Teaching
CE 385S Stochastic Hydrology
Graduate course
Probability and statistics applied to the solution of hydrological problems; extreme event frequency analysis, time series analysis of hydrologic data, theory of regionalized variables and applications. The course includes a semester-long project in which students analyze statistically their own research data.
Sample Syllabus: CE385S_Syllabus
Average Instructor Evaluation: 4.7/5
Average enrollment: 21 students
CE 397 Spatial Hydrology
Graduate course
Application of GIS in water resources. Digital mapping of terrain and water resources information, hydrologic terrain analysis, extraction of channel networks from terrain data, flood inundation mapping.
Sample Syllabus: CE397_Syllabus
Average Instructor Evaluation: 4.5/5
Average enrollment: 17 students
CE 356 Elements of Hydraulic Engineering
Undergraduate course (upper division, required)
Analysis and design of civil engineering hydraulic systems, including piping and pipe networks, pumps, open channel flow, weirs and hydraulic jumps.
Sample Syllabus: CE356_Syllabus
Average Instructor Evaluation: 4.8/5
Average enrollment: 59 students
CE 374K Hydrology
Undergraduate course (upper division, Level I elective)
Analysis of the movement of water through the phases of the hydrologic cycle; modeling of hydrologic systems; introduction to hydrologic design.
Sample Syllabus: CE374K_Syllabus
Average Instructor Evaluation: 4.7/5
Average enrollment: 40 students
CE 374N 1 River Mechanics
Undergraduate course (upper division, Level I elective)
Analysis of river systems with elements of hydraulics and sediment transport.
Sample Syllabus: CE377K Syllabus
Average Instructor Evaluation: 4.7/5
Average enrollment: 51 students
CE356 Fall 2012 and Spring 2013 Hydraulics class outside. Photo credit: T. Burchett (BS'13), E. Trujillo (BS'13).
GeoNet 2.0 tutorial at EGU Summer School 2013. Photo credit: P. Tarolli.