Purpose: The purpose of this study was to compare dynamical characteristics of lower extremities extension movements among different human motion Methods: Eight male swimmers (Ages 17.8±0.6 yr, heights 1.76±0.05 m, body masses 67.3±5.5 kg, and training years 8.0±2.9 yr) voluntarily participated in this study. One Readlake high-speed video camera operating at 250 Hz and one Kistler force plate (500Hz) were used to synchronizely collect data. Kinetic and kinematic parameters were derived from Kistler BioWare and Peak Motus 7.0 software, respectively. Inverse dynamic method was used to calculate net muscle joint moment and power of the lower extremities. Differences of parameters among three extended movements were analyzed by using repeated one-way ANOVA. Results: Ankle, knee and hip muscles had more average contribution in energy generation during countermovement jump. In energy absorption, hip and knee muscles were considered as primary contributors (about 49% and 39%). Hip contributed more in energy absorption (54%) during standing long jump. In swimming grab start, the primary energy generator was knee muscles (78±6.6 %), and the primary energy absorber was hip muscles (about 73%). Knee joint contributed mostly in grab start than that of other jumps, but ankle and hip joints were not. Conclusion: Swimming grab start, countermovement jump, and standing long jump involved lower limb's extension power, but the patterns of motion and energy contributions in grab start were different from other jumps. Based on present study findings, we suggested that coaches should rely on the specific of grab start in instructing and training.