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Course Criteria
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3.00 Credits
Prerequisite: PHYS 109 or PHYS 201This course will examine, in-depth, at least three sustainable energysources, choosing from solar, wind, biofuels, hydropower, and others.The basic science and technology pertaining to each topic will bepresented along with design and implementation considerations.Environmental problems associated with energy systems will be brieflyexamined. Software tools will be used to assess the performance of thedifferent energy systems.
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3.00 Credits
Prerequisite: ENGR 300Explores both theory and practice behind making measurements.Topics covered in various levels of detail include: measurementmethods, characteristics of signals, measurement system behavior,probability and statistics, uncertainty analysis, analog electricalmeasurements and devices, computerized data acquisition,temperature measurements, pressure and velocity measurements, flowmeasurement and strain measurement. Students will also learn howto use LabVIEW Software. (
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1.00 Credits
Prerequisite: Senior standing or permission of the instructorThis seminar will meet once each week and will include all seniorsmajoring in engineering. Practicing professionals will presentseminars on topics of current interest. Topics typically addressed willinclude professional ethics, state-of-the-art developments, businesspractices and procedures. Speakers will be drawn from the business,government and academic communities. Students will be requiredto maintain a journal and to participate in a professional readingprogram.
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3.00 Credits
Prerequisites: CHEM 192 or consent of instructorDetailed study of the status of air pollution, atmospheric physics andchemistry, and methodologies of pollution control. Topics includeemissions from stationary and mobile sources, air quality standards,major pollutants, chemical behavior of pollutants on animals andplants, design of pollution control equipment, and air dispersionmodeling.
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3.00 Credits
Prerequisites: CHEM 192 or consent of instructorAddresses environmental consequences of and control processesof solid and hazardous wastes. Topics include domestic solidwastes collection and disposal, sludge treatment, landfill methods,classification and characteristics of hazardous wastes, toxicology,hydrochemical models, remedial control of sites, surface controls,groundwater controls and direct treatment methods, disposal oftreated sludge and toxic wastes, recycling methods, resource recovery,radioactive and biomedical wastes.
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3.00 Credits
Prerequisite: ENGR 313Presents an integrated design approach to structures. Design in wood,steel, and concrete covered. Topics include: loads, load factors anddesign loads on structures, conceptual designs according to ASD andLRFD. Use of the current codes and standards to design essentialwood, steel, concrete elements.
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4.00 Credits
Prerequisite: ENGR 305 or permission of instructorConsiders hydrologic aspects of water availability from surface andgroundwater sources. Flood flow analysis, surface and groundwater supply, transmission and distribution systems including pumping.
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3.00 Credits
Prerequisite: ENGR 313Considers deflection by energy methods; flexibility and stiffnessapproaches to higher order indeterminate structures; matrix and finiteelement analyses of beams, trusses and frames; applications to highrises, long span bridges, plates, shells and space frames; computerbased analyses.
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4.00 Credits
Prerequisite: ENGR 300Addresses soil as a foundation for structures and as a material ofconstruction. Topics include: soil gradation, classification, physicaland mechanical properties, soil compaction, stress description,consolidation, and shear strength. Includes design of footings forstability and settlement.
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3.00 Credits
Co-requisite: ENGR 320In-depth coverage of physical, chemical, and biological processesused in drinking water and wastewater treatment both for domesticand industrial wastes. Topics include treatment processes such ascoagulation/flocculation, sedimentation, aeration, activated sludge,filtration, adsorption, sludge digestion, and disinfection. Topics alsoinclude innovative techniques such as wetlands, facultative ponds, andwastewater reuse. Experimental analysis is performed with respectto parameters involved in the operations and processes of water andwastewater treatment systems.
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