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Course Criteria
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2.00 Credits
(1-1) 2 credits. Students will learn to construct drawing documents using AutoCAD, the use of engineering and architectural scales, lettering practices, geometric construction (manually and AutoCAD), and the ability to visualize in three dimensions.
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4.00 Credits
(2-2) 4 credits. Prerequisite: An acceptable score on the Trigonometry Placement Examination; or trigonometry completed with a grade of "C" orbetter; or permission of instructor. An orientation to the civil engineering profession including historical development, civil engineering careers, professional practice and ethics, and specialties in the profession. Mensuration with the application of surveying techniques; basic surveying computations and field practice; theory of error propagation and its analysis; fundamental concepts of horizontal, angular, and vertical measurements; control systems related to engineering-construction surveys. Horizontal and vertical curves. Traverse computations.
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4.00 Credits
(3-1) 4 credits. Prerequisite: MATH 123. A one semester introductory course in programming with a language (Visual Basic) and with a spread sheet and MathCad. Elementary numerical methods and their application to civil engineering problems will be illustrated by the programming technique.
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3.00 Credits
(2-1) 3 credits. Prerequisites: Preceded by or concurrent with EM 321, and CEE 284. Principles that govern physical and mechanical properties of ferrous and nonferrous metals, plastics, bituminous materials, portland cement, aggregates, concrete, and timber. Laboratory exercises to demonstrate basic principles and standard laboratory tests (ASTM Standards) of structural materials. Computer-aided graphics and word processing are required for lab reports.
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3.00 Credits
(3-0) 3 credits. Prerequisites: CHEM 114 and junior standing. As the first course in the theory and practice of environmental engineering, emphases are on the acquisition of introductory knowledge pertaining to natural and engineered environmental engineering systems, identification and mitigation of societal impacts upon the Earth, and application of environmental engineering principles in the design and analysis of systems for water and wastewater treatment and solid/hazardous waste management. This course is cross-listed with ENVE 326.
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3.00 Credits
(2-1) 3 credits. Prerequisite or corequisite: CEE 284 or CHE 250 and one of the following: EM 328, EM 331, CHE 218 or ME 331. As the second course in the theory and practice of Environmental Engineering, emphasis is on application of material balance concepts in environmental analysis and design with consideration of water chemistry, environmental process kinetics, ideal and non-ideal reactors, and biological process fundamentals. These fundamental principles are applied in selected natural and engineered environmental contexts spanning air, water and land systems and the effects of society on environmental systems. Laboratory exercises will be completed and reports with computer-generated text, tables and figures will be written. This course is cross-listed with ENVE 327/327L.
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3.00 Credits
(2-1) 3 credits. Prerequisites: EM 331 and CEE 284. Analysis of flow in pipe systems, open channels, measuring devices, and model studies. Design of hydraulic systems associated with water supply, flood control, water storage and distribution, sewer systems, and other water resources.
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3.00 Credits
(3-0) 3 credits. Prerequisite: CEE 336 or EM 327 or EM 328 or permission of instructor. A quantification study of the components of the hydrologic cycle with emphasis on engineering applications involving the design of water supplies, reservoirs, spillways, floodways, and urban drainage with computer applications. This course is cross-listed with ENVE 337.
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3.00 Credits
(2-1) 3 credits. Prerequisites: EM 321. Composition, structure, index, and engineering properties of soils; soil classification systems; introduction to soil engineering problems involving stability, settlement, seepage, consolidation, and compaction; and laboratory work on the determination of index and engineering properties of soils. Computer-aided graphics and word processing required for lab reports.
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3.00 Credits
(3-0) 3 credits. Prerequisite: CEE 346. Composition of soils, origin, and deposition, exploration, frost problems, swelling of soils, erosion protection, soil improvement, groundwater flow and dewatering, slope stability of retaining structures, and rigid and flexible pavement design. The application of these topics to highway engineering will be stressed.
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