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CEEGR 311: Engineering Measurements

4.00 Credits

Seattle University

Introduction to surveying and mapping. Concepts, instruments and practice of engineering measurements, topographic mapping, public land system, boundary surveys, aerial photogrammetry, and the global position system; error adjustment, earthwork, and highway curve design. Three lectures and one laboratory period per week. Prerequisites: MATH 120, 121, and CEEGR 105. (spring)

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CEEGR 323: Mechanics of Materials II

5.00 Credits

Seattle University

Continuation of the mechanics of solid deformable bodies. Beam topics, stability of columns, combined stresses and strains, fatigue and energy relationships. Laboratory experiments on the mechanics of solid deformable bodies and the stresses and deformations produced. Improving technical writing skills; use of spreadsheets and computer graphics. Four lecture hours and one three-hour laboratory per week. Prerequisites: CEEGR 221, MATH 234. (winter)

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CEEGR 325: Applied Engineering Mechanics

3.00 Credits

Seattle University

Advanced topics in mechanics of materials and structural analysis for students not specializing in structures. Combine stress states, calculation of beam deflections, column stability and theories of failure. Three lecture hours per week. Prerequisites: CEEGR 221, MATH 234. (winter)

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CEEGR 331: Fluid Mechanics

4.00 Credits

Seattle University

Fluid properties. Elementary mechanics of incompressible fluids. Hydrostatics and fluid kinematics. Continuity and energy equations. Pump and turbine power calculations. Fluid resistance phenomena and estimations for laminar and turbulent flows. Momentum equation and dynamic forces. Dynamic similitude and hydraulic modeling. Pre or co-requisite: MEGR 230. (fall, winter)

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CEEGR 335: Applied Hydraulics

5.00 Credits

Seattle University

Extension and application of fluid mechanics principles with laboratory. Pipes in series and in parallel. Branching pipes and pipe networks. Pipeline system curves. Basic hydraulic machinery. Analysis of pumping systems. Basic open channel flow. Backwater analysis. Culverts. Four lecture hours and one three-hour laboratory per week. Prerequisite: CEEGR 331. (winter, spring)

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CEEGR 337: Fluids Laboratory

1.00 Credits

Seattle University

Experimental calibration of various flow meters, loss coefficients, and pipe friction factors. Experimental verification of various principles of fluid mechanics. One three-hour laboratory per week. Co-requisite (CEEGR Majors only): CEEGR 331. (fall, winter)

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CEEGR 341: Biological Principles for Environmental Engineers

4.00 Credits

Seattle University

Basic principles of microbiology and biochemistry as applied to environmental control and wastewater treatment. Kinetic and energetic aspects are emphasized. Effects of domestic and industrial water pollution on the biological characteristics of natural waters and aquatic life are studied. Prerequisite: BIOL 101 or BIOL 161 and 171 or equivalent. (fall)

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CEEGR 342: Environmental Engineering Chemistry

4.00 Credits

Seattle University

Principles of chemical kinetics and thermodynamics applied to fundamental understanding of aqueous environmental samples, including natural waters, wastewaters, and treated waters; factors controlling inorganic and organic chemical concentrations, acid-base equilibria, and absorption phenomena. Prerequisites: CHEM 121, CHEM 131, or equivalent. (spring)

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CEEGR 343: Air Pollution Engineering

4.00 Credits

Seattle University

Introductory course in air pollution and its control. Topics include air pollutants and their effects, sources, dispersion models, engineering control, and quality legislation. Junior standing in engineering or environmental science recommended. (spring)

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CEEGR 351: Engineering Geology

4.00 Credits

Seattle University

Mineralogy of rocks; types of rocks, their formation, structure and engineering properties; plate tectonics; structural geology; seismicity; introduction to and use of topographic maps, aerial photographs and geologic maps in engineering projects. Geotechnical field exploration techniques. Slope stability issues. Erosional and depositional land forms of rivers and glaciers. Engineering geology in contemporary civil engineering projects. Four lecture hours per week. (fall)

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