I had a chance to fly a G model B-17 into Nellis air force base for the 50th anniversary air show, it was only about $350 for 1 hour of PIC time.
To start with tire friction depends largely on tire inflation, low tire pressure more friction.
Key to the B-17 and most airplanes, whats the runway surface like ?. Pavement, grass, dirt, concrete, SPF( metal grate) I will talk later about this.
Now with a tail dragger some planes need stick forward on takeoff (ME-109) some need tail down on takeoff (P-51) some planes you let the tail fly buy itself (B-17).
In the case of the P-51 if you didnt hold the tail down, ground loops would be happening.
If you were to push forward on the stick in the B-17 at low speeds you would put more weight on the mains (more Friction) and you would have less directional control when the locked tail wheel is flying.
The tail flys with very little air speed in the B-17 you just need to keep the tail wheel touching the runway until you transfer the weight from the mains to the wings (produce some lift and get the weight off the wheels) and at this speed you have real effective rudder, then let the tail fly, airlerons will be neutral.
Easy translation, get the tires lite, let the wing produce lift, it gets you to a faster acceleration and less drag from the wheels for takeoff.
When on uninproved runways this technic is used. Flaps are used to get the wing creating lift sooner to get the weight off the wheels sooner less drag due to grass or dirt or pots holes. Accelerating in ground effect, bring up the flaps to help accelerate sooner to Vy (best rate of climb) or Vx (Best Angle of climb).
Oh buy the way Vr or V2 is your rotation speed. Abort the takeoff pryor to V1 (decision speed )or after V1 get it flying.
In the B-767 as we accelerate to about 50kts we get the nose lite setting a slightly higher angle of attack letting the main wings carry some lift to get the weight off the main wheels. If no abort pryor to V1 accelerate to Vr-V2 rotate and accelerate to V2+10 (around 140kts) positive rate of climb gear up for climb out to a safe single engine altitude (about 1000 AGL) then lower the nose to accelerate to 250 kts to cruise altitude. Take off flaps are always used.
Now in a C-172 for a short field takeoff and to clear a 50 ft tree at the end of the runway. Full flaps down control yoke full aft apply full power and hold brakes. Release brakes and accelerate, lift off as soon as possible, keep on lowering the nose to accelerate in ground effect at about 3 ft off the ground and bring up flaps slowly accelerate to VX or Vy pitch up to clear the tree then set best rate (Vy) airspeed.
Induced Drag- is anytime you induce something into the airstream, angle of attack, rudder, aileron, elavator, landing gear, flaps, cowl flaps.
Parisite Drag or Form Drag- angle of incidense, rivets, pitot tubes, door handles, body lines, antenas, struts, fixed landing gear, navigation lights.
Drag happens when lift is produced, friction drag from the tires is always there but reduces when a tire rotation increase or when you get them airbourne. Induced drag from the landing gear is reduced as gear is retracted. Parisite drag increase as airspeed increases and so does induced drag.
Tire friction would be less than induced drag.
Straiga
