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171#
发表于 2008-12-19 23:28:19 |只看该作者
35.4.3 Pilots must preplan to determine if the aircraft can meet the climb gradient (expressed in feet per nautical mile) required by the departure procedure, and be aware that flying at a higher than anticipated ground speed increases the climb rate requirement in feet per minute. Higher than standard climb gradients are specified by a note on the departure procedure chart for graphic DPs, or in the Take-Off Minimums and (Obstacle) Departure Procedures section of the U.S. Terminal Procedures booklet for textual ODPs. The required climb gradient, or higher, must be maintained to the specified altitude or fix, then the standard climb gradient of 200 ft/NM can be resumed. A table for the conversion of climb gradient (feet per nautical mile) to climb rate (feet per minute), at a given ground speed, is included on page D1 of the U.S. Terminal Procedures booklets.

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172#
发表于 2008-12-19 23:28:26 |只看该作者
35.5 Where are DPs located? DPs will be listed by airport in the IFR Takeoff Minimums and (Obstacle) Departure Procedures Section, Section C, of the Terminal Procedures Publications (TPPs). If the DP is textual, it will be described in TPP Section C. SIDs and complex ODPs will be published graphically and named. The name will be listed by airport name and runway in Section C. Graphic ODPs will also have the term “(OBSTACLE)” printed in the charted procedure title, differentiating them from SIDs. 35.5.1 An ODP that has been developed solely for obstacle avoidance will be indicated with the symbol “T” on appropriate Instrument Approach Procedure (IAP) charts and DP charts for that airport. The “T” symbol will continue to refer users to TPP Section C. In the case of a graphic ODP, the TPP Section C will only contain the name of the ODP. Since there may be both a textual and a graphic DP, Section C should still be checked for additional information. The nonstandard minimums and minimum climb gradients found in TPP Section C also apply to charted DPs and radar vector departures unless different minimums are specified on the charted DP. Takeoff minimums and departure procedures apply to all runways unless otherwise specified. New graphic DPs will have all the information printed on the graphic depiction. As a general rule, ATC will only assign an ODP from a nontowered airport when compliance with the ODP is necessary for aircraft to aircraft separation. Pilots may use the ODP to help ensure separation from terrain and obstacles. 35.6 Responsibilities 35.6.1 Each pilot, prior to departing an airport on an IFR flight should consider the type of terrain and other obstacles on or in the vicinity of the departure airport; and: 35.6.2 Determine whether an ODP is available; and 35.6.3 Determine if obstacle avoidance can be maintained visually or if the ODP should be flown; and 35.6.4 Consider the effect of degraded climb performance and the actions to take in the event of an engine loss during the departure.

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173#
发表于 2008-12-19 23:28:34 |只看该作者
35.6.5 After an aircraft is established on an ODP/SID and subsequently vectored or cleared off of the ODP or SID transition, pilots shall consider the ODP/SID canceled, unless the controller adds “expect to resume ODP/SID.” 35.6.6 Aircraft instructed to resume a procedure which contains restrictions, such as a DP, shall be issued/reissued all applicable restrictions or shall be advised to comply with those restrictions. 35.6.7 If an altitude to “maintain” is restated, whether prior to or after departure, previously issued “ATC” altitude restrictions are cancelled. All minimum crossing altitudes which are not identified on the chart as ATC restrictions are still mandatory for obstacle clearance. If an assigned altitude will not 14 FEB 08 31 JULY 08 AIP ENR 1.5-69 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition allow the aircraft to cross a fix at the minimum crossing altitude, the pilot should request a higher altitude in time to climb to the crossing restriction or request an alternate routing. ATC altitude restrictions are only published on SIDs and are identified on the chart with “(ATC)” following the altitude. When an obstruction clearance minimum crossing altitude is also to be published at the same fix, it is identified by the term “(MCA).” 35.6.8 Pilots of civil aircraft operating from locations where SIDs are established may expect ATC clearances containing a SID. Use of a SID requires pilot possession of the textual description or graphic depiction of the approved current SID, as appropriate. RNAV SIDs must be retrievable by the procedure name from the aircraft database and conform to charted procedure. ATC must be immediately advised if the pilot does not possess the assigned SID, or the aircraft is not capable of flying the SID. Notification may be accomplished by filing “NO SID” in the remarks section of the filed flight plan or by the less desirable method of verbally advising ATC. Adherence to all restrictions on the SID is required unless clearance to deviate is received.

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174#
发表于 2008-12-19 23:28:46 |只看该作者
35.6.9 Controllers may omit the departure control frequency if a SID clearance is issued and the departure control frequency is published on the SID. 35.7 RNAV Departure Procedures 35.7.1 All public RNAV SIDs and graphic ODPs are RNAV 1. These procedures generally start with an initial RNAV or heading leg near the departure runway end. In addition, these procedures require system performance currently met by GPS or DME/DME/IRU RNAV systems that satisfy the criteria discussed in AC 90-100A, U.S. Terminal and En Route Area Navigation (RNAV) Operations. RNAV 1 procedures require the aircraft’s total system error remain bounded by _1 NM for 95% of the total flight time. 31 JULY 08 AIP ENR 1.6-1 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition ENR 1.6 [RESERVED] AIP ENR 1.7-1 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition ENR 1.7 Altimeter Setting Procedures 1. General 1.1_The accuracy of aircraft altimeters is subject to the following factors: 1.1.1_Nonstandard temperature of the atmosphere. 1.1.2_Nonstandard atmospheric pressure. 1.1.3_Aircraft static pressure systems (position error). 1.1.4_Instrument error. 1.2_EXTREME CAUTION SHOULD BE EXERCISED WHEN FLYING IN PROXIMITY TO OBSTRUCTIONS OR TERRAIN IN LOW TEMPERATURES AND PRESSURES. This is especially true in extremely cold temperatures that cause a large differential between the Standard Day temperature and actual temperature. This circumstance can cause serious errors that result in the aircraft being significantly lower than the indicated altitude. NOTE- Standard temperature at sea level is 15 degrees Celsius (59_degrees Fahrenheit). The temperature gradient from sea level is minus 2 degrees Celsius (3.6 degrees Fahrenheit) per 1,000 feet. Pilots should apply corrections for static pressure systems and/or instruments, if appreciable errors exist. 1.3_The adoption of a standard altimeter setting at the higher altitudes eliminates station barometer errors, some altimeter instrument errors, and errors caused by altimeter settings derived from different geographical sources. 2. Procedures 2.1_The cruising altitude or flight level of aircraft shall be maintained by reference to an altimeter which shall be set, when operating: 2.1.1_Below 18,000 feet MSL. 2.1.1.1_When the barometric pressure is 31.00_inches Hg. or less:_to the current reported altimeter setting of a station along the route and within 100 NM of the aircraft, or if there is no station within this area, the current reported altimeter setting of an appropriate available station. When an aircraft is en route on an instrument flight plan, air traffic controllers will furnish this information to the pilot at least once while the aircraft is in the controller’s area of jurisdiction. In the case of an aircraft not equipped with a radio, set to the elevation of the departure airport or use an appropriate altimeter setting available prior to departure. 2.1.1.2_When the barometric pressure exceeds 31.00 inches Hg.:_the following procedures will be placed in effect by NOTAM defining the geographic area affected: a)_For all aircraft._Set 31.00 inches for en_route operations below 18,000 feet MSL. Maintain this setting until beyond the affected area or until reaching final approach segment. At the beginning of the final approach segment, the current altimeter setting will be set, if possible. If not possible, 31.00 inches will remain set throughout the approach. Aircraft on departure or missed approach will set 31.00 inches prior to reaching any mandatory/crossing altitude or 1,500 feet AGL, whichever is lower. (Air traffic control will issue actual altimeter settings and advise pilots to set 31.00 inches in their altimeters for en_route operations below 18,000 feet MSL in affected areas.) b)_During preflight, barometric altimeters shall be checked for normal operation to the extent possible. c)_For aircraft with the capability of setting the current altimeter setting and operating into airports with the capability of measuring the current altimeter setting, no additional restrictions apply. d)_For aircraft operating VFR, there are no additional restrictions; however, extra diligence in flight planning and in operating in these conditions is essential. e)_Airports unable to accurately measure barometric pressures above 31.00 inches of Hg. will report the barometric pressure as _missing" or _in excess of 31.00 inches of Hg." Flight operations to and from those airports are restricted to VFR weather conditions. f)_For aircraft operating IFR and unable to set the current altimeter setting, the following restrictions apply: 1)_To determine the suitability of departure alternate airports, destination airports, and destination alternate airports, increase ceiling requirements AIP ENR 1.7-2 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition by 100 feet and visibility requirements by 1 /4 statute mile for each 1 /10 of an inch of Hg., or any portion thereof, over 31.00 inches. These adjusted values are then applied in accordance with the requirements of the applicable operating regulations and operations specifications. EXAMPLE- Destination altimeter is 31.28 inches, ILS DH 250 feet (200-1 /2). When flight planning, add 300-3 /4 to the weather requirements which would become 500-1_1 /4. 