

                          Title 34--Education

            Subtitle A--Office of the Secretary, Department of 
                Education (Parts 1--99)
            Subtitle B--Regulations of the Offices of the 
                Department of Education
         I  Office for Civil Rights, Department of Education 
                (Parts 100--199)
        II  Office of Elementary and Secondary Education, 
                Department of Education (Parts 200--299)
       III  Office of Special Education and Rehabilitative 
                Services, Department of Education (Parts 300--399)

[[Page 1064]]

        IV  Office of Vocational and Adult Education, Department 
                of Education (Parts 400--499)
         V  Office of Bilingual Education and Minority Languages 
                Affairs, Department of Education (Parts 500--599)
        VI  Office of Postsecondary Education, Department of 
                Education (Parts 600--699)
       VII  Office of Educational Research and Improvement, 
                Department of Education (Parts 700--799)
        XI  National Institute for Literacy (Parts 1100--1199)
            Subtitle C--Regulations Relating to Education
       XII  National Council on Disability (Parts 1200--1299)

                        Title 35--Panama Canal

         I  Panama Canal Regulations (Parts 1--299)

             Title 36--Parks, Forests, and Public Property

         I  National Park Service, Department of the Interior 
                (Parts 1--199)
        II  Forest Service, Department of Agriculture (Parts 200--
                299)
       III  Corps of Engineers, Department of the Army (Parts 
                300--399)
        IV  American Battle Monuments Commission (Parts 400--499)
         V  Smithsonian Institution (Parts 500--599)
       VII  Library of Congress (Parts 700--799)
      VIII  Advisory Council on Historic Preservation (Parts 800--
                899)
        IX  Pennsylvania Avenue Development Corporation (Parts 
                900--999)
         X  Presidio Trust (Parts 1000--1099)
        XI  Architectural and Transportation Barriers Compliance 
                Board (Parts 1100--1199)
       XII  National Archives and Records Administration (Parts 
                1200--1299)
        XV  Oklahoma City National Memorial Trust (Part 1501)
       XVI  Morris K. Udall Scholarship and Excellence in National 
                Environmental Policy Foundation (Parts 1600--1699)

             Title 37--Patents, Trademarks, and Copyrights

         I  United States Patent and Trademark Office, Department 
                of Commerce (Parts 1--199)
        II  Copyright Office, Library of Congress (Parts 200--299)
        IV  Assistant Secretary for Technology Policy, Department 
                of Commerce (Parts 400--499)
         V  Under Secretary for Technology, Department of Commerce 
                (Parts 500--599)

           Title 38--Pensions, Bonuses, and Veterans' Relief

         I  Department of Veterans Affairs (Parts 0--99)

[[Page 1065]]

                       Title 39--Postal Service

         I  United States Postal Service (Parts 1--999)
       III  Postal Rate Commission (Parts 3000--3099)

                  Title 40--Protection of Environment

         I  Environmental Protection Agency (Parts 1--799)
        IV  Environmental Protection Agency and Department of 
                Justice (Parts 1400--1499)
         V  Council on Environmental Quality (Parts 1500--1599)
        VI  Chemical Safety and Hazard Investigation Board (Parts 
                1600--1699)
       VII  Environmental Protection Agency and Department of 
                Defense; Uniform National Discharge Standards for 
                Vessels of the Armed Forces (Parts 1700--1799)

          Title 41--Public Contracts and Property Management

            Subtitle B--Other Provisions Relating to Public 
                Contracts
        50  Public Contracts, Department of Labor (Parts 50-1--50-
                999)
        51  Committee for Purchase From People Who Are Blind or 
                Severely Disabled (Parts 51-1--51-99)
        60  Office of Federal Contract Compliance Programs, Equal 
                Employment Opportunity, Department of Labor (Parts 
                60-1--60-999)
        61  Office of the Assistant Secretary for Veterans' 
                Employment and Training Service, Department of 
                Labor (Parts 61-1--61-999)
            Subtitle C--Federal Property Management Regulations 
                System
       101  Federal Property Management Regulations (Parts 101-1--
                101-99)
       102  Federal Management Regulation (Parts 102-1--102-299)
       105  General Services Administration (Parts 105-1--105-999)
       109  Department of Energy Property Management Regulations 
                (Parts 109-1--109-99)
       114  Department of the Interior (Parts 114-1--114-99)
       115  Environmental Protection Agency (Parts 115-1--115-99)
       128  Department of Justice (Parts 128-1--128-99)
            Subtitle D--Other Provisions Relating to Property 
                Management [Reserved]
            Subtitle E--Federal Information Resources Management 
                Regulations System
       201  Federal Information Resources Management Regulation 
                (Parts 201-1--201-99) [Reserved]
            Subtitle F--Federal Travel Regulation System
       300  General (Parts 300-1--300-99)
       301  Temporary Duty (TDY) Travel Allowances (Parts 301-1--
                301-99)
       302  Relocation Allowances (Parts 302-1--302-99)
       303  Payment of Expenses Connected with the Death of 
                Certain Employees (Part 303-70)

[[Page 1066]]

       304  Payment from a Non-Federal Source for Travel Expenses 
                (Parts 304-1--304-99)

                        Title 42--Public Health

         I  Public Health Service, Department of Health and Human 
                Services (Parts 1--199)
        IV  Centers for Medicare & Medicaid Services, Department 
                of Health and Human Services (Parts 400--499)
         V  Office of Inspector General-Health Care, Department of 
                Health and Human Services (Parts 1000--1999)

                   Title 43--Public Lands: Interior

            Subtitle A--Office of the Secretary of the Interior 
                (Parts 1--199)
            Subtitle B--Regulations Relating to Public Lands
         I  Bureau of Reclamation, Department of the Interior 
                (Parts 200--499)
        II  Bureau of Land Management, Department of the Interior 
                (Parts 1000--9999)
       III  Utah Reclamation Mitigation and Conservation 
                Commission (Parts 10000--10005)

             Title 44--Emergency Management and Assistance

         I  Federal Emergency Management Agency (Parts 0--399)
        IV  Department of Commerce and Department of 
                Transportation (Parts 400--499)

                       Title 45--Public Welfare

            Subtitle A--Department of Health and Human Services 
                (Parts 1--199)
            Subtitle B--Regulations Relating to Public Welfare
        II  Office of Family Assistance (Assistance Programs), 
                Administration for Children and Families, 
                Department of Health and Human Services (Parts 
                200--299)
       III  Office of Child Support Enforcement (Child Support 
                Enforcement Program), Administration for Children 
                and Families, Department of Health and Human 
                Services (Parts 300--399)
        IV  Office of Refugee Resettlement, Administration for 
                Children and Families Department of Health and 
                Human Services (Parts 400--499)
         V  Foreign Claims Settlement Commission of the United 
                States, Department of Justice (Parts 500--599)
        VI  National Science Foundation (Parts 600--699)
       VII  Commission on Civil Rights (Parts 700--799)
      VIII  Office of Personnel Management (Parts 800--899)

[[Page 1067]]

         X  Office of Community Services, Administration for 
                Children and Families, Department of Health and 
                Human Services (Parts 1000--1099)
        XI  National Foundation on the Arts and the Humanities 
                (Parts 1100--1199)
       XII  Corporation for National and Community Service (Parts 
                1200--1299)
      XIII  Office of Human Development Services, Department of 
                Health and Human Services (Parts 1300--1399)
       XVI  Legal Services Corporation (Parts 1600--1699)
      XVII  National Commission on Libraries and Information 
                Science (Parts 1700--1799)
     XVIII  Harry S. Truman Scholarship Foundation (Parts 1800--
                1899)
       XXI  Commission on Fine Arts (Parts 2100--2199)
     XXIII  Arctic Research Commission (Part 2301)
      XXIV  James Madison Memorial Fellowship Foundation (Parts 
                2400--2499)
       XXV  Corporation for National and Community Service (Parts 
                2500--2599)

                          Title 46--Shipping

         I  Coast Guard, Department of Transportation (Parts 1--
                199)
        II  Maritime Administration, Department of Transportation 
                (Parts 200--399)
       III  Coast Guard (Great Lakes Pilotage), Department of 
                Transportation (Parts 400--499)
        IV  Federal Maritime Commission (Parts 500--599)

                      Title 47--Telecommunication

         I  Federal Communications Commission (Parts 0--199)
        II  Office of Science and Technology Policy and National 
                Security Council (Parts 200--299)
       III  National Telecommunications and Information 
                Administration, Department of Commerce (Parts 
                300--399)

           Title 48--Federal Acquisition Regulations System

         1  Federal Acquisition Regulation (Parts 1--99)
         2  Department of Defense (Parts 200--299)
         3  Department of Health and Human Services (Parts 300--
                399)
         4  Department of Agriculture (Parts 400--499)
         5  General Services Administration (Parts 500--599)
         6  Department of State (Parts 600--699)
         7  United States Agency for International Development 
                (Parts 700--799)
         8  Department of Veterans Affairs (Parts 800--899)

[[Page 1068]]

         9  Department of Energy (Parts 900--999)
        10  Department of the Treasury (Parts 1000--1099)
        12  Department of Transportation (Parts 1200--1299)
        13  Department of Commerce (Parts 1300--1399)
        14  Department of the Interior (Parts 1400--1499)
        15  Environmental Protection Agency (Parts 1500--1599)
        16  Office of Personnel Management Federal Employees 
                Health Benefits Acquisition Regulation (Parts 
                1600--1699)
        17  Office of Personnel Management (Parts 1700--1799)
        18  National Aeronautics and Space Administration (Parts 
                1800--1899)
        19  Broadcasting Board of Governors (Parts 1900--1999)
        20  Nuclear Regulatory Commission (Parts 2000--2099)
        21  Office of Personnel Management, Federal Employees 
                Group Life Insurance Federal Acquisition 
                Regulation (Parts 2100--2199)
        23  Social Security Administration (Parts 2300--2399)
        24  Department of Housing and Urban Development (Parts 
                2400--2499)
        25  National Science Foundation (Parts 2500--2599)
        28  Department of Justice (Parts 2800--2899)
        29  Department of Labor (Parts 2900--2999)
        34  Department of Education Acquisition Regulation (Parts 
                3400--3499)
        35  Panama Canal Commission (Parts 3500--3599)
        44  Federal Emergency Management Agency (Parts 4400--4499)
        51  Department of the Army Acquisition Regulations (Parts 
                5100--5199)
        52  Department of the Navy Acquisition Regulations (Parts 
                5200--5299)
        53  Department of the Air Force Federal Acquisition 
                Regulation Supplement (Parts 5300--5399)
        54  Defense Logistics Agency, Department of Defense (Part 
                5452)
        57  African Development Foundation (Parts 5700--5799)
        61  General Services Administration Board of Contract 
                Appeals (Parts 6100--6199)
        63  Department of Transportation Board of Contract Appeals 
                (Parts 6300--6399)
        99  Cost Accounting Standards Board, Office of Federal 
                Procurement Policy, Office of Management and 
                Budget (Parts 9900--9999)

                       Title 49--Transportation

            Subtitle A--Office of the Secretary of Transportation 
                (Parts 1--99)
            Subtitle B--Other Regulations Relating to 
                Transportation
         I  Research and Special Programs Administration, 
                Department of Transportation (Parts 100--199)

[[Page 1069]]

        II  Federal Railroad Administration, Department of 
                Transportation (Parts 200--299)
       III  Federal Motor Carrier Safety Administration, 
                Department of Transportation (Parts 300--399)
        IV  Coast Guard, Department of Transportation (Parts 400--
                499)
         V  National Highway Traffic Safety Administration, 
                Department of Transportation (Parts 500--599)
        VI  Federal Transit Administration, Department of 
                Transportation (Parts 600--699)
       VII  National Railroad Passenger Corporation (AMTRAK) 
                (Parts 700--799)
      VIII  National Transportation Safety Board (Parts 800--999)
         X  Surface Transportation Board, Department of 
                Transportation (Parts 1000--1399)
        XI  Bureau of Transportation Statistics, Department of 
                Transportation (Parts 1400--1499)
       XII  Transportation Security Administration, Department of 
                Transportation (Parts 1500--1599)

                   Title 50--Wildlife and Fisheries

         I  United States Fish and Wildlife Service, Department of 
                the Interior (Parts 1--199)
        II  National Marine Fisheries Service, National Oceanic 
                and Atmospheric Administration, Department of 
                Commerce (Parts 200--299)
       III  International Fishing and Related Activities (Parts 
                300--399)
        IV  Joint Regulations (United States Fish and Wildlife 
                Service, Department of the Interior and National 
                Marine Fisheries Service, National Oceanic and 
                Atmospheric Administration, Department of 
                Commerce); Endangered Species Committee 
                Regulations (Parts 400--499)
         V  Marine Mammal Commission (Parts 500--599)
        VI  Fishery Conservation and Management, National Oceanic 
                and Atmospheric Administration, Department of 
                Commerce (Parts 600--699)

                      CFR Index and Finding Aids

            Subject/Agency Index
            List of Agency Prepared Indexes
            Parallel Tables of Statutory Authorities and Rules
            List of CFR Titles, Chapters, Subchapters, and Parts
            Alphabetical List of Agencies Appearing in the CFR



[[Page 1071]]





           Alphabetical List of Agencies Appearing in the CFR




                     (Revised as of January 1, 2002)

                                                  CFR Title, Subtitle or 
                     Agency                               Chapter

Administrative Committee of the Federal Register  1, I
Advanced Research Projects Agency                 32, I
Advisory Commission on Intergovernmental          5, VII
     Relations
Advisory Council on Historic Preservation         36, VIII
African Development Foundation                    22, XV
  Federal Acquisition Regulation                  48, 57
Agency for International Development, United      22, II
     States
  Federal Acquisition Regulation                  48, 7
Agricultural Marketing Service                    7, I, IX, X, XI
Agricultural Research Service                     7, V
Agriculture Department                            5, LXXIII
  Agricultural Marketing Service                  7, I, IX, X, XI
  Agricultural Research Service                   7, V
  Animal and Plant Health Inspection Service      7, III; 9, I
  Chief Financial Officer, Office of              7, XXX
  Commodity Credit Corporation                    7, XIV
  Cooperative State Research, Education, and      7, XXXIV
       Extension Service
  Economic Research Service                       7, XXXVII
  Energy, Office of                               7, XXIX
  Environmental Quality, Office of                7, XXXI
  Farm Service Agency                             7, VII, XVIII
  Federal Acquisition Regulation                  48, 4
  Federal Crop Insurance Corporation              7, IV
  Food and Nutrition Service                      7, II
  Food Safety and Inspection Service              9, III
  Foreign Agricultural Service                    7, XV
  Forest Service                                  36, II
  Grain Inspection, Packers and Stockyards        7, VIII; 9, II
       Administration
  Information Resources Management, Office of     7, XXVII
  Inspector General, Office of                    7, XXVI
  National Agricultural Library                   7, XLI
  National Agricultural Statistics Service        7, XXXVI
  Natural Resources Conservation Service          7, VI
  Operations, Office of                           7, XXVIII
  Procurement and Property Management, Office of  7, XXXII
  Rural Business-Cooperative Service              7, XVIII, XLII
  Rural Development Administration                7, XLII
  Rural Housing Service                           7, XVIII, XXXV
  Rural Telephone Bank                            7, XVI
  Rural Utilities Service                         7, XVII, XVIII, XLII
  Secretary of Agriculture, Office of             7, Subtitle A
  Transportation, Office of                       7, XXXIII
  World Agricultural Outlook Board                7, XXXVIII
Air Force Department                              32, VII
  Federal Acquisition Regulation Supplement       48, 53
Alcohol, Tobacco and Firearms, Bureau of          27, I
AMTRAK                                            49, VII
American Battle Monuments Commission              36, IV
American Indians, Office of the Special Trustee   25, VII
Animal and Plant Health Inspection Service        7, III; 9, I
Appalachian Regional Commission                   5, IX
Architectural and Transportation Barriers         36, XI
   Compliance Board
[[Page 1072]]

Arctic Research Commission                        45, XXIII
Armed Forces Retirement Home                      5, XI
Army Department                                   32, V
  Engineers, Corps of                             33, II; 36, III
  Federal Acquisition Regulation                  48, 51
Benefits Review Board                             20, VII
Bilingual Education and Minority Languages        34, V
     Affairs, Office of
Blind or Severely Disabled, Committee for         41, 51
     Purchase From People Who Are
Broadcasting Board of Governors                   22, V
  Federal Acquisition Regulation                  48, 19
Census Bureau                                     15, I
Central Intelligence Agency                       32, XIX
Chief Financial Officer, Office of                7, XXX
Child Support Enforcement, Office of              45, III
Children and Families, Administration for         45, II, III, IV, X
Civil Rights, Commission on                       45, VII
Civil Rights, Office for                          34, I
Coast Guard                                       33, I; 46, I; 49, IV
Coast Guard (Great Lakes Pilotage)                46, III
Commerce Department                               44, IV
  Census Bureau                                   15, I
  Economic Affairs, Under Secretary               37, V
  Economic Analysis, Bureau of                    15, VIII
  Economic Development Administration             13, III
  Emergency Management and Assistance             44, IV
  Export Administration, Bureau of                15, VII
  Federal Acquisition Regulation                  48, 13
  Fishery Conservation and Management             50, VI
  Foreign-Trade Zones Board                       15, IV
  International Trade Administration              15, III; 19, III
  National Institute of Standards and Technology  15, II
  National Marine Fisheries Service               50, II, IV, VI
  National Oceanic and Atmospheric                15, IX; 50, II, III, IV, 
       Administration                             VI
  National Telecommunications and Information     15, XXIII; 47, III
       Administration
  National Weather Service                        15, IX
  Patent and Trademark Office, United States      37, I
  Productivity, Technology and Innovation,        37, IV
       Assistant Secretary for
  Secretary of Commerce, Office of                15, Subtitle A
  Technology, Under Secretary for                 37, V
  Technology Administration                       15, XI
  Technology Policy, Assistant Secretary for      37, IV
Commercial Space Transportation                   14, III
Commodity Credit Corporation                      7, XIV
Commodity Futures Trading Commission              5, XLI; 17, I
Community Planning and Development, Office of     24, V, VI
     Assistant Secretary for
Community Services, Office of                     45, X
Comptroller of the Currency                       12, I
Construction Industry Collective Bargaining       29, IX
     Commission
Consumer Product Safety Commission                5, LXXI; 16, II
Cooperative State Research, Education, and        7, XXXIV
     Extension Service
Copyright Office                                  37, II
Corporation for National and Community Service    45, XII, XXV
Cost Accounting Standards Board                   48, 99
Council on Environmental Quality                  40, V
Court Services and Offender Supervision Agency    28, VIII
     for the District of Columbia
Customs Service, United States                    19, I
Defense Contract Audit Agency                     32, I
Defense Department                                5, XXVI; 32, Subtitle A; 
                                                  40, VII
  Advanced Research Projects Agency               32, I
  Air Force Department                            32, VII

[[Page 1073]]

  Army Department                                 32, V; 33, II; 36, III, 
                                                  48, 51
  Defense Intelligence Agency                     32, I
  Defense Logistics Agency                        32, I, XII; 48, 54
  Engineers, Corps of                             33, II; 36, III
  Federal Acquisition Regulation                  48, 2
  National Imagery and Mapping Agency             32, I
  Navy Department                                 32, VI; 48, 52
  Secretary of Defense, Office of                 32, I
Defense Contract Audit Agency                     32, I
Defense Intelligence Agency                       32, I
Defense Logistics Agency                          32, XII; 48, 54
Defense Nuclear Facilities Safety Board           10, XVII
Delaware River Basin Commission                   18, III
District of Columbia, Court Services and          28, VIII
     Offender Supervision Agency for the
Drug Enforcement Administration                   21, II
East-West Foreign Trade Board                     15, XIII
Economic Affairs, Under Secretary                 37, V
Economic Analysis, Bureau of                      15, VIII
Economic Development Administration               13, III
Economic Research Service                         7, XXXVII
Education, Department of                          5, LIII
  Bilingual Education and Minority Languages      34, V
       Affairs, Office of
  Civil Rights, Office for                        34, I
  Educational Research and Improvement, Office    34, VII
       of
  Elementary and Secondary Education, Office of   34, II
  Federal Acquisition Regulation                  48, 34
  Postsecondary Education, Office of              34, VI
  Secretary of Education, Office of               34, Subtitle A
  Special Education and Rehabilitative Services,  34, III
       Office of
  Vocational and Adult Education, Office of       34, IV
Educational Research and Improvement, Office of   34, VII
Elementary and Secondary Education, Office of     34, II
Emergency Oil and Gas Guaranteed Loan Board       13, V
Emergency Steel Guarantee Loan Board              13, IV
Employees' Compensation Appeals Board             20, IV
Employees Loyalty Board                           5, V
Employment and Training Administration            20, V
Employment Standards Administration               20, VI
Endangered Species Committee                      50, IV
Energy, Department of                             5, XXIII; 10, II, III, X
  Federal Acquisition Regulation                  48, 9
  Federal Energy Regulatory Commission            5, XXIV; 18, I
  Property Management Regulations                 41, 109
Energy, Office of                                 7, XXIX
Engineers, Corps of                               33, II; 36, III
Engraving and Printing, Bureau of                 31, VI
Environmental Protection Agency                   5, LIV; 40, I, IV, VII
  Federal Acquisition Regulation                  48, 15
  Property Management Regulations                 41, 115
Environmental Quality, Office of                  7, XXXI
Equal Employment Opportunity Commission           5, LXII; 29, XIV
Equal Opportunity, Office of Assistant Secretary  24, I
     for
Executive Office of the President                 3, I
  Administration, Office of                       5, XV
  Environmental Quality, Council on               40, V
  Management and Budget, Office of                5, III, LXXVII; 14, VI; 
                                                  48, 99
  National Drug Control Policy, Office of         21, III
  National Security Council                       32, XXI; 47, 2
  Presidential Documents                          3
  Science and Technology Policy, Office of        32, XXIV; 47, II
  Trade Representative, Office of the United      15, XX
       States
Export Administration, Bureau of                  15, VII
Export-Import Bank of the United States           5, LII; 12, IV

[[Page 1074]]

Family Assistance, Office of                      45, II
Farm Credit Administration                        5, XXXI; 12, VI
Farm Credit System Insurance Corporation          5, XXX; 12, XIV
Farm Service Agency                               7, VII, XVIII
Federal Acquisition Regulation                    48, 1
Federal Aviation Administration                   14, I
  Commercial Space Transportation                 14, III
Federal Claims Collection Standards               31, IX
Federal Communications Commission                 5, XXIX; 47, I
Federal Contract Compliance Programs, Office of   41, 60
Federal Crop Insurance Corporation                7, IV
Federal Deposit Insurance Corporation             5, XXII; 12, III
Federal Election Commission                       11, I
Federal Emergency Management Agency               44, I
  Federal Acquisition Regulation                  48, 44
Federal Employees Group Life Insurance Federal    48, 21
     Acquisition Regulation
Federal Employees Health Benefits Acquisition     48, 16
     Regulation
Federal Energy Regulatory Commission              5, XXIV; 18, I
Federal Financial Institutions Examination        12, XI
     Council
Federal Financing Bank                            12, VIII
Federal Highway Administration                    23, I, II
Federal Home Loan Mortgage Corporation            1, IV
Federal Housing Enterprise Oversight Office       12, XVII
Federal Housing Finance Board                     12, IX
Federal Labor Relations Authority, and General    5, XIV; 22, XIV
     Counsel of the Federal Labor Relations 
     Authority
Federal Law Enforcement Training Center           31, VII
Federal Management Regulation                     41, 102
Federal Maritime Commission                       46, IV
Federal Mediation and Conciliation Service        29, XII
Federal Mine Safety and Health Review Commission  5, LXXIV; 29, XXVII
Federal Motor Carrier Safety Administration       49, III
Federal Prison Industries, Inc.                   28, III
Federal Procurement Policy Office                 48, 99
Federal Property Management Regulations           41, 101
Federal Railroad Administration                   49, II
Federal Register, Administrative Committee of     1, I
Federal Register, Office of                       1, II
Federal Reserve System                            12, II
  Board of Governors                              5, LVIII
Federal Retirement Thrift Investment Board        5, VI, LXXVI
Federal Service Impasses Panel                    5, XIV
Federal Trade Commission                          5, XLVII; 16, I
Federal Transit Administration                    49, VI
Federal Travel Regulation System                  41, Subtitle F
Fine Arts, Commission on                          45, XXI
Fiscal Service                                    31, II
Fish and Wildlife Service, United States          50, I, IV
Fishery Conservation and Management               50, VI
Food and Drug Administration                      21, I
Food and Nutrition Service                        7, II
Food Safety and Inspection Service                9, III
Foreign Agricultural Service                      7, XV
Foreign Assets Control, Office of                 31, V
Foreign Claims Settlement Commission of the       45, V
     United States
Foreign Service Grievance Board                   22, IX
Foreign Service Impasse Disputes Panel            22, XIV
Foreign Service Labor Relations Board             22, XIV
Foreign-Trade Zones Board                         15, IV
Forest Service                                    36, II
General Accounting Office                         4, I
General Services Administration                   5, LVII; 41, 105
  Contract Appeals, Board of                      48, 61
  Federal Acquisition Regulation                  48, 5
  Federal Management Regulation                   41, 102
  Federal Property Management Regulation          41, 101

