The basic purpose of a football quarterback when throwing a pass is to throw the ball as accurately as possible to minimize the chance of an interception and, many times, as fast as possible in order to maximize range. When a quarterback releases a well-thrown, tight-spiral pass, many forces are involved in the action. In order to accomplish this so-called perfect pass, the quarterback would be well advised to study the forces experienced by a football moving through the air—what is called aerodynamics.
A football thrown as a pass into the air has inertia; that is, the tendency of an object in motion to remain in motion. However, because of the force of gravity, which pulls the ball down, and the force of air resistance, which slows the ball down, the quarterback must balance the forward momentum that he provides the ball (through the motions of his arm and body) with the rate at which gravity and air resistance pulls and slows it down.
Aerodynamics is involved during the pass because the football will travel further and straighter if it is spinning about its long axis—the axis that is pointing in the direction the ball is being thrown. Thus, quarterbacks throw a football with an overhand or sidearm motion in order to impart a spin onto the ball. When thrown with spin, the ball's angular
When thrown in this manner, the ball gains an orientation that gives it the smallest possible cross-sectional area against the oncoming air, which causes the least amount of aerodynamic drag. If the ball does not spin properly, air travels excessively under its tip as it descends, causing it to tumble and lose some of its forward momentum due to a greater cross-sectional area being exposed to the wind. However, when the quarterback does throws a pass with the proper amount of spin, the football will travel the maximum amount of distance. In the 2000s, professional quarterbacks in the National Football League (NFL) can throw a football up to about 80 yd (73 m) from a set position.
SEE ALSO Football (American).