2)_On approach, 31.00 inches will remain set. Decision height or minimum descent altitude shall be deemed to have been reached when the published altitude is displayed on the altimeter. NOTE- Although visibility is normally the limiting factor on an approach, pilots should be aware that when reaching DH the aircraft will be higher than indicated. Using the example above the aircraft would be approximately 300_feet higher. 3)_These restrictions do not apply to authorized Category II and III ILS operations nor do they apply to certificate holders using approved QFE altimetry systems. 2.1.1.3_The FAA Regional Flight Standards Division Manager of the affected area is authorized to approve temporary waivers to permit emergency resupply or emergency medical service operation. 2.1.2_At or above 18,000 feet MSL:_to 29.92_ Hg (standard setting). The lowest usable flight level is determined by the atmospheric pressure in the area of operation, as shown in TBL ENR 1.7-1. TBL ENR 1.7-1 Lowest Usable Flight Level Altimeter Setting (Current Reported) Lowest Usable Flight Level 29.92 or higher 180 29.91 to 29.42 185 29.41 to 28.92 190 28.91 to 28.42 195 28.41 to 27.92 200 2.1.3_Where the minimum altitude, as prescribed in 14 CFR Sections 91.159 and 91.119, is above 18,000_feet MSL the lowest usable flight level shall be the flight level equivalent of the minimum altitude plus the number of feet specified in TBL ENR 1.7-2. TBL ENR 1.7-2 Lowest Flight Level Correction Factor Altimeter Setting Correction Factor 29.92 or higher none 29.91 to 29.42 500 feet 29.41 to 28.92 1000 feet 28.91 to 28.42 1500 feet 28.41 to 27.92 2000 feet 27.91 to 27.42 2500 feet EXAMPLE- The minimum safe altitude of a route is 19,000 feet MSL and the altimeter setting is reported between 29.92 and 29.42 inches of mercury. The lowest usable flight level will be 195, which is the flight level equivalent of 19,500 feet MSL (minimum altitude plus 500 feet). 2.1.4_Aircraft operating in an offshore CONTROL AREA should use altimeter setting procedures as described above, unless directed otherwise by ATC. NOTE- Aircraft exiting the oceanic CTA/FIR destined for the U.S. or transitioning through U.S. offshore control areas should use the current reported altimeter of a station nearest to the route being flown. When entering an oceanic CTA/FIR from U.S. offshore control areas, pilots should change to the standard altimeter setting 29.92. 3. Altimeter Errors 3.1_Most pressure altimeters are subject to mechanical, elastic, temperature, and installation errors. (Detailed information regarding the use of pressure altimeters is found in the Instrument Flying Handbook, Chapter IV.) Although manufacturing and installation specification, as well as the periodic test and inspections required by regulations (14 CFR Part 43, Appendix E), act to reduce these errors--any scale error may be observed in the following manner: 3.1.1_Set the current reported altimeter setting on the altimeter setting scale. 3.1.2_Altimeter should now read field elevation if you are located on the same reference level used to establish the altimeter setting. 3.1.3_Note the variation between the known field elevation and the altimeter indication. If this variation is in the order of plus or minus 75 feet, the accuracy of the altimeter is questionable and the problem should be referred to an appropriately rated repair station for evaluation and possible correction. AIP ENR 1.7-3 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 3.2_Once in flight, it is very important to obtain frequently current altimeter settings en route. If you do not reset your altimeter when flying from an area of high pressure into an area of low pressure, your aircraft will be closer to the surface than your altimeter indicates. An inch error in the altimeter setting equals 1,000 feet of altitude. To quote an old saying: _GOING FROM A HIGH TO A LOW, LOOK OUT BELOW." 3.3_Temperature also has an effect on the accuracy of altimeters and your altitude. The crucial values to consider are standard temperature versus the ambient (at altitude) temperature. It is this _difference" that causes the error in indicated altitude. When the air is warmer than standard, you are higher than your altimeter indicates. Subsequently, when the air is colder than standard you are lower than indicated. It is the magnitude of this _difference" that determines the magnitude of the error. When flying into a cooler air mass while maintaining a constant indicated altitude, you are losing true altitude. However, flying into a cooler air mass does not necessarily mean you will be lower than indicated if the difference is still on the plus side. For example, while flying at 10,000 feet (where STANDARD temperature is -5 degrees Celsius (C)), the outside air temperature cools from +5 degrees C to 0 degrees C, the temperature error will nevertheless cause the aircraft to be HIGHER than indicated. It is the extreme _cold" difference that normally would be of concern to the pilot. Also, when flying in cold conditions over mountainous country, the pilot should exercise caution in flight planning both in regard to route and altitude to ensure adequate en route and terminal area terrain clearance. 3.4_TBL ENR 1.7-3, derived from ICAO formulas, indicates how much error can exist when the temperature is extremely cold. To use the table, find the reported temperature in the left column, then read across the top row to locate the height above the airport/reporting station (i.e., subtract the airport/reporting elevation from the intended flight altitude). The intersection of the column and row is how much lower the aircraft may actually be as a result of the possible cold temperature induced error. 3.5_The possible result of the above example should be obvious, particularly if operating at the minimum altitude or when conducting an instrument approach. When operating in extreme cold temperatures, pilots may wish to compensate for the reduction in terrain clearance by adding a cold temperature correction. TBL ENR 1.7-3 Reported Temp _C ICAO COLD TEMPERATURE ERROR TABLE Height Above Airport in Feet 200 300 400 500 600 700 800 900 1000 1500 2000 3000 4000 5000 +10 10 10 10 10 20 20 20 20 20 30 40 60 80 90 0 20 20 30 30 40 40 50 50 60 90 120 170 230 280 -10 20 30 40 50 60 70 80 90 100 150 200 290 390 490 -20 30 50 60 70 90 100 120 130 140 210 280 420 570 710 -30 40 60 80 100 120 140 150 170 190 280 380 570 760 950 -40 50 80 100 120 150 170 190 220 240 360 480 720 970 1210 -50 60 90 120 150 180 210 240 270 300 450 590 890 1190 1500 EXAMPLE-Temperature-10 degrees Celsius, and the aircraft altitude is 1,000 feet above the airport elevation. The chart shows that the reported current altimeter setting may place the aircraft as much as 100 feet below the altitude indicated by the altimeter. AIP ENR 1.7-4 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 4. High Barometric Pressure 4.1_Cold, dry air masses may produce barometric pressures in excess of 31.00 inches of Mercury, and many altimeters do not have an accurate means of being adjusted for settings of these levels. As noted in paragraph 3.2, when the altimeter cannot be set to the higher pressure setting, the aircraft actual altitude will be higher than the altimeter indicates. 4.2_When the barometric pressure exceeds 31.00_inches, air traffic controllers will issue the actual altimeter setting, and: 4.2.1_En Route/Arrivals._Advise pilots to remain set on 31.00 inches until reaching the final approach segment. 4.2.2_Departures._Advise pilots to set 31.00 inches prior to reaching any mandatory/crossing altitude or 1,500 feet, whichever is lower. 4.3_The altimeter error caused by the high pressure will be in the opposite direction to the error caused by the cold temperature. 5. Low Barometric Pressure 5.1_When abnormally low barometric pressure conditions occur (below 28.00), flight operations by aircraft unable to set the actual altimeter setting are not recommended. NOTE- The true altitude of the aircraft is lower than the indicated altitude if the pilot is unable to set the actual altimeter setting. AIP ENR 1.8-1 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition ENR 1.8 [RESERVED] AIP ENR 1.9-1 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition ENR 1.9 [RESERVED] AIP ENR 1.10-1 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition ENR 1.10 Flight Planning (Restriction, Limitation or Advisory Information) 1. Preflight Preparation 1.1_Every pilot is urged to receive a preflight briefing and to file a flight plan. This briefing should consist of the latest or most current weather, airport, and en_route NAVAID information. Briefing service may be obtained from a flight service station (FSS) either by telephone or interphone, by radio when airborne, or by a personal visit to the station. In the 48_contiguous States, pilots with a current FAA medical certificate may access toll-free the Direct User Access Terminal System (DUATS) through a personal computer. DUATS will provide alpha-numeric preflight weather data and allow pilots to file domestic VFR and IFR flight plans. REFERENCE- GEN 3.5, paragraph 3.5.3.3 lists DUATS vendors. NOTE- Pilots filing flight plans via _fast file" who desire to have their briefing recorded, should include a statement at the end of the recording as to the source of their weather briefing. 1.2_The information required by the FAA to process flight plans is contained on FAA Form_7233-1, Flight Plan. The forms are available at all flight service stations. REFERENCE- AIP, ENR 1.10, paragraph 4, Flight Plan Requirements. 1.3_Consult an FSS or Weather Service Office (WSO) for a preflight weather briefing. Supplemental Weather Service Locations (SWSLs) do not provide weather briefings. 