HFA TAILWHEEL TRANSITION COURSE: (FAQ)

• What are the requirements for a tailwheel endorsement?

  You don't need a tailwheel endorsement if you’ve already logged pilot-in-command (PIC) time in a tailwheel airplane prior to April 15, 1991. Otherwise, you must now receive a one-time logbook endorsement to act as PIC in a tailwheel airplane. The recommended wording for this endorsement, which is to be signed and dated by your tailwheel instructor, is provided in Advisory Circular (AC) 61-65D:

  "I certify that (Pilot's Name), (Pilot's Certificate), (Pilot's Certificate Number), has received the required training of §61.31(i) in a (make and model tailwheel airplane). I have determined that he/she is proficient in the operation of a tailwheel airplane."

  Federal Aviation Regulation (FAR) section 61.31(i) elaborates:

  "The flight training must include at least the following maneuvers and procedures:
  (i) Normal and crosswind takeoffs and landings;
  (ii) Wheel landings (unless the manufacturer has recommended against such landings); and
  (iii) Go-around procedures."

   

• How long will it really take for me to gain my tailwheel endorsement?

  Pilots want their flight training boiled down to number of hours. After all, hours translate into dollars. But when transitioning to tailwheel flying, the number of landings is actually a better yardstick for measuring one's "tailwheel readiness." We have found that most pilots are competent to solo somewhere between 15 and 30 landings on paved runways. This usually translates into 10 hours of dual instruction for the average student - most of which is spent in the traffic pattern.  Some students take a little longer - being comfortable and safe is the ultimate goal and everyone learns differently.

   

• That sure seems like a lot of landings. How come so many?

  Because it's the landing phase that's the most challenging and don't forget - the most fun in tailwheel flying. Managing the airspeed. Mastering the wind. Judging the touchdown point. And above all, actively working the controls to keep the airplane straight during and after landing. That means learning to use the rudder continuously to keep the tail behind you, where it belongs.  Pilots must, of course, become proficient in all of these elements to fly any airplane safely, but they are especially important in tailwheel airplanes in order to maintain directional control

   

• How do I stay proficient after I received my tailwheel endorsement?

  Easy, you need to fly a tailwheel aircraft as often as practical. It's like anything in flying: "if you don't use it - you'll loose it."  The best way to stay proficient is to either purchase a tailwheel aircraft or better yet join a tailwheel flying club in your area and rent a tailwheel aircraft.  You'll more often than not be able to rent a Citabria or Cessna 170 for reasonable rates and fly the pants off it!  Usually these clubs organize regular workshops, training and trips to grass fields in your area.  What fun!

   

• What do the terms "three-pointer" and "wheel landing" mean?

  Takeoffs and landings directly into the wind in conventional gear airplanes come in two basic flavors: three-point and two-point. These terms refer not only to the airplane's attitude, but also to the number of wheels in contact with the ground as the airplane rotates on takeoff or as it touches down on landing.

  The three-point attitude is identical to the attitude the airplane has when it's parked on the ramp. All other things being equal, the three-point attitude allows the pilot to operate at slower airspeeds: on takeoff, the airplane levitates into ground effect sooner; on landing, the airplane touches down slower, resulting in a shorter ground roll. Soft field operations usually call for a three-point or tail-low attitude during takeoff and landing. Three-pointers may be prescribed for short field landings, too. (Three-point landings are sometimes referred to as full stall landings, yet the airplane might not actually be stalled when the wheels contact the ground.)

  The three-point attitude does have potential disadvantages, though. One is reduced forward visibility during takeoff and landing in some taildraggers. Another may be a false sense during takeoff that an under powered airplane (or one that is operating at high density altitude) is capable of climbing out of ground effect while still in the nose-high, low speed, high drag, three-point attitude. Some airplanes may only be able to wallow along in ground effect in this configuration.

  The true two-point attitude, by comparison, corresponds to the attitude the airplane assumes in level cruise flight. Pilots transitioning to tailwheel airplanes might initially fear that the two-point attitude would bring the propeller precariously close to striking the ground. This apprehension can be alleviated, however, with a simple demonstration: With the prop of a parked taildragger positioned vertically (be extremely cautious when moving any propeller!), have your instructor pick up the tail of the airplane until it's in a level, two-point attitude. Check out the clearance between the ground and the prop.