[[Page 1075]]

  Federal Travel Regulation System                41, Subtitle F
  General                                         41, 300
  Payment From a Non-Federal Source for Travel    41, 304
       Expenses
  Payment of Expenses Connected With the Death    41, 303
       of Certain Employees
  Relocation Allowances                           41, 302
  Temporary Duty (TDY) Travel Allowances          41, 301
Geological Survey                                 30, IV
Government Ethics, Office of                      5, XVI
Government National Mortgage Association          24, III
Grain Inspection, Packers and Stockyards          7, VIII; 9, II
     Administration
Harry S. Truman Scholarship Foundation            45, XVIII
Health and Human Services, Department of          5, XLV; 45, Subtitle A
  Child Support Enforcement, Office of            45, III
  Children and Families, Administration for       45, II, III, IV, X
  Community Services, Office of                   45, X
  Family Assistance, Office of                    45, II
  Federal Acquisition Regulation                  48, 3
  Food and Drug Administration                    21, I
  Centers for Medicare & Medicaid Services        42, IV
  Human Development Services, Office of           45, XIII
  Indian Health Service                           25, V
  Inspector General (Health Care), Office of      42, V
  Public Health Service                           42, I
  Refugee Resettlement, Office of                 45, IV
Centers for Medicare & Medicaid Services          42, IV
Housing and Urban Development, Department of      5, LXV; 24, Subtitle B
  Community Planning and Development, Office of   24, V, VI
       Assistant Secretary for
  Equal Opportunity, Office of Assistant          24, I
       Secretary for
  Federal Acquisition Regulation                  48, 24
  Federal Housing Enterprise Oversight, Office    12, XVII
       of
  Government National Mortgage Association        24, III
  Housing--Federal Housing Commissioner, Office   24, II, VIII, X, XX
       of Assistant Secretary for
  Housing, Office of, and Multifamily Housing     24, IV
       Assistance Restructuring, Office of
  Inspector General, Office of                    24, XII
  Public and Indian Housing, Office of Assistant  24, IX
       Secretary for
  Secretary, Office of                            24, Subtitle A, VII
Housing--Federal Housing Commissioner, Office of  24, II, VIII, X, XX
     Assistant Secretary for
Housing, Office of, and Multifamily Housing       24, IV
     Assistance Restructuring, Office of
Human Development Services, Office of             45, XIII
Immigration and Naturalization Service            8, I
Independent Counsel, Office of                    28, VII
Indian Affairs, Bureau of                         25, I, V
Indian Affairs, Office of the Assistant           25, VI
     Secretary
Indian Arts and Crafts Board                      25, II
Indian Health Service                             25, V
Information Resources Management, Office of       7, XXVII
Information Security Oversight Office, National   32, XX
     Archives and Records Administration
Inspector General
  Agriculture Department                          7, XXVI
  Health and Human Services Department            42, V
  Housing and Urban Development Department        24, XII
Institute of Peace, United States                 22, XVII
Inter-American Foundation                         5, LXIII; 22, X
Intergovernmental Relations, Advisory Commission  5, VII
     on
Interior Department
  American Indians, Office of the Special         25, VII
       Trustee
  Endangered Species Committee                    50, IV
  Federal Acquisition Regulation                  48, 14
  Federal Property Management Regulations System  41, 114
  Fish and Wildlife Service, United States        50, I, IV

[[Page 1076]]

  Geological Survey                               30, IV
  Indian Affairs, Bureau of                       25, I, V
  Indian Affairs, Office of the Assistant         25, VI
       Secretary
  Indian Arts and Crafts Board                    25, II
  Land Management, Bureau of                      43, II
  Minerals Management Service                     30, II
  Mines, Bureau of                                30, VI
  National Indian Gaming Commission               25, III
  National Park Service                           36, I
  Reclamation, Bureau of                          43, I
  Secretary of the Interior, Office of            43, Subtitle A
  Surface Mining and Reclamation Appeals, Board   30, III
       of
  Surface Mining Reclamation and Enforcement,     30, VII
       Office of
Internal Revenue Service                          26, I
International Boundary and Water Commission,      22, XI
     United States and Mexico, United States 
     Section
International Development, United States Agency   22, II
     for
  Federal Acquisition Regulation                  48, 7
International Development Cooperation Agency,     22, XII
     United States
International Fishing and Related Activities      50, III
International Investment, Office of               31, VIII
International Joint Commission, United States     22, IV
     and Canada
International Organizations Employees Loyalty     5, V
     Board
International Trade Administration                15, III; 19, III
International Trade Commission, United States     19, II
Interstate Commerce Commission                    5, XL
James Madison Memorial Fellowship Foundation      45, XXIV
Japan-United States Friendship Commission         22, XVI
Joint Board for the Enrollment of Actuaries       20, VIII
Justice Department                                5, XXVIII; 28, I, XI; 40, 
                                                  IV
  Drug Enforcement Administration                 21, II
  Federal Acquisition Regulation                  48, 28
  Federal Claims Collection Standards             31, IX
  Federal Prison Industries, Inc.                 28, III
  Foreign Claims Settlement Commission of the     45, V
       United States
  Immigration and Naturalization Service          8, I
  Offices of Independent Counsel                  28, VI
  Prisons, Bureau of                              28, V
  Property Management Regulations                 41, 128
Labor Department                                  5, XLII
  Benefits Review Board                           20, VII
  Employees' Compensation Appeals Board           20, IV
  Employment and Training Administration          20, V
  Employment Standards Administration             20, VI
  Federal Acquisition Regulation                  48, 29
  Federal Contract Compliance Programs, Office    41, 60
       of
  Federal Procurement Regulations System          41, 50
  Labor-Management Standards, Office of           29, II, IV
  Mine Safety and Health Administration           30, I
  Occupational Safety and Health Administration   29, XVII
  Pension and Welfare Benefits Administration     29, XXV
  Public Contracts                                41, 50
  Secretary of Labor, Office of                   29, Subtitle A
  Veterans' Employment and Training Service,      41, 61; 20, IX
       Office of the Assistant Secretary for
  Wage and Hour Division                          29, V
  Workers' Compensation Programs, Office of       20, I
Labor-Management Standards, Office of             29, II, IV
Land Management, Bureau of                        43, II
Legal Services Corporation                        45, XVI
Library of Congress                               36, VII
  Copyright Office                                37, II
Management and Budget, Office of                  5, III, LXXVII; 14, VI; 
                                                  48, 99

[[Page 1077]]

Marine Mammal Commission                          50, V
Maritime Administration                           46, II
Merit Systems Protection Board                    5, II
Micronesian Status Negotiations, Office for       32, XXVII
Mine Safety and Health Administration             30, I
Minerals Management Service                       30, II
Mines, Bureau of                                  30, VI
Minority Business Development Agency              15, XIV
Miscellaneous Agencies                            1, IV
Monetary Offices                                  31, I
Morris K. Udall Scholarship and Excellence in     36, XVI
     National Environmental Policy Foundation
National Aeronautics and Space Administration     5, LIX; 14, V
  Federal Acquisition Regulation                  48, 18
National Agricultural Library                     7, XLI
National Agricultural Statistics Service          7, XXXVI
National and Community Service, Corporation for   45, XII, XXV
National Archives and Records Administration      5, LXVI; 36, XII
  Information Security Oversight Office           32, XX
National Bureau of Standards                      15, II
National Capital Planning Commission              1, IV
National Commission for Employment Policy         1, IV
National Commission on Libraries and Information  45, XVII
     Science
National Council on Disability                    34, XII
National Counterintelligence Center               32, XVIII
National Credit Union Administration              12, VII
National Crime Prevention and Privacy Compact     28, IX
     Council
National Drug Control Policy, Office of           21, III
National Foundation on the Arts and the           45, XI
     Humanities
National Highway Traffic Safety Administration    23, II, III; 49, V
National Imagery and Mapping Agency               32, I
National Indian Gaming Commission                 25, III
National Institute for Literacy                   34, XI
National Institute of Standards and Technology    15, II
National Labor Relations Board                    5, LXI; 29, I
National Marine Fisheries Service                 50, II, IV, VI
National Mediation Board                          29, X
National Oceanic and Atmospheric Administration   15, IX; 50, II, III, IV, 
                                                  VI
National Park Service                             36, I
National Railroad Adjustment Board                29, III
National Railroad Passenger Corporation (AMTRAK)  49, VII
National Science Foundation                       5, XLIII; 45, VI
  Federal Acquisition Regulation                  48, 25
National Security Council                         32, XXI
National Security Council and Office of Science   47, II
     and Technology Policy
National Telecommunications and Information       15, XXIII; 47, III
     Administration
National Transportation Safety Board              49, VIII
National Weather Service                          15, IX
Natural Resources Conservation Service            7, VI
Navajo and Hopi Indian Relocation, Office of      25, IV
Navy Department                                   32, VI
  Federal Acquisition Regulation                  48, 52
Neighborhood Reinvestment Corporation             24, XXV
Northeast Dairy Compact Commission                7, XIII
Northeast Interstate Low-Level Radioactive Waste  10, XVIII
     Commission
Nuclear Regulatory Commission                     5, XLVIII; 10, I
  Federal Acquisition Regulation                  48, 20
Occupational Safety and Health Administration     29, XVII
Occupational Safety and Health Review Commission  29, XX
Offices of Independent Counsel                    28, VI
Oklahoma City National Memorial Trust             36, XV
Operations Office                                 7, XXVIII
Overseas Private Investment Corporation           5, XXXIII; 22, VII
Panama Canal Commission                           48, 35

[[Page 1078]]

Panama Canal Regulations                          35, I
Patent and Trademark Office, United States        37, I
Payment From a Non-Federal Source for Travel      41, 304
     Expenses
Payment of Expenses Connected With the Death of   41, 303
     Certain Employees
Peace Corps                                       22, III
Pennsylvania Avenue Development Corporation       36, IX
Pension and Welfare Benefits Administration       29, XXV
Pension Benefit Guaranty Corporation              29, XL
Personnel Management, Office of                   5, I, XXXV; 45, VIII
  Federal Acquisition Regulation                  48, 17
  Federal Employees Group Life Insurance Federal  48, 21
       Acquisition Regulation
  Federal Employees Health Benefits Acquisition   48, 16
       Regulation
Postal Rate Commission                            5, XLVI; 39, III
Postal Service, United States                     5, LX; 39, I
Postsecondary Education, Office of                34, VI
President's Commission on White House             1, IV
     Fellowships
Presidential Documents                            3
Presidio Trust                                    36, X
Prisons, Bureau of                                28, V
Procurement and Property Management, Office of    7, XXXII
Productivity, Technology and Innovation,          37, IV
     Assistant Secretary
Public Contracts, Department of Labor             41, 50
Public and Indian Housing, Office of Assistant    24, IX
     Secretary for
Public Health Service                             42, I
Railroad Retirement Board                         20, II
Reclamation, Bureau of                            43, I
Refugee Resettlement, Office of                   45, IV
Regional Action Planning Commissions              13, V
Relocation Allowances                             41, 302
Research and Special Programs Administration      49, I
Rural Business-Cooperative Service                7, XVIII, XLII
Rural Development Administration                  7, XLII
Rural Housing Service                             7, XVIII, XXXV
Rural Telephone Bank                              7, XVI
Rural Utilities Service                           7, XVII, XVIII, XLII
Saint Lawrence Seaway Development Corporation     33, IV
Science and Technology Policy, Office of          32, XXIV
Science and Technology Policy, Office of, and     47, II
     National Security Council
Secret Service                                    31, IV
Securities and Exchange Commission                17, II
Selective Service System                          32, XVI
Small Business Administration                     13, I
Smithsonian Institution                           36, V
Social Security Administration                    20, III; 48, 23
Soldiers' and Airmen's Home, United States        5, XI
Special Counsel, Office of                        5, VIII
Special Education and Rehabilitative Services,    34, III
     Office of
State Department                                  22, I; 28, XI
  Federal Acquisition Regulation                  48, 6
Surface Mining and Reclamation Appeals, Board of  30, III
Surface Mining Reclamation and Enforcement,       30, VII
     Office of
Surface Transportation Board                      49, X
Susquehanna River Basin Commission                18, VIII
Technology Administration                         15, XI
Technology Policy, Assistant Secretary for        37, IV
Technology, Under Secretary for                   37, V
Tennessee Valley Authority                        5, LXIX; 18, XIII
Thrift Supervision Office, Department of the      12, V
     Treasury
Trade Representative, United States, Office of    15, XX
Transportation, Department of                     5, L
  Coast Guard                                     33, I; 46, I; 49, IV
  Coast Guard (Great Lakes Pilotage)              46, III
  Commercial Space Transportation                 14, III

[[Page 1079]]

  Contract Appeals, Board of                      48, 63
  Emergency Management and Assistance             44, IV
  Federal Acquisition Regulation                  48, 12
  Federal Aviation Administration                 14, I
  Federal Highway Administration                  23, I, II
  Federal Motor Carrier Safety Administration     49, III
  Federal Railroad Administration                 49, II
  Federal Transit Administration                  49, VI
  Maritime Administration                         46, II
  National Highway Traffic Safety Administration  23, II, III; 49, V
  Research and Special Programs Administration    49, I
  Saint Lawrence Seaway Development Corporation   33, IV
  Secretary of Transportation, Office of          14, II; 49, Subtitle A
  Surface Transportation Board                    49, X
  Transportation Security Administration          49, XII
  Transportation Statistics Bureau                49, XI
Transportation, Office of                         7, XXXIII
Transportation Security Administration            49, XII
Transportation Statistics Brureau                 49, XI
Travel Allowances, Temporary Duty (TDY)           41, 301
Treasury Department                               5, XXI; 12, XV; 17, IV; 
                                                  31, IX
  Alcohol, Tobacco and Firearms, Bureau of        27, I
  Community Development Financial Institutions    12, XVIII
       Fund
  Comptroller of the Currency                     12, I
  Customs Service, United States                  19, I
  Engraving and Printing, Bureau of               31, VI
  Federal Acquisition Regulation                  48, 10
  Federal Law Enforcement Training Center         31, VII
  Fiscal Service                                  31, II
  Foreign Assets Control, Office of               31, V
  Internal Revenue Service                        26, I
  International Investment, Office of             31, VIII
  Monetary Offices                                31, I
  Secret Service                                  31, IV
  Secretary of the Treasury, Office of            31, Subtitle A
  Thrift Supervision, Office of                   12, V
Truman, Harry S. Scholarship Foundation           45, XVIII
United States and Canada, International Joint     22, IV
     Commission
United States and Mexico, International Boundary  22, XI
     and Water Commission, United States Section
Utah Reclamation Mitigation and Conservation      43, III
     Commission
Veterans Affairs Department                       38, I
  Federal Acquisition Regulation                  48, 8
Veterans' Employment and Training Service,        41, 61; 20, IX
     Office of the Assistant Secretary for
Vice President of the United States, Office of    32, XXVIII
Vocational and Adult Education, Office of         34, IV
Wage and Hour Division                            29, V
Water Resources Council                           18, VI
Workers' Compensation Programs, Office of         20, I
World Agricultural Outlook Board                  7, XXXVIII

[[Page 1081]]



List of CFR Sections Affected



All changes in this volume of the Code of Federal Regulations which were 
made by documents published in the Federal Register since January 1, 
1986, are enumerated in the following list. Entries indicate the nature 
of the changes effected. Page numbers refer to Federal Register pages. 
The user should consult the entries for chapters and parts as well as 
sections for revisions.
For the period before January 1, 1986, see the ``List of CFR Sections 
Affected, 1949-1963, 1964-1972, and 1973-1985,'' published in seven 
separate volumes.

                                  1986

14 CFR
                                                                   51 FR
                                                                    Page
Chapter I
1  Authority citation revised; section authority citations removed
                                                                   40702
1.1  Amended; eff. 1-6-87..........................................40702
11  Authority citation revised................................1223, 2348
    Special FAA Reg. 27 amended....................................10613
11.61  (c) revised..................................................2348
11.101  (b) table amended (OMB numbers)......................1223, 18308
    Technical correction............................................2873
21  Special FAA conditions amended.................................2671,
19541, 20799, 28509, 28525, 30206, 30208, 31318, 36998, 37711
23  Authority citation revised; section authority citations 
        removed....................................................26656
    Special FAA conditions amended................................28509,
28525, 30206, 30208, 36998, 37711
23.777  (c) through (f) redesignated as (e) through (h); (c), (d), 
        (e)(1) and (2), and (h)(1), (2), and (3) added; (h) 
        introductory text amended..................................26656
23.779  Revised....................................................26656
23.781  Existing text designated as (a) and amended; (b) added.....26657
23.1147  Introductory text last sentence, (a), and (b) 
        redesignated as (a) introductory text, (1), and (2); new 
        (b) added..................................................26657
25.853  (b) revised................................................18242
    Technical correction...........................................20249
    (a-1) added....................................................26213
25.855  (a-1) revised..............................................18242
    Technical correction...........................................20249
25.857  (d)(6) added...............................................18243
    Technical correction...........................................20249
25  Appendix F amended......................................18243, 26214
    Technical correction...........................................20249
    Appendix F corrected...........................................28322
33.7  (c)(1)(vii) added............................................10346
33.96  Added.......................................................10346
39.13  ...............................................................2,
5, 6, 338-340, 732, 734-737, 1247, 1363, 1364, 1489-1491, 2349, 2350, 
2676, 2677, 2679, 2680, 3027-3030, 3327, 3942, 3943, 4298-4305, 4587-
4589, 4892, 5160, 5312, 5514, 5703, 6102, 6394, 7057, 7249, 7250, 7433-
7436, 7769, 7922, 8193, 8479, 8481, 8792, 8793, 9646, 9647, 10364, 
10365, 10538, 10614, 10821-10824, 11301, 11302, 11708, 11709, 11711-
11715, 12123, 12506-12509, 12511, 12512, 12688, 12693, 12836, 12988, 
12989, 13211, 13486, 16156, 16157, 16294, 16507-16509, 16806, 17005-
17010, 17323, 17324, 17614, 17731, 17924, 17926, 17927, 18309, 18572-
18577, 18771, 18772, 19053, 19323, 19324, 19749, 20249, 20251, 20252, 
21511-21515, 21899-21901, 22927, 23216-23219, 23407, 23523, 23524, 
23732-23734, 24134, 24135, 24649, 24811, 24813, 25192, 25193, 25521, 
25683, 25872, 25873, 26229, 26230, 26232, 26233, 26376, 26378, 27523-
27526, 27528, 27829-27833, 28062-28067, 28323, 28324, 28528, 28691, 
28807,

[[Page 1082]]

28808, 29091-29093, 29212-29214, 29911-29916, 30328-30332, 30628, 30629, 
30855, 31089, 31091, 31608, 31609, 32199-32201, 32203, 32781, 33030, 
33031, 33241, 33737-33739, 33886, 34453, 34455, 34457, 34458, 34582, 
34953, 35208, 35502, 35503, 35632, 36002-36006, 36543, 36545, 36546, 
36797, 36798, 37000, 37385-37391, 37713, 39513, 40002-40004, 40313, 
40409, 40410, 40970, 41076-41079, 41474, 41950, 42202-42206, 43179, 
43338, 43340, 43582, 44039, 44041, 44043, 44045, 44047, 44438, 44440, 
44596, 44902, 45302, 46603, 47214
    Corrected.......4299, 7433, 7922, 11710, 18308, 32906, 34583, 42201, 
                                                                   43342
    Effective date corrected................................17615, 22796
    Eff. 1-2-87.............................................43177, 44903
    Eff. 1-5-87.............................................43178, 45757
    Eff. 1-7-87.............................................43339, 43341
    Eff. 1-12-87.....................................43583, 43584, 47211
    Eff. 1-20-87.....................................45301, 45303, 45304
    Eff. 1-21-87...................................................45307
    Eff. 1-22-87...................................................45306
    Eff. 1-28-87...................................................46602
    Eff. 1-30-87...................................................47212
    Eff. 2-2-87....................................................47210
43  Authority citation revised; section authority citations 
        removed....................................................40702
43.3  (h) redesignated as (i); new (h) added; eff. 1-6-87..........40702
43.15  (c)(2) introductory text revised; (c)(3) added; eff. 1-6-87
                                                                   40702
43  Appendix A amended; eff. 1-6-87................................40703
45  Authority citation revised; section authority citations 
        removed....................................................40703
45.14  Revised; eff. 1-6-87........................................40703

                                  1987

14 CFR
                                                                   52 FR
                                                                    Page
Chapter I
15  Added..........................................................18171
21  Special FAA conditions corrected.................................656
    Authority citation revised; section authority citations 
removed.............................................................1835
    Special FAA conditions amended.................................3416,
11629, 23026, 27190, 32780, 32781, 37600, 39618, 41402-41404, 42095, 
43849, 44094, 45447, 46349
21.17  (b) through (d) redesignated as (c) through (e); new (b) 
        added; new (d) introductory text and (2) amended............8042
21.19  (b) introductory text amended................................1835
21.21  Heading and introductory text amended........................1835
    Heading and introductory text revised...........................8042
21.23  Removed......................................................8042
21.27  (a) and (f) table amended....................................1835
    (f) table corrected.............................................7262
21.31  (c) revised..................................................8042
21.37  Amended......................................................1835
21.39  (a) amended..................................................1835
21.50  (b) revised..................................................8042
21.73  (c) amended..................................................1836
21.93  (b)(3) amended...............................................1836
21.175  (a) amended.................................................1836
    (a) revised.....................................................8043
21.183  Heading and (e)(2) amended..................................1836
    Heading revised.................................................8043
21.195  (b) amended.................................................1836
21.213  (c) amended.................................................1836
21.231  (a)(2) through (5) redesignated as (a)(3) through (6); new 
        (a)(2) added................................................1836
21.327  (f)(2) amended..............................................1836
23  Special FAA conditions corrected.................................656
    Heading revised.................................................1825
    Special FAA conditions amended................................11629,
27190, 32780, 32781, 37600, 39618, 42095, 43849, 44094, 45447
23.1  (a) revised...................................................1825
23.3  (a) introductory text, (b) introductory text, and (c) 
        revised; (d) redesignated as (e) and revised; new (d) 
        added.......................................................1825
    (a) and (e) corrected..........................................34745
23.25  (a) introductory text revised; (a)(2) amended................1825
23.45  (a) revised; (f) added.......................................1826
23.51  (b) and (c) removed; (d) and (e) redesignated as (b) and 
        (c); new (d) added..........................................1826
23.53  Added........................................................1826
    (b)(2)(ii) and (c)(2) and (6) corrected........................34745
23.55  Added........................................................1826

[[Page 1083]]