1.4_FSSs are required to advise of pertinent NOTAMs if a standard briefing is requested, but if they are overlooked, don’t hesitate to remind the specialist that you have not received NOTAM information. Additionally, NOTAMs which are known in sufficient time for publication and are of 7_days duration or longer are normally incorporated into the Notices to Airmen publication and carried there until cancellation time. FDC NOTAMs, which apply to instrument flight procedures, are also included in Notices to Airmen publication up to and including the number indicated in the FDC NOTAM legend. These NOTAMs are not provided during a briefing unless specifically requested by the pilot since the FSS specialist has no way of knowing whether the pilot has already checked Notices to Airmen publication prior to calling. Remember to ask for NOTAMs contained in the Notices to Airmen publication as they are not normally furnished during your briefing. 1.5_Pilots are urged to use only the latest issue of aeronautical charts in planning and conducting flight operations. Aeronautical charts are revised and reissued on a periodic basis to ensure that depicted data are current and reliable. In the conterminous U.S., sectional charts are updated each 6 months, IFR en route charts each 56 days, and amendments to civil IFR approach charts are accomplished on a 56-day cycle with a change notice volume issued on the 28-day mid-cycle. Charts that have been superseded by those of a more recent date may contain obsolete or incomplete flight information. REFERENCE- AIP, GEN 3.2, contains a description of aeronautical charts. 1.6_When requesting a preflight briefing, identify yourself as a pilot and provide the following: 1.6.1_Type of flight planned; e.g., VFR or IFR. 1.6.2_Aircraft number or pilot’s name. 1.6.3_Aircraft type. 1.6.4_Departure airport. 1.6.5_Route of flight. 1.6.6_Destination. 1.6.7_Flight altitude(s). 1.6.8_ETD and ETE. 1.7_Prior to conducting a briefing, briefers are required to have the background information listed above so that they may tailor the briefing to the needs of the proposed flight. The objective is to communicate a _picture" of meteorological and aeronautical information necessary for the conduct of a safe and efficient flight. Briefers use all available weather and aeronautical information to summarize data applicable to the proposed flight. They do not read weather reports and forecasts verbatim unless specifically requested by the pilot. FSS briefers do not provide FDC NOTAM information for special instrument AIP ENR 1.10-2 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition approach procedures unless specifically asked. Pilots authorized by the FAA to use special instrument approach procedures must specifically request FDC NOTAM information for these procedures. Pilots who receive the information electronically will receive NOTAMs for special IAPs automatically. REFERENCE- See AIP, GEN 3.5 for meteorological services. 1.8_The Federal Aviation Administration has designated High Density Traffic Airports (HDTA) and has prescribed air traffic rules and requirements for operating aircraft (excluding helicopter operations) to and from these airports. REFERENCE- AIP, GEN 3.3, paragraph 9.7, Airport Reservations Operations and Procedures. 1.9_In addition to the filing of a flight plan, if the flight will traverse or land in one or more foreign countries, it is particularly important that pilots leave a complete itinerary with someone directly concerned and keep that person advised of the flight’s progress. If serious doubt arises as to the safety of the flight, that person should first contact the FSS. 1.10_Pilots operating aircraft under the provisions of 14 CFR Part 135 and not having an FAA assigned 3-letter designator, are urged to prefix the normal aircraft registration (N) number with the letter _T" on flight plan filing. EXAMPLE- TN 1234B. 2. Follow IFR Procedures Even When Operating VFR 2.1_To maintain IFR proficiency, pilots are urged to practice IFR procedures whenever possible, even when operating VFR. Some suggested practices include: 2.1.1_Obtain a complete preflight and weather briefing. Check the NOTAMs. 2.1.2_File a flight plan. This is an excellent low-cost insurance policy. The cost is the time it takes to fill it out. The insurance includes the knowledge that someone will be looking for you if you become overdue at your destination. 2.1.3_Use current charts. 2.1.4_Use the navigation aids. Practice maintaining a good course by keeping the needle centered. 2.1.5_Maintain a constant altitude appropriate for direction of flight. 2.1.6_Estimate en route position times. 2.1.7_Make accurate and frequent position reports to the FSSs along your route of flight. 2.2_Simulated IFR flight is recommended (under the hood); however, pilots are cautioned to review and adhere to the requirements specified in 14 CFR Section 91.109 before and during such flight. 2.3_When flying VFR at night, in addition to the altitude appropriate for the direction of flight, pilots should maintain an altitude which is at or above the minimum en route altitude as shown on charts. This is especially true in mountainous terrain, where there is usually very little ground reference. Do not depend on your eyes alone to avoid rising unlighted terrain, or even lighted obstructions such as TV towers. 3. Domestic Notice to Airmen (NOTAM) System 3.1_Time-critical aeronautical information which is of either a temporary nature or is not sufficiently known in advance to permit publication on aeronautical charts or in other operational publications, receives immediate dissemination via the U.S. Notice to Airmen (NOTAM) System. NOTE- NOTAM information is that aeronautical information that could affect a pilot’s decision to make a flight. It includes such information as airport or primary runway closures, changes in the status of navigational aids, ILS, radar service availability, and other information essential to planned en route, terminal, or landing operations. 3.2_NOTAM information is classified into three categories. These are NOTAM (D) or distant, NOTAM (L) or local, and Flight Data Center (FDC) NOTAMs. 3.2.1_NOTAM (D) 3.2.1.1_NOTAM (D) information is disseminated for all navigational facilities that are part of the National Airspace System (NAS), all public use airports, seaplane bases, and heliports listed in the Airport/Facility Directory (AFD). The complete file of all NOTAM (D) information is maintained in a computer database at the Weather Message Switching Center (WMSC), located in Atlanta, Georgia. This category of information is distributed automatically via Service A telecommunications system. AIP ENR 1.10-3 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition Air_traffic facilities, primarily FSSs, have access to the entire WMSC database of NOTAMs. These NOTAMs remain available via Service A for the duration of their validity or until published. Once published, the NOTAM data is deleted from the system. 3.2.2_NOTAM (L) 3.2.2.1_NOTAM (L) information includes such data as taxiway closures, personnel and equipment near or crossing runways, and airport lighting aids that do not affect instrument approach criteria, such as VASI. 3.2.2.2_NOTAM (L) information is distributed locally only and is not attached to the hourly weather reports. A separate file of local NOTAMs is maintained at each FSS for facilities in their areas only. NOTAM (L) information for other FSS areas must be specifically requested directly from the FSS that has responsibility for the airport concerned. NOTE- DUATS vendors are not required to provide NOTAM (L) information. 3.2.3_FDC NOTAMs 3.2.3.1_On those occasions when it becomes necessary to disseminate information which is regulatory in nature, the National Flight Data Center (NFDC) in Washington, D.C., will issue an FDC NOTAM. FDC NOTAMs contain such things as amendments to published instrument approach procedures (IAPs) and other current aeronautical charts. They are also used to advertise temporary flight restrictions caused by such things as natural disasters or large scale public events that may generate a congestion of air traffic over a site. 3.2.3.2_FDC NOTAMs are transmitted via Service A only once and are kept on file at the FSS until published or canceled. FSSs are responsible for maintaining a file of current, unpublished FDC NOTAMs concerning conditions within 400 miles of their facilities. FDC information concerning conditions that are more than 400 miles from the FSS, or that is already published, is given only on request. NOTE- 1._DUATS vendors will provide FDC NOTAMs only upon site-specific requests using a location identifier. 2._NOTAM data may not always be current due to the changeable nature of the national airspace system components, delays inherent in processing the information, and occasional temporary outages of the United States NOTAM System. While en route, pilots should contact FSSs and obtain updated information for their route of flight and destination. 3.3_An integral part of the NOTAM System is the Notice to Airmen publication, published every 28_days. Data is included in this publication to reduce congestion on the telecommunications circuits and, therefore, is not available via Service A. Once published, this information is not provided during pilot weather briefings unless specifically requested by the pilot. The Notice to Airmen publication contains four parts: 3.3.1_Part 1 contains three sections. 3.3.1.1_Notices which meet the criteria for NOTAM_(D) which are expected to remain in effect for an extended period and FDC NOTAMs current at the time of publication. Occasionally, some NOTAM_(L) and other unique information is included in this section when it will contribute to flight safety. 3.3.1.2_Airports, Facilities, and Procedural NOTAMs. 3.3.1.3_General FDC NOTAMs. 3.3.2_Part 2 contains Revisions to Minimum En_Route IFR Altitudes and Changeover Points Amendments. 3.3.3_Part 3 contains International Notices to Airmen. 3.3.4_Part 4 contains Graphic Notices._It includes special notices and notices containing graphics pertaining to almost every aspect of aviation; such as, military training areas, large scale sporting events that may attract media attention or draw large crowds of aircraft, chart corrections and additions, and air show information. 