Introduction to the movement of water through natural and engineered channels, streams, and rivers. Basic equations and theory (mass, momentum, and energy equations) for steady and unsteady descriptions of the flow. Application of theory to the design of flood- control and canal systems. Flow controls such as weirs and sluice gates; gradually varied flow; Saint-Venant equations and flood waves; and method of characteristics. Laboratory demonstrations involving experiments with controls such as weirs and gates, gradually varied flow, and waves will be integrated into the class material. Prerequisite: CEE 101B or equivalent.
3 units · Letter or Credit/No Credit
Introduction to the movement of water through natural and engineered channels, streams, and rivers. Basic equations and theory (mass, momentum, and energy equations) for steady and unsteady descriptions of the flow. Application of theory to the design of flood- control and canal systems. Flow controls such as weirs and sluice gates; gradually varied flow; Saint-Venant equations and flood waves; and method of characteristics. Laboratory demonstrations involving experiments with controls such as weirs and gates, gradually varied flow, and waves will be integrated into the class material. Prerequisite: CEE 101B or equivalent.
Offered in Spring 2026 at Stanford University.