23.57  Added........................................................1827
23.59  Added........................................................1827
23.61  Added........................................................1827
23.65  (d) added....................................................1827
    (d) corrected..................................................34745
23.67  (a), (b) and (c) introductory text amended; (e) added........1827
    (e)(3) introductory text corrected..............................7261
    (e)(1) introductory text and (3) introductory text corrected 
                                                                   34745
23.75  (g) added....................................................1828
23.77  (a) and (b) introductory text amended; (c) added.............1828
    (a) and (b) corrected..........................................34745
23.161  (b) and (c) introductory text and (3) revised...............1828
23.173  (b) revised.................................................1828
23.175  (b)(2) introductory text revised............................1828
23.333  (b)(3) amended; (c)(1)(iii) added; (d) diagram revised......1829
23.335  (a)(1)(i) and (b)(2)(i) revised; (d) added..................1829
    (d)(1) introductory text corrected.............................34745
23.337  (a)(1) and (b)(1) amended...................................1829
23.349  (a)(2) revised..............................................1829
23.397  (b) table footnote 1 amended................................1829
23.443  (b) and (c) redesignated as (c) and (d); new (b) added......1830
    (b) corrected............................................7262, 34745
23.561  (b)(2) table amended.......................................34745
23.572  Heading revised; (a) amended; (b) added.....................1830
23.677  (d) added...................................................1830
23.721  Added.......................................................1830
23.783  (c) added...................................................1830
23.785  (g) revised.................................................1830
23.787  (g) added...................................................1830
    (g)(2) corrected...............................................34745
23.803  Added.......................................................1831
23.807  (d) added...................................................1831
23.815  Added.......................................................1831
23.831  Existing text designated as (a); (b) added..................1831
23.851  Added.......................................................1831
23.853  (d) and (e) redesignated as (e) and (f); (d) added..........1831
23.901  (b)(3) added................................................1832
    (b)(3) corrected...............................................34745
23.903  (d) text redesignated as (d)(1); (d)(2) added; (e)(2) 
        revised.....................................................1832
23.933  (d) added...................................................1832
23.963  (f) added...................................................1832
23.997  (e) added...................................................1832
23.1163  (d) added..................................................1832
23.1165  (f) added..................................................1833
23.1193  (g) added..................................................1833
23.1195  Added......................................................1833
23.1197  Added......................................................1833
23.1199  Added......................................................1833
    (c) corrected..................................................34745
23.1201  Added......................................................1833
    (a) corrected...................................................7262
23.1203  Amended....................................................1833
23.1305  (f), (h) and (k) revised...................................1833
    (k)(2) corrected...............................................34745
23.1309  (d) added..................................................1833
23.1323  (c) and (d) added..........................................1834
    (c) corrected..................................................34745
23.1325  (f) added..................................................1834
23.1351  (a)(2), (b)(2), (3) and (4), and (d) revised; (b)(5) 
        added.......................................................1834
    (a)(2) introductory text and (b)(5)(v) corrected...............34745
23.1523  (a) revised................................................1834
23.1581  (e) added..................................................1834
23.1583  (a)(3) and (c)(3) revised, (c)(4) and (e)(4) added.........1834
23.1585  (h) added..................................................1835
23.1587  (d) added..................................................1835
23  Appendixes F and G amended......................................1835
    Appendixes F and G corrected...................................34745
25  Special FAA conditions amended.................................3416,
23026, 41402-41404, 46349
25.853  Comment time extended.......................................5422
25.904  Added......................................................43156
25  Appendix F comment time extended................................5422
    Appendix I added...............................................43156
36  Authority citation revised; section authority citations 
        removed.....................................................1836
36.1  (a)(2) and (e) amended........................................1836
36.9  Heading and introductory text amended.........................1836
36.501 (Subpart F)  Heading amended.................................1836
36.501  (a)(2) amended..............................................1836
36.1581  (d) amended................................................1836
36  Appendix F amended..............................................1836
39.13  .............................................................517,
519-524, 1319, 1320, 1441-1443, 2216-2218, 2511, 2512, 2673, 2674, 2676, 
3108-3112, 3419-3422, 3424, 3426, 3596-3600, 3793, 3998-4000, 4278-4281, 
4605-4607, 4764-4767, 4892,

[[Page 1084]]

5074, 5437, 5438, 5531, 5944-5947, 6134, 6135, 6777, 6778, 6953-6956, 
7405, 7564-7567, 7823, 8063, 8582, 8583, 8873, 9121, 9294, 9470, 9471, 
10044, 10218-10220, 10558, 10736, 10737, 11631-11639, 11985-11987, 
12517-12519, 13232-13234, 13633, 13635, 13636, 15303, 15709, 16830, 
16831, 17551, 17748-17750, 17936, 17937, 18549, 18551, 18902, 19131, 
19306, 19481-19485, 20699-20702, 21243-21245, 21498, 21660, 22630, 
23427, 23428, 23643-23645, 23942-23948, 24136-24142, 24984, 24985, 
25204-25207, 25362, 25590, 25592, 25966, 26296, 26471, 26472, 26663-
26666, 26946-26949, 27192-27195, 27787-27789, 28133-28136, 28242-28245, 
28683, 28684, 28818, 28974-28976, 29372, 29373, 29505, 29506, 30143, 
30330, 31378-31383, 31980, 31982, 32535, 32536, 32913, 32914, 33225-
33229, 33918, 33919, 34632, 34633, 34898, 34900, 35233, 35234, 35687, 
35690, 36228, 36229, 36565, 36753-36755, 36914, 37928, 38080-38083, 
38394-38398, 38746-38748, 41405, 41552-41557, 41703, 41705, 41937, 
41974, 41975, 42627, 43055, 43320, 43742-43744, 43746, 43850, 44095-
44098, 44376, 45451, 45453, 45454, 45615, 46064, 46070, 46453, 46740, 
46991, 47388, 48185, 48186, 48189
    Corrected......................................................3079,
6286, 7568, 27328, 39329, 40020, 42397, 43191, 44377, 45449, 47991
    Directive published at 52 FR 15303 and 52 FR 29505 suspended 
                                                                   35908
    Regulation at 52 FR 38748 effective date corrected.............41704
    Eff. 1-13-88..................................................45164,
45165, 45452, 45612
    Eff. 1-15-88............................................47705, 48807
    Eff. 1-19-88..................................................45613,
45614, 45808-45810, 48393
    Eff. 1-20-88...................................................48674
    Eff. 1-25-88.............................................46067-46069
    Eff. 1-27-88...................................................46986
    Eff. 2-1-88.......................................46987-46990, 46995
    Eff. 2-2-88....................................................47552
    Eff. 2-16-88............................................47702, 47704
43  Authority citation revised......................................3390
43.13  (c) heading and text amended................................20028
43  Appendix F revised..............................................3390
    Appendix F corrected............................................6651
    Appendix A amended.............................................17277
    Appendix B amended.............................................34101
    Technical correction...........................................35234
45.11  (a) revised; (d) added......................................34101
    Technical correction...........................................35234
    (d) corrected..................................................36566
45.21  (d)(3) revised..............................................34102
    Technical correction...........................................35234
45.29  (b) introductory text revised; (h) added....................34102
    Technical correction...........................................35234
    (h) corrected..................................................36566

                                  1988

14 CFR
                                                                   53 FR
                                                                    Page
Chapter I
1.1  Amended.......................................................34210
1.2  Amended.......................................................34210
13  Authority citation revised..............................33783, 34653
13.1  (a) revised..................................................33783
13.3  (a) revised; (b) amended.....................................33783
    (b) corrected..................................................35255
13.15  Revised.....................................................34653
13.16  Revised.....................................................34654
13.20  (a) revised.................................................33783
13.31  Revised.....................................................34655
13.201--13.235 (Subpart G)  Added..................................34655
13.220  (i)(2) corrected...........................................39404
21  Special FAA conditions.........................................1745,
1746, 2722-2734, 8868, 13114, 14784, 15018, 17171, 26038, 34276, 37990, 
39448, 47666
    Special FAA conditions; eff. 1-6-89............................49297
    Special FAA conditions; eff. 1-11-89...........................49851
21.93  (b) introductory text revised; (b)(4) added..................3539
    (b)(2) revised.................................................16365
    (b)(3) revised.................................................47399
21.115  (a) amended.................................................3540
21.165  (b) revised; eff. 1-3-89...................................48521
23  Special FAA conditions.........................................1745,
1746, 2722-2734, 13114, 14784, 15018, 37990, 39448, 47666
    Authority citation revised.....................................26142
    Special FAA conditions; eff. 1-6-89............................49297
    Special FAA conditions; eff. 1-11-89...........................49851
23.2  Revised......................................................30812

[[Page 1085]]

23.561  (b) and (d) revised........................................30812
23.562  Added......................................................30812
23.783  (c) revised; (d) and (e) added.............................30813
23.785  Revised....................................................30813
23.787  Heading, (c), (e), and (g) revised.........................30814
    (c) corrected..................................................34194
23.807  (d)(3) and (4) removed; (a)(1) and (b) introductory text 
        revised....................................................30814
    (b) introductory text corrected................................34194
23.811  Added......................................................30814
    (a) introductory text corrected................................34194
23.813  Added......................................................30815
23.967  (e)(1) revised.............................................30815
23.1411  (b)(2) revised............................................30815
23.1413  Revised...................................................30815
23.1457  Added.....................................................26142
23.1459  Added.....................................................26143
25  Special FAA conditions.........................................8868,
17171, 26038, 34276, 47666
    Authority citation revised; section authority citations 
removed............................................................16365
    Authority citation revised.....................................26143
25.25  (a)(2) amended; (a)(3) added................................16365
25.561  (b)(3)(i), (ii), (iii) and (iv) revised; (b)(3)(v) and (d) 
        added......................................................17646
25.562  Added......................................................17646
25.785  (a) revised................................................17647
25.853  (a-1) revised..............................................32573
25.1457  (c)(1), (2), (3), and (4)(i) revised; (c)(5) added........26143
25.1459  (a)(4) revised; (e) added.................................26144
25  Appendix F amended.............................................32573
    Appendix F corrected....................................37542, 37671
27  Authority citation revised.....................................26144
27.67  (c) removed; (b) revised....................................34210
27.361  Revised....................................................34210
27.833  Added......................................................34210
27.859  (c) revised; (d) through (k) added.........................34211
27.901  (b)(1) revised; (b)(2), (3) and (4) amended; (b)(5) added 
                                                                   34211
27.903  (a) and (b) revised........................................34211
27.923  (c), (d), (e) and (j) revised; (k) added...................34212
27.927  (b)(3) revised.............................................34212
27.954  Added......................................................34212
27.955  Revised....................................................34212
27.961  Revised....................................................34212
27.963  (e) and (f) added..........................................34213
27.969  Revised....................................................34213
27.971  Revised....................................................34213
27.975  Existing text designated as (a); (b) added.................34213
27.991  Revised....................................................34213
27.997  Introductory text and (d) revised..........................34213
27.999  (a) and (b)(2) revised.....................................34213
27.1011  Heading revised...........................................34213
27.1019  (a)(3) revised............................................34213
27.1027  Added.....................................................34213
27.1041  (a) revised...............................................34213
27.1045  (c)(1) revised............................................34214
27.1091  (d) removed; (e) redesignated as (d)......................34214
27.1093  (b)(1) revised............................................34214
27.1141  (c) introductory text revised.............................34214
27.1143  (a), (b) introductory text, (c), and (d) introductory 
        text revised...............................................34214
27.1163  (b) revised...............................................34214
27.1189  (c) revised...............................................34214
27.1193  (f) added.................................................34214
27.1305  (l), (m), (q) and (s) revised.............................34214
27.1337  (e) added.................................................34214
27.1457  Added.....................................................26144
27.1459  Added.....................................................26144
27.1521  (g), (h) and (i) added....................................34214
27.1549  (c) and (d) amended; (e) added............................34215
29  Authority citation revised.....................................26145
29.67  (a)(2)(i) and (3)(i) and (b) revised........................34215
29.361  Revised....................................................34215
29.549  (e) revised................................................34215
29.901  (b)(2) revised; (b)(6) added...............................34215
29.903  (a) and (b)(2) revised; (c)(1) and (2) amended; (c)(3) 
        added......................................................34215
29.908  (a) revised; (c) added.....................................34215
29.923  (a)(1), (3) introductory text and (ii), (b), (c) 
        introductory text, (d) through (h) and (k) revised.........34215
29.927  (c), (d) introductory text and (2) revised; (f) added......34216
29.954  Added......................................................34217
29.955  Revised....................................................34217
29.961  Revised....................................................34217
29.963  (e) added..................................................34217
29.967  (f) removed................................................34217
29.969  Revised....................................................34217
29.971  (c) revised................................................34217

[[Page 1086]]

29.975  (a)(5) and (6)(ii) amended; (a)(7) added...................34217
29.991  Revised....................................................34217
29.997  Introductory text and (d) revised..........................34217
29.999  (a) and (b)(2) revised.....................................34218
29.1001  Added.....................................................34218
29.1011  Heading revised; (b) removed; (c), (d) and (e) 
        redesignated as (b), (c) and (d); new (d) amended..........34218
29.1019  (a)(3) revised............................................34218
29.1027  Added.....................................................34218
29.1041  (a) and (c) revised.......................................34218
29.1043  (a)(5) added..............................................34218
29.1045  (c) revised...............................................34218
29.1047  (a)(4) introductory text amended; (a)(4)(i) and (ii) 
        revised....................................................34219
29.1093  (b)(1) revised............................................34219
29.1141  (f) introductory text revised.............................34219
29.1143  Revised...................................................34219
29.1163  (d) revised...............................................34219
29.1181  (b) added.................................................34219
29.1189  (e) and (f) revised.......................................34219
29.1193  (f) added.................................................34219
29.1305  (a)(4), (17) and (19), (b)(2), and (c)(1) and (2) 
        revised; (a)(20) through (23) added; (a)(18) amended; 
        (c)(3) removed.............................................34219
29.1337  (e) added.................................................34219
29.1459  Added.....................................................26145
    (a)(5) corrected...............................................30906
29.1521  (f) introductory text and (g) introductory text revised; 
        (h) added..................................................34220
29.1549  (c) and (d) amended; (e) added............................34220
29.1557  (c)(1)(iii) revised.......................................34220
33  Authority citation revised.....................................34220
33.7  (c)(1)(v) and (vi) revised; (c)(1)(vii) redesignated as 
        (c)(1)(viii); new (c)(1)(vii) added........................34220
33.87  (d) and (e) redesignated as (e) and (f); (a) introductory 
        text, (b) introductory text and (2), (c) introductory text 
        and (1) through (5) and new (e) revised; new (d) added.....34220
36.1  (a)(4) and (g) added; (c) amended.............................3540
    (c) and (g)(1), (3), and (4) corrected..........................7728
    (g) redesignated as (h); new (g) added.........................16366
36.2  (a) revised...................................................3540
36.3  Nomenclature change...........................................3540
36.6  (c)(1)(iii) and (iv) added; (e)(3) revised...................47400
36.7  (c)(1) amended; (d) and (e) revised..........................16366
    (c)(1) corrected...............................................18950
36.9  Revised......................................................47400
    Heading corrected..............................................50157
36.11  Added........................................................3540
    (b) corrected...................................................7728
36.201  (b) revised; (c) and (d) removed...........................16366
36.501  (a) amended; (b) and (c) revised...........................47400
36.801--36.805 (Subpart H)  Added...................................3540
36.801  Corrected...................................................7728
36.803  Corrected...................................................7728
36.805  (b) and (c) corrected.......................................7728
36.1501--36.1583 (Subpart G)  Redesignated as (Subpart O)...........3540
36.1501--36.1583 (Subpart O)  Redesignated from (Subpart G).........3540
36.1501  Revised...................................................16366
36.1581  (a) and (b) amended; (e) redesignated as (f) and revised; 
        new (e) added...............................................3540
    (e) corrected...................................................7728
    (a) revised; (c) removed; (b), (d), (e), and (f) redesignated 
as (c), (e), (f), and (g); new (b) and (d) added; new (g) revised 
                                                                   16366
    (a) and (b) corrected..........................................18950
36  Appendix B amended; Appendix H added............................3541
    Appendix H corrected...........................................4098,
6793, 7728
    Appendix A amended.............................................16367
    Appendix B amended.............................................16368
    Appendix C amended.............................................16372
    Appendix A corrected...........................................18835
    Appendix F heading revised; text amended.......................47400
    Appendix G added...............................................47400
    Appendix G corrected...........................................50157
    Appendix A corrected...........................................51087
39.13  ............................................................8-14,
233, 493, 495, 496, 1335, 1469, 1609-1612, 1614, 2005, 2479, 2735-2737, 
3002-3004, 3577-3581, 3737-3739, 4114, 4115, 4384, 4604, 4605, 5153-
5155, 5364-5366, 5760, 5763, 5764,

[[Page 1087]]

6794, 6795, 7347, 7349, 7730-7732, 8615, 8616, 8730, 8869-8871, 9284, 
9432, 9433, 9865, 9867, 10246, 11246, 11642-11644, 11838, 11839, 12142, 
12377, 12512, 12915, 12916, 13115, 13253, 14785, 14787, 15361, 15363, 
15364, 16247-16251, 16380, 16381, 16383-16387, 16698-16700, 17018, 
17019, 17176-17179, 17918, 18077-18086, 18549, 18835, 19265-19267, 
19766-19769, 20102, 20826-20831, 21411, 21414, 21628, 21631, 21810, 
23219, 23754, 23756, 24252, 24683, 25134-25141, 25317, 25319, 26039-
26046, 26763-26765, 26989, 26990, 27479, 27480, 27848, 27956, 28856-
28861, 29000, 29449-29452, 29653, 29654, 29878, 30024, 30025, 30426, 
30975-30983, 31296, 32031, 32032, 32889, 33446-33449, 34039, 34041, 
35307-35308, 36006, 36270, 36271, 36435-36439, 36964, 36966, 37543, 
37992-38004, 38285, 39251, 39450, 39451, 40052, 41150-41158, 41313, 
41314, 44158, 44161, 44181, 44854, 45892-45898, 46434-46444, 46605, 
46863, 46868, 47179, 47181, 47672, 47673, 47943, 47945, 49854, 49979, 
51094-51096, 52674
    Technical correction.............................................232
    Corrected......................................................3807,
7074, 10188, 12914, 22648, 36150, 39839
    Effective date corrected.......................................36697
    Eff. 1-9-89....................................................47944
    Eff. 1-3-89....................................................48522
    Eff. 1-5-89..............................................49548-49549
    Eff. 1-9-89....................................................51094
    Eff. 1-11-89...................................................49855
    Eff. 1-20-89...................................................50512
    Eff. 1-18-89...................................................50921
    Eff. 1-28-89............................................52671, 52673
    Eff. 2-3-89....................................................51096
43.11  Heading and (b) revised.....................................50195
47  Authority citation revised; section authority citations 
        removed.....................................................1915
    Legal opinion..................................................50208
47.11  (a) amended..................................................1915
47.47  (a)(2) revised...............................................1915
    Technical correction............................................3808
49  Authority citation revised......................................1915
49.17  (d) revised; (e) removed.....................................1915
    Technical correction............................................3808

                                  1989

14 CFR
                                                                   54 FR
                                                                    Page
Chapter I
1  Technical correction......................................1926, 37636
1.1  Amended..................................................950, 34329
    Amended; eff. 8-18-90
1.2  Amended.........................................................950
11  SFAR No. 27-5 amended..........................................39289
    Technical correction...........................................46724
11.11  Amended.....................................................39289
11.15  Amended.....................................................39289
11.25  (b)(2)(iv) amended..........................................39290
    Correctly amended..............................................52872
11.41  (c) amended.................................................39290
11.49  (b)(2) and (3) amended......................................39290
11.61  (d) amended.................................................39290
11.81  (b), (c), and (d) revised...................................39290
13  Disposition of comments........................................11914
    Technical correction...........................................46724
13.3  (b) and (c) amended..........................................39290
13.5  (b)(2) and (k) amended.......................................39290
13.17  Amended.....................................................39290
13.19  (b) and (c) amended.........................................39290
13.20  (l) amended.................................................39290
13.21  Amended.....................................................39290
13.23  (b) amended.................................................39290
13.25  Amended.....................................................29290
13.35  (a) amended.................................................39290
13.71  Amended.....................................................39290
13.73  Amended.....................................................39290
13.81  (a) amended.................................................39290
13.203  Separation of functions.....................................1335
14  Added; interim.................................................46199
15  Technical correction...........................................46724
15.3  (b) amended..................................................39290
21  Special FAA conditions.........................................2998,
3428, 3430, 3986, 8185, 21409, 21411, 24702, 39337, 39340, 41955, 43417, 
51870
    SFAR No. 29-4 amended; eff. 8-18-90............................34329
    Technical correction....................................37636, 46724
    SFAR No. 27-5 amended..........................................39291
21.3  (e)(1) and (f) amended.......................................39291
21.15  Amended.....................................................39291
21.47  Amended.....................................................39291
21.75  Revised.....................................................39291
21.81  (a) amended; eff. 8-18-90...................................34329
21.83  (a) and (b) amended; eff. 8-18-90...........................34329
21.85  (f) amended; eff. 8-18-90...................................34329
21.123  (c) amended................................................39291
21.183  (f) added..................................................26695
21.215  Revised....................................................39291
    Corrected......................................................52872
21.221  (a)(2) and (e) amended; eff. 8-18-90.......................34329

[[Page 1088]]

21.223  (a)(2) and (f) amended; eff. 8-18-90.......................34329
21.225  (a)(2) and (e) amended; eff. 8-18-90.......................34329
21.235  (a) amended................................................39291
21.303  (c) introductory text amended..............................39291
21.435  Introductory text amended..................................39291
21.605  (a) introductory text revised..............................39291
21.609  (b) revised................................................39291
21.611  (a) amended................................................39291
23  Technical correction...........................................37636
    Special FAA conditions........................................41955,
43417, 51870
23.572  Heading, (a) introductory text, (1), and (b) revised.......39511
23.785  (m) introductory text and (2) corrected....................50737
23  Appendix G amended; eff. 8-18-90...............................34329
25  Special FAA conditions.........................................2998,
3428, 3430, 3986, 8185, 21409, 21411, 24702, 39337, 39340
    Technical correction...........................................37636
25.2  Introductory text, (a), (b), (c), and (d) redesignated as 
        (a)(1), (2), (3), and (4); new (b) added...................26695
25.807  (c)(7) added...............................................26695
25.963  (e) added..................................................40354
25.1411  (a) heading and (2) revised...............................43925
25.1423  Added.....................................................43925
25  Appendix H amended; eff. 8-18-90...............................34329
27  Technical correction...........................................37636
27.561  (b) introductory text, (3) and (c) revised.................47318
27.562  Added......................................................47318
27.785  (a) through (c), (f) and (g) revised; (i) through (k) 
        added......................................................47319
27  Appendix A amended; eff. 8-18-90...............................34329
29  Technical correction...........................................37636
29.561  (b) introductory text, (3), (c) and (d) revised............47319
29.562  Added......................................................47320
29.571  Revised....................................................43930
29.783  (d) and (g)(1) revised.....................................47320
29.785  (a) through (c), (f) and (g) revised; (i) through (k) 
        added......................................................47320
29.809  (e) revised................................................47321
29  Appendix A amended; eff. 8-18-90...............................34330
31  Technical correction...........................................37636
    Appendix A amended; eff. 8-18-90...............................34330
33  Technical correction...........................................37636
    Appendix A amended; eff. 8-18-90...............................34330
35  Technical correction...........................................37636
    Appendix A amended; eff. 8-18-90...............................34330
36  Technical correction...........................................37636
36.7  (e)(3) added.................................................21042
36.1583  (b) amended; eff. 8-18-90.................................34330
39.13  .........................................................105-107,
595-598, 1336-1343, 1345, 1346, 1676, 1927, 3431-3434, 3590, 3774, 4262-
4266, 4760-4771, 5929, 6120, 6282, 6391, 6513, 6515, 6641, 6643, 6878, 
7397, 7398, 7760-7762, 8528, 9028, 10140, 10277, 10623, 10625-10626, 
11164-11178, 11367, 11368, 11694, 11696, 11914, 11938-11942, 12586-
12591, 12899, 13163-13166, 13874, 13875, 14207-14208, 14640-14645, 
15739-15747, 16101, 18273-18278, 18486, 19872-19877, 20117, 20119, 
20121, 21415, 21416, 21418, 21419, 21421, 21597, 21598, 21932-21936, 
22584-22585, 22879-22883, 23644, 24161-24165, 25231-25232, 25445, 25710-
25711, 26020-26025, 26047, 26048, 26050, 26052-26054, 26372, 26954, 
27156, 27158, 27630, 27631, 28023-28028, 29009-29010, 29529, 29533, 
29535-29538, 30008, 30009, 30718-30722, 30885, 30887, 31009, 31011, 
31324-31325, 31506-31511, 31650, 31651, 31653, 31654, 31804-31810, 
31936, 32535-32438, 32797, 33187, 33874-33876, 34499-34502, 34765, 
34768-34769, 34970-34973, 36278-36288, 37302, 38209-38214, 38508, 38815, 
39163-39165, 39343-39349, 40382, 40633-40636, 40638, 40639, 41052, 
41053, 41055, 41439, 41822, 41959-41961, 42289-42293, 42494, 43046, 
43047, 43217, 43422, 43579-43580, 43582, 43800-43806, 43955, 46045, 
46365-46371, 46725-46728, 46876, 46878-46881, 46885, 47198, 47200-47201, 
47512, 48080, 48081, 48583-48585, 48857, 49269, 49278, 49749, 50347, 
51016, 51196
    Corrected......................................................6395,

[[Page 1089]]