3.3.5_The number of the last FDC NOTAM included in the Notices to Airmen publication is noted on the first page to aid the user in updating the listing with any FDC NOTAMs which may have been issued between the cut-off date and the date the publication is received. All information contained will be carried until the information expires, is canceled, or in the case of permanent conditions, is published in other publications, such as the Airport/Facility Directory. 3.3.6_All new notices entered, excluding FDC NOTAMs, will be published only if the information is expected to remain in effect for at least 30 days after the effective date of the publication. AIP ENR 1.10-4 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 4. Flight Plan Requirements 4.1_The types of flight plans in U.S. airspace are: 4.1.1_Visual Flight Rules (VFR). 4.1.2_Defense Visual Flight Rules (DVFR). 4.1.3_Instrument Flight rules (IFR). 4.1.4_Composite Flight Plan Visual-Instrument Flight Rules (VFR-IFR). 4.1.5_IFR flight plans requesting VFR operations. NOTE- ICAO flight plans are required whenever the flight intends to cross an international boundary or an oceanic CTA/FIR boundary. For flights departing U.S. airports and operating over U.S. domestic airspace and/or offshore control areas, but do not penetrate the oceanic CTA/FIR boundary or borders, a U.S. domestic flight plan is preferred. 4.2_Flight Plan-VFR Flights 4.2.1_Except for operations in or penetrating a Coastal or Domestic ADIZ or DEWIZ (see ENR 1.12, paragraph 1.2), a flight plan is not required for VFR flight; however, it is strongly recommended that one be filed. 4.2.2_To obtain maximum benefits of the flight plan program, flight plans should be filed directly with the nearest flight service station. For your convenience, FSSs provide aeronautical and meteorological briefings while accepting flight plans. Radio may be used to file if no other means are available. Also, some States operate aeronautical communications facilities which will accept and forward flight plans to the FSS for further handling. 4.2.3_When a _stopover" flight is anticipated to cover an extended period of time, it is recommended that a separate flight plan be filed for each _leg" when the stop is expected to be more than 1-hour duration. 4.2.4_Pilots are encouraged to give their departure times directly to the FSS serving the departure airport or as otherwise indicated by the FSS when the flight plan is filed. This will ensure more efficient flight plan service and permit the FSS to advise you of significant changes in aeronautical facilities or meteorological conditions. When a VFR flight plan is filed, it will be held by the FSS until 1 hour after the proposed departure time and then canceled unless: 4.2.4.1_The actual departure time is received. 4.2.4.2_A revised proposed departure time is received. 4.2.4.3_At a time of filing, the FSS is informed that the proposed departure time will be met, but actual time cannot be given because of inadequate communications (assumed departures). 4.2.5_On pilot’s request, at a location having an active tower, the aircraft identification will be forwarded by the tower to the FSS for reporting the actual departure time. This procedure should be avoided at busy airports. 4.2.6_Although position reports are not required for VFR flight plans, periodic reports to FAA flight service stations along the route are good practice. Such contacts permit significant information to be passed to the transiting aircraft and also serve to check the progress of the flight should it be necessary for any reason to locate the aircraft. EXAMPLE- 1._Bonanza 314K, over Kingfisher at (time), VFR flight plan, Tulsa to Amarillo. 2._Cherokee 5133J, over Oklahoma City at (time), Shreveport to Denver, no flight plan. 4.2.7_Pilots not operating on an IFR flight plan, and when in level cruising flight, are cautioned to conform with VFR cruising altitudes appropriate to direction of flight. 4.2.8_When filing VFR flight plans, indicate aircraft equipment capabilities by appending the appropriate suffix to aircraft type in the same manner as that prescribed for IFR flight. Under some circumstances, ATC computer tapes can be useful in constructing the radar history of a downed or crashed aircraft. In each case, knowledge of the aircraft’s transponder equipment is necessary in determining whether or not such computer tapes might prove effective. REFERENCE- AIP, ENR 1.10, paragraph 5.1 and TBL ENR 1.10-1, Aircraft Equipment Suffixes. 4.2.9_Explanation of VFR Flight Plan Items. 4.2.9.1_Block 1._Check the type flight plan. Check both the VFR and IFR blocks if composite VFR/IFR. 4.2.9.2_Block 2._Enter your complete aircraft identification including the prefix _N" if applicable. 4.2.9.3_Block 3._Enter the designator for the aircraft, or if unknown, consult an FSS briefer. 4.2.9.4_Block 4._Enter your true airspeed (TAS). AIP ENR 1.10-5 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 4.2.9.5_Block 5._Enter the departure airport identifier code, or if unknown, the name of the airport. 4.2.9.6_Block 6._Enter the proposed departure time in Coordinated Universal Time (UTC). If airborne, specify the actual or proposed departure time, as appropriate. 4.2.9.7_Block 7._Enter the appropriate VFR altitude (to assist the briefer in providing weather and wind information). 4.2.9.8_Block 8._Define the route of flight by using NAVAID identifier codes and airways. 4.2.9.9_Block 9._Enter the destination airport identifier code, or if unknown, the airport name. NOTE- Include the city name (or even the state name) if needed for clarity. 4.2.9.10_Block 10._Enter your estimated time en_route, in hours and minutes. 4.2.9.11_Block 11._Enter only those remarks pertinent to ATC or to the clarification of other flight plan information such as the appropriate radiotelephony (call sign) associated with the designator filed in Block 2. Items of a personal nature are not accepted. 4.2.9.12_Specify the fuel on board, in hours and minutes. 4.2.9.13_Specify an alternate airport if desired. 4.2.9.14_Enter your complete name, address, and telephone number. Enter sufficient information to identify home base, airport, or operator. NOTE- This information is essential in the event of search and rescue operations. 4.2.9.15_Block 15._Enter total number of persons on board including crew (POB). 4.2.9.16_Block 16._Enter the predominant colors. 4.2.9.17_Block 17._(Optional) Record a destination telephone number to assist Search and Rescue should you fail to report or cancel your flight plan within 1/2_hour after your estimated time of arrival (ETA). CAUTION- A control tower at destination point does not automatically close VFR flight plans; it remains the responsibility of a pilot to close his/her own flight plan. 4.2.9.18_Record the FSS name for closing the flight plan. If the flight plan is closed with a different FSS or facility, state the recorded FSS name that would normally have closed your flight plan. NOTE- The information transmitted to the destination FSS will consist only of flight plans blocks 2, 3, 9, and 10. Estimated time en route (ETE) will be converted to the correct estimated time of arrival (ETA). AIP ENR 1.10-6 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition FIG ENR 1.10-1 FAA Flight Plan Form 7233-1 (8-82) U.S. DEPARTMENT OF TRANSPORTATION FEDERAL AVIATION ADMINISTRATION (FAA USE ONLY) PILOT BRIEFING VNR STOPOVER TIME STARTED SPECIALIST INITIALS 1. TYPE 1. VFR IFR DVFR AIRCRAFT TYPE/ 3. SPECIAL EQUIPMENT 5. DEPARTURE POINT DEPARTURE TIME 6. PROPOSED (Z) ACTUAL (Z) ALTITUDE 7. CRUISING 8. ROUTE OF FLIGHT KTS 9. DESTINATION (Name of airport and city) EST. TIME 10. ENROUTE HOURS HOURS MINUTES MINUTES REMARKS 11. 12. FUEL ON BOARD 13. ALTERNATE AIRPORT(13. S) PILOT’S NAME, ADDRESS TELEPHONE AIRCRAFT 14. & NUMBER & HOME BASE 15. NUMBER ABOARD 15. 17. 17. DESTINATION CONTACT/TELEPHONE (OPTIONAL) 16. AIRCRAFT 16. COLOR OF FAA Form 7233-1 FAA Form 7233-(8-82) _________________ ARRIVAL CLOSE VFR FLIGHT PLAN WITH FSS ON FLIGHT PLAN CIVIL AIRCRAFT PILOTS, FAR 91 requires you file an IFR flight plan to operate under instrument flight rules in controlled airspace. Failure to file could result in a civil penalty not to exceed $1,000 for each violation (Section 901 of the Federal Aviation Act of 1958, as amended). Filing of a VFR flight plan is recommended as a good operating practice. See also Part 99 for requirements concerning DVFR flight plans. 2. AIRCRAFT IDENTIFICATION TRUE AIRSPEED 4. AIP ENR 1.10-7 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition TBL ENR 1.10-1 Aircraft Suffixes Suffix Equipment Capability NO DME /X No transponder /T Transponder with no Mode C /U Transponder with Mode C DME /D No transponder /B Transponder with no Mode C /A Transponder with Mode C TACAN ONLY /M No transponder /N Transponder with no Mode C /P Transponder with Mode C AREA NAVIGATION (RNAV) /Y LORAN, VOR/DME, or INS with no transponder /C LORAN, VOR/DME, or INS, transponder with no Mode C /I LORAN, VOR/DME, or INS, transponder with Mode C ADVANCED RNAV WITH TRANSPONDER AND MODE C (If an aircraft is unable to operate with a transponder and/or Mode C, it will revert to the appropriate code listed above under Area Navigation.) /E Flight Management System (FMS) with DME/DME and IRU position updating /F FMS with DME/DME position updating /G Global Navigation Satellite System (GNSS), including GPS or Wide Area Augmentation System (WAAS), with en_route and terminal capability. /R Required Navigational Performance (RNP). The aircraft meets the RNP type prescribed for the route segment(s), route(s) and/or area concerned. Reduced Vertical Separation Minimum (RVSM). Prior to conducting RVSM operations within the U.S., the operator must obtain authorization from the FAA or from the responsible authority, as appropriate. /J /E with RVSM /K /F with RVSM /L /G with RVSM /Q /R with RVSM /W RVSM AIP ENR 1.10-8 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 4.3_Operational Information System (OIS) 4.3.1_The FAA’s Air Traffic Control System Command Center (ATCSCC) maintains a web site with near real-time National Airspace System (NAS) status information. NAS operators are encouraged to access the web site at www.fly.faa.gov prior to filing their flight plan. 4.3.2_The web site consolidates information from advisories. An advisory is a message that is disseminated electronically by the ATCSCC that contains information pertinent to the NAS. 4.3.2.1_Advisories are normally issued for the following items: a)_Ground Stops. b)_Ground Delay Programs. c)_Route Information. d)_Plan of Operations. e)_Facility Outages and Scheduled Facility Outages. f)_Volcanic Ash Activity Bulletins. g)_Special Traffic Management Programs. 