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Terri S. Hogue, Ph.D.      Associate Professor 5731F Boelter Hall Department of Civil and Environmental Engineering University of California Los Angeles, CA 90095-1593 thogue@seas.ucla.edu Phone: (310) 794-4239      Fax: (310) 206-2222 Director, NSF Science and Engineering of the Environment of Los Angeles (SEE-LA) GK-12 Program      Profile       Teaching       Research       Publications       Professional Affiliations and Service       Current Students     Courses • C&EE 151: Water Resources Engineering Principles of hydraulics, the flow of water in open channels and pressure conduits, reservoirs, and dams, hydraulic machines, hydroelectric power. Introduction to system analysis and design applied to Water Resources Engineering. • C&EE 157L: Hydrologic Analysis and Design Collection, compilation, and interpretation of data for quantification of the components of the hydrologic cycle, including precipitation, evaporation, infiltration, and runoff. Use of hydrologic variables and parameters for development, construction, and application of analytical models for selected problems in hydrology and water resources. • C&EE 157M: Hydrology of Mountain Watersheds Advanced field-based course focusing on the study of catchment processes in snow-dominated and mountainous regions. Students will measure and quantify snowpack properties, watershed fluxes, investigate geochemical properties of surface and groundwater systems, and classify mountain streams and flooding potential. Extended field trip required. • C&EE 250A: Surface Water Hydrology In-depth study of surface water hydrology, including discussion and interrelationship of major topics such as rainfall and evaporation, soils and infiltration properties, runoff and snowmelt processes. Introduction to rainfall-runoff modeling, floods, and policy issues involved in water resource engineering and management. • C&EE 251A: Rainfall-Runoff Modeling Introduction to hydrologic modeling concepts, including rainfall-runoff analysis, input data, uncertainty analysis, lumped and distributed modeling, parameter estimation and sensitivity analysis, and the application of models for flood forecasting and prediction of streamflows in water resource applications.

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