8054, 12532, 25233, 28554, 40382, 40640, 42621, 51972, 52873
    Eff. 1-30-90..................................................49267,
49275-49276
    Eff. 1-6-90....................................................49965
    Eff. 1-4-90..............................................49966-49967
    Eff. 1-1-90....................................................50233
    Eff. 1-12-90............................................50343-50344,
50346, 50487-50489
    Eff. 1-13-90.............................................50490-50492
    Effective date corrected to 1-15-90............................51191
    Eff. 1-14-90..................................................51192,
51194, 51739
    Eff. 1-17-90...................................................51193
    Eff. 1-31-90..................................................51741,
53046, 53049
    Eff. 1-2-90....................................................51875
    Eff. 1-26-90...................................................51876
43  Technical correction....................................37636, 46724
    SFAR No. 27-5 amended..........................................39291
43.5  (c) amended; eff. 8-18-90....................................34330
43.15  (a)(2) amended; eff. 8-18-90................................34330
43.16  Amended; eff. 8-18-90.......................................34330
43.17  (a)(2) amended; eff. 8-18-90................................34330
43  Appendix B amended; eff. 8-18-90...............................34330
    Appendix E amended; eff. 8-18-90...............................34330
    Appendix F amended; eff. 8-18-90...............................34330
45  Technical correction....................................37636, 46724
45.22  (a)(3)(ii) amended; eff. 8-18-90............................34330
    (a)(3)(i) amended..............................................39291
47  Technical correction...........................................37636
47.9  (f)(2)(i) amended; eff. 8-18-90..............................34330

                                  1990

14 CFR
                                                                   55 FR
                                                                    Page
Chapter I
11  SFAR 27-5 removed..............................................32859
11.101  (b) table (OMB numbers) amended............................24202
    (a) amended....................................................32859
13  Authority citation revised.....................................15128
13.15  (a)(1) and (2) revised (effective date suspended)...........15128
    Eff. 8-2-90....................................................27548
13.16  (a)(1), (2), (c), (e)(3), (g)(3), (h), (l), (m), and (p) 
        revised (effective date suspended).........................15128
    Eff. 8-2-90....................................................27548
    Revised........................................................27574
    Heading, (c), (g), and (l) corrected...........................29293
    Correctly designated...........................................31027
13.201  (a)(1) and (2) revised (effective date suspended)..........15129
    Eff. 8-2-90....................................................27548
13.201--13.235 (Subpart G)  Revised................................27575
13.202  Amended (effective date suspended).........................15129
    Eff. 8-2-90....................................................27548
13.203  Revised (effective date suspended).........................15130
    Eff. 8-2-90....................................................27548
13.205  (b) corrected..............................................29293
13.208  (a) revised (effective date suspended).....................15130
    Eff. 8-2-90....................................................27548
    (d) revised....................................................31176
    Technical correction...........................................41415
13.209  (a), (d), and (f) revised (effective date suspended).......15130
    Eff. 8-2-90....................................................27548
13.210  (a) corrected..............................................29293
13.218  (f)(1) and (2) introductory text, (ii) and (3) revised 
        (effective date suspended).................................15130
    Eff. 8-2-90....................................................27548
13.219  (c)(4) revised (effective date suspended)..................15130
    Eff. 8-2-90....................................................27548
    (d) revised....................................................45983
13.220  (l)(3) revised (effective date suspended)..................15130
    Eff. 8-2-90....................................................27548
    (k) revised....................................................45983
13.227  Revised (effective date suspended).........................15130
    Eff. 8-2-90....................................................27548
13.231  Revised (effective date suspended).........................15131
    Eff. 8-2-90....................................................27548
13.232  Revised (effective date suspended).........................15131
    (c) corrected..................................................18800
    Eff. 8-2-90....................................................27548
13.233  (j)(1) revised (effective date suspended)..................15131
    Eff. 8-2-90....................................................27548
13.234  (c)(1) corrected...........................................29293
14  Authority citation revised.....................................15131
14.05  (e) revised (effective date suspended)......................15131
    Eff. 8-2-90....................................................27548

[[Page 1090]]

15  Authority citation revised.....................................18710
15.1--15.9  Designated as Subpart A................................18710
15.101-15.115 (Subpart B)  Added...................................18710
21  Special FAA conditions..........................................270,
2366, 4986, 4990, 12328, 15217, 17589, 19055, 20588, 28174, 28599, 
36259, 37699, 38535, 46196, 47456, 48224, 49607
    Authority citation revised.....................................32860
    SFAR 27-5 removed..............................................32860
    Special FAA conditions.........................................52836
21.17  (a) introductory text revised...............................32860
21.21  (b) introductory text and (1) revised.......................32860
21.29  (a)(1)(i) and (b) revised...................................32860
    (a)(1)(i) corrected............................................37287
21.31  (d) revised.................................................32860
21.33  (b)(1) revised..............................................32860
21.93  (c) added...................................................32860
21.101  (a) introductory text revised..............................32860
21.115  (a) revised................................................32860
21.183  (g) added..................................................32860
21.187  (c) added..................................................32860
21.257  Revised....................................................32860
21.451  (d) revised................................................32860
23  Special FAA conditions..........................................271,
2366, 4986, 4990, 12328, 15217, 17589, 19055, 28599, 36259, 37699, 
38535, 47456, 48224
23.67  (e)(2) amended..............................................18575
23.903  (a)(1) revised.............................................32861
23.933  (d) amended................................................18575
23.951  (d) added..................................................32861
23.1309  Revised...................................................43309
    (a)(2), (b)(3), (4)(i) and (d) corrected.......................47028
23.1311  Added.....................................................43310
    (b) corrected..................................................47028
23.1321  (d)(3) and (4) amended; (a) and (b) introductory text 
        revised; (d)(5) added......................................43310
    (d) correctly designated.......................................46888
23.1587  (d)(6) amended............................................18575
25  Special FAA conditions....................20588, 28174, 46196, 49607
25.2  Revised......................................................29773
25.21  (b) removed; (d) revised....................................29774
25.29  (a)(3)(iii) revised.........................................29774
25.33  (c) revised.................................................29774
25.111  (a)(1) amended.............................................29774
25.125  (a)(2) amended.............................................29774
25.145  (a) introductory text and (1) revised......................29774
25.147  (a) introductory text revised; (b)(2) removed..............29774
25.149  (b), (e) introductory text, (f), and (g) revised...........29774
    (b), (e) introductory text, (f), and (g) corrected.............37607
25.177  Revised....................................................29774
    (c) and (d) corrected..........................................37607
25.181  (a) and (b) amended........................................29775
    (a) and (b) corrected..........................................37607
25.205  Removed....................................................29775
25.251  (e) revised................................................29775
25.253  (a)(3) revised.............................................29775
25.307  (b) and (c) removed........................................29775
25.331  (c)(2)(i) and (ii) amended.................................29775
    (c)(2)(i) and (ii) corrected...................................37607
25.341  (b)(3) redesignated as (c); (b)(1) and new (c) revised.....29775
    (b)(1), (3) and (c) corrected..................................37607
25.343  (a) amended................................................29775
    (a) corrected..................................................37607
25.345  (c)(1) revised.............................................29775
    (c)(1) corrected...............................................37607
25.351  (b) revised................................................29775
    (b) corrected...........................................37607, 41415
25.361  (a) introductory text, (2), and (c) introductory text 
        revised....................................................29776
    (a) introductory text, (2) and (c) introductory text corrected
                                                                   37608
25.365  Introductory text, (c), (e), (f), and (g) revised..........13477
    Introductory text amended......................................29776
25.373  (a) revised................................................29776
25.395  (b) revised; (c) added.....................................29776
25.397  Footnote 3 amended.........................................29776
25.415  (a)(2) revised.............................................29776
25.459  Amended....................................................29776
25.571  (b) heading, (2), (e)(1), and (2) revised..................29776
25.613  (b) and (e) revised........................................29776
25.615  Removed....................................................29776
25.625  (d) revised................................................29776
25.629  (b)(1) and (d)(1)(ii) revised..............................29777
    (b)(1) corrected...............................................41785
25.673  Removed....................................................29777
25.693  Revised....................................................29777
25.701  Revised....................................................29777
25.723  (a) revised................................................29777
25.729  (e)(4) revised.............................................29777
25.731  (b)(1) amended.............................................29777
25.733  (a)(1), (c) introductory text, and (1) revised.............29777
25.735  (b) revised................................................29777
25.772  Revised....................................................29777

[[Page 1091]]

25.773  (b)(1)(i) and (2) revised..................................29778
25.779  (b)(1) amended.............................................29778
25.781  Amended....................................................28779
25.783  (g) revised................................................29780
25.785  Revised....................................................29780
25.791  Revised....................................................29780
25.801  (a) amended................................................29781
25.803  (a) and (c) revised; (b), (d), and (e) removed.............29781
25.805  Removed....................................................29781
25.807  Revised....................................................29781
25.809  (f) and (h) removed; (d), (e), (i), (g), and (j) 
        redesignated as (f), (g), (d), (e), and (h)................29782
25.810  Added......................................................29782
25.813  Introductory text added; (a) and (b) revised...............29783
25.833  Revised....................................................29783
25.851  (a), (b) introductory text and (1) revised.................29783
25.853  Revised....................................................29783
25.855  Revised....................................................29784
25.869  Added......................................................29784
25.903  (f) added..................................................29784
    (a)(1) revised.................................................32861
    Technical correction...........................................35139
25.905  (d) added..................................................29784
25.925  (a) amended................................................29784
25.933  Revised....................................................29784
25.945  (b)(4) removed.............................................29785
25.951  (d) added..................................................32861
    Technical correction...........................................35139
25.973  (a) amended................................................29785
25.979  (b)(2) revised.............................................29785
25.1013  (a) and (c) revised.......................................29785
25.1093  (b)(1) revised............................................29785
25.1141  (e) added.................................................29785
25.1165  (h) added.................................................29785
25.1181  (b) revised...............................................29785
25.1305  (e)(3) removed............................................29785
25.1307  (a), (f), (g), and (h) removed............................29785
25.1351  (d)(1) and (2) revised; (d)(3) removed....................29785
25.1359  Removed...................................................29785
25.1381  (a)(1) revised............................................29785
25.1413  Removed...................................................29785
25.1415  (a) revised...............................................29785
25.1416  Removed...................................................29785
25.1419  Revised...................................................29785
25.1433  (a) designation, (b), and (c) removed.....................29785
25.1435  (a) and (b) revised.......................................29786
25.1451  Removed...................................................29786
25.1521  Revised...................................................29786
25.1522  Revised...................................................29786
25.1533  (a)(2) revised............................................29786
25.1543  (b) revised...............................................29786
25.1551  Revised...................................................29786
25.1557  (b) heading revised; (b)(3) added.........................29786
25.1581  (a)(3) added..............................................29786
25.1583  (b)(1), (f), and (i) revised..............................29787
25.1587  (b) introductory text revised.............................29787
25  Appendix F revised.............................................29787
    Appendix J added...............................................29788
27.307  (a) revised.................................................7999
27.337  Revised.....................................................7999
27.351  Added.......................................................7999
27.391  Revised.....................................................7999
27.395  (b) revised.................................................7999
27.401  Removed....................................................38966
27.403  Removed....................................................38966
27.413  Removed....................................................38966
27.427  Added.......................................................7999
    (b)(1) and (2) amended.........................................38966
27.501  (d)(3) and (f)(2)(ii) revised...............................8000
27.563  Revised.....................................................8000
27.571  (a) introductory text and (4) revised.......................8000
27.613  (b) and (d) introductory text revised; (e) added............8000
27.629  Amended.....................................................8000
27.663  (a) revised.................................................8000
27.674  Added.......................................................8001
27.685  (d), (e), and (f) added.....................................8001
27.727  (c) revised.................................................8001
27.775  Revised....................................................38966
27.783  (b) revised.................................................8001
27.787  (c) revised................................................38966
27.807  (d) revised.................................................8001
27.861  Revised.....................................................8001
27.865  (a) introductory text revised; (d) added....................8001
29  Special FAA conditions.........................................52836
29.307  (a) revised.................................................8001
29.337  (a) and (b) introductory text revised.......................8002
29.351  Revised.....................................................8002
29.391  Revised.....................................................8002
29.395  (b) revised.................................................8002
29.401  Removed....................................................38966
29.403  Removed....................................................38966
29.413  Removed....................................................38966
29.427  Added.......................................................8002
    (b)(1) and (2) amended.........................................38966
29.501  (d)(3) and (f)(2)(ii) revised...............................8002
29.519  Heading, (a), (b), and (c) revised..........................8002

[[Page 1092]]

29.563  Revised.....................................................8003
29.613  (b) and (d) introductory text revised; (e) added............8003
29.629  Amended.....................................................8003
29.663  Revised.....................................................8003
29.674  Added.......................................................8003
29.727  (c) revised.................................................8003
29.755  (a) designation and (b) removed.............................8003
29.775  Revised....................................................38966
29.783  (b) and (c) revised.........................................8003
    (h) added......................................................38966
29.787  (c) revised................................................38966
29.803  (c) removed; (d) and (e) added..............................8004
29.805  (c) added...................................................8004
29.807  (d) introductory text revised; (d)(3) added.................8004
29.809  (f) revised; (g), (h), and (i) added........................8004
29.811  (f)(1) revised..............................................8004
    (a) revised....................................................38967
29.855  (a) revised.................................................8004
29.861  (b) revised.................................................8005
29.865  (a) introductory text revised; (d) added....................8005
29.903  (c) revised; (f) redesignated as (d); (e) added............38967
    (c) corrected..................................................41309
29.923  (a) introductory text revised; (p) added...................38967
29.1415  (b)(1) revised.............................................8005
29  Appendix D added................................................8005
    Appendix B amended.............................................38967
    Appendix B corrected...........................................41309
33  Authority citation corrected...................................37287
33.1  (b) revised..................................................32861
34  Added..........................................................32861
34.1  Corrected....................................................37287
34.3  (a) corrected................................................37287
34.21  (b) corrected...............................................37287
34.61  Table corrected.............................................37287
34.62  (a)(2) and (3) table corrected..............................37287
34.64  Corrected...................................................37287
34.82  Corrected...................................................37287
39  Technical correction...........................................42149
39.13  .........................................................249-252,
256-260, 262-270, 597, 599-603, 605-608, 858-861, 999-1001, 1003, 1005-
1007, 1400, 1402, 1580, 1800, 1802, 1804, 1806, 2052-2054, 2056, 2057, 
2232, 2635-2637, 2639, 2640, 3042, 3044, 3045, 3047, 3048, 3577, 3580, 
3582, 4167, 4413-4416, 4418-4420, 4830-4833, 5592, 5593, 5595, 5833, 
6726, 6975-6978, 7301, 7697-7703, 8115, 8117-8121, 8123, 8125, 8126, 
8371, 8373, 8376, 8445, 8447, 8910, 8911, 9113, 9315, 10043, 10045, 
10046, 10048, 10049, 10227, 10229, 10599-10605, 10607, 11008, 11162, 
11165, 11889-11893, 12332, 12474-12476, 12478, 12816-12818, 13260, 
13261, 13263, 13755, 13756, 13758-13760, 14412, 14413, 15219, 15220, 
15222, 15223, 17421, 17594, 17927, 17928, 17930, 17931, 18304, 18305, 
18861, 18862, 19059-19062, 19255, 19722, 19723, 20130-20133, 20590, 
20592, 21184, 21185, 21376, 21378, 21536, 21537, 21742, 21859, 21861, 
22329, 22330, 22778, 22780, 23188-23191, 23700, 23701, 23888, 23889, 
23891, 23892, 23894, 23895, 23897, 23899, 24074, 24224, 24225, 25299, 
26423, 26425, 26426, 26428, 27201, 27458, 27459, 27804-27806, 28179, 
28182-28184, 28602, 28603, 28754, 28887, 29004, 29005, 29007-29011, 
29196-29198, 29344-29352, 30904, 30905, 30906, 31038, 31816, 31818, 
31820, 31822, 32382, 32599, 32602, 32604, 33095, 33098, 33100-33102, 
33104-33111, 33279, 33281, 33282, 33650, 33651, 34701, 34702, 34704, 
34707, 35574, 35576, 35577, 36265, 36268-36271, 37221, 37314, 37316, 
37317, 37456, 37457, 37458, 37856-37868, 38046-38048, 38050-38053, 
38537, 38539, 38540, 38542-38544, 38665, 38667, 39955-39957, 40152, 
40154, 40155, 40157-40159, 40818, 40820, 41186, 41187, 41336, 41337 
41507-41516, 41849, 41851, 41852, 42343, 42355, 42357-42359, 45601, 
46198, 46199, 46201, 46202, 46497-46499, 46501-46503, 46649-46651, 
46653-46656, 46658, 46788, 47047, 47048, 47305, 47306, 47847-47849, 
48591, 48593, 48226, 48227, 48229, 49021, 49257, 49262, 49267, 49273, 
49612, 49613, 50166, 50169, 50820, 50822, 50823, 51405
    Corrected......................................................5980,
6726, 8910, 11008, 11720, 20591, 20592, 20894, 27330, 31027, 31028, 
38544, 47028, 48955, 50448
    Eff. 1-2-91.............................................49020, 49023
    Eff. 1-7-91..............................................49608-49610
    Eff. 3-14-91...................................................50167

[[Page 1093]]

    Eff. 1-3-91....................................................50547
    Eff. 1-15-91...................................................50821
    Eff. 1-16-91............................................50824, 50826
    Regulation at 55 FR 46788 effective date suspended.............51276
    Eff. 1-22-91.....................................51403, 51404, 52270
    Eff. 1-18-91............................................51406, 51407
    Eff. 1-28-91............................................51895, 52038
    Eff. 1-31-91...................................................52988
    Eff. 1-7-91....................................................53148
43  SFAR 27-5 removed..............................................32861
    Technical correction...........................................35139
    Authority citation corrected...................................37287
45  SFAR 27-5 removed..............................................32861
45.13  (a)(7) redesignated as (a)(8); new (a)(7) added.............32861
    (a)(7)(i) corrected............................................37287

                                  1991

14 CFR
                                                                   56 FR
                                                                    Page
Chapter I
1  Authority citation revised......................................65653
1.1  Amended.........................................................351
    Amended; eff. 9-16-93..........................................65653
11  Authority citation revised.....................................65653
11.61  (a)(1) and (c) revised; effective in part 12-12-91 and 9-
        16-93......................................................65653
13  Policy statement...............................................55788
21  Special FAA conditions........3008, 8701, 8704, 13071, 19008, 19010, 
         19011, 19013, 23777, 36096, 37282, 45888, 47900, 48099, 49401, 
                                                     54781, 55618, 59211
    Special FAA conditions.........................................66786
21.17  (a) introductory text amended...............................41051
21.101  (a) introductory text amended..............................41051
23  Special FAA conditions...........................23777, 47900, 49401
23.67  (a) introductory text, (2), (5), (b) and (c) revised..........351
23.75  (a), (b) and (f)(3) revised; (g) redesignated as (h); new 
        (g) added....................................................351
23.161  (b)(1), (c)(1), (2) introductory text, (i), (3)(i), (d) 
        introductory text, (1) and (4) revised; (c)(4) added.........351
    (b)(1) corrected................................................5455
23.221  (a), (b) and (c)(3) revised..................................352
    (a)(1)(i) corrected............................................12584
23.301  (b) revised..................................................352
23.302  Added........................................................352
23.331  (a) amended; (c) added.......................................352
23.341  Existing text designated as (b) and amended; (a) added.......352
23.351  Amended......................................................352
23.421--23.427  Undesignated center heading revised..................352
23.421  (a) and (b) amended..........................................352
23.423  Revised......................................................353
    (b) corrected...................................................5455
23.425  (a) and (c) revised; (b) removed; (d) amended................353
23.427  (a) through (c) amended......................................353
23.441--23.445  Undesignated center heading revised..................353
23.441  (a) amended; (b) removed.....................................353
23.443  (a) and (c) amended; (d) removed.............................353
23.445  Heading and (a) revised; (b) and (c) amended; (d) added......353
23.455  (b) removed..................................................353
23.677  (d) revised..................................................353
23.701  (a) revised; (b) redesignated as (c); new (b) added..........353
    (b) corrected...................................................5455
23.735  (c) added....................................................354
23.831  (b) amended..................................................354
23.939  (b) added; (c) revised.......................................354
23.1047  (d) introductory text, (1), (5) and (e) amended.............354
23.1109  Added.......................................................354
23.1163  (a)(1), (2) and (3) revised; (d) amended; (e) added.........354
23.1323  (e) added...................................................354
23.1325  (g) added...................................................354
23  Appendix B removed...............................................354
25  Special FAA conditions........3008, 8701, 8704, 13071, 19008, 19010, 
         19011, 19013, 36096, 37282, 45886, 45888, 48099, 54781, 55618, 
                                                                   59211
25.351  (b) CFR correction.........................................41626
25.729  (e)(2), (3) and (4) revised; (e)(5) and (6) added; eff. 1-
        6-92.......................................................63762
25.851  Revised....................................................15456
25.854  Added......................................................15456
27.2  Added........................................................41051
29  Special FAA conditions.........................................66786
29.2  Added........................................................41052
29.629  CFR correction.............................................41626
33.1  CFR correction...............................................41626

[[Page 1094]]

39.13  .......6, 628, 629, 631-634, 779-781, 945, 946, 1568, 1569, 1911, 
        2129, 2130, 2428, 3008, 3009, 3016-3021, 3023-3026, 3204, 3974, 
         3975, 4533, 4535, 4537-4540, 5338-5341, 5343, 5344, 5749-5752, 
         6558, 6797, 6799-6806, 7556-7558, 7560-7562, 7564, 7803, 8107, 
            8705-8708, 9613, 9615-9618, 9836, 9838, 9839, 10362, 10796, 
             10798-10805, 11357-11361, 11364, 11365, 12112-12114, 12116-
          12118, 12653-12655, 13074, 14010, 14011, 14015, 14188, 14303, 
          14305-14308, 14463, 14464, 14636, 14638, 18507, 18508, 18510, 
         18512, 18513, 18685, 18686, 18688, 18689, 18690, 18692, 18694, 
          18695, 18697, 18698, 19255, 19256, 19921-19923, 20531, 21069, 
          21070, 21267, 21268, 21921-21924, 22307, 22308, 22310, 22312, 
         23012, 23501, 23502, 23504, 23786, 23997, 23999, 24334, 24336, 
           24337, 25022, 25354-25356, 25358-25361, 25363, 26021, 26022, 
           26024, 26025, 26326, 26907, 26908, 26602-26606, 26608-26612, 
          26763, 27403, 27687, 27689, 28043, 28319, 28480, 28685-28687, 
           28689, 28690, 28816, 29174, 29175, 29177, 30314-30317, 30319-
          30324, 30681, 30683, 30684, 31071-31073, 31325, 31327, 31869, 
          31870, 32073, 32074, 32076, 32321, 32958, 32960, 33206, 33372-
          33374, 33706, 33864, 34020, 34143-34145, 34147, 37140, 37142, 
          37143, 37145, 37284, 37462-47467, 37469, 37471, 37650, 38337, 
          38339, 40770, 40772-40775, 41059, 41450, 41928, 41929, 42224, 
          42226, 42227, 42231, 43548-43550, 45891, 45892, 45894, 46113, 
          46229, 46231, 46233, 46234, 46726, 46986, 47377-47379, 47672, 
          47673, 47902, 49409, 50043, 50045-50048, 50650, 50651, 51159, 
          51162, 51165, 51323, 51326, 51327, 51638-51640, 51642, 51643, 
          51645, 51646, 51648, 52190, 54782-54784, 55065, 55067, 55224, 
         55226, 55227, 55229, 55230, 55232, 55234, 55448, 55622, 56150, 
          56152, 56153, 56463, 56930, 57235, 57236, 57484-57486, 57590, 
                         57591, 58495, 59213, 59868, 59870, 60057, 60058
    Corrected.....................631, 12110, 27559, 40494, 51327, 56116
    Technical correction...........................................51762
    Regulation at 56 FR 54782 effective date corrected.............57373
    Eff. 1-3-92....................................................60914
        Eff. 1-7-92................................61356--61359, 61363, 
                                                                   61366
    Eff. 1-9-92...............................63628, 63630, 63633, 63634
39.13  ....61353, 61361, 61362, 61365, 63632, 64477, 64701, 65181, 65783
    Eff. 1-3-92....................................................64192
    Eff. 1-16-92...................................................65826
    Eff. 1-27-92............................................65827, 65830
    Eff. 1-3-92....................................................65829
43  Authority citation revised.....................................57571
43.17  Revised; eff. 2-10-92.......................................57571
45  Authority citation revised.....................................65653
45.22  (a)(3)(i) revised; eff. 9-16-93.............................65653