4.3.2.2_This list is not all-inclusive. Any time there is information that may be beneficial to a large number of people, an advisory may be sent. Additionally, there may be times when an advisory is not sent due to workload or the short length of time of the activity. 4.3.2.3_Route information is available on the web site and in specific advisories. Some route information, subject to the 56-day publishing cycle, is located on the _OIS" under _Products," Route Management Tool (RMT), and _What’s New" Playbook. The RMT and Playbook contain routings for use by Air Traffic and NAS operators when they are coordinated _real-time" and are then published in an ATCSCC advisory. 4.3.2.4_Route advisories are identified by the word _Route" in the header; the associated action is required (RQD), recommended (RMD), planned (PLN), or for your information (FYI). Operators are expected to file flight plans consistent with the Route RQD advisories. 4.4_Flight Plan-Defense VFR (DVFR) Flights 4.4.1_VFR flights into a Coastal or Domestic ADIZ/DEWIZ are required to file DVFR flight plans for security purposes. Detailed ADIZ procedures are found in ENR 1.12, paragraph 1. REFERENCE- 14 CFR Part 99. 5. Flight Plan-IFR Flights 5.1_General 5.1.1_Prior to departure from within, or prior to entering Class A, B, C, D, and E airspace, a pilot must submit a complete flight plan and receive an air traffic clearance if weather conditions are below VFR minimums. Instrument flight plans may be submitted to the nearest flight service station or the airport traffic control tower either in person or by telephone (or by radio if no other means are available). Pilots should file IFR flight plans at least 30 minutes prior to estimated time of departure to preclude possible delay in receiving a departure clearance from ATC. To minimize your delay in entering a Class B, C, D, or E surface area at destination when IFR weather conditions exist or are forecast at the airport, an IFR flight plan should be filed before departure. Otherwise, a 30-minute delay is not unusual in receiving an ATC clearance because of time spent in processing flight plan data. Traffic saturation frequently prevents control personnel from accepting flight plans by radio. In such cases the pilot is advised to contact the nearest flight service station for the purpose of filing the flight plan. NOTE- There are several methods of obtaining IFR clearance at nontower, non-Flight Service Stations and outlying airports. The procedure may vary due to geographical features, weather conditions, and the complexity of the ATC system. To determine the most effective means of receiving an IFR clearance, pilots should ask the nearest Flight Service Station for the most appropriate means of obtaining the IFR clearance. 5.1.2_When filing an IFR flight plan, include as a prefix to the aircraft type, the number of aircraft when more than one and/or heavy aircraft indicator _H/" if appropriate. EXAMPLE- H/DC10/A 2/F15/A AIP ENR 1.10-9 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 5.1.3 When filing an IFR flight plan, identify the equipment capability by adding a suffix, preceded by a slant, to the AIRCRAFT TYPE, as shown in TBL ENR 1.10-1, Aircraft Suffixes. NOTE- 1. ATC issues clearances based on filed suffixes. Pilots should determine the appropriate suffix based upon desired services and/or routing. For example, if a desired route/procedure requires GPS, a pilot should file /G even if the aircraft also qualifies for other suffixes. 2. For procedures requiring GPS, if the navigation system does not automatically alert the flight crew of a loss of GPS, the operator must develop procedures to verify correct GPS operation. 3. The suffix is not to be added to the aircraft identification or be transmitted by radio as part of the aircraft identification. 5.1.4 It is recommended that pilots file the maximum transponder or navigation capability of their aircraft in the equipment suffix. This will provide ATC with the necessary information to utilize all facets of navigational equipment and transponder capabilities available.

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5.2 Airways/Jet Routes Depiction on Flight Plan 5.2.1 It is vitally important that the route of flight be accurately and completely described in the flight plan. To simplify definition of the proposed route, and to facilitate air traffic control, pilots are requested to file via airways or jet routes established for use at the altitude or flight level planned. 5.2.2 If flight is to be conducted via designated airways or jet routes, describe the route by indicating the type and number designators of the airway(s) or jet route(s) requested. If more than one airway or jet route is to be used, clearly indicate points of transition. If the transition is made at an unnamed intersection, show the next succeeding NAVAID or named intersection on the intended route and the complete route from that point. Reporting points should be identified by using authorized name/code as depicted on appropriate aeronautical charts. The following two examples illustrate the need to specify the transition point when two routes share more than one transition fix. EXAMPLE- 1. ALB J37 BUMPY J14 BHM Spelled out: from Albany, New York, via Jet Route 37 transitioning to Jet Route 14 at BUMPY intersection, thence via Jet Route 14 to Birmingham, Alabama. 2. ALB J37 ENO J14 BHM Spelled out: from Albany, New York, via Jet Route 37 transitioning to Jet Route 14 at Smyrna VORTAC (ENO) thence via Jet Route 14 to Birmingham, Alabama. 5.2.3 The route of flight may also be described by naming the reporting points or NAVAIDs over which the flight will pass, provided the points named are established for use at the altitude or flight level planned. EXAMPLE- BWI V44 SWANN V433 DQO Spelled out: from Baltimore-Washington International, via Victor 44 to Swann intersection, transitioning to Victor 433 at Swann, thence via Victor 433 to Dupont. 5.2.4 When the route of flight is defined by named reporting points, whether alone or in combination with airways or jet routes, and the navigational aids (VOR, VORTAC, TACAN, LF, RBN) to be used for the flight are a combination of different types of aids, enough information should be included to clearly indicate the route requested. EXAMPLE- LAX J5 LKV J3 GEG YXC FL 330 J500 VLR J515 YWG Spelled out: from Los Angeles International via Jet Route_5 Lakeview, Jet Route 3 Spokane, direct Cranbrook, British Columbia VOR/DME, Flight Level 330 Jet Route 500 to Langruth, Manitoba VORTAC, Jet Route 515 to Winnepeg, Manitoba. 5.2.5 When filing IFR, it is to the pilot's advantage to file a “preferred route.” NOTE- Preferred IFR routes are described and tabulated in the Airport/Facility Directory. 5.2.6 ATC may issue a SID or a STAR as appropriate (See ENR 1.5, paragraph_3). NOTE- Pilots not desiring a SID or STAR should so indicate in the remarks section of the flight plan as “no SID” or “no STAR.” 30 AUG 07 AIP ENR 1.10-10 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 5.3 Direct Flights 5.3.1 All or any portions of the route which will not be flown on the radials or courses of established airways or routes, such as direct route flights, must be defined by indicating the radio fixes over which the flight will pass. Fixes selected to define the route shall be those over which the position of the aircraft can be accurately determined. Such fixes automatically become compulsory reporting points for the flight, unless advised otherwise by ATC. Only those navigational aids established for use in a particular structure; i.e., in the low or high structures, may be used to define the en route phase of a direct flight within that structure. 5.3.2 The azimuth feature of VOR aids and the azimuth and distance (DME) features of VORTAC and TACAN aids are assigned certain frequency protected areas of airspace which are intended for application to established airway and route use, and to provide guidance for planning flights outside of established airways or routes. These areas of airspace are expressed in terms of cylindrical service volumes of specified dimensions called “class limits” or “categories.” 5.3.3 An operational service volume has been established for each class in which adequate signal coverage and frequency protection can be assured. To facilitate use of VOR, VORTAC, or TACAN aids, consistent with their operational service volume limits, pilot use of such aids for defining a direct route of flight in Class A, B, C, D, and E airspace should not exceed the following:_ 5.3.3.1 Operations above Flight Level 450. Use aids not more than 200 nautical miles apart. These aids are depicted on En Route High Altitude Charts. 5.3.3.2 Operation off established routes from 18,000_feet MSL to Flight Level 450. Use aids not more than 260 nautical miles apart. These aids are depicted on En Route High Altitude Charts. 5.3.3.3 Operation off established airways below 18,000 feet MSL. Use aids not more than 80 nautical miles apart. These aids are depicted on En Route Low Altitude Charts. 5.3.3.4 Operation off established airways between 14,500 feet MSL and 17,999 feet MSL in the conterminous United States. (H) facilities not more than 200 NM apart may be used. 5.3.4 Increasing use of self-contained airborne navigational systems which do not rely on the VOR/VORTAC/TACAN system has resulted in pilot requests for direct routes which exceed NAVAID service volume limits. These direct route requests will be approved only in a radar environment, with approval based on pilot responsibility for navigation on the authorized direct route. “Radar flight following” will be provided by ATC for air traffic control purposes. 5.3.5 At times, ATC will initiate a direct route in a radar environment which exceeds NAVAID service volume limits. In such cases ATC will provide radar monitoring and navigational assistance as necessary. 