Using velocity-spectrum squats and body composition to predict standing vertical jump ability
Abstract
Two equations were developed to predict distance in a restricted standing vertical jump (RVJ). Body composition and strength related variables generated via velocity-spectrum squats were obtained on 52 men and 50 women. Eight squat variables at 4 velocities were selected as potential predictors of RVJ performance. These variables along with body weight, body fat, and gender were used to generate two explanatory regressions. R values ranged from 0.80 to 0.83, and SEE ranged from 0.045 to 0.048 meters for the two equations. Variables with a positive relationship to RVJ were relative peak power at each individual's optimal velocity for power production and at 1.43 m · s-1. Variables with a negative relationship were relative peak force and % body fat. It appears that (a) the more relative squatting power a person can generate at moderately fast squatting velocities, the greater the RVJ distance; and (b) excessive body fat and the ability to generate high relative squatting forces at slow velocities attenuate the predicted distance. © 1997 National Strength & Conditioning Association.
Publication Title
Journal of Strength and Conditioning Research
Recommended Citation
Weiss, L., Relyea, G., Ashley, C., & Propst, R. (1997). Using velocity-spectrum squats and body composition to predict standing vertical jump ability. Journal of Strength and Conditioning Research, 11 (1), 14-20. https://doi.org/10.1519/00124278-199702000-00004