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Course Criteria
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3.00 Credits
Legislation and legal considerations. Evaluation of groundwater resources and associated geology and hydrology. Derivation of governing transport equations. Groundwater quality. Analysis of well problems. Systems approach to problems. Study of pollution problems and geothermal energy. Three lectures. Prerequisite: CEEN 303. (Cr. 3)
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1.00 - 2.00 Credits
Design of reinforced concrete structures: materials and specifications, design of beams, columns, slabs and foundations. Ultimate strength, latest ACI Code. Theoretical, practical, economic and legal considerations. Design projects. Two lectures, one two hour problem period. Fall. Prerequisites: ENGS 230, CIVL 302, CIVL 312 with a minimum of C grade. (Cr. 3)
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2.00 Credits
Application of geomechanics principles to analyzing and designing foundations and slopes (unsupported and supported). Topics covered in detail include: shallow and deep foundations; unsupported-slope stability; lateral earth pressure theory and its application to basement and rigid retaining walls, anchored bulkheads, and braced excavations. Overviews of: construction and constructability; modern alternatives for earth retaining structures. Two two-hour lectures. Fall. Prerequisite: CIVL 309, 310 with a minimum of C grade. Corequisite: CIVL 409. (Cr. 4)
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1.00 - 2.00 Credits
Design project to simulate engineering practice. Two lectures, one two-hour problem period. Spring. Prerequisites: CIVL 309, 312, 406, 409, 410 (Cr. 3)
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1.00 - 2.00 Credits
Design standards and geometrics of highways; traffic volume and flow related to geometrics; economic study of highway alternates; basic pavement and drainage design; planning, location, and design of a segment of highway. Two lectures, one two-hour problem period. Spring. Prerequisite: CIVL 201, CIVL 301. Senior status or permission of the Chair. (Cr. 3)
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3.00 Credits
Looping pipe systems, three-reservoir problem; open channel flow, non-rectangular channels, critical flow at bridge piers and humps, backwater calculations, surface curves; unsteady flow, discharge under varying head, unsteady flow equation, water hammer, surge tanks; introduction to coastal hydraulics; hydrology, stream flow system analysis. Three lectures. Spring Prerequisite: CEEN 303, CEEN 307 with a minimum of C grade. (Cr. 3)
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3.00 Credits
Individual student research or design projects, utilizing computer methods, experimentation and literature surveys. Proposal and report required. Under the sponsorship of a civil engineering faculty member; must be approved in writing by the Chairperson; for students of superior ability. Prerequisite: Senior Status* (Cr. 3)
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3.00 Credits
Application of geotechnical engineering in the design and analyses of environmental systems. Waste disposal, waste containment systems, waste stabilization. Engineering design of solid and hazardous waste landfills. Groundwater monitoring at landfill sites. Use of geosynthetics in containment system design. Slurry walls and other containment systems. Three lectures. Spring. Prerequisite: CIVL 310. (Cr. 3)
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3.00 Credits
Stresses in two and three dimensions; symmetrical and unsymmetrical bending; shear center; curved beams; beams on elastic foundation; thin plates and shells; torsion of non-circular sections; thick-walled cylinders. Three lectures. Prerequisite: ENGS 230, CIVL 312 with a minimum of C grade. (Cr. 3)
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3.00 Credits
Introduction to object-oriented programming using C++. Topics: primitive and user-defined data types, searching and sorting, classes and objects, pointers and linked lists, recursion, stacks and queues. Four lectures. Fall. Prerequisite: ENGS 116. (Cr. 3)
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