A paleomagnetic investigation of the Mesozoic Daedong Supergroup and the Precambrian Seosan Group in the Kyeonggi massif is carried out to elucidate the tectonic evolution of Korea under the effect of the collision between Korea and the North/South China Blocks. For the Daedong Supergroup, the characteristic direction of D/I=74.5$^{circ}$/36.7$^{circ}$(k=60.7, $alpha$=5.1$^{circ}$) after tilt correction is better clustered than that before tilt correction (D/I=61.9$^{circ}$/52.8$^{circ}$, k=4.4,$$alpha$_{95}$</TEX>=21.5$^{circ}$), indi-cating that it is a primary magnetization acquired during the formation of the rock. Paleomagnetic pole position of the formation locates at 208.0$^{circ}$E, 24.5$^{circ}$N (n=14, K=67.5, $A_{95}$=4.9$^{circ}$), statistically similar to those of Middle Triassic period of the SCB, revealing that the two had occupied the same tectonic unit during this period. It is observed that only 6 out of 33 sites of the Seosan Group yield remagnetized paleomagnetic direction. The rest of the sampling sites reveals severe dispersion of magnetic directions presumably due to the consequences of the collision between Korea and the North/South China Blocks. The characteristic direction of the Seosan Group is D/I=45.7$^{circ}$/60.1$^{circ}$(k=41.2,$$alpha$_{95}$</TEX>=10.6$^{circ}$) and the corresponding pole is at 195.0$^{circ}$E, 51.6$^{circ}$N (n=6, K=20.8, $A_{95}$=12.4$^{circ}$). Although the pole position is close to those of Jurassic period of the Kyeonggi massif and Early Cretaceous of the Kyeongsang basin. it is interpreted that the Seosan Group was remagnetized by the influence of the emplacement of the Jurassic Daebo Granite after or at the closing stage of the orogenic episode rather than under the direct effect of deformation and/or metamorphism caused by the collision.