• CE 5270: Highway Bridge Eng

  3.00 Credits

  University of Wyoming

  
  A study of the analysis, design and rating of highway bridges, including consideration of dead and vehicular loads, analysis of typical systems, service and ultimate strength behavior, rating of existing bridge design, and bridge operations. Composite and non-composite steel and concrete bridges are considered. This course will include several investigations that will require field trips outside the scheduled class times. Prerequisite: CE 4260 and 4250.
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• CE 5280: Bhvr Reinforced Concrete

  3.00 Credits

  University of Wyoming

  
  Broad-based coverage of the behavior of concrete, both at the member and structure level. The course will have no assigned text, although students will be expected to have an undergraduate concrete design textbook and a current ACI Code. Readings will include a number of technical papers in each area covered. Emphasis will be on the background of the code, code development, and investigative techniques. Prerequisite: CE 4200 and 4260.
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• CE 5285: Masonry Design

  3.00 Credits

  University of Wyoming

  
  Design of structural components in reinforced masonry buildings, including walls, columns, beams and connections. Particular attention is paid to current codes, specifications and analysis. Cross listed with CE 4285. Dual listed with ARE 5285 and CE 5285. Offered on a three semester rotation. Prerequisites: ARE/CE 4260 and ARE/CE 3200. (Normally offered fall semester).
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• CE 5295: Structural Timber Design

  3.00 Credits

  University of Wyoming

  
  Design of structural components and applications utilizing timber. Dual listed with CE 4295. Cross listed with ARE 5295. Prerequisite: CE 3200 or equivalent.
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• CE 5300: Open-Channel Hydr

  3.00 Credits

  University of Wyoming

  
  Analysis and design of steady, uniform, gradually varied and spatially varied flow in open channels. Emphasis on basic fluid flow equations associated with natural and man-made open channels. Prerequisite: CE 3300.
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• CE 5321: Eng & Environment Geophysics

  3.00 Credits

  University of Wyoming

  
  Theoretical background for electrical, electromagnetic, georadar, and other near-surface geophysical measurements. Practical exercises focused on modeling, inversion, data analysis and experimental design. Discussion of applications to engineering and environmental problems. Basic knowledge of MATLAB programing language is helpful, but not required. Prerequisite: Linear Algebra (MATH 2250 or equivalent) or Calculus I (MATH 2200 or equivalent). Prerequisites: MATH 2250 or MATH 2200.
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• CE 5400: Water Treatment

  3.00 Credits

  University of Wyoming

  
  Advanced theory and practice of collection, purification, and distribution of potable water; special emphasis on purification techniques, and plant requirements and design. Prerequisite: CE 4400.
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• CE 5410: Adv Biol Wastewater Treatment

  3.00 Credits

  University of Wyoming

  
  Theory and practice of advanced biological treatment processes for municipal and industrial wastewaters, sludges, groundwater bioremediation and solid waste. Emphasis is on fundamental principles applied to the design and control of existing processes and the development of innovative systems. Cross listed with CHE/ENVE 5410. Prerequisites: consent of instructor.
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• CE 5430: Environmental Eng. Chem

  3.00 Credits

  University of Wyoming

  
  Environmental Engineering Chemistry, focusing on water quality questions and the effects of water on engineered infrastructure. When student complete this course they will be able to use chemistry more effectively to solve environmental engineering problems and will also have sufficient background for further graduate study in environmental engineering.
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• CE 5435: Env Transport Proc

  3.00 Credits

  University of Wyoming

  
  Designed for graduate students and engineering seniors interested in the principles of mass transport and their application to environmental systems. Deals with the hydrodynamics of mixing and transport, as well as the interaction of mixing and various reaction rate processes. Applications include water and wastewater treatment, groundwater pollution, and transport and mixing in rivers, lakes and reservoirs. Prerequisite: MATH 2310 and ES 2330.
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