To elevate river water levels and thereby increase water supplies, lots of weirs were built on the midstream and downstream of rivers in western Taiwan. Most riverbeds in the western foothills of Taiwan are composed of weak sedimentary rocks, which belong to the strata of the Pliocene and Pleistocene, covered with an armor layer of varying thickness. Due to the low rock strength and head fall caused by weirs, rapid scouring downstream of the weir is often observed. When the downstream scour hole formed, the instability of weir might occur. The disaster of weir break may cause the lose of life and property of the people who live at downstream. Therefore, the formation of scouring hole downstream weirs built on weak rocks is needed to study. This thesis aims to investigate the influence of the inclination angle of jet flow on the shape and depth of scouring hole. Following the experimental study by Wu（2012） including the testing procedure, sample preparation, and measurement of the surface topography of the specimen, this thesis conducted a series of model tests for the formation of scoring hole with different jet flow inclination angles and tail water depths. The inclination angles include 30°, 50°, and 70° and 1D, 3D, and 5D III （D=pipe diameter）tailwater depths are adopted. The test results show that, for the same scouring time（48 hours）, the scouring depth increases with the increase of the inclination angle and the decrease of the tailwater depth due to the increase of the applied energy（total power）on the river bed.