                                  1992

14 CFR
                                                                   57 FR
                                                                    Page
Chapter I
1  Technical correction............................................11575
11  Technical correction...........................................11575
13  Civil penalty assessment demonstration program..........34511, 40094
21  Special FAA conditions....7, 338, 605, 1221, 2225, 2444, 3516, 8720, 
          9167, 12867, 13004, 22165, 23525, 31957, 33869, 33872, 34211, 
         34214, 34512, 35981, 37406, 37876, 41069, 41072, 47986, 53246, 
                                                            53984, 57656
    Authority citation revised.....................................42853
21.2  Added........................................................41367
21.17  (f) added...................................................41367
21.24  Added.......................................................41367
21.31  (c) amended; (d) redesignated as (e); new (d) added.........41368
21.35  (a) introductory text amended...............................41368
21.93  (b)(3) introductory text amended............................41368
21.115  (a) revised................................................42854
21.163  Revised....................................................41368
21.165  (b) amended................................................41368
21.175  (b) amended................................................41368
21.181  (a)(1) amended.............................................41368
21.182  (b)(2) revised.............................................41368
21.184  Added......................................................41368
    (b) and (c) corrected..........................................43776
21.187  (a) introductory text revised..............................41369
21.191  (h) added..................................................41369
23  Special FAA conditions.........1221, 2225, 2444, 8720, 31957, 35981, 
                                                     37876, 41069, 41072
25  Special FAA conditions......7, 338, 605, 13004, 22165, 33869, 33872, 
                                34211, 34214, 34512, 37406, 53984, 57657
25.251  (a) and (b) revised........................................28949
25.305  (e) and (f) added..........................................28949
25.629  Revised....................................................28949
25.813  (a) and (c) revised........................................19244
    (a) introductory text, (c)(1) introductory text and (2)(i) 
corrected..........................................................29120

[[Page 1095]]

29  Special FAA conditions........3516, 9167, 12867, 23525, 47986, 53246
36  Authority citation revised.....................................42854
36.1  (h) introductory text amended................................41369
    (h) revised....................................................42854
36.6  (c)(1)(v) added..............................................42854
36.9  Introductory text amended....................................41369
36.11  Introductory text amended...................................41369
    Revised........................................................42854
36.501  (a)(3) added...............................................41369
36.801  Amended....................................................41369
    Revised........................................................42854
36.803  Revised....................................................42854
36.805  (b) amended; (d) added.....................................41369
    Revised........................................................42855
36.1581  (f) revised...............................................42855
36  Appendix J added...............................................42855
    Appendix J corrected...........................................46243
39  Technical correction...........................................23126
   39.13  ....178, 180--182, 606, 607, 780-782, 784, 785, 787, 789, 791-
        793, 1075, 1077, 2014, 2016, 2447, 3000, 3001, 3003, 3004, 3006, 
            3008, 3517, 3518, 3927, 3929, 3931, 3932, 3935, 3936, 4154, 
        4841, 4843, 4844, 4846-4848, 4850, 4926, 5051, 5370, 5371, 5373, 
            5374, 5376, 5377, 5379, 5380, 5976, 6069, 6071, 6191, 6667, 
            7650, 8061--8063, 8258, 8260--8262, 8575, 8576, 8721, 8722, 
         8724, 8725, 9169--9172, 9382, 9383, 9974, 10127, 10128, 10130, 
         10132, 10133, 10286, 10416, 10418, 10420--10423, 10802, 10803, 
         12868, 12870, 13005, 13007, 13009, 13640, 13642, 14794, 15006, 
         15008, 15009, 15011, 15012, 17851, 17852, 17854, 18397, 19080, 
          19082, 19250, 19376, 19530-19533, 19798, 19800--19802, 20199, 
         20743, 20745, 21208, 21727, 21728, 21730, 22427, 23050, 23052, 
         23054, 23136, 23526, 23528--23531, 24357, 24939--24942, 27247, 
         27149, 27152--27154, 27156, 27158, 27355, 28458, 28597--28599, 
         28601, 28603, 28604, 29196, 29198, 29199, 29201, 29202, 29786, 
         30111, 30114, 30393, 30394, 31097, 31099, 31101--31104, 31433--
         31436, 31438, 31440--31442, 31444, 31658, 31960, 33105, 33107, 
         33109, 34066, 34067, 34069, 34070, 34072, 34073, 34216--34220, 
         35983, 36892, 36894, 36895, 36897, 36899--36901, 37409, 37692, 
         37874, 37875, 38252, 38254, 38255, 38257, 38259--38261, 38263--
         38267, 38269, 38271, 38431, 38433, 38761, 40309--40313, 40601, 
         40836, 40838, 40840, 42692, 42694, 43291, 43892, 46756, 46758--
         46760, 46762--46766, 46770, 46772, 46773, 47400, 47402, 47403, 
         47405, 47408, 47570, 47571, 47758--47763, 47989, 47990, 47992, 
         48958, 48960, 48962, 48963, 48965, 48967, 48968, 49391, 53019, 
         53249, 53250, 53252, 53253, 53255, 53257, 53258, 53260, 53438, 
         53547, 53549, 53847, 53983, 54175, 54292, 54294, 54295, 54297, 
                                              54299, 57097, 57907, 59286
    Corrected.......2639, 8839, 9155, 10985, 10986, 11138, 12963, 14751, 
                         30534, 44489, 49218, 49392, 56246, 57280, 60277
    Technical correction...........................................23126
    Eff. 1-22-93....................................57659, 58974, 60113,
    Eff. 1-12-93...........................................57880, 57882,
    Eff. 1-29-93...................................................58974
    Eff. 1-20-93...................................................59801
    Eff. 1-4-93.............................................60120, 60122
    Eff. 1-27-93...................................................60980
    Eff. 1-8-93....................................................61257
    Eff. 2-1-93.............................................61557, 61559
    Eff. 1-13-93............................................61789, 61792
    Eff. 2-5-93....................................................61794
43  Appendix A amended.............................................41369

[[Page 1096]]

45  Technical correction...........................................11575

                                  1993

14 CFR
                                                                   58 FR
                                                                    Page
Chapter I
11.101  (b) table amended..........................................18138
13  Authority citation revised.....................................50241
13.202  Amended....................................................50241
13.203  (c) revised................................................50241
21  Special FAA conditions........5571, 8222, 19553, 28496, 38702, 38703
23  Special FAA conditions...................................8222, 28496
23.23  Revised.....................................................42156
23.25  (a)(2)(i) revised...........................................42156
23.33  (d)(2) revised..............................................42156
23.45  (b) and (d) revised; (e) removed; (f) redesignated as (e); 
        new (e)(2) and (5) introductory text amended...............42156
23.49  (b) introductory text revised; (c), (d) and (e) 
        redesignated as (d), (e) and (f); new (c) added............38639
23.53  (a), (b)(1)(ii) and (2) revised.............................42156
23.65  (a) revised.................................................42156
23.67  (b)(1) and (2) revised......................................38639
23.141  Revised....................................................42156
23.143  (a)(4) amended; (c) table revised..........................42156
23.145  Revised....................................................42157
    (b)(1) and (3) corrected.......................................51970
23.147  Revised....................................................42157
23.149  (d) amended; (a), (b) and (c) revised......................42157
    (a) corrected..................................................51970
23.153  Revised....................................................42157
23.155  (b) revised................................................42158
23.157  (a)(2) and (c)(2) amended; (b) revised.....................42158
23.175  (a)(3) and (d)(3) revised..................................42158
23.177  (a)(1), (2) and (3) revised................................42158
23.179  Removed....................................................42158
23.181  (c) and (d) added..........................................42158
23.201  (c), (d)(2), (f)(4) and (5) revised........................42159
    (c) corrected..................................................51970
23.203  (b) introductory text, (4), (5), (c)(1), (4) and (5) 
        revised....................................................42159
23.205  (b)(1) and (6) revised.....................................42159
23.207  (c) revised; (d) added.....................................42159
23.233  (a) and (b) revised; (d) added.............................42159
23.235  Revised....................................................42159
23.251  Revised....................................................42159
23.253  (a) and (b) introductory text revised......................42160
23.305  (b) revised................................................42160
23.321  (c) added..................................................42160
23.361  (a) introductory text, (2) and (c) introductory text 
        revised....................................................42160
23.369  Heading revised............................................42160
23.371  Heading and introductory text revised......................42160
23.397  (b) amended................................................42160
23.415  (c) added..................................................42160
23.473  (f) revised................................................42160
23.479  (b) and (c) revised........................................42160
23.485  (d) added..................................................42160
23.521  (b) and (c) revised........................................42160
23.523  Added......................................................42160
23.525  Added......................................................42161
    (b) corrected..................................................51970
23.527  Added......................................................42161
    (b)(4), (6) and (c) corrected..................................51970
23.529  Added......................................................42161
23.531  Added......................................................42161
23.533  Added......................................................42161
    (b)(1), (2), (c)(1) and (2) corrected..........................51970
23.535  Added......................................................42162
    (d) corrected..................................................51970
23.537  Added......................................................42163
23.562  (b) introductory text amended; (d) redesignated as (e); 
        new (d) added..............................................38639
23.571  Introductory text amended; (c) added.......................42163
23.572  (a) amended; (a)(3) added..................................42163
23.573  Added......................................................42163
    (a)(2) and (6) corrected.......................................51970
23.613  (b) and (c) revised; (d) and (e) added.....................42163
23.615  Removed....................................................42164
23.621  (c)(1) and (d) introductory text revised; (e) added........42164
23.629  (d)(1) revised; (g) and (h) added..........................42164
    (g) corrected..................................................51970
23.655  (a) revised................................................42164
23.672  Added......................................................42164
23.679  Revised....................................................42164
23.729  (f)(1) and (2) revised.....................................42164
23.731  (a) removed; (b) and (c) redesignated as (a) and (b).......42165
23.733  (a) revised................................................42165
23.737  Revised....................................................42165
23.751  (a) revised................................................42165
23.753  Revised....................................................42165

[[Page 1097]]

23.755  (a) introductory text amended..............................42165
23.773  Revised....................................................42165
23.775  (f) and (g) added..........................................42165
    (f) corrected..................................................51970
23.851  Revised....................................................42165
23.865  Revised....................................................42165
23.901  (b), (d) and (e) revised; (f) added........................18970
23.903  (d)(1) and (e)(2) revised..................................18970
23.904  Added......................................................18970
23.905  (e) through (h) added......................................18970
23.909  Heading and (a) introductory text revised; (b) and (c) 
        amended; (d) and (e) added.................................18970
23.925  (b) and (c) redesignated as (c) and (d); new (b) added.....18971
23.933  Revised....................................................18971
23.934  Added......................................................18971
23.937  Existing text designated as (a); (b) added.................18971
23.943  Amended....................................................18971
23.951  (a) revised................................................18971
23.953  (b)(1) amended.............................................18971
23.955  (a) introductory text and (2) amended; (a)(3), (4), (c)(3) 
        and (f)(3) added; (c) introductory text, (1), (d)(2), (e) 
        and (f)(2) revised.........................................18971
23.957  Existing text designated as (a); (b) added.................18972
23.961  Revised....................................................18972
    Corrected......................................................27060
23.963  (f) removed................................................18972
23.965  (b) revised................................................18972
23.967  (d) revised................................................18972
23.971  Revised....................................................18972
    (a) corrected..................................................27060
23.973  (c) amended; (e) and (f) added.............................18972
23.975  (a)(5) amended.............................................18973
23.977  (d) amended................................................18973
23.991  (c) amended................................................18973
23.993  (d) amended................................................18973
23.997  (d) amended................................................18973
23.999  (b)(3) removed; (b)(2) revised.............................18973
23.1001  (f) amended...............................................18973
23.1011  (a) through (d) redesignated as (b) through (e); new (a) 
        added......................................................18973
23.1013  (g) amended...............................................18973
23.1019  (a)(2), (3) and (5) amended...............................18973
23.1021  (a) and (b) revised; (c) added............................18973
23.1027  (b) and (c) amended; (a) revised..........................18973
23.1041  Revised...................................................18973
23.1047  (b)(2) amended............................................18973
23.1061  (a)(3) redesignated as (a)(4); new (a)(4) and (a) 
        concluding text amended; (a)(2) revised; new (a)(3) added 
                                                                   18973
23.1091  Heading and (c)(2) revised; (a) and (c)(1) amended; 
        (b)(4) and (5) added.......................................18973
    Heading and (c)(2) corrected...................................27060
23.1093  (a) heading, (3) introductory text and (c) amended; 
        (a)(4), (5) and (b)(1) revised; (a)(6) added...............18973
23.1101  Heading, introductory text and (a) revised................18974
23.1103  (c) through (f) added.....................................18974
23.1107  Added.....................................................18974
23.1121  Introductory text and (i) added; (c) revised..............18974
23.1123  Heading, (a), (b) and (c) amended.........................18974
23.1142  Added.....................................................18974
23.1143  (g) added.................................................18974
23.1145  (a) amended...............................................18974
23.1147  (a) introductory text, (1) and (2) redesignated as (a)(1) 
        introductory text, (1)(i) and (ii); introductory text and 
        (b) redesignated as new (a) introductory text and (2); new 
        (b) added..................................................18974
23.1181  Added.....................................................18975
23.1189  (a) introductory text amended; (a)(5) revised.............18975
23.1191  (a), (b) and (f)(1) amended; (d) removed; (h)(6) added....18975
    (f)(1) corrected...............................................27060
23.1193  (b) revised...............................................18975
23.1195  Introductory text, (a), (b) and (c) redesignated as (a) 
        introductory text, (1), (2) and (3); new (b) added.........18975
23.1203  Introductory text and (e) amended; (a) revised............18975
23.1303  (c) revised...............................................18975
23.1305  Revised...................................................18975
    (d)(1) corrected...............................................27060
23.1307  (a) amended; (c) added....................................18976
23.1322  (e) added.................................................18976
23.1329  (b) through (g) redesignated as (c) through (h); new (b) 
        added......................................................18976
23.1331  Revised...................................................18976

[[Page 1098]]

23.1337  (a)(1), (3) and (b)(5) amended............................18976
23.1351  (c) revised; (g) added....................................18976
23.1357  (a)(1) and (e) revised....................................18976
23.1361  (a) and (b) revised.......................................18977
23.1365  (c) added.................................................18977
23.1385  (b) revised; (c) amended; (d) removed; (e) redesignated 
        as (d).....................................................18977
23.1387  (a) amended...............................................18977
23.1389  (b) introductory text and (3) amended.....................18977
23.1391  Heading and table amended.................................18977
23.1393  Heading amended...........................................18977
23.1395  Heading amended...........................................18977
23.1419  Revised...................................................18977
23.1431  Revised...................................................18977
23.1435  (c) revised...............................................18977
23.1441  (a) and (d) revised; (e) added............................18978
23.1443  Revised...................................................18978
23.1445  Added.....................................................18978
23.1447  (e) revised...............................................18978
23.1507  Revised...................................................42165
23.1521  (a) revised...............................................42165
23.1522  Added.....................................................42166
    Corrected......................................................51970
23.1525  Revised...................................................42166
23.1527  Revised...................................................42166
23.1549  Heading, introductory text and (d) revised................42166
23.1557  (c) revised; (f) removed..................................42166
23.1563  (a) revised...............................................42166
23.1581  (f) added.................................................42166
23.1583  Introductory text and (m) added; (a)(2) and (h) revised 
                                                                   42166
23.1585  (a) and (c) revised; (b) added............................42166
23.1587  Introductory text added; (a), (b) and (c) revised.........42167
    (c)(1) corrected...............................................51970
23.1589  (a) revised...............................................42167
23  appendix H added...............................................18979
    appendix D amended; appendix H added...........................42167
    appendix I correctly designated................................51970
25  Special FAA conditions......5571, 12538, 16486, 19553, 33327, 36345, 
                         36348, 36350, 36352, 46536, 47628, 58263, 59646
    Authority citation revised.....................................11781
25.733  (e) added..................................................11781
25.811  (e)(3) removed; (e)(2) introductory text revised...........45229
25.1411  (a)(2) removed; (a)(1) redesignated as (a) and revised....45229
25.1423  Revised...................................................45229
25  appendix J amended.............................................45229
29  Special FAA conditions...........................38702, 38703, 57542
33  Special FAA conditions...................................6876, 39643
33.28  Added.......................................................29095
35  Special FAA conditions...................................3215, 15262
    39.13  ........5,  7, 481, 484, 3492, 4892, 5257, 5258, 5261, 5262, 
         5575, 5578-5580, 5922, 5923, 5925, 6078, 6080-6082, 6084-6086, 
            6192, 6370, 6704, 6706, 6708, 6877, 6878, 6879, 6881, 6882, 
            7185, 7480, 7482, 7484, 7738, 7862, 7864, 7982, 7983, 8225, 
            9114-9117, 11187, 11189, 11191, 11524, 11525, 12153, 12155, 
         12157, 13407, 13701, 13702, 14312, 14514, 14516, 15758, 15759, 
         15761, 16106, 16108, 16110, 16111, 16115, 16117, 16119, 16348, 
         16764, 16766, 16769, 16771, 18338, 18339, 18341, 18342, 18343, 
         19050, 19324, 19326, 19328, 19330, 19573, 19769, 21243, 21247, 
         21347, 21913, 21915, 21917, 21920, 21922, 21923, 21925, 25548, 
         25549, 25550, 25552, 25553, 26056, 26058, 26059, 26060, 26062, 
         26064, 26683, 26915, 27455, 27457, 27458, 27651, 27924, 27926, 
         27928, 27930, 28918, 28919, 28920, 29103, 29348, 29967, 30107, 
                                      31160, 31161, 31342, 31347, 31348,

[[Page 1099]]

31350, 31352, 31354, 31356, 31648, 31649, 31651, 31903, 31906, 
        32056, 32279, 32281, 32602, 32604, 32607, 32609, 32836, 
        32838, 33893, 33894, 33895, 33897, 33901, 33902, 33903, 
        33904, 33906, 33907, 34366, 34522, 34881, 35862, 36130, 
        36132, 36864, 36866, 38284, 38286, 38511, 38512, 38514, 
        38517, 39140, 39436, 39438, 39440, 39441, 39442, 39646, 
        39648, 40325, 40327, 40585, 40733, 40735, 41173, 41175, 
        41176, 41178, 41180, 41420, 41422, 42191, 42193, 42194, 
        42197, 42198, 42642, 43549, 43552, 43553, 43790, 44438, 
        44440, 44442, 45042, 45044, 45045, 45829, 45832, 45834, 
        46078, 46766, 46767, 46768, 46770, 46771, 46773, 47034, 
        47035, 47036, 47037, 47038, 47210, 47825, 47827, 47828, 
        47829, 47987, 49918, 50253, 50838, 50840, 50842, 50844, 
        51213, 51216, 51771, 51772, 52890, 53121, 53635, 53637, 
        53853, 53854, 53856, 53858, 54031, 54033, 54034, 54936, 
        54938, 54940, 54943, 54945, 54946, 54948, 54951, 57544, 
        57545, 57546, 57548, 59162, 59937, 59938, 59939, 59941, 
        59942, 59943, 59945, 60370, 60371, 60373, 60374, 60375, 
        60772, 60773, 60774, 60777, 61014, 61612, 61614, 61617, 
        61619, 61621, 62515, 62517, 62519, 63061, 63062, 63525, 
        64488, 65106
    Corrected..........................17972, 21538, 34366, 46772, 52220
    Technical correction...........................................48946
    Eff. 1-21-94.....................................63524, 67666, 68029
    Eff. 1-5-94......................................64113, 64116, 67309
    Eff. 1-10-94.....................................64875, 64876, 64878
    Eff. 1-28-94...................................................65116
    Eff. 1-18-94.......................65282, 65889, 65893, 65895, 65896
    Eff. 2-4-94....................................................65284
    Eff. 1-3-94....................................................65663
    Eff. 2-11-94............................................66269, 66275
    Eff. 1-19-94.....................................66270, 66272, 66274
    Eff. 2-15-94...................................................66277
    Eff. 1-20-94.....................................67307, 67310, 67311
    Eff. 1-26-94............................................67667, 68291
    Eff. 2-22-94...................................................68025
    Eff. 1-7-94....................................................68027
    Eff. 1-31-94...................................................69222

                                  1994

14 CFR
                                                                   59 FR
                                                                    Page
Chapter I
11.101  (b) table amended (OMB numbers)............................52683
13  Authority citation revised.....................................44268
    SFAR  No. 72 added; eff. 8-26-94 through 8-26-96...............44269
    SFAR  No. 72 corrected.........................................46533
23  Special FAA conditions..............8119, 23095, 34572, 39941, 44896
23.561  (b)(2)(iv) added...........................................25772
23.783  (f) added..................................................25772
23.803  Existing text designated as (a); (b) added.................25773
23.805  Added......................................................25773
23.807  (d) introductory text and (1) revised; (d)(3), (4) and (e) 
        added......................................................25773
23.811  (c) added..................................................25773
23.812  Added......................................................25774
23.813  Existing text designated as (a); (b) added.................25774
23.815  Existing text designated as (a) and amended; (b) added.....25774
25  Special FAA conditions.......7199, 7202, 13870, 13875, 14740, 28234, 
                  28762, 29538, 39427, 52683, 59115, 59116, 60307, 61262
    Authority  citation revised....................................32057
25.519  Added......................................................22102
25.1316  Added.....................................................22116
25.1415  (d) revised...............................................32057
27  Special FAA conditions..........................................3988
27.561  (d) added..................................................50386
27.923  (e) revised................................................47767
27.952  Added......................................................50386
27.963  (f) revised; (g) and (h) added.............................50387
27.967  Added......................................................50387
27.973  Revised....................................................50387
27.975  (b) revised................................................50387
27.1143  (e) added.................................................47767
27.1305  (t) and (u) added.........................................47767
27.1521  (j) and (k) added.........................................47767
27.1549  (e) revised...............................................47768
29  Special FAA conditions..................................22499, 48792
    Authority  citation revised....................................32057
29.67  (a)(1)(i) revised...........................................47768
29.923  (a) introductory text and (b)(1) revised; (b)(3) added.....47768
29.952  Added......................................................50387
29.963  (b) removed; (c), (d) and (e) redesignated as (b), (c) and 
        (d); new (b) revised; new (e) added........................50388
29.967  (e) removed................................................50388
29.973  Revised....................................................50388

[[Page 1100]]

29.975  (a)(7) revised.............................................50388
29.1143  (f) added.................................................47768
29.1305  (a)(24) and (25) added....................................47768
29.1415  (d) revised...............................................32057
29.1521  (i) and (j) added.........................................47768
29.1549  (e) revised...............................................47769
36  Policy statement...............................................39679
39.13...............................................................516,
1472, 1903, 1904, 1906, 1907, 1909, 1910, 1911, 1913, 1915, 2520, 2951, 
2953, 3653, 3788, 3989, 4554, 4556, 4557, 4560, 4562, 4564, 4567, 4569, 
4573, 4574, 4576, 4790, 5076, 5079, 6216, 6535, 6536, 6538, 6540, 6543, 
6546, 6899, 7210, 7901, 7902, 7904, 7905, 7908, 8130, 8382, 8385, 8387, 
8389, 8392, 8394, 8395, 8520, 8846, 9401, 10058, 10271, 10273, 10274, 
10277, 10280, 10575, 10735, 10736, 11532, 11533, 11715, 11717, 12159, 
13439, 13440, 13442, 13444, 13445, 13447, 13448, 13647, 14547, 14744, 
15044, 15331, 15332, 15615, 15854, 15855, 17468, 17682, 17684, 17685, 
17687, 17688, 18295, 18710, 18713, 18714, 18715, 18716, 18718, 18720, 
18721, 18723, 18954, 18956, 18958, 18959, 18961, 18963, 19128, 21644, 
22126, 22128, 23132, 23134, 23136, 23137, 23138, 23140, 23143, 23144, 
23146, 23147, 23149, 23152, 23616, 23793, 24035, 25289, 25292, 25294, 
25296, 25805, 25806, 25807, 25808, 26104, 26108, 27230, 27232, 27443, 
27971, 27973, 28476, 28764, 29352, 29353, 29355, 29356, 29541, 30278, 
30280, 30282, 30284, 30287, 30675, 31508, 31510, 31515, 31517, 31518, 
32326, 32328, 32330, 32332, 32648, 32874, 32876, 32878, 32880, 32882, 
32883, 33644, 33646, 33649, 33651, 34575, 34577, 34758, 34967, 35235, 
35236, 35238, 35239, 35242, 35243, 35245, 35246, 35247, 36047, 36048, 
36931, 36934, 37156, 37415, 37658, 37661, 37663, 37932, 37935, 38118, 
38351, 38354, 38356, 38555, 39430, 39431, 39433, 40798, 40800, 41227, 
41228, 41231, 41234, 41236, 41238, 41239, 41644, 41647, 41649, 41654, 
41657, 41663, 43026, 43028, 43029, 43030, 43033, 43034, 43727, 43729, 
44900, 44902, 44904, 44906, 44909, 44910, 46164, 46534, 46536, 46537, 
46540, 46543, 46544, 46547, 46915, 47797, 48384, 48385, 48386, 48388, 
48564, 48796, 49177, 49786, 49789, 49791, 50483, 51105, 51362, 51841, 
51842, 51845, 51848, 52416, 53572, 53576, 53579, 53580, 53582, 53583, 
53932, 53933, 54124, 54125, 54126, 55200, 55204, 55342, 55990, 55991, 
55993, 55994, 56384, 58763, 58766, 58767, 58769, 59123, 59131, 59914, 
59915, 59917, 60708, 60890, 60892, 62565, 63003, 63005, 63717, 64113
         Corrected......7897,  8520, 10735, 11182, 23148, 34899, 40084, 
           42156, 47534, 48565, 49175, 49349, 54517, 55995, 59362, 61523
    Regulation  at 59 FR 54124 eff. date corrected to 11-28-94.....56114
    Eff.  1-31-95..................................................61790
    Eff.  1-6-95..............................61792, 62998, 62999, 63001
    Eff.  1-3-95............................................61794, 64845
    Eff.  12-1-95..................................................61795
    Eff.  1-4-95.....................................62307, 62308, 62309
    Eff.  2-6-95............................................62996, 67180
    Eff.  1-17-95....................................64567, 64570, 64665
    Eff.  2-13-95..................................................64568
    Eff.  2-17-95..................................................65246
    Eff.  1-23-95..................................................65929
    Eff.  1-26-95.............................66450, 66453, 66455, 66458
    Eff.  1-11-95..................................................66456
    Eff.  1-12-95..................................................66670
    Eff.  1-13-95..................................................67177

