Torque Reaction
Torque reaction involves Newton's Third Law of Physics - for every action, there is an equal and opposite reaction. As applied to the airplane, this means that as the internal engine parts and propeller are revolving in one direction, an equal force is trying to rotate the airplane in the opposite direction (Fig. 17-42). When the airplane is airborne, this force is acting around the longitudinal axis, tending to make the airplane roll. To compensate for this, some of the older airplanes are rigged in a manner to create more lift on the wing which is being forced downward. The more modern airplanes are designed with the engine offset to counteract this effect of torque. NOTE - Most United States built aircraft engines rotate the propeller clockwise, as viewed from the pilot's seat. The discussion here is with reference to those engines. Generally, the compensating factors are permanently set so that
they compensate for this force at cruising speed, since most of the airplane's
operating lift is at that speed. However, aileron trim tabs permit further
adjustment for other speeds. This yawing moment on the takeoff roll is corrected by the
pilot's proper use of the rudder or rudder trim.
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