Investigations of dynamic patterns and parameters from biomechanics concept during sprint-start phase, those are helpful to players' training and motion correction of players. Display of experimental data by using scientific techniques, these can provide coaches and players with the references. It may be able to improve the achievement of player when the player with the shorter response time, the greater reaction force, and the superior motion coordination. Therefore, the training of sprint-start phase is still important. The goal of the study is to record and analyze the response mechanism of sprint-start phase by using scientific instruments, response time and reaction force especially. Establishments of motion patterns of continuous time-domain can be applied to player's training further in the future. In the experimental procedure, the mechanisms about response time and reaction force are analyzed by images analysis, multi-channel signals record of stress sensors, and kinematic theories.