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Mission Aircrew Course Chapter 2: Aircraft Familiarization (May 2006). Aircrew Tasks. O-2015 DEMONSTRATE GROUND OPERATIONS AND SAFETY (S) P-2016 IDENTIFY AND DISCUSS MAJOR AIRCRAFT CONTROLS (S) P-2017 IDENTIFY AND DISCUSS MAJOR AIRCRAFT INSTRUMENTS (S)
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Mission Aircrew CourseChapter 2: Aircraft Familiarization(May 2006)
Aircrew Tasks • O-2015 DEMONSTRATE GROUND OPERATIONS AND SAFETY (S) • P-2016 IDENTIFY AND DISCUSS MAJOR AIRCRAFT CONTROLS (S) • P-2017 IDENTIFY AND DISCUSS MAJOR AIRCRAFT INSTRUMENTS (S) • P-2018 DISCUSS AIRCRAFT WEIGHT AND BALANCE (S) • P-2019 IDENTIFY ITEMS CHECKED DURING AN AIRCRAFT PRE-FLIGHT INSPECTION (S) • P-2020 DISCUSS THE DANGER OF WAKE TURBULENCE (S) • P-2119 DEMONSTRATE HOW TO COMPLETE A CAP AIRCRAFT INSPECTION (P)
Objectives • State the basic function of the aircraft ailerons, elevator, rudder, trim tabs and fuel selector. {S; 2.1} • Discuss the relationship between the magnetic compass and heading indicator. {S; 2.2.1 & 2.2.2} • State the basic function of the airspeed indicator, attitude indicator, GPS, nav/comm radios, audio panel, and transponder. {S; 2.2.3 - 2.2.11} • Discuss the consequences of exceeding the gross weight limit. {S; 2.3.1}
Objectives (con’t) • Discuss the importance of maintaining proper balance (c.g.), and factors in computing weight & balance {S; 2.3.2} • State the purpose of the pre-flight inspection, and discuss the items checked during the pre-flight inspection. {S; 2.4} • Discuss ground operations and safety, including: {S; 2.5} • Ramp safety • Moving and loading an aircraft • Entry and egress • Fuel management • Taxiing, including airport signs and markings • Discuss wake turbulence, including where it is most likely to be encountered. {S; 2.6}
Aircraft Familiarization • Why do I need to know this stuff anyway? • Structure • Instrumentation • Weight & Balance • Pre-flight inspection • Safety • Ground operations • Wake turbulence • Flightline signals
The Airplane • CAP typically uses C172 and C182.
The rudder controls yaw Directional Control of the Aircraft on the ground is by the rudder peddles and linkages to the nose gear.
Typical Instrument Panel DO NOT reposition any aircraft instrument's settings or controls without first asking the pilot.
Engine Quadrant Need to add: P 2016, Demonstrate and discuss how the pilot increases or decreases engine power.
Magnetic Compass • Primary • Doesn’t require any power • Used to set HI (DG) • Installation problems • Bank angles and speed changes can cause a compass to show the wrong heading
Heading Indicator • Vacuum gyro (Directional gyro) • Stable indications • Quick response to turns • Electrical or vacuum-driven • Will drift, requires periodic re-alignment
Altimeter • Static pressure • Usually set to show pressure altitude above Mean Sea Level (MSL) • Accurate altitude is dependent on the altimeter setting.
