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Course Criteria
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4.00 Credits
This course is a study ofmathematical techniques used tomodel engineering systems. It involves the development ofmathematicalmodels and the application of the computer to solve engineering problems using the following computational techniques: Taylor Series approximation, numerical differentiation, root finding using bracketing and openmethods, linear and polynomial curve fitting, solutionmethods formatrix equations, numerical integration, and the solution of differential equations. Laboratory sessions involve the application of numerical analysis to physical systems involving statics, dynamics, fluid dynamics, heat transfer, electrical circuits, and vibratory systems. (prereq:ME-230)
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3.00 Credits
This course continues the study of themechanics of deformable bodies. Topics include statically indeterminate structures, failure theories, fatigue, stress and strain, analysis using stress functions, and design of compressionmembers. Laboratory topics include experiments to reinforce stress/strain behavior topics, the photoelasticmethod and design projects. (prereq:ME-207)
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3.00 Credits
The first subject in engineering thermodynamics for themechanical engineering student uses the classical approach. The subjectmaterial serves as a building block for all thermodynamic oriented subjects to follow. Specific topics include definitions, First Law, heat and work transport, and the steady flow energy equation.Water, as both steamand compressed liquid, and ideal gases are the principal substances considered. (prereq:MA-232, PH-220 or PH-2030)
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4.00 Credits
This is a continuation of basic thermodynamic concepts formechanical engineering students. Unsteady processes, second law, irreversibility and availability (exergy) are covered. The thermodynamic principles are applied in the study of power cycles and psychrometric processes. (prereq:ME-311)
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4.00 Credits
This course begins with fluid properties, fluid statics, and pressure gauges. The study of fluid dynamics starts with themathematics of the velocity field and proceeds to a control volume formulation for conservation ofmass,momentumand energy. The Bernoulli equation is derived and extended to include pipe friction andminor losses. The student is introduced to boundary layers, and drag. The lab stresses instrumentation, and quantification of experimental error. (prereq:ME-206,MA-232,ME-206)
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4.00 Credits
The purpose of this course is a study of the principles of heat transfer by conduction, convection, and radiation. Application of both analytical and numerical solution techniques will be emphasized. (prereq:ME-300,ME-317)
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3.00 Credits
Atomic, crystal and defect structure fundamentals are studied to lay the foundation for understanding the structure-property-processing relationship. (prereq: CH-201,ME-207)
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4.00 Credits
The structure-property-processing relationship formaterials is studied. Several strengthening mechanisms and the required heat treatment or processing procedures are considered.Material selection in terms ofmechanical strength, service stability, cost and environmental impact are discussed in detail. (prereq:ME-321)
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4.00 Credits
This course covers the basicmanufacturing processes commonly used in the production of metal, plastic, ceramic and composite parts. Process description, product/process characteristics are covered along with design and economic considerations. Topics include casting, powdermetallurgy, bulk deformation, sheetmetal working, joining,machining, various plastic processes, inspection (dimensional and NDE) and an introduction to quality and lean concepts. Laboratory experiments includemeasurement, casting, joining ofmetals and plastics, and statistical process control techniques. (prereq:ME-322)
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3.00 Credits
For Electrical Engineering and Industrial Engineering students: a study of the fundamental concepts and laws of heat transfer, with supporting foundation in thermodynamics. Application of principles of heat transfer to problems encountered in electrical and other systems. (prereq: MA 231 orMA-3502, PH-220 or PH-113)
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