                                  1995

14 CFR
                                                                   60 FR
                                                                    Page
Chapter I
1  Authority citation revised......................................67254
1.1  Amended.................................................5075, 30749
11  Authority delegation...........................................12108
    Authority citation revised.....................................67254
11.25  (b)(3) revised; (b)(4) and (5) amended; (b)(6) added.........5075
    (b)(6)(i)(B) corrected.........................................12034
13  Authority citation revised.....................................67254
14  Authority citation revised.....................................67254
15  Authority citation revised.....................................67254
21  Policy on enforcement..........................................10480
    Authority citation revised.....................................67254
23  Special FAA conditions.............33332, 34105, 54297, 57922, 62730
    Authority citation revised.....................................67254
25  Special FAA conditions.......325, 10482, 10483, 10486, 17194, 26357, 
         31384, 36967, 36969, 38893, 39625, 42029, 44748, 47458, 49331, 
                                              53691, 56223, 63901, 64315
    Authority citation revised...............................6622, 67254
25.119  (a) revised................................................30749

[[Page 1101]]

25.121  (d)(1) revised.............................................30749
25.125  (a)(2) revised.............................................30749
25.143  (c), (d) and (e) revised; (f) added........................30749
25.145  (b) introductory text, (3), (4) and (c)(1) revised.........30749
25.149  (f), (g) and (h) revised...................................30749
25.201  (b), (c) and (d) revised...................................30750
25.203  (c) revised................................................30750
25.253  (b) revised................................................30750
25.853  Revised.....................................................6623
25  Appendix F amended..............................................6623
    Appendix F corrected...........................................11194
27  Authority citation revised.....................................67254
29  Special FAA conditions.........................................26823
    Authority citation revised..............................55776, 67254
29.901  (c) revised; eff. 1-31-96..................................55776
29.903  (d) revised; eff. 1-31-96..................................55776
31  Authority citation revised.....................................67254
33  Special FAA conditions...................................7112, 58204
    Authority citation revised.....................................67255
34  Authority citation revised.....................................67255
34.64  Amended.....................................................34077
34.71  Revised.....................................................34077
34.82  Amended.....................................................34077
34.89  Amended.....................................................34077
35  Special FAA conditions.........................................58508
    Authority citation revised.....................................67255
36  Authority citation revised.....................................67255
39  Authority citation revised..............................38670, 67255
    Technical correction...........................................58731
    Comment period extension.......................................62321
39.13.................................................................5,
328, 330, 331, 334, 338, 1713, 2006, 2324, 2494, 2496, 2878, 3739, 3741, 
4075, 4078, 5566, 5567, 5569, 6398, 6653, 6655, 8284, 8286, 8288, 8289, 
8291, 8293, 8294, 8296, 8298, 8539, 8541, 8543, 8545, 8928, 8930, 8931, 
9615, 9618, 9620, 9622, 10309, 10802, 10804, 10806, 10808, 11021, 11612, 
11614, 11616, 11619, 11621, 11622, 11624, 12406, 12408, 12409, 12411, 
12412, 12413, 12415, 12664, 12666, 13619, 13621, 13622, 13624, 13626, 
14621, 14898, 15035, 15036, 15038, 15668, 15866, 16367, 16782, 16784, 
17440, 17442, 17988, 17989, 17990, 17992, 18541, 18730, 18983, 19156, 
19158, 19160, 19344, 19345, 19347, 19349, 19351, 20015, 20017, 20018, 
20020, 20190, 20395, 20888, 20890, 21042, 21432, 21977, 21979, 21981, 
22497, 22499, 22500, 22502, 24554, 24763, 25123, 25125, 25605, 25608, 
25609, 25611, 25612, 25984, 25987, 26685, 27006, 27007, 27014, 27017, 
27019, 27021, 27024, 27403, 27404, 27685, 27687, 27872, 27874, 28036, 
28039, 28525, 28527, 28528, 28530, 28704, 28715, 29979, 29980, 29981, 
29983, 30186, 31064, 31066, 31069, 31071, 31073, 31074, 31076, 31231, 
31234, 31235, 31237, 31241, 31242, 31387, 31389, 31625, 31627, 31628, 
31630, 32579, 32581, 32583, 32584, 32586, 32900, 32902, 33102, 33335, 
33337, 33341, 33684, 33686, 33687, 33689, 34108, 34845, 35322, 35324, 
35325, 35327, 35329, 36972, 36973, 36975, 36977, 36982, 36984, 36986, 
36989, 37811, 37813, 37814, 37816, 37818, 37819, 37820, 37822, 37823, 
37937, 38478, 38670, 38953, 38955, 39244, 39246, 39628, 39630, 39632, 
39634, 39636, 39637, 39845, 40750, 40752, 40754, 40755, 41793, 41796, 
43359, 43360, 43361, 43363, 43365, 43518, 43708, 43964, 44418, 44420, 
44422, 44423, 46217, 46759, 46761, 46762, 46764, 46766, 47265, 47466, 
47677, 47679, 47681, 47683, 47684, 47686, 47688, 47690, 47863, 47865, 
48627, 48629, 48630, 48632, 48633, 48634, 48636, 48637, 48638, 48640, 
48883, 50090, 51322, 51705, 51706, 51708, 51712, 51714, 52074, 52619, 
52621, 52623, 52844, 52846, 53110, 53112, 53114, 53265, 53508, 53848, 
53851, 53853, 53854, 53857, 53858, 53859, 53861, 53863, 53865, 53867, 
53869, 53870, 54415, 54417, 54419, 54421, 54423, 54799, 55188, 55190, 
55444, 55783, 55785, 55787, 56116, 56227, 56508, 56939, 56940, 56943, 
57176, 57540, 57542, 57804, 57824, 57825, 58209, 58210, 58211, 58213, 
58214, 58216, 58218, 58219, 58220, 61646, 61649, 62193, 63614, 63617, 
63618
    Corrected....10307, 19493, 20306, 26823, 31388, 33683, 35452, 37500, 
                                       40994, 54800, 57334, 63414, 63762
    Eff. 1-3-96....................................................58209
    Eff. 1-8-96....................................................58218
    Eff. 1-2-96....................................................61651
    Eff. 1-17-96.....................................62322, 63412, 66486
    Eff. 1-10-96...................................................63413
    Eff. 1-16-96.....................................64316, 64317, 64319
    Eff. 1-4-96...............................65517, 65520, 65523, 65525

[[Page 1102]]

    Eff. 1-22-96...................................................66484
    Eff. 1-26-96............................................66487, 66489
    Eff. 1-11-96............................................66871, 66874
    Eff. 2-5-96....................................................67323
43  Authority citation revised.....................................67255
45  Authority citation revised.....................................67255
47  Authority citation revised.....................................67255
49  Authority citation revised.....................................67255

                                  1996

14 CFR
                                                                   61 FR
                                                                    Page
Chapter I
Chapter  I Regulatory review program...............................53610
1  Authority citation revised.......................................7190
1.1  Amended..............................2081, 5183, 7190, 31328, 34547
11  Nomenclature change............................................18052
11.17  Added.......................................................11282
13  Authority citation revised.....................................67445
13.3  (d) added....................................................54004
13.29  Added.......................................................44155
13.301--13.305 (Subpart H)  Added; eff. 1-21-97....................67445
16  Added..........................................................54004
21  Special FAA conditions...................................6921, 29930
    Comment request................................................47671
21.93  (b)(4) revised..............................................20699
    (b)(4)(ii) corrected...........................................57002
23  Special FAA conditions......................................1, 18939
    Technical correction.....................................7410, 10269
23.3  (b)(2), (d) and (e) revised...................................5183
23.25  (a) introductory text, (1) introductory text, (i) and (iii) 
        revised.....................................................5183
23.33  (b)(1) and (2) revised.......................................5183
23.45  Revised......................................................5184
23.49  Revised......................................................5184
23.51  Revised......................................................5184
23.53  Revised......................................................5185
23.55  (a) and (b) introductory text revised........................5185
23.57  (a) introductory text, (b), (c)(1), (3) introductory text, 
        (4) and (d) revised; (e) added..............................5185
23.59  Introductory text, (a)(2) and (b) revised....................5185
23.63  Added........................................................5186
23.65  Revised......................................................5186
23.66  Added........................................................5186
23.67  Revised......................................................5186
23.69  Added........................................................5187
23.71  Added........................................................5187
23.73  Added........................................................5187
23.75  Heading, introductory text, (a) introductory text, (b), 
        (d), (e) and (f) revised; (h) removed.......................5187
23.77  Revised......................................................5187
23.143  (a) and (c) revised.........................................5188
23.145  (b) introductory text, (2) through (5), (c) and (d) 
        revised; (b)(6) added.......................................5188
23.147  Revised.....................................................5188
23.149  Revised.....................................................5189
23.153  Revised.....................................................5189
23.155  (b) introductory text and (1) revised; (c) added............5189
23.157  (d) revised.................................................5189
23.161  (a), (b)(1), (2), (c), (d) introductory text and (4) 
        revised; (e) added..........................................5189
23.175  Revised.....................................................5190
23.177  Revised.....................................................5190
23.201  Revised.....................................................5191
23.203  Heading, introductory text, (a), (b) introductory text, 
        (4), (5), (c) introductory text, (1) and (4) revised; 
        (b)(6) and (c)(6) added.....................................5191
23.205  Removed.....................................................5191
23.207  (c) and (d) revised; (e) and (f) added......................5191
23.221  Revised.....................................................5191
23.233  (a) revised.................................................5192
23.235  Revised.....................................................5192
23.237  Added.......................................................5192
23.253  (b)(1) removed; (b)(2) and (3) redesignated as (b)(1) and 
        (2).........................................................5192
23.301  (d) revised.................................................5143
23.335  (a)(1), (b)(4)(ii) and (d)(1) introductory text revised; 
        (b)(4)(i) amended; (b)(4)(iii) added........................5143
23.337  (a)(1) revised..............................................5144
23.341  (a) and (b) redesignated as (b) and (c); new (a) added; 
        new (b) revised; new (c) amended............................5144
23.343  Added.......................................................5144
23.345  Revised.....................................................5144
23.347  Existing text designated as (a); (b) added..................5144
23.349  (a)(2) revised..............................................5144
23.369  (a) revised.................................................5145
23.371  Revised.....................................................5145
23.391  (a) designation and (b) removed.............................5145
23.393  Added.......................................................5145
23.399  Revised.....................................................5145

[[Page 1103]]

23.415  (a)(2) and (c) revised......................................5145
23.441  (a)(2) revised; (b) added...................................5145
23.443  (c) revised.................................................5147
23.455  Undesignated center heading revised.........................5147
23.457  Removed.....................................................5147
23.473  (c)(1) and (f) revised......................................5147
23.497  (c) added...................................................5147
23.499  (d) and (e) added...........................................5147
23.521  (c) removed.................................................5147
23.561  (b) introductory text and (d)(1)(i) revised; (e) added......5147
23.562  (d) introductory text revised...............................5192
23.571  Heading, introductory text and (a) revised..................5147
23.572  Heading, (a) introductory text and (1) revised..............5147
23.573  (a)(5) introductory text revised; (b) amended; (c) removed
                                                                    5147
23.574  Added.......................................................5148
23.575  Added.......................................................5148
23.607  Revised.....................................................5148
23.611  Revised.....................................................5148
23.629  (b) and (c) redesignated as (c) and (b); (a) introductory 
        text, new (b) introductory text, new (c), (d)(3)(i), (g) 
        and (h) revised; (i) added..................................5148
23.657  (c) removed.................................................5148
23.673  (a) designation and (b) removed.............................5148
23.677  (a) revised.................................................5165
23.691  Added.......................................................5165
23.697  (c) added...................................................5165
23.701  (a)(1) and (2) revised......................................5165
23.703  Added.......................................................5166
23.723  (b) amended.................................................5166
23.725  (b) amended.................................................5148
23.729  (e) revised; (g) added......................................5166
23.735  (a) introductory text revised; (c) redesignated as (d); 
        new (c) and (e) added.......................................5166
23.745  Added.......................................................5166
23.755  (b) removed; (c) redesignated as (b)........................5148
23.775  (d) and (e) redesignated as (e) and (d); (a), (c) and new 
        (e) revised; (h) added......................................5166
23.777  (c)(2) amended..............................................5136
23.779  (b)(1) table amended........................................5136
23.783  (b) revised; (g) added......................................5166
23.785  Introductory text added; (b) and (c) revised................5167
23.787  Revised.....................................................5167
23.791  Added.......................................................5167
23.807  (a)(4) and (b)(6) added; (b) introductory text and (5) 
        revised.....................................................5167
23.841  (a) amended.................................................5167
23.853  Heading revised.............................................5167
23.855  Added.......................................................5167
23.865  Revised.....................................................5148
23.867  Undesignated center heading and section heading revised.....5168
23.901  (d)(1) and (2) revised......................................5136
23.903  (c) heading and (g) heading added; (f) heading revised......5136
23.907  (a) introductory text amended...............................5136
23.925  Introductory text revised...................................5136
    (b) revised.....................................................5148
23.929  Amended.....................................................5136
23.933  (a)(1) revised; (a)(3) and (b)(2) amended...................5136
23.955  (a)(1) through (4) revised..................................5136
23.959  Existing text designated as (a); (b) added..................5136
23.963  (b) revised; (e) amended....................................5136
23.965  (b)(4) and (5) added.........................................253
    (b)(3)(i) revised...............................................5136
23.973  (f) revised.................................................5136
23.975  (a)(5) revised..............................................5136
23.979  (b) revised.................................................5137
23.1001  (b)(2) revised.............................................5137
23.1013  (d)(1) amended.............................................5137
23.1041  Amended....................................................5137
23.1043  (a), (c) and (d) revised...................................5137
23.1045  (a) revised................................................5137
23.1047  Revised....................................................5137
23.1091  (c)(2) revised.............................................5137
23.1093  (c) heading added..........................................5137
23.1105  (a) revised................................................5137
23.1107  Introductory text revised..................................5137
23.1121  (g) revised................................................5137
23.1141  (b) revised................................................5137
23.1143  (f) introductory text revised..............................5137
23.1153  Revised....................................................5138
23.1181  (b)(3) added...............................................5138
23.1183  (a) amended................................................5138
23.1191  (b) revised................................................5138
23.1203  (e) revised................................................5138
23.1303  Introductory text revised; (d) and (e) amended; (f) and 
        (g) added...................................................5168
23.1305  (b)(3)(ii) removed.........................................5138
    (b)(4) revised.................................................13644

[[Page 1104]]

23.1307  (a), (b) and (c) designation removed.......................5168
23.1309  (a)(4) added...............................................5168
23.1311  Revised....................................................5168
23.1321  (d) introductory text amended..............................5168
23.1323  (d) removed; (e) and (c) redesignated as (d) and (e); new 
        (c) and (f) added; new (e) amended..........................5168
23.1325  (g) amended................................................5169
    (e) revised; (f) removed........................................5192
23.1326  Added......................................................5169
23.1329  (b) amended................................................5169
23.1337  (b)(1) amended.............................................5138
    Heading and (b) introductory text revised; (b)(4) and (5) 
redesignated as (b)(5) and (6); new (b)(4) added....................5169
23.1351  (b)(2), (3) and (c)(3) revised; (b)(4) removed; (b)(5) 
        redesignated as (b)(4); (f) amended.........................5169
23.1353  (h) added..................................................5169
23.1359  Added......................................................5169
23.1361  (c) amended................................................5169
23.1365  (b) revised; (d), (e) and (f) added........................5169
23.1383  Revised....................................................5169
23.1401  (a) introductory text revised..............................5169
23.1413  Removed....................................................5169
23.1431  (c), (d) and (e) added.....................................5169
23.1435  (c) revised................................................5170
23.1447  (a)(4) added; (d) and (e) revised..........................5170
23.1451  Added......................................................5170
23.1453  Added......................................................5170
23.1461  (a) revised................................................5170
23.1511  (a)(1) and (2) revised.....................................5192
23.1521  (b)(5) and (e) revised.....................................5192
23.1543  (c) added..................................................5192
23.1545  (b)(5) and (6) revised.....................................5193
23.1553  Revised....................................................5193
23.1555  (e)(2) revised.............................................5193
23.1559  Revised....................................................5193
23.1563  (c) added..................................................5193
23.1567  (d) added..................................................5193
23.1581  (a)(3) and (c) added; (b)(2) introductory text and (d) 
        revised.....................................................5193
23.1583  (k), (l) and (m) redesignated as (i), (j) and (k); 
        introductory text, (a)(3) introductory text, (i), (c)(3), 
        (4), (d) through (g), new (i), new (j) and new (k) 
        revised; (c)(5), (6), new (l), new (m), (n), (o) and (p) 
        added.......................................................5193
23.1585  Revised....................................................5194
23.1587  Revised....................................................5194
23.1589  (b) revised................................................5195
23  Appendix A amended..............................................5149
    Appendix F amended..............................................5170
    Appendix E removed..............................................5195
25  Authority citation revised......................................5220
    Special FAA conditions.....11728, 14607, 15372, 24208, 24213, 25778, 
                         26775, 34716, 39305, 41949, 42144, 56408, 65460
25.305  (d) removed.................................................5220
25.321  (c) and (d) added...........................................5220
25.331  (a)(1), (2) and (d) removed; (a)(3) and (4) redesignated 
        as (a)(1) and (2); heading, (a) introductory text, new (1) 
        and new (2) revised.........................................5220
25.333  Heading and (a) revised; (c) removed........................5220
25.335  (d) revised.................................................5220
25.341  Revised.....................................................5221
    (a)(6) corrected................................................9533
25.343  (b)(1)(ii) revised..........................................5221
25.345  (a) and (c) revised.........................................5221
25.349  Introductory text and (b) revised...........................5222
25.351  Introductory text revised; (b) removed......................5222
25.365  (d) revised................................................28695
25.371  Revised.....................................................5222
25.373  (a) revised.................................................5222
25.391  Introductory text and (e) revised...........................5222
25.427  Revised.....................................................5222
25.445  Heading and (a) revised.....................................5222
25.571  (b)(2) and (3) revised......................................5222
25.783  (h) revised................................................57956
25.785  (h)(1) revised.............................................57956
25.807  (a)(1) through (4), (7), (d), (e) and (f) revised; (a)(8), 
        (9), (g), (h) and (i) added................................57957
25.810  (a) introductory text, (1) introductory text, (ii), (b), 
        (c)(1) and (d) revised.....................................57958

[[Page 1105]]

25.811  (e)(2) introductory text and (4) introductory text revised
                                                                   57958
25.812  (g)(1)(ii) revised.........................................57958
25.813  (a) introductory text, (1) and (b) revised.................57958
25.831  (a) revised; (g) added.....................................28695
    (b)(2) revised; eff. 1-2-97....................................63956
25.841  (a) revised................................................28696
25.1447  (c)(1) through (4) revised................................28696
25.1517  Added......................................................5222
27  Special FAA conditions...................................6921, 29928
    Technical correction...........................................29931
27.1  (c) added....................................................21906
27.65  (b)(2) introductory text and (ii) revised...................21907
27.561  (b)(3)(v) and (c)(5) added; (c)(2), (3) and (4) revised....10438
27.1141  (c) and (d) redesignated as (d) and (e); new (c) added....21907
27.1151  Added.....................................................21907
27  Appendix C added...............................................21907
29  Technical correction....................................29931, 36965
    Special FAA conditions...........................43647, 43648, 48609
29.1  (e) amended..................................................21898
    (e) corrected..................................................33963
29.49  Redesignated from 29.73 and revised.........................21898
    (b) corrected..................................................33963
29.51  (a) introductory text revised...............................21899
29.53  Revised.....................................................21899
    Corrected......................................................33963
29.55  Added.......................................................21899
29.59  Revised.....................................................21899
    (a)(2), (5) and (b) corrected..................................33963
29.60  Added.......................................................21899
    (a)(2) corrected...............................................33963
29.61  Added.......................................................21899
29.62  Added.......................................................21899
29.64  Added.......................................................21900
29.65  (a) revised; (c) removed....................................21900
    (a)(3) corrected...............................................33963
29.67  Revised.....................................................21900
    Heading and (a)(3) corrected...................................33963
29.73  Redesignated as 29.49.......................................21898
29.75  Revised.....................................................21900
29.77  Redesignated as 29.85; new 29.77 added......................21900
29.81  Added.......................................................21900
29.83  Added.......................................................21900
    (a)(1) corrected...............................................33963
29.85  Redesignated from 29.77.....................................21900
    Revised........................................................21901
    (c) corrected..................................................33963
29.87  Revised.....................................................21901
    (a)(2) corrected...............................................33963
29.547  Heading, (a), (c) introductory text, (d) introductory 
        text, (e) introductory text and (1)(ii) revised; (b) added
                                                                   21907
29.561  (b)(3)(v) and (c)(5) added; (c)(2), (3) and (4) revised....10438
29.610  Heading and (a) revised; (d) added.........................21907
    (d)(3) and (4) corrected.......................................33963
29.629  Revised....................................................21907
29.631  Added......................................................21907
    Corrected......................................................33963
29.917  (b) redesignated as (c); new (b) added.....................21908
29.923  (b)(3)(i) revised..........................................21908
29.1305  (a)(6) through (25) redesignated as (a)(7) through (26); 
        new (a)(6) added...........................................21908
    (a)(13) corrected..............................................43952
29.1309  (h) revised...............................................21908
29.1323  (b)(2)(ii) revised........................................21901
29.1351  (d) revised...............................................21908
29.1587  (a)(4), (5) and (b)(3) revised; (a)(6) added..............21901
    (a)(5) amended; (a)(6) redesignated as (a)(7); new (a)(6) 
added..............................................................21908
29  Appendix B amended.............................................21908
31.47  Heading, (a) and (d) revised................................18223
    (a) corrected..................................................20877
33  Special FAA conditions.........................................16375
33.7  (c)(1)(viii) redesignated as (c)(1)(x); new (c)(1)(viii) and 
        (ix) added; new (c)(1)(x) revised..........................31328
33.29  (c) added...................................................31328
33.63  Revised.....................................................28433
33.67  (d) added...................................................31328
33.74  Added.......................................................28433
33.83  Revised.....................................................28433
33.85  (c) and (d) added...........................................31328
33.87  (a) introductory text and (8) revised; (f) redesignated as 
        (g); new (f) added; new (g)(2)(i) through (iv) amended.....31328
33.88  Revised.....................................................31329
33.92  Revised.....................................................28433
33.93  Revised.....................................................31329
35  Special FAA conditions......................................114, 254
39  Technical correction...........................................64948
39.13...............................................................120,

[[Page 1106]]

