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Course Criteria
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4.00 Credits
Fluid properties; fluid statics; fluids in motion; control volume approach for mass, momentum, and energy conservation; dimensional analysis; surface resistance. Prerequisites: Physics 7A and Mathematics 3D; CEE80/ENGR80/MAE80. Only one course from CEE170, CEEH170, CBEMS120A, CBEMS125A, MAE130A, and MAEH130A may be taken for credit. (Design units: 0)
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4.00 Credits
Continuity, energy, and momentum principles applied to flow in closed conduit and open channel infrastructure. Analysis of hydraulic networks. Deterministic and probabilistic factors affecting hydraulic design. Hydrologic design protocols for hydraulic systems. Prerequisites: CEE11; CEE170 or MAE130A. (Design units: 2)
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4.00 Credits
Topics include conservation of fluid mass, storage properties of porous media, matrix compressibility, boundary conditions, flow nets, well hydraulics, groundwater chemistry, and solute transport. Design projects and computer applications included. Prerequisites: CEE170 or MAE130A or consent of instructor. (Design units: 2)
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4.00 Credits
Basic principles of hydrologic modeling are practiced in detail. Concepts of watershed, floodplains delineation, hydrologic impact, design studies, and GIS tools are discussed. Focus on the USACE (HEC) software tools (HEC-HMS) and HECRAS) along with their associated GIS interfaces. Prerequisites: CEE176 and CEE170. Concurrent with CEE273.
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3.00 Credits
Analysis of elements in the hydrologic cycle including precipitation, infiltration, and runoff. Frequency analysis of hydrologic phenomena. Consideration of precipitation/runoff relationships. Unit hydrograph theory. Hydrologic and hydraulic routing methods. Stochastic methods in hydrology. Prerequisite: CEE171. (Design units: 2)
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3.00 Credits
Continuity, momentum, and energy principles applied to open channels. Flow control. Steady and unsteady flow. Flow resistance. Shallow-water wave theory. Flood waves in rivers and tidal oscillations in coastal wetlands. Computational techniques for flow modeling. Prerequisite: CEE171. (Design units: 1)
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3.00 Credits
Team designs a land development project including infrastructural, environmental, circulation aspects. Focus on traffic impact studies, design of road layouts, geometry, signals, geotechnical and hydrological analysis, design of structural elements, economic analysis. Oral/written interim and final design reports. Laboratory sessions. In-Progress grading. Corequisites: CEE121 and CEE151C. Prerequisites: CEE81B, CEE110, CEE161. CEE181A-B-C must be taken in the same academic year. (Design units: 1-2-2)
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3.00 Credits
Corequisite and prerequisite: varies. May be repeated for credit as topics vary. (Design units: varies)
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3.00 Credits
Group study of selected topics in Civil and Environmental Engineering. Prerequisite: consent of instructor. May be repeated for credit as topics vary. (Design units: varies)
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6.00 Credits
For undergraduate Engineering majors in supervised but independent reading, research, or design. Students taking individual study for design credit are to submit a written paper to the instructor and to the Undergraduate Student Affairs Office in the School of Engineering. May be repeated for credit for a total six units. (Design units: varies)
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