This study examines the stability mechanism of a riverbank formed from deposition sediment on the waterfront through theoretical and experimental analysis. In the theorem, a critical stability equation of the riverbank with tension crack under water level variation is developed based on the concept of statics. The critical equation of the riverbank stability depends on the water level, soil unit weight, soil cohesion, internal friction angle, and the shape of the riverbank (riverbank slope and riverbank height). Several factors influencing riverbank failure, including water level variation, riverbank height, riverbank slope, and tension crack, are also presented. In addition, the behaviors of riverbank failure under various cross sections of riverbank and water level variations are examined by experimental investigation. The analytical results show the instability of the riverbank increases with increasing riverbank slope, water levels, or tension cracks. The experimental results agree with the predictions of the critical equation proposed in this paper.