The effects of increased shooting distance in the basketball jump shot

Abstract

Three-dimensional video techniques (50 Hz) were used to obtain images of basketball jump shots from one of three distances--short range (group 1, n = 5); medium range (group 2, n = 5); long range (group 3, n = 5)--from the basket, as performed by members of the men's quarter-finalist teams at the games of the XVI Universiade in Sheffield in 1991. Fifteen sequences were digitized, beginning 20 frames prior to take-off to 10 frames after release. To facilitate analysis, the sequences were rotated about the ball position in the final frame so that the shot direction was parallel to one of the pre-defined orthogonal axes. Mean (+/- 1 S.D.) ball release speed was found to increase with distance from the basket (group 1 = 3.04 +/- 0.65 m s-1, group 2 = 4.71 +/- 0.74 m s-1, group 3 = 6.24 +/- 0.80 m s-1), while mean release angles were similar for all groups (group 1 = 48.8 +/- 10.1 degrees, group 2 = 47.8 +/- 5.8 degrees, group 3 = 51.9 +/- 5.5 degrees). The increased impulse necessary for the ball to reach the basket at increased shooting distances was derived from both an increase in angular velocity of the elbow joint of the shooting arm and an increased velocity of the centre of mass in the direction of the basket at release. Centre of mass speed at take-off was found to be influenced to a greater extent by the angular velocity of the ankle joint than that of the knee or hip joints.(ABSTRACT TRUNCATED AT 250 WORDS)