Purpose: The purposes of this study were to compare the differences among the different crouching start block patterns in the starting phase and the acceleration phase after the trigger. Methods: Eight collegiate track and field short-distance runners served as the participants (height: 173.16±4.77 cm; weight: 65.55±4.52 kg; age: 20.06±1.09 years old). One iX Cameras, i-SPEED 210 high-speed camera (250 Hz) and three CASIO, EX-ZR100 high-speed cameras (240 Hz) were used in the starting phase and the post-start acceleration phase, respectively. The kinematic variables of the start and the acceleration phase and the 15, 25, 35m motion image data were calculated by Kwon 3D software. Twenty pieces of reaction tranducer sensors (1000Hz) were installed on the front and rear pedals each of the start block to measured the reaction force during start phase. Six Raspberry Pi cameras (30 Hz) collected every 10m interval duration time from 0-60m. The experimental data were compared by the Friedman two-way analysis of variance by ranks nonparametric statistical test among the different patterns at a .05 significant level. Results and discussion: The results showed that the different starting modes were in the set stage, and the hip and COM directly affect the angles of the hips, knees and ankles of the front and rear feet, and the kinetic parameters after the trigger. That might influence the performance of the first three steps after the start, the speed of the center of gravity and the average stride length of 15, 25, 35 meters. Since we found that the kinematics and dynamics parameters were better in the starting phase in the elongated start mode, but the overall starting time was better in the shorten mode. Conclusions and Suggestions: From the results, we found there were no significant differences among the four starting mode. The shorten mode seemed performed the fastest trend in the start phase of the starting. The medium start mode could maintain the connection between the starting phase and the acceleration phase after the start in increasing velocity of the start and the stability during the start and the acceletaion phase of the sprint. We recommend that changing the distance between the front pedal and the start line to one and half foot length to increase the performance of the sprint start.