[INTRODUCTION] The purpose of this study was to investigate the effects of different surface coefficient of restitution(SCR) and drop height on ground reaction force, joint angular velocity, moment and muscle activity during drop landing. [METHOD] Eight university students majoring in physical education were performed to landing exercises for four weeks. The participants performed 30 cm and 60 cm height drop landing on three different surface with randomized control and cross-over design. Thee-dimensional motion analysis, surface EMG and force plates were used to measure ground reaction force, joint angular velocity and muscle activity of lower limb. The datas were statically analyzed by two-way ANOVA with repeated measures and Bonferroni’s post-hoc test. All significance level for the analysis was set at .05. [RESULTS] At 60 cm drop height, the maximum vertical ground reaction force was high with surface coefficient of restitution. The average of ankle joint angular velocity was the result from 60 cm drop height was higher than that from 30 cm on every field. In landing from 60 cm height, the maximum extensor muscle moment of the knee joint appeared on floor, natural grass and mat according to ground reaction force. Also the maximum extensor muscle moments of the ankle and knee joint was that the result from 60 cm drop height was higher than that from 30 cm on every field. In landing from 60 cm drop height, muscle activity of rectus femoris, medial gastrocnemius and lateral gastrocnemius had different results which showed that one on floor had higher activity than one on natural grass and a mat depending on surface coefficient of restitution. In landing from 60 cm and 30 cm drop height, muscle activity of tibialis anterior on mat had lower result than that on the floor and natural grass according to surface coefficient of restitution. Also muscle activities of rectus femoris, medial gastrocnemius and lateral gastrocnemius on every ground had higher results when the drop height was 60 cm than it was 30 cm. [CONCLUSION] On this study we leaned that surface of the coefficient of restitution is higher affects loading on body during landing in height of some level, but a low drop height does not affect loading on body with the SCR. Therefore, our study suggest that In landing from 30 cm drop heigh, the initial rehabilitation program based on the box or training during off season can provide a safe drop.