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A force may be thought of as a push or pull in a specific direction. When a force is applied to an object, the object accelerates in the direction of the force according to Newton's laws of motion. The object may also experience a rotation depending on how the object is confined and where the force is applied. A hanging door is an excellent example of this type of motion. When you push on a door it can not freely translate because it is confined (or pinned) by the hinges. It does, however, rotate on the hinges. The rotation itself depends on where you apply the force. As you get closer to the hinge, you must apply a larger force to make the door swing. As you get farther from the hinge, you can apply a smaller force to make the door swing.

The product of the force and the distance from a pivot (or hinge) is called the torque or the moment. Torques produce rotations in the same way that forces produce translations. Namely, an object at rest, or rotating at a constant angular velocity, will continue to do so until it is subject to an external torque. A torque produces an angular acceleration or change in angular velocity. If an object is not pinned, it rotates about its center of gravity when acted upon by an external force. The distance used in the calculation of the torque is then the distance from the center of gravity to the applied force.

Aeronautical engineers use the torque generated by aerodynamic surfaces to stabilize and control aircraft. On airplanes, the control surfaces produce aerodynamic forces. These forces are applied at some distance from the aircraft cg and therefore cause the aircraft to rotate. The elevators produce a pitching moment, the rudder produce a yawing moment, and the ailerons produce a rolling moment. The ability to vary the amount of the force and the moment allows the pilot to maneuver or to trim the aircraft. On model rockets, the fins are used to generate a torque about the rocket center of gravity to provide stability during powered flight. On kites, the aerodynamic and weight forces produce a torque about the bridle point. The distance from the bridle point and the magnitude of the forces has a strong effect on the performance of the kite.


Fact Credit:
NASA Glenn Research Center
Glenn Research Center Web Site

Further Reading
The Isaac Newton School of Driving: Physics and Your Car
by Barry Parker

Related Web Links
Angular Momentum and Torque

Rolling Motion, Angular Momentum, Torque
by University of Wisconsin

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