Rynoth wrote:Adverse yaw... that's what the rudder pedals are for!
sonex1374 wrote:peter anson wrote:OK, this is only a guess, but I think the reason that the Sonex doesn't exhibit much adverse yaw is because when an aileron goes up, the gap on the underside of the wing widens causing extra drag, matching the drag of the down-going aileron. If that is correct, longer ailerons shouldn't produce any extra adverse yaw. It has also occurred to me that fitting a trim strip to fill that gap on the lower wing, as was discussed in several other threads, might drastically change the handling characteristics of the aircraft by increasing adverse yaw.
Peter,
You are correct that the shape of the hinge line is largely responsible for the canceling of adverse yaw. The NACA did a study on different hinge designs, and the shape used by Sonex (hinge on one side with a triangular opening on the other) was tested along with many other styles. It turns out that the effect is very similar to a frise aileron, and has the added benefit of being easy to manufacture and very strong (sound like standard Sonex qualities?). I've had the same discussion with others about covering the hinge gaps. I'd expect the feel of the surface to change somewhat if gap seals were installed, but the changes would only really be noticeable at larger control deflections.
Jeff
Onex107 wrote:I agree with the aileron yaw canceling, but, on my Onex I have installed a rudder gap seal and it definetly made a difference in taming the tail, which could be construed as yaw.
fastj22 wrote:Ok, I've got to ask you barn door flappers. If you only had 20 degrees of flaps available, could you land your aircraft safely? That's basically what 30 degrees of sport flaps gives you. Or do you need that extra 10 degrees to make a safe landing?
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