5.3.6 Airway or jet route numbers, appropriate to the stratum in which operation will be conducted, may also be included to describe portions of the route to be flown. EXAMPLE- MDW V262 BDF V10 BRL STJ SLN GCK Spelled out: from Chicago Midway Airport via Victor 262 to Bradford, Victor 10 to Burlington, Iowa, direct St. Joseph, Missouri, direct Salina, Kansas, direct Garden City, Kansas. NOTE- When route of flight is described by radio fixes, the pilot will be expected to fly a direct course between the points named. 5.3.7 Pilots are reminded that they are responsible for adhering to obstruction clearance requirements on those segments of direct routes that are outside of Class A, B, C, D, and E airspace. The MEAs and other altitudes shown on Low Altitude IFR En Route Charts pertain to those route segments within Class_A, B, C, D, and E airspace, and those altitudes may not meet obstruction clearance criteria when operating off those routes. 5.4 Area Navigation (RNAV) 5.4.1 Random RNAV routes can only be approved in a radar environment. Factors that will be considered by ATC in approving random RNAV routes include the capability to provide radar monitoring and compatibility with traffic volume and flow. ATC will radar monitor each flight; however, navigation on the random RNAV route is the responsibility of the pilot. 5.4.2 Pilots of aircraft equipped with approved area navigation equipment may file for RNAV routes throughout the National Airspace System and may be filed for in accordance with the following procedures. AIP ENR 1.10-11 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 5.4.2.1_File airport to airport flight plans. 5.4.2.2_File the appropriate RNAV capability certification suffix in the flight plan. 5.4.2.3_Plan the random route portion of the flight plan to begin and end over appropriate arrival and departure transition fixes or appropriate navigation aids for the altitude stratum within which the flight will be conducted. The use of normal preferred departure and arrival routes (DP/STAR), where established, is recommended. 5.4.2.4_File route structure transitions to and from the random route portion of the flight. 5.4.2.5_Define random routes by waypoints. File route description waypoints by using degree-distance fixes based on navigational aids which are appropriate for the altitude stratum. 5.4.2.6_File a minimum of one route description waypoint for each ARTCC through whose area the random route will be flown. These waypoints must be located within 200 NM of the preceding center’s boundary. 5.4.2.7_File an additional route description waypoint for each turnpoint in the route. 5.4.2.8_Plan additional route description waypoints as required to ensure accurate navigation via the filed route of flight. Navigation is the pilot’s responsibility unless ATC assistance is requested. 5.4.2.9_Plan the route of flight so as to avoid Prohibited and Restricted Airspace by 3 NM unless permission has been obtained to operate in that airspace and the appropriate ATC facilities are advised. NOTE- To be approved for use in the National Airspace System, RNAV equipment must meet the appropriate system availability, accuracy, and airworthiness standards. For additional guidance on equipment requirements see AC_20-130, Airworthiness Approval of Vertical Navigation (VNAV) Systems for use in the U.S. NAS and Alaska, or AC 20-138, Airworthiness Approval of Global Positioning System (GPS) Navigation Equipment for Use as a VFR and IFR Supplemental Navigation System. For airborne navigation database, see AC 90-94, Guidelines for Using GPS Equipment for IFR En Route and Terminal Operations and for Nonprecision Instrument Approaches in the U.S. National Airspace System, Section 2. 5.4.3_Pilots of aircraft equipped with latitude/longitude coordinate navigation capability independent of VOR/TACAN references may file for random RNAV routes at and above FL 390 within the conterminous U.S. using the following procedures: 5.4.3.1_File airport-to-airport flight plans prior to departure. 5.4.3.2_File the appropriate RNAV capability certification suffix in the flight plan. 5.4.3.3_Plan the random route portion of the flight to begin and end over published departure/arrival transition fixes or appropriate navigation aids for airports without published transition procedures. The use of preferred departure and arrival routes, such as DP and STAR where established, is recommended. 5.4.3.4_Plan the route of fight so as to avoid prohibited and restricted airspace by 3 NM unless permission has been obtained to operate in that airspace and the appropriate ATC facility is advised. 5.4.3.5_Define the route of flight after the departure fix, including each intermediate fix (turnpoint) and the arrival fix for the destination airport in terms of latitude/longitude coordinates plotted to the nearest minute or in terms of Navigation Reference System (NRS) waypoints. For latitude/longitude filing the arrival fix must be identified by both the latitude/longitude coordinates and a fix identifier. EXAMPLE- MIA1 SRQ2 3407/106153 3407/11546 TNP4 LAX5 1 _Departure Airport 2 _Departure Fix 3 _Intermediate Fix (Turning Point) 4 _Arrival Fix 5 _Destination Airport or ORD1 IOW2 KP49G3 KD34U4 KL16O5 OAL6 MOD27 SFO8 1 Departure airport. 2 Transition fix (pitch point). 3 Minneapolis ARTCC waypoint. 4 Denver ARTCC Waypoint. 5 Los Angeles ARTCC waypoint (catch point). 6 Transition fix. 7 Arrival. 8 Destination airport. AIP ENR 1.10-12 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 5.4.3.6_Record latitude/longitude coordinates by four figures describing latitude in degrees and minutes followed by a solidus and five figures describing longitude in degrees and minutes. 5.4.3.7_File at FL 390 or above for the random RNAV portion of the flight. 5.4.3.8_Fly all routes/route segments on Great Circle tracks. 5.4.3.9_Make any in-flight requests for random RNAV clearances or route amendments to an en route ATC facility. 5.5_Flight Plan Form See FIG ENR 1.10-1. 5.5.1_Explanation of IFR Flight Plan Items. 5.5.1.1_Block 1._Check the type flight plan. Check both the VFR and IFR blocks if composite VFR/IFR. 5.5.1.2_Block 2._Enter your complete aircraft identification including the prefix _N" if applicable. 5.5.1.3_Block 3._Enter the designator for the aircraft, followed by a slant (/) and the transponder or DME equipment code letter; e.g., C-182/U. Heavy aircraft, add prefix _H" to aircraft type; example, H/DC10/R. Consult an FSS briefer for any unknown elements. 5.5.1.4_Block 4._Enter your computed true airspeed (TAS). NOTE- If the average TAS changes plus or minus 5 percent or 10_knots, whichever is greater, advise ATC. 5.5.1.5_Block 5._Enter the departure airport identifier code (or the name if identifier is unknown). NOTE- Use of identifier codes will expedite the processing of your flight plan. 5.5.1.6_Block 6._Enter the proposed departure time in Coordinated Universal Time (UTC) (Z). If airborne, specify the actual or proposed departure time as appropriate. 5.5.1.7_Block 7._Enter the requested en route altitude or flight level. NOTE- Enter only the initial requested altitude in this block. When more than one IFR altitude or flight level is desired along the route of flight, it is best to make a subsequent request direct to the controller. 5.5.1.8_Block 8._Define the route of flight by using NAVAID identifier codes (or names if the code is unknown), airways, jet routes, and waypoints (for RNAV). NOTE- Use NAVAIDs or waypoints to define direct routes and radials/bearing to define other unpublished routes. 5.5.1.9_Block 9._Enter the destination airport identifier code (or name if identifier is unknown). 5.5.1.10_Block 10._Enter your estimated time en route based on latest forecast winds. 5.5.1.11_Block 11._Enter only those remarks pertinent to ATC or to the clarification of other flight plan information such as the appropriate radiotelephony (call sign) associated with the designator filed in Block 2. Items of a personal nature are not accepted. Do not assume that remarks will be automatically transmitted to every controller. Specific ATC or en route requests should be made directly to the appropriate controller. NOTE- _DVRSN" should be placed in Block 11 only if the pilot/company is requesting priority handling to their original destination from ATC as a result of a diversion as defined in the Pilot/Controller Glossary. 5.5.1.12_Block 12._Specify the fuel on board, computed from the departure point. 5.5.1.13_Block 13._Specify an alternate airport if desired or required, but do not include routing to the alternate airport. 5.5.1.14_Block 14._Enter the complete name, address, and telephone number of pilot-in-command or, in the case of a formation flight, the formation commander. Enter sufficient information to identify home base, airport, or operator. NOTE- This information would be essential in the event of a search and rescue operation. 5.5.1.15_Block 15._Enter the total number of persons on board including crew. 5.5.1.16_Block 16._Enter the predominant colors. NOTE- Close IFR flight plans with tower, approach control, ARTCCs, or if unable, with FSS. When landing at an airport with a functioning control tower, IFR flight plans are automatically canceled. AIP ENR 1.10-13 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 5.5.2_The information transmitted to the ARTCC for IFR Flight Plans will consist of only flight plan blocks_2, 3, 4, 5, 6, 7, 8, 9, 10, and 11. 5.5.3_A description of the International Flight Plan Form is contained in the International Flight Information Manual (IFIM). 