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Course Criteria
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1.00 - 3.00 Credits
Design project involving not only design but also analysis, fabrication and/or testing. Topics may be chosen from any of the areas of mechanical engineering. Students who have taken ME 425 and ME 464 will be encouraged to take this course. The student will submit a report on his or her project and give an oral presentation at the close of the term. (F,W,S). 1.000 TO 3.000 Credit hours 1.000 TO 3.000 Other hours Levels: Undergraduate Schedule Types: Independent Study Mechanical Engineering Department Course Attributes: Upper Division
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1.00 - 3.00 Credits
Special problems selected for laboratory or library investigation with intent of developing initiative and resourcefulness. (F,W,S). 1.000 TO 3.000 Credit hours 1.000 TO 3.000 Other hours Levels: Undergraduate Schedule Types: Independent Study Mechanical Engineering Department Course Attributes: Upper Division
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1.00 - 3.00 Credits
Individual study, design or laboratory research in a field of interest to the student. Topics may be chosen from any of the areas of mechanical engineering. The student will submit a report on his or her project at the close of the term. (F,W,S). 1.000 TO 3.000 Credit hours 1.000 TO 3.000 Other hours Levels: Undergraduate Schedule Types: Independent Study Mechanical Engineering Department Course Attributes: Upper Division
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2.00 - 3.00 Credits
Comparison of characteristics and performance of several forms of internal combustion engines including the Otto and diesel types of piston engines and the several types of gas turbines; thermodynamics of cycles, combustion, ignition, fuel metering and injection, pollution from engines and modeling techniques. Lectures, theory demonstrations, and experiments. 2.000 TO 3.000 Credit hours 2.000 TO 3.000 Lecture hours Levels: Rackham, Undergraduate Schedule Types: Lecture Mechanical Engineering Department Course Attributes: Upper Division
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4.00 Credits
Analysis of vehicle performance in terms of acceleration, gradability, speed, fuel economy, ride comfort, stability and safety. Engine-transmission compatibility and matching. Fundamental vehicle dynamics. Computer modeling and simulation of vehicle systems by numerical techniques. Transmission ratio and torque analysis. Design of vehicle systems such as brakes, suspensions, drive line components, steering mechanisms and other subsystems. Four hours lecture. (F,W). 4.000 Credit hours 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Mechanical Engineering Department Course Attributes: Upper Division
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2.00 Credits
A four-month professional work experience period of the Engineering Internship Program, integrated and alternated with the classroom terms. 2.000 Credit hours 2.000 Other hours Levels: Undergraduate Schedule Types: Internship/Co-op, Independent Study Mechanical Engineering Department Course Attributes: Additive Credit, Upper Division
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3.00 Credits
Advanced treatment of dynamic structural theories. Topics covered include: Rayleigh and Timoshenko beams and plates; free and forced vibration response of structural components; static and dynamic stability; and impact. 3.000 Credit hours 3.000 Lecture hours Levels: Graduate, Rackham, Undergraduate Schedule Types: Lecture Mechanical Engineering Department
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3.00 Credits
Stresses and deformations in mechanical and structural elements and systems; theory, analysis and applications. Topics selected from among the following in applied elasticity and advanced mechanics of materials: stress and strain transformation; plane theory of elasticity and stress functions; energy methods; thick-walled cylinders and spinning disks; torsion of non-circular and hollow sections; unsymmetric bending and shear center; curved beams; beams on elastic foundations; plates and shells; elastic stability. Graduate standing or permission of instructor. (YR). 3.000 Credit hours 3.000 Lecture hours Levels: Graduate, Rackham, Undergraduate Schedule Types: Lecture Mechanical Engineering Department
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3.00 Credits
A comprehensive treatment of the theory of the mechanics of deformable media. Analysis of stress and strain, stress-strain relations, and the general equations of elasticity. Formulations for large strains; small strain linearization. Applications to boundary value problems. Graduate standing or special permission. (YR). 3.000 Credit hours 3.000 Lecture hours Levels: Graduate, Rackham, Undergraduate Schedule Types: Lecture Mechanical Engineering Department
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1.00 - 3.00 Credits
Selected topics pertinent to mechanical engineering. Graduate standing or special permission. (YR). 1.000 TO 3.000 Credit hours 1.000 TO 3.000 Lecture hours Levels: Graduate, Rackham, Undergraduate Schedule Types: Lecture Mechanical Engineering Department
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