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Course Criteria
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3.00 Credits
Explores the principles governing water resources planning and development. Emphasizes the sciences of water (physical, engineering, chemical, biological, and social) and their interrelationships. Prereq., senior or graduate standing. Same as ECON 6555.
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3.00 Credits
Comprehensively analyzes the chemistry of natural and polluted waters and the application to environmental engineering problems. Topics include energetic principles, chemical equilibrium, coordination chemistry, adsorption phenomena, solid phase interactions, redox phenomena, natural water models, metal pollution, dynamics in aquatic ecosystems, and biogeochemical and nutrient cycling. Uses computer simulations to illustrate more complex chemical systems. Prereqs., CVEN 3414 and 3424, or instructor consent.
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3.00 Credits
Uses experimental and analytical laboratory techniques to develop a better understanding of the concepts of aquatic chemistry and to investigate water chemistry in treated and natural water systems. Techniques include titration, spectrophotometry, gas chromatography, other advanced instrumentation, sampling, portable analyses, and basic statistics and experimental design. Course focuses on water chemistry of Boulder Creek and other local waters. Prereq., CVEN 5404 or GEOL 5280. Coreq., CVEN 5424.
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3.00 Credits
Same as CVEN 4323.
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3.00 Credits
Same as CVEN 4424.
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3.00 Credits
Prereq., instructor consent. Recommended prereq., CVEN 5524, 5534, or 5474. Same as CVEN 4434.
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3.00 Credits
Introduces the use of digital simulation in the analysis of water resources and environmental systems. Develops computer programs for the simulation of reservoir operations, watershed runoff, stream quality, and lake quality, and uses existing software to analyze more complex problems. Prereq., instructor consent.
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3.00 Credits
Same as CVEN 4474.
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3.00 Credits
Same as CVEN 4484.
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3.00 Credits
Examines the relationships among air, water, and land pollution, water quality, and beneficial uses. Using models, develops the ability to quantify and predict the impacts of pollutants in the aquatic environment, and to develop approaches to minimize unfavorable water quality conditions. Prereq., instructor consent.
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