Short Field Takeoff & Landing
Takeoff Objective - Knowledge of elements Positive and accurate control of aircraft with shortest ground roll and steepest angle of climb Proper airspeeds VR, VX, and VY
Takeoff Best angle of climb results in greatest gain of altitude for a given distance over the ground Speed deviations of +5/-0 can reduce climb performance significantly
Takeoff Climb above obstacle or 50 ft AGL before accelerating to VY by reducing pitch
Takeoff Knowledge of performance charts Temperature Pressure runway length wind type of runway surface weight and condition of airplane
Takeoff Associated Condition Power Mixture Flap Setting
Takeoff Margin of Safety Remove fuel, people, or baggage Wait for different wind/or temperature Find a more experienced pilot Move airplane to a safer takeoff location
Takeoff Perform Maneuver Position flight controls and flaps for the existing conditions Crosswind - full deflection of ailerons Flaps set - verify visually
Takeoff Clear the area and position aircraft for maximum available takeoff area traffic pattern and runway clear Back taxi to very beginning of runway
Takeoff Advance throttle to takeoff power, while holding the brakes ground reference points Advance throttle to takeoff power, while holding the brakes Recheck mixture and propeller high RPM Add takeoff power avoiding engine surging, backfiring and
Takeoff overboost situations and release brakes smoothly Monitor engine instruments for malfunctions or indications of insufficient power Listen for engine roughness or power loss
Takeoff Rotate at the recommended speed Abort if indications are not normal Check airspeed indicator and call out airspeeds Rotate at the recommended speed
Takeoff Speed may vary with weight. Check POH Rotation speed should be approximately 5 KTS below the lift off speed
Takeoff At VR smoothly apply back elevator pressure to raise the nose to the pitch attitude that will produce the best angle-of-climb airspeed VX
Takeoff Do not attempt to raise the nose until VR because this will create unnecessary drag Climb at the manufacturer’s recommended airspeed and configuration
Takeoff low airspeed pitch too high higher airspeed pitch is too low on airspeed at optimum speed Learn pitch attitude - nose in relation to the horizon and attitude indicator
Takeoff After clearing the obstacle accelerate to VY +5/-5 Maintain VX =5/-0 KTS After clearing the obstacle accelerate to VY +5/-5 Retract the landing gear and flaps after a positive rate of climb or as recommended
Takeoff Before retracting the gear, apply the brakes to stop the rotation of the wheels Retract as recommended by the manufacturer Some recommend after a positive rate of climb,
Takeoff some recommend after clearing the obstacle Generally not good to be looking in the cockpit until obstacle clearance is assured In some airplanes, drag of gear is insignificant
Takeoff Normally landing gear is retracted prior to flap retraction Flaps normally retracted when you are clear of the obstacle and when VY is established Raise flaps in increments to avoid sudden loss of lift and settling of the airplane
Takeoff Make pitch adjustment during gear and flap retraction to maintain VY Maintain takeoff power to safe maneuvering altitude, then set climb power
Takeoff After establishing VY, retracting gear and flaps maintain takeoff power to 500 feet Reduce MP and RPM to climb power Maintain VY until 1000 feet transition to cruise climb
Takeoff Maintain directional control and proper wind-drift correction throughout the takeoff and climb
Takeoff Common error is to become preoccupied with the short field takeoff and neglect crosswind correction Complete the appropriate checklists, both before takeoff and climb
Common Takeoff Errors Failure to use the entire runway Improper positioning of the flight controls and wing flaps Improper engine operation during short field takeoff and climb out
Common Takeoff Errors Inappropriate removal of hand from throttle Poor directional control Improper use of brakes
Common Takeoff Errors Improper pitch attitude during liftoff Failure to establish and maintain proper climb configuration and airspeed Drift during climb out
Short Field Landing Exhibit knowledge of the elements related to a short field approach and landing Short landing area or over an obstacle that limits the available landing area
Short Field Landing Precise, positive control of your airplane’s rate of descent and airspeed to produce an approach that will clear obstacle, result in little or no float, and stop in the shortest possible distance Think ahead. Don’t land where you cannot takeoff
Short Field Landing Consider the wind conditions, landing surface and obstructions Height of obstructions dictate how steep the approach will have to be
Short Field Landing Surface may affect the breaking distance Headwind may shorten the distance Know POH landing speed Know landing distance Pump brakes to insure you have brake pressure
Short Field Landing Select the most suitable touchdown point Select an aim point that will allow you to clear obstacles and touch down with the greatest amount of runway available
Short Field Landing Descent angle will be steeper than a normal approach. Aim point will be closer to the obstacle Aim point will be short of the touchdown point Select a go around point, normally before descending below barriers
Landing Comparison Ground roll Over 50 foot Obstacle C172 540 1280 Temperature 15OC Pressure S.L. Ground roll Over 50 foot Obstacle C172 540 1280 Sundowner 703 1484 Bonanza 800 1300
Short Field Landing Establish the recommended approach and landing configuration and adjust power and pitch as required
Short Field Landing After landing gear and flaps are extended adjust power and pitch to give you the proper descent angle and airspeed Coordinated combination of pitch and power adjustments are required
Short Field Landing Approach must be stabilized Avoid excessively slow airspeed Avoid low slow approaches Final approach from 3/4 to 1 mile from 500 feet
Short Field Landing Maintain a stabilized approach at the recommended airspeed or 1.3 VSO with a gust factor of +5/-5
Short Field Landing Maintain glide path and airspeed Airspeed based on landing weight Reduce power while rounding out
Short Field Landing After landing gear and flaps are extended adjust power and pitch to give you the proper descent angle and airspeed
Short Field Landing Coordinated combination of pitch and power adjustments are required Approach must be stabilized Excess airspeed will cause floating and cause you to miss your touchdown spot
Short Field Landing Make smooth, timely and correct control applications during the round out and touchdown Remain aware of the possibility of wind shear and/or wake turbulence
Short Field Landing Touch down at or within 100 feet of the specified point, little or no float or drift with the longitudinal axis aligned with and over the center of the landing surface
Short Field Landing Round out to avoid flying into the ground or ballooning and stalling During round out reduce the throttle to idle Touch down within 100 feet of the specified point
Short Field Landing Maintain crosswind correction and directional control throughout the approach and landing Apply brakes to stop in the shortest distance
Short Field Landing Once main gear are solidly on the ground begin braking while maintaining full back elevator pressure Keep weight off nose gear
Short Field Landing Some aircraft benefit from retracting flaps but could cause you to misidentify a control and lead to a gear up landing
Short Field Landing Complete the appropriate checklists BCGUMPS Check brakes After Landing checklist
Common Errors Improper use of landing performance data and limitations Failure to establish approach landing configuration at appropriate time or in proper sequence
Common Errors Failure to maintain a stabilized approach Improper technique in use of power, wing flaps and trim
Common Errors Improper removal of hand from throttle Improper technique during round out and touchdown
Common Errors Poor directional control after touchdown Improper use of brakes