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Course Criteria
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3.00 Credits
3 credits. Prerequisites: Chem 121, Phys 252. The theory of the structure of matter, the prediction and evaluation of engineering properties of materials. F 306.?Fluid Mechanics. 3 credits. Prerequisites: Phys 251, Math 265. Fluid properties; fluid statics and dynamics; transport theory and transport analogies, conservation of mass, energy, and momentum; dimensional analysis; boundary layer concepts; pipe flows; compressible flow; open channel flow. F,S
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3.00 Credits
3 credits. Prerequisites: Phys 251, Math 265. Fluid properties; fluid statics and dynamics; transport theory and transport analogies,conservation of mass, energy, and momentum; dimensional analysis; boundary layer concepts; pipe flows; compressible flow; open channel flow. F,S
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3.00 Credits
3 credits. Prerequisite: ME 301. Study of relationships between materials, manufacture and design of engineering component. On demand.
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3.00 Credits
3 credits. Prerequisite: Engr 200, 202 and ME 101. Analytical and graphical study of motions, velocities, accelerations and forces for design of machine elements such as linkages, cams and gears. F
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3.00 Credits
3 credits. Prerequisite: Engr 203, ME 322. Design of machine elements such as shafts, bearings, gears, clutches, springs, threaded components, and bolted, riveted, welded, and bonded joints. Stress and failure theory analyses of the implementation of machine components are covered. S
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1.00 Credits
1 credit. Corequisite: ME 323. Application of design and analysis tools developed in the Machine Component Design course. Laboratory emphasizes creative design, analysis techniques, construction methods, and design report writing. S
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3.00 Credits
3 credits. Prerequisites: Math 266, ME 322. Theory, analysis, and design of linear closed-loop control systems containing electronic, hydraulic, and mechanical components. Differential equations. LaPlace transforms, Nyquist and Bode diagrams are covered. On demand.
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3.00 Credits
3 credits. Prerequisites: Phys 251, Math 166. Fundamental energy relationships applied to both closed and open systems. Determination of thermodynamic properties, first and second laws of thermodynamic processes and basic cycles. F,S
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3.00 Credits
3 credits. Prerequisite: ME 341. Power and refrigeration cycles. Exergy analysis, psychrometrics, reacting and non-reacting mixtures. On demand.
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3.00 Credits
3 credits. Prerequisite: Junior or Senior standing. Engineering disasters will be the basis for teaching an ethics course to engineering students. Starting with the premise that most people know the difference between right and wrong (this is not a course on criminal activity!), the course explores how engineers, in spite of their best intentions, sometimes create disastrous situations. The effect of cumulative adverse detail is difficult to teach except with case studies. Also explored is cost vs. safety trade-offs, the role of lawsuits, and government regulation. F
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