Turn Coordinator • Electric • Really two instruments • Miniature aircraft shows turn rate only - does not show bank angle • Inclinometer shows quality of turn - Coordinated, slip, skid
Attitude Indicator • Vacuum gyro • Highly reliable & useful • Provides a horizon reference • Hash marks indicate bank angle • Climb/descent marks
Airspeed Indicator • Static & Ram pressure • Knots (and/or MPH) • Colored markings show ranges • Shows aircraft speed through the air
Vertical Speed Indicator • Static pressure rate of change • Climb or descent rate • Has a lag due to design • Use with altimeter
Tachometer • RPM • Markings — green arc • Indicates power
Other Instruments • Gauges • Fuel (accurate at empty) • Manifold pressure • Fuel flow • Oil Temperature and Pressure • Vacuum and Generator • Exhaust Gas Temperature • Instruments vary from aircraft to aircraft
Nav/Comm • Primary and Standby Frequencies (flip-flop) Navigation Communications
Comm Antennas • Normally mounted on top • One for each radio • Know for your aircraft, if they are on top or on the bottom
Nav Antennas • “Cat whisker” style • One for each nav • May be dual blade (Bonanza)
Static “wicks” • Mitigate buildup of static electricity (interferes with comm) • Wings, elevators, vertical stabilizer • Take care when walking around
Other Antennas Loop (directional) ADF • Marker • Beacon
GPS • Apollo GX55 • ARNAV Star 5000
GPS Antenna • Line of sight, so mounted at the very top • Comm antennas can interfere with the weak signals, so they are tested for interference GPS
UHF Antenna Blade type (may be spike) Transponder & DME [If mounted up front, may interfere with DF]
Navigation Instruments VOR ADF • VHF Omnidirectional Range (VOR-DME, VORTAC) • Indicates direction to/from ground transmitter relative to magnetic North • Automatic Direction Finder (NDB) • Direction toward ground transmitter relative to airplane nose
Weight and Balance • The wings generate a limited amount of lift • Maximum weight for an aircraft is set by the manufacturer • Pitch stability is affected by the location of the center of gravity • The pilot computes weight and balance and controls it by loading the aircraft correctly
Weight and Balance • Excessive weight adversely impacts performance: • Longer take off and landing distance • Reduced climb performance • Reduced ability to withstand turbulence and wind shear forces • Out of Forward C.G. limits can cause: • Reduced up-elevator authority (ability to raise the nose) • Can eliminate the ability to flare for landing • Out of Rear C.G. limits can cause: • Reduced down-elevator authority (ability to lower the nose) • Can make stall recovery difficult or impossible
Aircraft Pre-flight • WALK AROUND • WINGS • FUSELAGE • PROPELLER • CONTROLS • LIGHTS • TIRES • OIL • FUEL • COWLING • TIE DOWNS • CHOCKS
Safety — Three Rules • NEVER sacrifice safety to save time • Use established procedures and checklists • You may have to deviate from common procedures — if you do, use common sense and prudent judgment (see Rule #1) • The most dangerous part of a mission is driving to and from the airport or mission base!
Safety In/Around Aircraft • No smoking • Keep clear • Fire on the ground • Moving and loading the aircraft • Entry/Egress - normal and emergency • Seat belts and shoulder harnesses (<1,000’) • Fuel management – you have an interest in making sure you don’t run out of fuel. The pilot should brief the crew on how much fuel will be needed and where you’ll refuel, if necessary.
FUEL CAPS GROUND WIRE CHOCKS FUEL SUMP DRAINS Aircraft Refueling Procedures
Safety during Taxiing • Taxiing – all crewmembers looking for obstacles • Obstacle within six feet – get out and push • Obstacle within 6 to 10 feet – get a marshaller or “wing walker” • No unnecessary talk (sterile cockpit) • Obey flightline hand signals • But use common sense – many linemen are inexperienced
Flightline hand signals Hands out making a pulling motion COME AHEAD Outward motion with thumbs PULL CHOCKS Inward motion with thumbs INSERT CHOCKS Circle with hand START ENGINE
Flightline hand signals Motion forward, pointing left TURN LEFT Motion forward, pointing right TURN RIGHT Thumb up ALL CLEAR - O.K. Downward motion with palms SLOW DOWN
Flightline hand signals Crossing hands over head EMERGENCY STOP Hands crossed above head STOP Slash throat with finger CUT ENGINE
Safety during Taxiing • Taxiing – all crewmembers assist the pilot • Prevent collisions with other aircraft and vehicles • Help the pilot find and stay on the taxiway (bad weather, low visibility, night on an unlighted airport) • Be familiar with airport signs and markings • Runway markings are white and taxiway markings are yellow
Airport Signs and Markings Follow the yellow lines Stay behind the dashed lines Need ATC permission to cross the solid lines