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Course Criteria
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3.00 Credits
(3 cr) Prereq: ENGM 373; MATH 221. Parallel: MECH 200. For description see MECH 310.
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3.00 Credits
Prereq: Good standing in the University Honors Program or by invitation; ENGM 373, MATH 221 Honor students required to study beyond levels expected of students in normal sections and prepare a special report.
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1.00 Credits
Lab 3. Prereq or parallel: CIVE 310. Hydraulics experiments and demonstrations. Velocity, pressure and flow measurements; pipe flow, open channel flow; hydraulic structures and machinery, hydrologic and sediment measurements and student projects.
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3.00 Credits
(3 cr) Prereq: CHEM 110 or 111 or 113, and MATH 221. Introduction to principles of environmental engineering including water quality, atmospheric quality, pollution prevention, and solid and hazardous wastes engineering. Design of water, air, and waste management systems.
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3.00 Credits
(BSEN 326H) (3 cr) Prereq: Good standing in the University Honors Program or by invitation; CHEM 110 or 111 or 113, and MATH 221. Introduction to principles of environmental engineering including water quality, atmospheric quality, pollution prevention, and solid and hazardous wastes engineering. Design of water, air, and waste management systems.
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3.00 Credits
(1 cr) Lab 3. Prereq: CHEM 110 or 111 or 113, and MATH 221. Parallel: CIVE/BSEN 326. Environmental engineering experiments, demonstrations, field trips, and projects. Experiments include the measurement and determination of environmental quality parameters such as solids, dissolved oxygen, biochemical and chemical oxygen demand, and alkalinity.
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2.00 Credits
Lec 1, lab 3. Prereq: CHEM 111 and ENGM 223. Physical properties of cement and concrete. Sampling, testing, inspecting. Design of mixtures. Factors affecting strength. Specifications. Building forms and placing concrete.
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4.00 Credits
Lec 3, lab 3. Prereq: ENGM 325. Parallel: CIVE 310. Soil composition, structure and phase relationships; soil classification. Principles of effective stress; loading induced subsurface stresses; load history; deformation and failure of soils. Elastic and limit analysis with applications to design for bearing capacity, settlement, retaining walls, and slope stability. Steady-state seepage.
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4.00 Credits
Lec 3, lab 2. Prereq: ENGM 325. Introduction to the analysis and design of structural systems. Analyses of determinate and indeterminate trusses, beams, and frames, and design philosophies for structural engineering. Laboratory experiments deal with the analysis of determinate and indeterminate structures.
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3.00 Credits
Lec 3, lab 2. Prereq: CIVE/MECH 310. Introduction to water resources engineering design and planning, surface hydrology, ground water hydraulics, reservoirs, and other control structures. Introduction to field measurement and computational methods in water resources.
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