512, 614, 618, 622, 624, 626, 628, 692, 1276, 1277, 1279, 1281, 1704, 
2098, 2406, 2408, 2410, 2411, 2698, 2701, 2702, 2704, 2706, 2707, 2709, 
2903, 3551, 3554, 3793, 3794, 5276, 5278, 5280, 5281, 5283, 5285, 5502, 
5676, 6501, 6502, 6504, 6767, 6769, 6771, 6924, 6926, 6928, 6930, 6931, 
6933, 6935, 6936, 6938, 7691, 7693, 7695, 8210, 8212, 9091, 9092, 9098, 
9100, 9600, 9603, 9605, 9607, 9608, 10883, 11131, 11528, 11531, 11534, 
11535, 11537, 11538, 11541, 11543, 12017, 12019, 13080, 13082, 13083, 
13656, 14014, 14015, 14016, 14242, 14243, 14614, 14960, 14962, 15184, 
15883, 16227, 16378, 16380, 16383, 16385, 16619, 16703, 16874, 17563, 
17825, 17826, 18054, 18237, 18239, 18244, 18662, 18666, 18668, 18671, 
19541, 19807, 19809, 19810, 19811, 19812, 19814, 19816, 20126, 20635, 
20637, 20639, 20640, 20642, 20644, 20645, 20666, 20668, 20670, 20672, 
20673, 20675, 20676, 20678, 20680, 20681, 20683, 21067, 21069, 21071, 
21072, 24208, 24216, 24218, 24220, 24221, 24682, 24685, 24687, 24689, 
24691, 24693, 24880, 24882, 24884, 24886, 25558, 25559, 26090, 26091, 
26092, 26428, 26431, 26778, 26780, 26781, 27253, 27255, 28029, 28031, 
28032, 28497, 28499, 28731, 28733, 28735, 28737, 28739, 29004, 29008, 
29012, 29268, 29270, 29272, 29275, 29277, 29279, 29281, 29467, 29468, 
29469, 29642, 29644, 29932, 29933, 29935, 30502, 30506, 30802, 31008, 
31012, 31825, 31826, 32318, 32321, 33306, 33647, 33649, 33650, 34369, 
34719, 35123, 35127, 35129, 35937, 35939, 35941, 35943, 35945, 35948, 
36622, 36623, 36819, 37201, 37203, 37676, 37816, 39307, 39308, 39310, 
39312, 39313, 39315, 39316, 39861, 40314, 40512, 41734, 41952, 41955, 
41956, 41958, 42775, 42777, 42778, 42780, 42782, 42783, 42995, 42997, 
42998, 43309, 43651, 43653, 44156, 44159, 45877, 45879, 45883, 46539, 
46540, 46542, 46543, 46704, 46705, 47042, 47047, 47049, 47050, 47409, 
47411, 47803, 47805, 47807, 47808, 47810, 47815, 48068, 48612, 48614, 
48616, 48618, 48620, 48819, 48821, 48823, 49052, 49054, 49056, 49057, 
49249, 49251, 49253, 49410, 50985, 50990, 50991, 50993, 50995, 50998, 
51000, 51213, 51359, 52689, 52877, 53037, 53039, 53042, 53043, 53045, 
53047, 53612, 53614, 54331, 54539, 55081, 55083, 55085, 55086, 55088, 
55562, 57295, 57296, 57297, 57298, 57300, 57301, 57302, 57308, 57312, 
57315, 57316, 57318, 57321, 57322, 57324, 57994, 57996, 58316, 58317, 
58321, 58325, 58327, 58979, 58981, 58983, 58984, 58986, 58988, 58990, 
59316, 59318, 59320, 59321, 59323, 59830, 60016, 60018, 63705, 64271, 
64458, 66892
    Corrected....10270, 10673, 20125, 20127, 26424, 26425, 26426, 26427, 
         28736, 30505, 39584, 42550, 43155, 47051, 48822, 49058, 55733, 
                                                            55735, 64985
    Eff. 1-21-97............................................58977, 66881
    Eff. 1-17-97..............................59324, 59326, 59327, 60017
    Eff. 1-6-97.............................................63703, 69027
    Eff. 1-2-97.............................................63707, 63708
    Eff. 1-22-97...................................................66204
    Eff. 1-27-97........66879, 66882, 66885, 66886, 66888, 66890, 66897, 
                                                                   66901
    Eff. 2-18-97...................................................66894
    Eff. 1-23-97...................................................66899
    Eff. 1-24-97...................................................67444
    Eff. 1-31-97.......................68132, 68133, 68135, 68138, 68140
    Eff. 1-13-97...................................................68142
    Eff. 2-3-97......................................68565, 68568, 68570
    Eff. 1-29-97...................................................68571
43.3  (i) redesignated as (j); new (i) added.......................19501
43.7  (d) amended..................................................19501
43.11  (b) amended.................................................19501
43  Appendix A amended.............................................19501

                                  1997

14 CFR
                                                                   62 FR
                                                                    Page
Chapter I
1.1  Amended.......................................................16298
11.11  Amended.....................................................46865
11.41  (c)(2)(ii) and (iii) amended................................46865
11.61  (d) amended.................................................46865
11.81  (d) amended.................................................46865
13  Authority citation revised......................................4134
13.3  (b) and (c) amended..........................................46865
13.15  (b), (c)(1) and (3) amended.................................46865
13.16  (c) amended.................................................46865
13.17  (d) and (e)(3) amended......................................46865
13.19  (b) and (c) amended.........................................46865

[[Page 1107]]

13.20  (l) amended.................................................46865
13.21  Amended.....................................................46866
13.23  (b) amended.................................................46866
13.25  (a) and (b) amended.........................................46866
13.71  Amended.....................................................46866
13.73  Amended.....................................................46866
13.81  (a) introductory text amended...............................46866
13.202  Amended....................................................46866
13.305  (d) table revised...........................................4134
15.3  (b) revised..................................................46866
21  Special FAA conditions..........................................4137
    Interpretation..................................................9923
    Technical correction...........................................15570
21.24  (a)(1)(ii) revised; eff. 2-23-98............................62808
21.431  (b) amended................................................13253
23  Special FAA conditions.....................7922, 53733, 58875, 61906
25  Special FAA conditions.....11072, 17048, 17531, 27687, 28315, 31707, 
                         32021, 40427, 45523, 50494, 53737, 59561, 60640
    Technical correction...........................................15570
25.331  (c) introductory text and (1) revised......................40704
25.335  (a)(2) and (b)(2) revised..................................40704
25.345  (d) revised................................................40704
25.351  Revised....................................................40704
25.363  Heading and (a) revised....................................40704
25.371  Revised....................................................40704
25.415  (a)(2) revised.............................................40705
25.473  Revised....................................................40705
    (d) corrected..................................................45481
25.479  Revised....................................................40705
    (d)(2)(i) corrected............................................45481
25.481  (a) introductory text revised; (a) concluding text 
        redesignated as (a)(3).....................................40705
25.483  Heading, introductory text and (a) revised.................40705
25.485  Introductory text added....................................40705
25.491  Revised....................................................40705
25.499  Heading and (e) revised....................................40705
25.561  (c) revised................................................40706
25.807  (f)(2), (3), (g)(7) and (9) corrected.......................1817
25.810  (d)(3) corrected............................................1817
25.1303  (b)(4) amended............................................13253
27  Special FAA conditions..........................................4137
    Effective date confirmation....................................63246
27.175  (b)(5) amended.............................................46173
27.351  (b)(1) and (c)(1) amended..................................46173
27.391  Amended....................................................46173
27.621  (c)(1)(ii) amended.........................................46173
29  Effective date confirmation....................................63246
29.351  (b)(1) and (c)(1) amended..................................46173
29.391  Amended....................................................46173
29.562  (b)(3) amended.............................................46173
29.621  (c)(1)(ii) amended.........................................46173
29.1125  (a)(4) amended............................................46173
29.1521  (b)(1)(i) amended.........................................46173
33  Special FAA conditions...................................7336, 29663
39.13................................................................11,
316, 303, 306, 308, 601, 603, 606, 1039, 1040, 1043, 1045, 1276, 1278, 
1279, 2008, 2011, 2553, 2898, 3202, 3206, 3210, 3447, 3448, 3450, 3452, 
3604, 3605, 3606, 3607, 3608, 3783, 3785, 3988, 3989, 3992, 3994, 3995, 
3997, 3999, 4000, 4001, 4003, 4004, 4138, 4900, 4901, 4903, 4906, 4907, 
4909, 5144, 5146, 5743, 5744, 5745, 5747, 5751, 5753, 5754, 6456, 6458, 
6461, 6709, 6863, 7153, 7340, 7342, 7344, 7666, 7668, 7670, 7925, 7927, 
7929, 7931, 7933, 7935, 8157, 8158, 8160, 8162, 8614, 8616, 8618, 8872, 
8874, 9069, 9076, 9360, 9362, 9680, 9928, 10201, 11319, 11320, 11762, 
11764, 11765, 12082, 12532, 12534, 12740, 12741, 12950, 14288, 14289, 
14794, 14795, 15095, 15098, 15374, 15376, 15379, 16065, 16067, 16068, 
16070, 16071, 16073, 16074, 16474--16476, 16478, 16666, 16668, 17533, 
17535, 17537, 17538, 19479, 19481, 19484, 19919, 19920, 20094, 20096, 
20099, 20101, 23340, 23641, 23643, 24012, 24014, 24016, 24018, 24020, 
24021, 24023, 24328, 24568, 24569, 24571, 24810, 24811, 25832, 25834, 
25835, 25836, 25838, 25840, 26222, 26224, 26382, 26738, 27496, 27942, 
27944, 28320, 28322, 28323, 28325, 28326, 28627, 28795, 28797, 28995, 
28997, 28998, 29000, 29002, 30231, 30434, 31334, 32024, 32026, 33543, 
33544, 33546, 34160, 34162, 34165, 34618, 35620, 34622, 34625, 35071, 
35073, 35672, 35950, 35952, 35955, 35957, 35958, 35961, 36240, 36449, 
36653, 36979, 37128, 37130, 37709, 37710, 38016, 38018, 38205, 38207, 
38446, 38448, 38900, 39101, 39426, 39428, 39928, 40263, 40265, 40266, 
40269, 41255, 41256, 41258, 41260, 41262, 41264, 41841, 42046, 42393, 
43068, 43926, 43928, 44206--44208, 44210, 44405, 44407, 44536, 44887, 
45151, 45153, 45311, 45709, 45711, 46186, 46188, 46191, 47359, 47361, 
47363, 47365, 47754, 47755, 47928,

[[Page 1108]]

47930, 47932, 47934, 48478, 48755, 49133, 49134, 49136, 49138, 49427, 
49428, 49430, 49431, 49433, 49435, 50251, 50252, 50527, 50862, 50863, 
51017, 51018, 51019, 51021, 51594, 51596, 52226, 52488, 52490, 52654, 
52656, 52943, 53533, 53936, 53938, 53940, 54367, 54369, 54370, 54372, 
54374, 54376, 54377, 54378, 54576, 54578, 54580, 55155, 55157, 55501, 
55727, 55729, 55732, 55735, 56057, 56059, 56060, 56062, 56063, 56065, 
58892, 58893, 58895, 59280, 59566, 59568, 59780, 59782, 59994, 60163, 
60454, 60643--60646, 60773, 60775, 60776, 60778, 61011, 61223, 61224, 
61435, 61437, 61440, 61909, 61911, 62240, 62514, 62949, 63623, 64268, 
64518, 64520, 65199, 65354, 65357, 65601, 65750, 65752
    Corrected.........1384, 3739, 7339, 7671, 8368, 15373, 19482, 19483, 
                                24015, 27293, 28798, 37131, 39429, 44888
    Eff. 1-2-98.........59278, 63261, 63263, 63265, 63267, 63268, 64514, 
                                                            66002, 66266
    Eff. 1-6-98....................................................62515
    Eff. 1-5-98......................................62946, 62947, 66507
    Eff. 1-27-98...................................................63827
    Eff. 1-21-98.....................................63831, 63835, 63837
    Eff. 1-11-98...................................................63833
    Eff. 1-12-98............................................64512, 64516
    Eff. 1-13-98.....................................64681, 67551, 67553
    Eff. 1-14-98............................................65010, 65012
    Eff. 1-20-98.......................65599, 65602, 65604, 65605, 66267
    Eff. 1-28-98.....................................66269, 66270, 66272
    Eff. 1-25-98...................................................66500
    Eff. 1-23-98..............................66501, 66505, 66512, 66520
    Eff. 2-2-98....................................................66509
    Eff. 1-7-98....................................................66981
    Eff. 1-22-98...................................................67710
    Eff. 2-4-98....................................................68155
    Eff. 1-15-98.....................................68157, 68159, 68161

                                  1998

14 CFR
                                                                   63 FR
                                                                    Page
Chapter I
Chapter  I Disposition of comments.................................56539
1  Technical correction............................................23338
1.2  Amended........................................................8318
11.101  (b) table amended (OMB numbers).....................25573, 31866
21  Effective date confirmation.....................................6808
    Special FAA conditions....................16089, 26422, 32972, 34784
23  Special FAA conditions..............4563, 40638, 55012, 62930, 71369
    Technical correction...........................................53278
23.901  (d)(2) revised.............................................14797
23.903  (a)(2) revised.............................................14798
25  Special FAA conditions......3023, 13773, 17090, 34121, 38075, 44993, 
                                                                   59692
    Technical correction....................................23338, 53278
25.101  (i) added...................................................8318
25.105  (c)(1) revised..............................................8318
25.107  (a)(2) revised..............................................8318
    (a)(1) and (e) introductory text amended........................8848
25.109  (b), (c), (d) redesignated as (e), (g) and (h); (a) and 
        new (e) introductory text revised; new (b), new (c), new 
        (d), (f) and (i) added; new (h) amended.....................8318
25.111  (a) amended.................................................8848
25.113  (b) redesignated as (c); (a) introductory text, (1) and 
        new (c) revised; new (b) added..............................8320
25.115  (a) revised.................................................8320
25.119  Heading amended.............................................8848
25.233  (a) amended.................................................8848
25.349  Introductory text amended...................................8848
25.481  (a)(3) amended..............................................8848
25.493  (c) revised; (d) and (e) added.............................29072
25.571  (a) introductory text, (3), (b) introductory text, (1), 
        (5)(ii) and (e)(1) revised.................................15714
    (b) corrected..................................................23338
25.735  (f) introductory text and (2) revised; (h) added............8320
25.807  (f)(4) and (j) added........................................8848
    (f)(4) corrected...............................................12862
25.832  (a) introductory text and (2) amended.......................8848
25.855  (c) revised.................................................8048
25.857  (c)(2) revised; (d) removed.................................8048
25.858  Heading and introductory text revised.......................8048
25.903  (c) amended.................................................8848
    (a)(2) revised.................................................14798
25.1185  (a) amended................................................8848
25.1533  (a)(3) revised.............................................8321
25  Appendix F amended..............................................8848
27  Special FAA conditions..................................26422, 34786
27.625  (d) added..................................................43285
27.785  Heading revised; (k)(2) amended............................43285

[[Page 1109]]

27.975  (b) amended................................................43285
27.1329  (f) added.................................................43285
27.1365  (c) added.................................................43285
29  Special FAA conditions..................................32972, 34784
29.625  (d) added..................................................43285
29.785  Heading revised; (k)(2) amended............................43285
29.923  (a) introductory text amended..............................43285
29.975  (a)(7) amended.............................................43285
29.1329  (f) added.................................................43285
29.1351  (d)(1)(iii) removed.......................................43285
29.1359  (c) added.................................................43285
33  Special FAA conditions.........................................33529
33.77  (c) and (e) revised.........................................14798
    (e) table corrected............................................53278
33.78  Added.......................................................14799
33  Appendix B added...............................................14799
36  Appendix A corrected; CFR correction...........................26063
39.13................................................................660
1336,  1339, 1736, 1737, 1740, 1902, 1905, 1907, 1909, 1910, 1912--1914, 
2594, 2597, 3031, 3457, 3459, 3809, 4156, 4158, 4161, 4162, 4375, 4564, 
4567, 4569, 5224, 5226, 5227, 5726, 5875--5877, 5879, 5780, 5782, 6065, 
6068, 6070, 6630, 6634, 6636--6638, 6641, 6643, 6840, 6841, 6843, 6845, 
7639, 7641, 7643, 7645, 7647, 7651, 7655, 7659, 7663, 7667, 7671, 7675, 
7679, 7683, 7687, 7688, 7692, 7695, 7697, 8065, 8069, 8073, 8077, 8081, 
8085, 8089, 8093, 8849, 8851, 9404, 9406, 9408, 9731, 9733, 9735, 9926, 
9927, 9929, 9931, 9933, 9934, 9936, 9937, 9939, 10296, 10298, 10301, 
10302, 10522, 10526, 10528, 11107, 11110, 11111, 11112, 11114, 11115, 
11117, 11820, 11821, 11822, 11824, 11986, 11988, 12402, 12404, 12406, 
12407, 12409, 12606, 12608, 12610, 12612, 12613, 12615, 12616, 12618, 
13118, 13332, 13334, 13336, 13488, 13490, 13492, 13494, 13496, 13498, 
13499, 13501, 13504, 13506, 13508, 13510, 13511, 13513, 13515, 13776, 
13777, 14028, 14603, 14806, 15074, 15076, 15077, 15079, 15286, 15747, 
15750, 15752, 15754, 15755, 15757, 16093, 16095, 16097, 16099, 16102, 
16104, 16106, 16108, 16109, 16111, 16113, 16679, 16680, 16682, 16884, 
16886, 16887, 17317, 17319, 17321, 17322, 17324, 17325, 17670, 17672, 
17674, 17676, 17677, 17679, 17932, 17934, 18118, 18120, 18121, 18310, 
18818, 19173, 19175, 19177, 19179, 19182, 19184, 19384, 19386, 19387, 
19390, 19391, 19393, 19654, 19798, 20063, 20065, 20067, 20300, 20301, 
20303, 20304, 20305, 20307, 20309, 20310, 20312, 20528, 23201, 23202, 
23204, 23206, 23375, 23377, 23378, 23380, 23381, 23384, 23659, 23661, 
24388, 24390, 24742, 24744, 24912, 24913, 24915, 24916, 25159, 25390, 
26065, 26425, 26427, 26428, 26430, 26441, 26715, 26965, 26967, 26969, 
27195, 27197, 27199, 27451, 27453, 27463, 27473, 27675, 27676, 27835, 
28218, 28220, 28481, 28483, 28484, 29095, 29097, 29098, 29100, 29101, 
29103, 29344, 29545, 29547, 30112, 30113, 30115, 30116, 30117, 30119, 
30120, 30121, 30123, 30124, 30371, 30373, 30374, 30376, 30378, 30379, 
30588, 31105, 31107, 31108, 31109, 31339, 31342, 31346--31350, 31607, 
31609, 31610, 31611, 31613, 31614, 31616, 31617, 31917, 32120, 32123, 
32606, 32607, 32609, 32610, 32719, 32721, 32975, 32976, 33244, 33245, 
33247, 33531, 33534, 33537, 33538, 33540, 34269, 34270, 34272, 34276, 
34556, 34557, 34559, 34560, 34561, 34563, 34564, 34566, 34569, 34570, 
34572, 34573, 34575, 34577, 34579, 34581, 34582, 34584, 34586, 34589, 
34590, 34591, 34790, 34791, 34797, 34799, 34802, 34803, 34804, 35129, 
31131, 31135, 31138, 31140, 31142, 35790--35792, 35794, 35795, 35797, 
36160, 36551, 36552, 36554, 36831, 36833, 36834, 36837, 37063, 37065, 
37762, 37764, 37766, 38078, 38080, 38082, 38285, 38287, 38288, 38290, 
38292, 38294, 38297, 38464, 38466, 39017, 39019, 39230, 39232, 39484, 
39486, 39488, 39490, 39492, 39494, 39496, 40360, 40362, 40642, 40806, 
40808, 40810, 40811, 40813, 40815, 40817, 40818, 40820, 41186, 41394, 
41716, 42203, 42204, 42206, 42208, 42209, 42212, 42213, 42215, 42216, 
42218, 42220, 42221, 42222, 42692, 43071, 43072, 43296, 43298, 43300, 
43611, 43613, 43615, 43616, 44371, 44374, 44547, 44553, 45169, 45681, 
45683, 45685, 45687, 45688, 45690, 45692, 46162, 46165, 46646, 46648, 
46869, 46871, 46873, 46874, 46876,

[[Page 1110]]

46877, 46879, 47424, 48418, 48420, 48421, 48423, 48425, 48426, 48572, 
48574, 48998, 49266, 49269, 49271, 49273, 49274, 49277, 49279, 49281, 
49416, 49417, 49419, 49421, 49422, 49425, 49654, 49655, 49656, 49659, 
49661, 49663, 49820, 50130, 50131, 50133, 50135, 50137, 50138, 50483, 
50485, 50486, 50489, 50491, 50493, 50494, 50497, 50499, 50501, 50502, 
50504, 50506, 50508, 50510, 50512, 50513, 50515, 50754, 50756, 50981, 
50983, 50985, 50989, 50991, 51276, 51278, 51280, 51282, 51524, 51525, 
51803, 51806, 52151, 52153, 52580, 52584, 52586, 52588, 52963, 53550--
53552, 53554, 53555, 53557, 53559, 53561, 53563, 53799, 53801, 54563, 
54565, 54567, 54568, 54570, 54571, 55322, 55325, 55326, 55328, 55501, 
55503, 55505, 55508, 55516, 55519, 55521, 55523, 55525, 55528, 55529, 
55784, 55942, 56542, 56543, 56545, 56546, 56548, 57049, 57242,57245, 
57578,57580, 57581, 57582, 57584, 57896, 58291, 58623, 58625, 58626, 
59207, 59462, 59695, 59697, 59699, 59700, 62933, 62936, 63131, 63133, 
63136, 63138, 63389, 63391, 63397--63399, 63401, 63403, 63598, 63599, 
63786, 63976, 64177, 64598, 64599, 64601, 64604, 64605, 64607, 64609, 
64611, 64613, 64845, 64847, 64849, 64851, 64855, 64857, 64859, 65045, 
65048, 65052, 65053, 65055, 65059, 65549, 66419--66421, 66423, 66738, 
66742, 66746, 66747, 66754, 67771, 67774, 67776, 68166, 68173, 69187, 
69189, 70639, 70641, 71216
    Corrected........4, 11368, 18308, 24210, 24389, 31356, 36835, 38743, 
         39233, 45170, 47091, 49819, 51520, 52961, 54038, 55918, 58102, 
                                                     63967, 66980, 71342
    Eff. 1-6-99....................................................54041
    Eff. 1-5-99......................................54348, 70321, 72149
    Eff. 1-15-99.....................................55016, 67576, 72145
    Eff. 1-12-99............................................63392, 63395
    Eff. 1-4-99.............................................64602, 69998
    Eff. 1-9-99....................................................65049
    Eff. 1-8-99....................................................65057
    Eff. 1-29-99............................................65701, 70000
    Eff. 1-7-99......................................66736, 66740, 66752
    Eff. 1-19-99.....................................66744, 68671, 68673
    Eff. 1-14-99..............................68168, 68170, 68172, 71742
    Eff. 2-12-99...................................................68674
    Eff. 1-20-99............................................69178, 69182
    Eff. 2-16-99...................................................70002
    Eff. 1-22-99.....................................70003, 70004, 70007
    Eff. 1-25-99.....................................70318, 70322, 70323
    Eff. 1-26-99...................................................70635
    Eff. 2-5-99.............................................70637, 70642
    Eff. 2-2-99.............................................71577, 71580
    Eff. 2-8-99.............................................72131, 72134
    Eff. 3-12-99...................................................72139
    Eff. 3-19-99............................................72140, 72142

                                  1999

14 CFR
                                                                   64 FR
                                                                    Page
Chapter I
11  Technical correction............................................7066
13  Policy statement...............................................19443
14  Authority citation revised.....................................32935
    Technical correction...........................................47362
14.02  (a) revised.................................................32935
14.03  (a) and (f) revised.........................................32935
14.05  (b), (c) and (e) revised....................................32935
14.11  (c) revised.................................................32935
14.20  (a) and (c) revised.........................................32936
14.21  Revised.....................................................32936
14.22  (b) revised.................................................32936
14.24  Revised.....................................................32936
14.26  (a) revised.................................................32936
14.27  Revised.....................................................32936
14.28  Revised.....................................................32936
17  Added..........................................................32936
17.15  (f) corrected...............................................47362
17.39  (n) correctly added.........................................47362
21  Design standards availability..................................13501
    Special FAA conditions.........................................52646
    Policy statement...............................................65655
23  Special FAA conditions.......6510, 39899, 49365, 49367, 66719, 66721
25  Special FAA conditions......3201, 14818, 25800, 27175, 27445, 38999, 
         44817, 47649, 51423, 51424, 54761, 66723, 67147, 67701, 67705, 
                                                                   69383
25.145  (c)(3) concluding text designated as (d); (c) introductory 
        text and new (d) revised....................................6164
    (d) corrected..................................................10740
27  Special FAA conditions.........................................27447
27.1  (a) revised..................................................45094
27.2  Introductory text, (a), (b), (c), (d) introductory text, (1) 
        and (2) redesignated as (a) introductory text, (a)(1), 
        (2), (3), (4) introductory text, (i) and (ii); new (b) 
        added......................................................45094
27.25  (c) revised.................................................43019
27.602  Added......................................................46232

