The purpose of this study was to investigate the effect of the different height of the foot arch on the dynamic postural control during the Y-balance test. A total of 75 subjects participated in this study. Participants were assigned to 1 of 3 groups depending on foot type, (high, N = 25, normal, N = 25), low, N = 25) through the measuring navicular drop test (NDT). Measuring the dynamic balance were obtained for each participant and compared across groups. The participants were tested on the anterior(AN), posteriorlateral( PL), and posterior-medial(PM) reach directions of the Y-Balance Test. The result of the Y-Balance Test, we observed a different in reach-distance scores for the each directions (p < .01). Also, we observed a low arch groups(.3791 ± .036) reached farther in the anterior direction and high arch groups reached farther in the posterior-medial (PM) and posterior-lateral (PL) direction (PM:.4436 ± .046, PL:.4461 ± .054). These results indicate that in the posterior-medial and posterior-lateral direction, the high-arch group receives more pressure on the lateral aspect of the foot due to the arch characteristics of the foot compared to the low-arch group or the normal-arch group. This is thought to be due to that the high-arch group is more advantageous in adapting to and maintaining the external pressure of the foot than the other groups in the movement in the right direction. It can be seen that the different height characteristics of the foot arch are closely related to the occurrence of injuries, and training for the prevention of injuries or the maintenance of the medial longitudinal arch (MLA), which is deeply related to the arch height of the foot and foot insole is also an important part.