i know how to land it your not getting what im saying im just asking why dose this plane do it but other planes dont?
Based on your initial post, "how come" could be taken as either a question on physics or on technique. Most of us chose to answer the technique aspect, because it's easy to solve.
I've always understood it to be caused by gyroscopic precession, enhanced by the high nose angle (and tail wheel design) of the F4U. The short, castored, tail wheel, the need to keep the big prop up off the ground, and the differing thrust from the right-hand side of the propeller arc vs the left all work against you.
With an RC tail dragger, you can feel this effect if you lift the tail with your hand while the engine is running, even at idle.
P-factor, torque, slipstream, and the gyroscopic effect of the propeller are all trying the turn the plane to the left. I actually think they're trying to cause a left
spin at that low airspeed, but contact with the ground obviously prevents that. I could be wrong. The gyroscopic force could be applied in other directions though, depending on which direction the force was applied to the propeller disc. If you push the stick forward, I think you'll yaw right, where pulling the stick back gives you a left yaw.
If you land at a "highish" speed in the F4U (100mph or so), the slipstream will allow you to maintain control with your rudder (even if you just let it sit there in the middle). But, as you slow down, you lose rudder effectiveness, while at the same time not having enough control with the tail wheel to counter the turning force.
Even when the tail wheel is in contact with the ground, it doesn't resist this force in the F4U, because the tail wheel spins freely like the front wheel of a shopping cart. If the plane wants to swing the tail to one side or the other, the tail wheel doesn't resist it like you might expect. The F4U has a locking mechanism for the tail wheel though, that's activated by holding the stick back (up elevator) in game. that will lock the wheel wherever it happens to be pointing at the time. Lock it while your rotating to the left, and it'll be really hard to go straight, or to the right...
Holding the stick back at landing does two things. Obviously, it locks the tail wheel. Second, it helps "plant" the tail wheel firmly on the ground, so that as the rudder loses authority, the (locked) tail wheel takes over and the result is straight tracking down the runway.
I haven't looked at the other planes closely enough to tell you how they differ in this matter. If the upward angle of the nose is reduced as compared to the F4U, the tendency would probably be less. If the design or height of the tail wheel is different, that would matter too. Smaller prop? Different placement of the main gear? They'd all factor in.