6. IFR Operations to High Altitude Destinations 6.1_Pilots planning IFR flights to airports located in mountainous terrain are cautioned to consider the necessity for an alternate airport even when the forecast weather conditions would technically relieve them from the requirement to file one. 6.2_The FAA has identified three possible situations where the failure to plan for an alternate airport when flying IFR to such destination airport could result in a critical situation if the weather is less than forecast and sufficient fuel is not available to proceed to a suitable airport._ 6.2.1_An IFR flight to an airport where the Minimum Descent Altitudes (MDAs) or landing visibility minimums for all instrument approaches are higher than the forecast weather minimums specified in 14_CFR Section 91.167(b). For example, there are 3_high altitude airports in the U.S. with approved instrument approach procedures where all of the MDAs are greater than 2,000 feet and/or the landing visibility minimums are greater than 3 miles (Bishop, California; South Lake Tahoe, California; and Aspen-Pitkin Co/Sardy Field, Colorado). In the case of these airports, it is possible for a pilot to elect, on the basis of forecasts, not to carry sufficient fuel to get to an alternate when the ceiling and/or visibility is actually lower than that necessary to complete the approach. 6.2.2_A small number of other airports in mountainous terrain have MDAs which are slightly (100 to 300_feet) below 2,000 feet AGL. In situations where there is an option as to whether to plan for an alternate, pilots should bear in mind that just a slight worsening of the weather conditions from those forecast could place the airport below the published IFR landing minimums. 6.2.3_An IFR flight to an airport which requires special equipment; i.e., DME, glide slope, etc., in order to make the available approaches to the lowest minimums. Pilots should be aware that all other minimums on the approach charts may require weather conditions better than those specified in 14_CFR Section_91.167(b). An inflight equipment malfunction could result in the inability to comply with the published approach procedures or, again, in the position of having the airport below the published IFR landing minimums for all remaining instrument approach alternatives. 7. Composite Flight Plan (VFR/IFR Flights) 7.1_Flight plans which specify VFR operation for one portion of a flight, and IFR for another portion, will be accepted by the FSS at the point of departure. If VFR flight is conducted for the first portion of the flight, the pilot should report his/her departure time to the FSS with which he/she filed his/her VFR/IFR flight plan; and, subsequently, close the VFR portion and request ATC clearance from the FSS nearest the point at which change from VFR to IFR is proposed. Regardless of the type facility you are communicating with (FSS, center, or tower), it is the pilot’s responsibility to request that facility to _CLOSE VFR FLIGHT PLAN." The pilot must remain in VFR weather conditions until operating in accordance with the IFR clearance. 7.2_When a flight plan indicates IFR for the first portion of flight and VFR for the latter portion, the pilot will normally be cleared to the point at which the change is proposed. Once the pilot has reported over the clearance limit and does not desire further IFR clearance, he/she should advise air traffic control to cancel the IFR portion of his/her flight plan. Then, he/she should contact the nearest FSS to activate the VFR portion of his/her flight plan. If the pilot desires to continue his/her IFR flight plan beyond the clearance limit, he/she should contact air traffic control at least five minutes prior to the clearance limit and request further IFR clearance. If the requested clearance is not received prior to reaching the clearance limit fix, the pilot will be expected to establish himself/herself in a standard holding pattern on the radial/course to the fix unless a holding pattern for the clearance limit fix is depicted on a U.S. Government or commercially produced (meeting FAA requirements) Low/High Altitude En Route, Area, or STAR chart. In this case the pilot will hold according to the depicted pattern. AIP ENR 1.10-14 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 8. Initiating a Change to Flight Plans on File 8.1_Changes to proposed flight plans should be initiated through the FSS with which the flight plan was originally filed. If this is not possible, initiate changes through the nearest FSS or ATC facility. All changes should be initiated at least 30 minutes prior to departure to insure that the change can be effected prior to the ATC clearance delivery. 9. Change in Proposed Departure Time 9.1_To prevent computer saturation in the en route environment, parameters have been established to delete proposed departure flight plans which have not been activated. Most centers have this parameter set so as to delete these flight plans a minimum of 1 hour after the proposed departure time. To ensure that a flight plan remains active, pilots whose actual departure time will be delayed 1 hour or more beyond their filed departure time, are requested to notify ATC of their departure time. 9.2_Due to traffic saturation, control personnel frequently will be unable to accept these revisions via radio. It is recommended that you forward these revisions to the nearest FSS. 10. Other Changes 10.1_In addition to altitude/flight level, destination, and/or route changes, increasing or decreasing the speed of an aircraft constitutes a change in a flight plan. Therefore, at any time the average true airspeed at cruising altitude between reporting points varies or is expected to vary from that given in the flight plan by plus or minus 5 percent, or 10_knots, whichever is greater, air traffic control should be advised. 11. Canceling Flight Plans 11.1_Closing VFR and DVFR Flight Plans 11.1.1_A pilot is responsible for ensuring that his/her VFR or DVFR flight plan is canceled. You should close your flight plan with the nearest FSS, or if one is not available, you may request any ATC facility to relay your cancellation to the FSS. Control towers do not automatically close VFR or DVFR flight plans as they may not be aware that a particular VFR aircraft is on a flight plan. If you fail to report or cancel your flight plan within 1 /2_hour after your ETA, search and rescue procedures are started. 11.2_Canceling IFR Flight Plan 11.2.1_14 CFR Section 91.153 includes the statement _When a flight plan has been activated, the pilot in command, upon canceling or completing the flight under the flight plan, shall notify an FAA Flight Service Station or ATC facility." 11.2.2_An IFR flight plan may be canceled at any time the flight is operating in VFR conditions outside Class A airspace by the pilot stating _CANCEL MY IFR FLIGHT PLAN" to the controller or air/ground station with which he/she is communicating. Immediately after canceling an IFR flight plan, a pilot should take necessary action to change to the appropriate air/ground frequency, VFR radar beacon code, and VFR altitude or flight level. 11.2.3_ATC separation and information services will be discontinued, including radar services (where applicable). Consequently, if the canceling flight desires VFR radar advisory service, the pilot must specifically request it. NOTE- Pilots must be aware that other procedures may be applicable to a flight that cancels an IFR flight plan within an area where a special program, such as a designated terminal radar service area, Class C airspace or Class B airspace, has been established. 11.2.4_If a DVFR flight plan requirement exists, the pilot is responsible for filing this flight plan to replace the canceled IFR flight plan. If a subsequent IFR operation becomes necessary, a new IFR flight plan must be filed and an ATC clearance obtained before operating in IFR conditions. 11.2.5_If operating on an IFR flight plan to an airport with a functioning control tower, the flight plan is automatically closed upon landing. 11.2.6_If operating on an IFR flight plan to an airport where there is no functioning control tower, the pilot must initiate cancellation of the IFR flight plan. This can be done after landing if there is a functioning FSS or other means of direct communications with ATC. In the event there is no FSS and air/ground communications with ATC is not possible below a certain altitude, the pilot would, weather conditions permitting, cancel his/her IFR flight plan while still airborne and able to communicate with ATC by radio. This will not only save the time and expense of canceling the flight plan by telephone but will quickly release the airspace for use by other aircraft. AIP ENR 1.10-15 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 11.3_RNAV and RNP Operations 11.3.1_During the pre-flight planning phase the availability of the navigation infrastructure required for the intended operation, including any non-RNAV contingencies, must be confirmed for the period of intended operation. Availability of the onboard navigation equipment necessary for the route to be flown must be confirmed. 11.3.2_If a pilot determines a specified RNP level cannot be achieved, revise the route or delay the operation until appropriate RNP level can be ensured. 11.3.3_The onboard navigation database must be appropriate for the region of intended operation and must include the navigation aids, waypoints, and coded terminal airspace procedures for the departure, arrival and alternate airfields. 11.3.4_During system initialization, pilots of aircraft equipped with a Flight Management System or other RNAV-certified system, must confirm that the navigation database is current, and verify that the aircraft position has been entered correctly. Flight crews should crosscheck the cleared flight plan against charts or other applicable resources, as well as the navigation system textual display and the aircraft map display. This process includes confirmation of the waypoints sequence, reasonableness of track angles and distances, any altitude or speed constraints, and identification of fly-by or fly-over waypoints. A procedure shall not be used if validity of the navigation database is in doubt. 11.3.5_Prior to commencing takeoff, the flight crew must verify that the RNAV system is operating correctly and the correct airport and runway data have been loaded. AIP ENR 1.11-1 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition ENR 1.11 [RESERVED] AIP ENR 1.12-1 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition ENR 1.12 Interception of Civil Aircraft, National Security, and Interception Procedures 1. National Security 1.1_National security in the control of air traffic is governed by 14 CFR Part 99. 