[[Page 1111]]

27.610  Heading revised; (d) added.................................45094
27.805  Added......................................................45094
27.807  Revised....................................................45094
27.853  (a) amended; (b) removed...................................45095
27.865  (c) and (d) redesignated as (e) and (f); undesignated 
        center heading, heading, (a) introductory text, (b), new 
        (e) and new (f) revised; new (c) and new (d) added.........43019
27.1027  (a) through (d) redesignated as (b) through (e); new (a) 
        added; new (c)(2) and new (d) amended......................45095
27.1185  (d) added.................................................45095
27.1187  Revised...................................................45095
27.1305  (v) added.................................................45095
    Corrected......................................................47563
27.1337  (e) revised...............................................45095
29.25  (c) revised.................................................43020
29.59  (c), (d) and (e) redesignated as (d), (e) and (c)...........45337
29.62  (a) revised.................................................45337
29.67  (a)(2) introductory text, (i), (3)(i) and (b) revised; 
        (a)(2)(ii) removed; (a)(2)(iii) and (iv) redesignated as 
        (a)(2)(ii) and (iii).......................................45337
    (a)(3)(i) corrected............................................47563
29.77  Revised.....................................................45338
29.81  Revised.....................................................45338
29.85  Revised.....................................................45338
29.602  Added......................................................46232
29.865  (c) and (d) redesignated as (e) and (f); undesignated 
        center heading, heading, (a) introductory text, (b), new 
        (e) and new (f) revised; new (c) and new (d) added.........43020
29.1323  (c)(1) amended............................................45338
29.1587  (a)(4) and (5) amended....................................45338
33  Special FAA conditions.........................................28900
34.1  Amended.......................................................5558
34.2  Amended.......................................................5559
34.31  (d) and (e)(3) revised.......................................5559
34.60  (c) revised..................................................5559
34.61  Revised......................................................5559
34.62  (a)(2) revised...............................................5559
34.64  Revised......................................................5559
    Corrected......................................................60336
34.71  Revised......................................................5559
    Corrected......................................................60336
34.82  Revised......................................................5560
    Corrected......................................................60336
34.89  Revised......................................................5560
    Corrected......................................................60336
36  Appendix G amended.............................................55602
39.13..................................................................7
395, 750, 752, 986, 987, 990, 1107, 1109, 1111, 1114, 1115, 1117, 1119, 
1503, 1716, 2014, 2036, 2059, 2081, 2552, 2554, 2556, 2557, 2559, 2560, 
2562, 2811, 2815, 2816, 2818, 2820, 2822, 3203, 3205, 3816, 3818, 3820, 
3823, 3825, 3827, 4030, 4289, 4291, 4293, 4522, 4524, 4526, 4964, 5150, 
5588, 5589, 5591, 5593, 5711, 6190, 6513, 6515, 6517, 6520, 6524, 6785, 
6787, 6790, 6792, 7492, 7493, 7496, 7499, 7772, 7774, 7776, 8226, 8229, 
8231, 8232, 8500, 8501, 8713, 9057, 9908, 9909, 9911, 9912, 10207, 
10208, 10210, 10212, 10215, 10217, 10556, 10559, 10560, 10937, 11375, 
11758, 11760, 11763, 11765, 12242, 12243, 12245, 12248, 12251, 12253, 
13226, 13227, 13330, 13332, 13504, 13668, 13671, 13883, 13885, 13887, 
13890, 13891, 13893, 14097, 14579, 14582, 14584, 14586, 14589, 14822, 
14824, 14825, 15126, 15300, 15658, 15660, 15662, 15670, 15921, 16340, 
16623, 16625, 16634, 16802, 16805, 16808, 16810, 16812, 17130, 17513, 
17519, 17523, 17526, 17948, 17951, 17953, 17955, 17957, 17960, 17961, 
17963, 17965, 17967, 18326, 18803, 18806, 18807, 19255, 19690, 19693, 
19695, 19697, 19880, 19882, 19884, 20144, 20145, 20148, 20149, 20151, 
20153, 20154, 22546, 22780, 22782, 22784, 23017, 23181, 23765, 23768, 
24029, 24030, 24032, 24033, 24035, 24507, 24509, 25196, 25197, 25199, 
25200, 25425, 25428, 25803, 25805, 26654, 26833, 26835, 26836, 26838, 
26840, 27662, 27910, 27912, 28355, 28356, 28358, 28904, 28906, 29777, 
29780, 29782, 29784, 30381, 30383, 31489, 31491, 31492, 31688, 31690, 
31968, 32399, 32401, 32799, 33010, 33388, 33391, 33393, 33396, 33744, 
33746, 33748, 34523, 34524, 34525, 34527, 34529, 34531, 34976, 34978, 
34980, 34709, 35560, 36562, 36564, 36778, 37668, 37670, 37840, 37842, 
38300, 38302, 38559, 38818, 38821, 39002, 39004, 39006, 39397, 39399, 
40285, 40515, 40744, 41274, 41775, 41777, 41779, 42008, 42276, 42825, 
43050,

[[Page 1112]]

43052, 43055, 43057, 43059, 43061, 43063, 43905, 44111, 44113, 44652, 
44821, 44823, 44825, 45150, 45422, 45424, 45426, 45431, 45434, 45435, 
45437, 45869, 45871, 46260, 47363, 47367, 47369, 47370, 47372, 47374, 
47375, 47377, 47381, 47383, 47385, 47142, 47144, 47146, 47148, 47149, 
47653, 47655, 47657, 47659, 47661, 47663, 48279, 48281, 48283, 48285, 
48287, 49081, 49963, 49965, 49968, 49970, 49973, 49976, 49978, 49980, 
50440, 50441, 50443, 50751, 51190, 51191, 51193, 51194, 51196, 51197, 
51198, 51200, 51202, 51204, 51207, 51682, 51684, 51685, 51687, 52220, 
52222, 52423, 52426, 52649, 53190, 53191, 53194, 53620, 53622, 53624, 
53626, 54200, 54201, 54203, 54513, 54514, 54516, 54518, 54519, 54766, 
54768, 54770, 54772, 54773, 54775, 55408, 55410, 55412, 55414, 55415, 
55417, 55622, 55625, 56153, 56157, 56159, 56160, 56162, 56164, 56422, 
56423, 56426, 56428, 56958, 56959, 56961, 56963, 56964, 57409, 57550, 
57552, 57554, 57556, 57557, 57787, 57789, 57790, 57792, 57794, 57796, 
57798, 57800, 57802, 57806, 57808, 57810, 57811, 57814, 57816, 57818, 
57820, 57822, 57823, 57971, 57973, 58329, 59114, 59115, 59117, 59118, 
59614, 59615, 60102, 60104, 60337, 61476, 61478, 61479, 61482, 61483, 
61485, 61486, 61490, 61493, 61495, 61496, 61783, 61785, 62106--62108, 
62110, 62975, 63173, 63175, 63177, 63180, 63182, 63184, 63189, 63191, 
63568, 63576, 63583, 63591, 63599, 63607, 63614, 63622, 63630, 63637, 
63645, 63653, 63660, 63668, 63676, 66367, 66369, 66761, 66763, 66767, 
67708, 67473, 68619, 68622, 69392, 70183
    Corrected....395, 2428, 5093, 7994, 8233, 8234, 11533, 12743, 17086, 
                                       55815, 62976, 69393, 71636, 72271
    Eff. 1-18-00..............................62571, 63185, 69388, 69390
    Eff. 1-3-00.............................................66364, 66371
    Eff. 1-14-00.....................................66365, 66749, 69186
    Eff. 1-28-00...................................................66557
    Eff. 1-4-00...66753, 66755, 66757, 66759, 66764, 71002, 71010, 71013
    Eff. 1-7-00.............................................67709, 67711
    Eff. 1-11-00...................................................68278
    Eff. 1-12-00..............................68624, 68627, 68629, 69396
    Eff. 1-13-00.....................................69630, 72913, 72915
    Eff. 1-24-00................70999, 71003, 71005, 71006, 71008, 71012
    Eff. 1-25-00............................................71279, 71283
    Eff. 2-22-00...................................................71281
    Eff. 2-1-00........................72523, 72529, 72530, 72532, 72534
    Eff. 2-14-00...................................................72525
    Eff. 2-2-00....................................................72917
    Eff. 2-28-00...................................................72918
    Eff. 1-21-00...................................................72920

                                  2000

14 CFR
                                                                   65 FR
                                                                    Page
Chapter I
11  Meeting........................................................47247
    Revised........................................................50863
11.11  Amended.....................................................36265
21  SFAR No. 29-4 removed...........................................3546
    Meeting........................................................47247
21.19  Revised.....................................................36265
21.101  Revised....................................................36266
21.115  (a) revised................................................36266
23  Special FAA conditions...............1758, 7283, 37006, 56779, 81727
23.903  (a)(2) revised.............................................55854
25  Special FAA conditions......9996, 13666, 16128, 16305, 19294, 25435, 
           35813, 47841, 55443, 60343, 63196, 66165, 76147, 77252, 82257
    Meeting........................................................47247
25.2  (c) revised..................................................36266
25.903  (a)(2) revised.............................................55854
25.1091  (e) revised...............................................55854
25.1183  (c) added; eff. 1-18-01...................................79710
27  SFAR No. 29-4 removed...........................................3546
29  SFAR No. 29-4 removed...........................................3546
    Special FAA conditions..................................70770, 70773
33  Special FAA conditions..................................48887, 81729
33.76  Added.......................................................55854
33.77  Heading, (c), (d)(3) and (e) revised; (a) and (b) removed 
                                                                   55856
35  Special FAA conditions......................................., 42278

[[Page 1113]]

    39.13....4,  205, 207, 208, 211, 213, 214, 348, 692, 694, 696, 698, 
            1052, 1537, 1539, 1541, 1761, 1763, 1764, 1766, 1768, 1770, 
            1772, 2018, 2020, 2286, 2289, 2291, 2852, 2862--2864, 3381, 
            3584, 3795, 3797, 3798, 3801, 3802, 4099, 4101, 4350, 4352, 
            4353, 4355, 4357, 4755, 4757, 4759, 4761, 4762, 5224, 5229, 
            5231, 5236, 5240, 5242, 5244, 5420, 5422, 5423, 5425, 5426, 
            5428, 5429, 5740, 5742, 5744, 5746, 5748, 5750, 5752, 5756, 
            5758, 5759, 5762, 6533, 6535, 7427, 7430, 7716, 7718, 7720, 
            7721, 8025, 8026, 8027, 8029, 8030, 8032, 8034, 8036, 8038, 
            8041, 8642, 8644, 8648, 8650, 8652, 8654, 8845, 8847, 8848, 
        9210, 9212--9214, 9216, 9219, 10378, 10380, 10383, 10386, 10692, 
         10695, 10697, 10699, 10936, 10938, 10939, 11460, 11860, 11863, 
         12071, 12073, 12074, 12076, 12078, 12080, 12082, 12083, 12085, 
         12087, 12461, 12463, 12464, 13669, 13874, 13876, 13878, 14208, 
         14210, 14824, 14827, 14830, 14833, 14837, 14841, 14846, 14848, 
         14849, 14852, 14854, 15228, 15231, 15233, 15532, 15535, 15539, 
         15858, 15859, 16130, 16310, 16803, 16805, 17584, 17587, 17765, 
         17987, 18258, 18260, 18880, 18882, 18885, 19297, 19298, 19300, 
         19301, 19304, 19306, 19308, 19309, 19312, 19314, 20071, 20073, 
         20074, 20076, 20077, 20080, 20082, 20320, 20322, 20323, 20325, 
         20326, 20328, 20330, 20331, 20348, 20715, 20716, 20718, 20721, 
         20722, 20894, 20896, 21133, 21135, 21137, 21634, 21635, 21637, 
         21640, 21643, 24382, 24384, 24386, 24634, 24872, 24873, 25279, 
          25281, 25283, 25438,25628, 25830, 25834, 26122, 26124, 26126, 
         26737, 26739, 30529, 30531, 30534, 30535, 30537, 30538, 30540, 
         30864, 30873, 30876, 31254, 31255, 31257, 31260, 32012, 32014, 
         32016, 32017, 32019, 32021, 33442, 33446, 33744, 33746, 34049, 
         34055, 34056, 34060, 34062, 34064, 34068, 34071, 34335, 34354, 
         34928, 34931, 34934, 34937, 34940, 34942, 35269, 35271, 35565, 
         35567, 35815, 35818, 35820, 36054, 36056, 36059, 36318, 36785, 
         37010, 37013, 37014, 37017, 37019, 37020, 37024, 37026, 37027, 
         37029, 37031, 37033, 37272, 37273, 37276, 37475, 37477, 37479, 
         37481, 37844, 37847, 37850, 37852, 37854, 39073, 39075, 39076, 
         39078, 39080, 39287, 39537, 39540, 39542, 39789, 40982, 40984, 
         40986, 40989, 41327, 41872, 42282, 42856, 43216, 43218, 43220, 
         43222, 43226, 43229, 44433, 44661, 44663, 44666, 44669, 44672, 
          44673, 44978, 45279, 45514,45515, 45518, 45703, 45706, 45836, 
         46568, 46570, 46572, 46574, 46577, 46862, 46863, 47250, 47253, 
         47257, 47661, 48145, 48352, 48354, 48356, 48359, 48362, 48364, 
         48367, 48370, 48372, 48375, 48606, 48608, 49727, 49729, 49731, 
         49733, 49734, 49736, 49898, 49900, 49902, 49904, 49906, 50132, 
         50618, 50620, 50622, 50624, 50627, 50630, 50632, 50633, 50911, 
         51752, 51754, 51756, 52011, 52013, 52298, 52299, 52906, 53159, 
         53160, 53163, 53898, 54406, 54408, 54409, 54744, 55449, 55452--
                55454, 55458, 55176, 55892, 56233, 56235, 56238, 56782, 
          56784,56787, 57282, 57284, 57725, 57945, 58179, 58220, 58641, 
         58644, 58646, 58648, 59702, 59704, 59706, 59708, 59710, 60348, 
         60350, 60846, 60848, 60849, 60852, 61085, 61086, 61263, 62275, 
         62279, 62280, 62998, 63001, 63002, 63004, 63006, 63008, 63536, 
         63539, 63541, 63543, 63791, 63793, 63795, 63796, 64135, 64341, 
         64599, 64601, 64603, 65256, 65258, 66496, 66498, 66605, 66608, 
         66611, 66614, 66616, 66617, 66924, 66926, 66928, 68066, 68068, 
         68070, 68071, 68073, 68075, 68076, 68078, 68874, 68875, 68877, 
         68879, 68880, 68882, 68883, 68885, 69441, 69442, 69660, 69860, 
         69861, 69864, 70295, 70296, 70298, 70301, 70646, 70655, 70783, 
         70785, 75607, 75609, 77260, 77262, 77265, 77781, 77785, 77787, 
                                                                   78084
    Corrected......4870, 6444, 10701, 11205, 15536, 16311, 41870, 43406, 
         48608, 49482, 51229, 57861, 59711, 61216, 62281, 65259, 65731, 
                                       66588, 69239, 70648, 80300, 81732
    Eff. 1-19-01.....................................69662, 78904, 78910
    Eff. 1-2-01.........70649, 70652, 70776, 70778, 70779, 70781, 70786, 
                                                     70788, 78914, 82261
    Eff. 1-13-01...................................................71236
    Eff. 1-12-01............................................71238, 77777
    Eff. 1-4-01....................................................71241
    Eff. 1-8-01.........75584, 75587, 75589, 75591, 75594, 75596, 75602, 
         75604, 75610, 75612, 75613, 75616, 75617, 75619, 75621, 75624, 
                                                                   75625
    Eff. 1-5-01.............................................75598, 75600
    Eff. 1-10-01...................................................76150
    Eff. 1-27-01...................................................77775
    Eff. 2-12-01...................................................77779
    Eff. 1-17-01...................................................77783
    Eff. 1-25-01...................................................80301
    Eff. 1-26-01............................................80742, 80743
    Eff. 1-30-01............................................81330, 81332
    Eff. 2-1-01....................................................82262
    Eff. 2-2-01......................................82897, 82900, 82903
    Eff. 1-16-01...................................................82905

[[Page 1114]]

47  Interpretation.................................................52301

                                  2001

14 CFR
                                                                   66 FR
                                                                    Page
Chapter I
11  Comment disposition............................................29416
    Compliance date delayed........................................56989
13.401 (Subpart I)  Added..........................................55048
21  SFAR No. 88 added..............................................23129
    Comment disposition............................................29416
    Compliance date delayed........................................56989
21.183  (d)(2)(iv) amended.........................................21065
21.197  (c) introductory text and (1) amended......................21066
21.213  (b) amended................................................21066
21.329  (c) amended................................................21066
21.337  (e) amended................................................21066
23  Special FAA conditions......18186, 30649, 37128, 40580, 50809, 50819
25  Special FAA conditions........261, 8162, 11527, 12843, 15020, 17804, 
         19847, 22426, 22428, 26972, 32717, 36697, 37408, 39085, 46937, 
         49271, 51299, 52017, 54062, 54414, 56195, 56197, 57648, 57650, 
                                                                   64349
    Comment disposition............................................29416
    Compliance date delayed........................................56989
25.473  (d) revised................................................27394
25.723  Revised....................................................27394
25.725  Removed....................................................27394
25.727  Removed....................................................27394
25.981  Revised....................................................23129
25.1435  Revised...................................................27402
25.1516  Added.....................................................34024
25.1527  Revised...................................................34024
25.1583  (c) and (f) revised.......................................34024
25.1585  Revised...................................................34024
25.1587  Revised...................................................34024
25  Appendix H amended.............................................23130
27.397  (b)(2) amended.............................................23538
29.397  (b)(2) amended.............................................23538
35  Special FAA conditions.........................................50302
39  Technical correction....................................13635, 37271
39.13.................................................................1,
4, 6, 8, 264, 265, 266, 268, 1032, 1254, 1256, 1828, 1830, 2213, 3450, 
3860, 4647, 4648, 4650, 4653, 4655, 4657, 4659, 6447, 6450, 6452, 6453, 
6455, 7573, 7575, 7577, 8078, 8080, 8082, 8083, 8088, 8166, 8168, 8508, 
8751, 8753, 8755, 8757, 8759, 9028, 9030, 9033, 9909, 10186, 10189, 
10355, 10356, 10358, 10359, 10362, 10571, 10572, 10953, 10954, 10956, 
10959, 10961, 10963, 10964, 11104, 11106, 12724, 12726, 12728, 12731, 
13011, 13228, 13231, 13233, 13413, 13415, 13417, 13420, 13423, 13425, 
14302, 14305, 14307, 14309, 14311, 14828, 15023, 15025, 15622, 15624, 
15788, 16104, 16107, 16109, 16113, 16115, 16118, 16600, 16845, 16847, 
17343, 17346, 17349, 17489, 17491, 17494, 17497, 17498, 17503, 17507, 
17808, 18047, 18049, 18522, 18524, 18526, 18528, 18722, 18872, 19383, 
19385, 19388, 19719, 19851, 20193, 20195, 20378, 20380, 20382, 20385, 
20388, 20734, 20736, 20738, 20903, 20905, 20909, 20911, 20913, 20915, 
20916, 20918, 20919, 20921, 21068, 21070, 21072, 21074, 21076, 21080, 
21082, 21085, 21277, 21279, 21852, 21854, 21858, 21861, 22431, 22434, 
22909, 22912, 22914, 22915, 23540, 23542, 23835, 23837, 23839, 23843, 
24051, 27686, 27688, 27016, 27018, 27450, 27591, 27596, 27855, 28363, 
28365, 28645, 28647, 28650, 28653, 29468, 29471, 29690, 29902, 30298, 
30301, 30304, 30306, 31122, 31127, 31131, 31133, 31140, 31142, 31145, 
31526, 31529, 31835, 31837, 31838, 32531, 32532, 32535, 32537, 32729, 
32730, 32895, 32897, 33014, 33015, 33017, 33018, 33020, 33165, 33167, 
33169, 33172, 33460, 33461, 34084, 34087--34090, 34093, 34095, 34097, 
34099, 34101, 34102, 34104, 34105, 34107, 34109, 34529, 34531, 34532, 
34799, 34801, 34805, 35077, 35079, 35372, 35531, 35533, 35534, 35536, 
35537, 35539, 35897, 36146, 36148, 36150, 36151, 36153, 36155, 36442, 
36444, 36446, 36448, 36449, 36451, 36452, 36454, 36455, 36457, 36700, 
37131, 37885, 38140, 38143, 38144, 38146, 38353, 38356, 38359, 38361, 
38364, 38366, 38532, 38534, 38536, 38538, 38891, 38894, 38898, 39414, 
39417, 39422, 39425, 39427, 39430, 39432, 39434, 39632, 40109, 40583, 
40860, 40862, 40864, 40865, 40867, 40868, 40869, 40871, 40873, 40876, 
40878, 40880, 40882, 40885, 41130, 41442, 41444, 42106, 42938, 42940, 
43068, 43069, 43071, 43073, 43075, 43077, 43464, 43467, 43469, 43474, 
43477, 43765, 43767, 43770, 43772, 44029, 44031, 44033, 44035, 44038, 
44040, 44042, 44044, 44045, 44047, 44048, 44293, 44295, 44297, 44298, 
44946,

[[Page 1115]]

44949, 44953, 44956, 44958, 44959, 45566, 45569, 45571, 45572, 45574, 
45576, 45578, 45581, 45583, 45587, 45595, 45754, 45755, 45757, 45759, 
45923, 46215, 46510, 46511, 46514, 46516, 46518, 46940, 47381, 47572, 
47574, 47576, 47880, 47882, 47885, 48537, 48539, 48790, 48791, 49100, 
49510, 49516, 49824, 49827, 50305, 50307, 50308, 50530, 51556, 51848, 
51852, 51855, 51857, 51859, 51861, 52022, 52026, 52028, 52313, 52315, 
52491, 52495, 52497, 52499, 52669, 53333, 53336, 53338, 53082, 53084, 
54117, 54119, 54417, 54419, 54422, 54424, 54426, 54652, 54655, 54657, 
54660, 54662, 54919, 54922, 55074, 55077, 55561, 56200, 56204, 56754, 
56756, 56990, 57363, 57366, 57654, 57854, 57856, 57860, 58368, 58665, 
58914, 58917, 58921, 58924, 58926, 58929, 58931, 58934, 60141, 62916, 
63156, 63158, 63161, 63308, 63622, 63914
    Corrected.......1574, 3861, 9635, 15326, 17508, 18521, 23155, 28651, 
           30307, 42586, 52312, 54110, 58007, 58932, 59358, 64739, 66296
    Eff. 1-4-02..........57851, 57858, 59683, 59686, 59688, 59690, 59691
    Eff. 1-7-02...............................60143, 60145, 60146, 65833
    Eff. 1-15-02............................................63912, 63916
    Eff. 1-16-02........64098, 64100, 64101, 64103, 64105, 64106, 64108, 
         64111, 64113, 64115, 64117, 64119, 64121, 64123, 64124, 64127, 
                                64129, 64131, 64133, 64134, 64137, 64139
    Eff. 1-2-02....................................................65103
    Eff. 1-23-02............................................65427, 65428
    Eff. 1-4-02....................................................65631
    Eff. 1-25-02............................................65828, 65831
    Eff. 1-30-02.......................66298, 66300, 66303, 66306, 67478
    Eff. 1-18-02...................................................66732
    Eff. 1-31-02............................................66734, 66736
    Eff. 1-11-02............................................66738, 66741
    Eff. 1-14-02...................................................67075
43.1  (a)(2) amended...............................................21066
43.3  (f) and (g) amended..........................................21066
43.7  (e) amended..................................................21066
43.9  (b) amended..................................................21066
43.13  (c) amended.................................................21066
43.16  Amended.....................................................21066
45.22  (c)(3) amended..............................................21066