  All other things being equal, two-point takeoffs generally allow the airplane to accelerate quicker and offer improved forward visibility. They also permit the pilot to gain more speed--and hence, have better control authority--prior to becoming airborne in gusty wind conditions. A short field may command the use of a two-point attitude during takeoff.

  Two-point landings are commonly referred to as wheel landings. In fact, any landing during which the tailwheel is held off the ground--even if it's only an inch or two--qualifies as a wheel landing. Wheel landings in certain airplanes may offer better forward visibility during the landing roll. Some pilots also argue that a wheel landing is preferable to a three-pointer when encountering gusty crosswinds. Others claim that quirks in a particular taildragger's design may necessitate the use of wheel landings for better controllability. Pilots of Stardusters and Swifts, for instance, swear by the wheel landing.

  But the two-point attitude has its disadvantages, too. Forcibly raising the tail on takeoff, for example, adds a sometimes-significant gyroscopic component to the left-turning effects of torque, P-factor, and spiral slipstream. The pilot must anticipate the need for additional right rudder as the tail rises. On the other end of the pattern, the wheel landing occurs at a higher ground speed than a three-point landing. Consequently, wheel landings tend to use up more of the available runway. It's also easier to instigate a pilot-induced-oscillation (PIO) during a wheel landing. If not checked quickly, this can culminate in a prop strike, a groundloop, or a little bit of both. Eventually, the wheel landing is transitioned into a three-point attitude. The possibility of a brief lapse in control authority is greater during this transition.

  Keep in mind we're not necessarily restricted to the two- and three-point attitudes described above, either. We can set intermediate attitudes during takeoff and landing, too. And during takeoff and landing in crosswind conditions, we might choose a three-point attitude modified with the downwind main wheel raised off the ground (i.e.: aileron into the wind) as part of our crosswind correction. Similarly, we might choose a two-point attitude, but again with the downwind wheel raised off the ground.

   

• What are some of the common problems pilots have transitioning to taildraggers?

  The biggest challenge can be summed up in three words: rudder, rudder, rudder. Too many pilots have grown accustomed to being reactive with their rudder inputs--waiting for the airplane to do something, then responding--or worse, actually bracing their legs against the rudder pedals, especially during landing. The key in a taildragger is to be proactive with the rudder. To be light, loose, but active on the rudder pedals all the way through the takeoff and all the way through the landing.

  The second challenge concerns the elevator. Pilots flying tricycle gear airplanes tend to relax back elevator pressure instinctively during the landing roll out. In a taildragger landing in the three-point attitude, relaxing back elevator pressure reduces directional control, thus making it more difficult to keep the airplane straight during the roll out. The key in a three-point landing is to hold the elevator control fully aft during the entire landing roll while actively using the rudder to keep the airplane aligned with the runway.

  The third challenge appears during wheel landings. The key difference between the three-point landing and the wheel landing is sink rate. Successful wheel landings require minimum sink rate. If the airplane at all settles, falls, or sinks toward the runway in the last few feet, a wheel landing will be difficult or impossible. And if the pilot flinches and applies back elevator as the main wheels touch down, the airplane will rebound into the air. At this point, the pilot needs to react quickly and efficiently and add power and execute a go-around.

   

• Can taildragger techniques be used in tricycle gear airplanes?

  Not only can they be used, but they should be used. You should fly tricycle gear airplanes in the pattern as though they were taildraggers. You'll be pleasantly surprised how tailwheel techniques thus applied will improve your tricycle gear takeoffs and landings. Tailwheel techniques directly carry over to floatplane flying, too.

   

• Where should I go for my tailwheel endorsement?

You can  find a freelance flight instructor who specializes in the "tailwheel endorsement."  Sadly, flight instructors certified to give the tailwheel endorsement are few and far between. Heritage Flight Academy employs professional and experienced instructors. Our instructors will take the time to help you gain the skills, confidence, and a degree of safety only obtainable through tailwheel training. Set yourself up for a fun new challenge! Sign up for the HFA Tailwheel Transition Course today!

Please contact us at 800/786.9060 for more information regarding our tailwheel programs and all that HFA has to offer. You can fill out our contact form here and mention Tailwheel Transition Course in the comment section.

Islip MacArthur Airport
2075 Smithtown Avenue
Ronkonkoma, New York  11779
Tel 800.786.9060 / 631.471.3550