Rockfall failure and toppling failure are usually considered as the typical types of obsequent slopes failure. However, some field investigation cases on coastal area in northern Taiwan show that bearing failure could also be found in obsequent slopes. These cases are composed of a competent layer lying on an incompetent layer, or called the cap rock structure. The first part in this research is developing a method to describe overhang topography and estimate the size of overhang part. The contours are computed based on dip direction of cliff from point cloud produced by UAV photogrammetry. Therefore, the position and volume of overhang part can be calculated. Also, joint sets are identified by point cloud. The second part is to perform a small scale sandbox experiment to simulate bearing failure mechanism of the obsequent slope. The sandbox experiment demonstrates that bearing failure on obsequent slopes could be classified into two types, sliding (type I) and toppling (type II). The PFC3D model is used to analyze the factor, including the dimension of cap rock block and strength of rock layers, of bearing failure on obsequent slopes. The results show that the dimension of cap rock block and the dip angle of bedding are key factors of the failure type, sliding (type I) or toppling (type II). In addition, the ratio of normal stress of cap rock block to strength of incompetent layer is the key factor to decide whether the failure will happen or not.