1.2_All aircraft entering domestic U.S. airspace from points outside, must provide for identification prior to entry. To facilitate early aircraft identification of all aircraft in the vicinity of U.S. and international airspace boundaries, Air Defense Identification Zones (ADIZ) have been established. (See FIG ENR 1.12-1). 1.3_Operational requirements for aircraft operations associated with an ADIZ are as follows: 1.3.1_Flight Plan._Except as specified in subparagraphs 1.5 and 1.6 below, an IFR or DVFR flight plan must be filed with an appropriate aeronautical facility as follows: 1.3.1.1_Generally, for all operations that enter an ADIZ. 1.3.1.2_For operations that will enter or exit the U.S. and which will operate into, within or across the contiguous U.S. ADIZ regardless of true airspeed. 1.3.1.3_The flight plan must be filed before departure except for operations associated with the Alaskan ADIZ when the airport of departure has no facility for filing a flight plan, in which case the flight plan may be filed immediately after takeoff or when within range of the aeronautical facility. 1.3.2_Two-way Radio._For the majority of operations associated with an ADIZ, an operating two-way radio is required. See 14 CFR Section_99.1 for exceptions. 1.3.3_Transponder Requirements._Unless otherwise authorized by ATC, each aircraft conducting operations into, within, or across the contiguous U.S. ADIZ must be equipped with an operable radar beacon transponder having altitude reporting capability (Mode C), and that transponder must be turned on and set to reply on the appropriate code or as assigned by ATC. 1.3.4_Position Reporting 1.3.4.1_For IFR flight._Normal IFR position reporting. 1.3.4.2_For DVFR flights._The estimated time of ADIZ penetration must be filed with the aeronautical facility at least 15 minutes prior to penetration except for flight in the Alaskan ADIZ, in which case report prior to penetration. 1.3.4.3_For inbound aircraft of foreign registry. The pilot must report to the aeronautical facility at least 1 hour prior to ADIZ penetration. 1.3.5_Aircraft Position Tolerances 1.3.5.1_Over land, the tolerance is within plus or minus 5 minutes from the estimated time over a reporting point or point of penetration and within 10_NM from the centerline of an intended track over an estimated reporting point or penetration point. 1.3.5.2_Over water, the tolerance is plus or minus 5_minutes from the estimated time over a reporting point or point of penetration and within 20 NM from the centerline of the intended track over an estimated reporting point or point of penetration (to include the Aleutian Islands). 1.3.6_Land-Based ADIZ._Land-Based ADIZ are activated and deactivated over U.S. metropolitan areas as needed, with dimensions, activation dates and other relevant information disseminated via NOTAM. 1.3.6.1_In addition to requirements outlined in subparagaphs 1.3.1 through 1.3.3, pilots operating within a Land-Based ADIZ must report landing or leaving the Land-Based ADIZ if flying too low for radar coverage. 1.3.6.2_Pilots unable to comply with all requirements shall remain clear of Land-Based ADIZ. Pilots entering a Land-Based ADIZ without authorization or who fail to follow all requirements risk interception by military fighter aircraft. AIP ENR 1.12-2 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition FIG ENR 1.12-1 Air Defense Identification Zone Boundaries Designated Mountainous Areas .................................. ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... .. .. . .. .. ............................................... .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................................................. .................................................................... ............. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ............................. ........................... ... ........... AIP ENR 1.12-3 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition 1.4_Except when applicable under 14 CFR Sections_99.7 and 99.12, Part 99 does not apply to aircraft operations: 1.4.1_Within the 48 contiguous states and the District of Columbia, or within the State of Alaska, and remains within 10 miles of the point of departure. 1.4.2_Over any island, or within 3 nautical miles of the coastline of any island, in the Hawaii ADIZ. 1.4.3_Associated with any ADIZ other than the contiguous U.S. ADIZ, when the aircraft true airspeed is less than 180 knots.

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176#
发表于 2008-12-19 23:29:18 |只看该作者
1.5_Authorizations to deviate from the requirements of Part 99 may also be granted by the ARTCC, on a local basis, for some operations associated with an ADIZ. 1.6_An air-filed VFR Flight Plan makes an aircraft subject to interception for positive identification when entering an ADIZ. Pilots are therefore urged to file the required DVFR flight plan either in person or by telephone prior to departure. 1.7_Special Security Instructions 1.7.1_During defense emergency or air defense emergency conditions, additional special security instructions may be issued in accordance with the Security Control of Air Traffic and Air Navigation Aids (SCATANA) Plan.

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177#
发表于 2008-12-19 23:29:24 |只看该作者
1.7.2_Under the provisions of the SCATANA Plan, the military will direct the action to be taken in regard to landing, grounding, diversion or dispersal of aircraft, and the control of air navigation aids in the defense of the U.S. during emergency conditions. 1.7.3_At the time a portion or all of SCATANA is implemented, ATC facilities will broadcast appropriate instructions received from the military over available ATC frequencies. Depending on instructions received from the military, VFR flights may be directed to land at the nearest available airport, and IFR flights will be expected to proceed as directed by ATC. 1.7.4_Pilots on the ground may be required to file a flight plan and obtain an approval (through FAA) prior to conducting flight operation. 1.7.5_In view of the above, all pilots should guard an ATC or FSS frequency at all times while conducting flight operations.

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178#
发表于 2008-12-19 23:29:30 |只看该作者
2. Interception Procedures 2.1_General 2.1.1_Identification intercepts during peacetime operations are vastly different than those conducted under increased states of readiness. Unless otherwise directed by the control agency, intercepted aircraft will be identified by type only. When specific information is required (i.e., markings, serial numbers, etc.), the interceptor aircrew will respond only if the request can be conducted in a safe manner. During hours of darkness or instrument meteorological conditions (IMC), identification of unknown aircraft will be by type only. The interception pattern described below is the typical peacetime method used by air interceptor aircrews. In all situations, the interceptor aircrew will use caution to avoid startling the intercepted aircrew and/or passengers.

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179#
发表于 2008-12-19 23:29:41 |只看该作者
2.1.2_All aircraft operating in the U.S. national airspace, if capable, will maintain a listening watch on VHF guard 121.5 or UHF 243.0. It is incumbent on all aviators to know and understand their responsibilities if intercepted. Additionally, if the U.S. military intercepts an aircraft and flares are dispensed in the area of that aircraft, aviators will pay strict attention, contact air traffic control immediately on the local frequency or on VHF guard 121.5 or UHF_243.0 and follow the intercept’s visual ICAO signals. Be advised that noncompliance may result in the use of force. 2.2_Intercept Phases (See FIG ENR 1.12-2) 2.2.1_Phase One - Approach Phase 2.2.1.1_During peacetime, intercepted aircraft will be approached from the stern. Generally two interceptor aircraft will be employed to accomplish the identification. The flight leader and wingman will coordinate their individual positions in conjunction with the ground controlling agency. Their relationship will resemble a line abreast formation. At night or in IMC, a comfortable radar trail tactic will be used. Safe vertical separation between interceptor aircraft and unknown aircraft will be maintained at all times. AIP ENR 1.12-4 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition FIG ENR 1.12-2 Interception Procedures INTERCEPTION PATTERNS FOR IDENTIFICATION INTERCEPTED AIRCRAFT (TYPICAL) INTERCEPTION PATTERNS FOR IDENTIFICATION OF INTERCEPTED (IDENTIFICATION PHASE APPROACH APPROACH PHASE (DAY) POST INTERCEPT PHASE POST INTERCEPT PHASE INTERCEPTORS INTERCEPTORS TRANSPORT WINGMAN WINGMAN FLIGHT LEAD Note: During Night/approach will be from below flight path. IMC, will from

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180#
发表于 2008-12-19 23:29:49 |只看该作者
flight 2.2.2_Phase Two - Identification Phase 2.2.2.1_The intercepted aircraft should expect to visually acquire the lead interceptor and possibly the wingman during this phase in visual meteorological conditions (VMC). The wingman will assume a surveillance position while the flight leader approaches the unknown aircraft. Intercepted aircraft personnel may observe the use of different drag devices to allow for speed and position stabilization during this phase. The flight leader will then initiate a gentle closure toward the intercepted aircraft, stopping at a distance no closer than absolutely necessary to obtain the information needed. The interceptor aircraft will use every possible precaution to avoid startling intercepted aircrew or passengers. Additionally, the interceptor aircrews will constantly keep in mind that maneuvers considered normal to a fighter aircraft may be considered hazardous to passengers and crews of nonfighter aircraft. When interceptor aircrews know or believe that an unsafe condition exists, the identification phase will be terminated. As previously stated, during darkness or IMC, identification of unknown aircraft will be type only. Positive vertical separation will be maintained by interceptor aircraft throughout this phase. AIP ENR 1.12-5 United States of America 15 MAR 07 Federal Aviation Administration Nineteenth Edition

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