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Course Criteria
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1.00 Credits
Lecture-1 hour. Description of the field of mechanical engineering with examples taken from industrial applications, discussions of the practice with respect to engineering principles, ethics, and responsibilities. (P/NP grading only.)-I.
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4.00 Credits
Lecture-4 hours. Prerequisite: Engineering 103 and 105. Restricted to Mechanical Engineering, Aeronautical Engineering and Mechanical Engineering/ Materials Science Engineering majors. Inviscid incompressible flow, compressible flow, thermodynamic relations, ideal gas mixtures, psychrometrics, reacting mixtures and combustion.-I, II, III. (I, II, III.)
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3.00 Credits
Lecture-2 hours; laboratory-1.5 hours. Prerequisite:course 106; open to Mechanical Engineering, Aeronautical Science & Engineering and Mechanical/ Materials Science Engineering Majors only. Experiments to illustrate principles of thermal-fluid systems. Statistical and uncertainty analysis of data; statistical design of experiments; measurement devices; Experiments involving thermodynamic cycles, combustion, compressible and incompressible flows. Only two units of credit for students who have previously taken Chemical Engineering 155A; only one unit of credit for students who have taken Chemical Engineering 155B; only two units of credit for students who have taken Civil and Environmental Engineering 141L.-I, II, III. (I, II, III.)
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3.00 Credits
Lecture-2 hours; laboratory-3 hours. Prerequisite:Engineering 100, Engineering 104, (both may be taken concurrently), and course 107A. Experiments to illustrate principles of mechanical systems. Theory of measurements; Signal analysis; Demonstration of basic sensors for mechanical systems; Experimental project design; Experiments involving voltage measurement; strain gauges, dynamic systems of 0th, 1st and 2nd order. Only two units of credit for students who have previously taken Biomedical Engineering 111; only one unit of credit for students who have previously taken Biological Systems Engineering 165.-I, II, III. (I, II, III.)
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4.00 Credits
Lecture-3 hours; laboratory-3 hours. Prerequisite:course 171. Introduction to the static and dynamic stability characteristics of transportation vehicles with examples drawn from aircraft, high-performance automobiles, rail cars and boats. Laboratory experiments illustrate the dynamic behavior of automobiles, race cars, bicycles, etc.-III. (III.) Hubbard
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4.00 Credits
Lecture-2 hours; discussion-1 hour; laboratory-hours. Prerequisite: Engineering 102, and Mechanical Engineering 106. Introduction to space systems design including space project organization, requirements definition and specification, concepts formulation, system tradeoffs, subsystem design. Prototype space mission concepts are presented and a multidisciplinary mission design is developed that considers all relevant architecture elements. Offered in alternate years.-I. Joshi
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:Engineering 45 and 104; Mechanical Engineering 50 (may be taken concurrently). Principles of engineering mechanics applied to mechanical design. Theories of static and fatigue failure of metals. Design projects emphasizing the progression from conceptualization to hardware. Experimental stress analysis and mechanical measurements using strain gages.-I, III. (I, III.) Ravani
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 150A. Principles of engineering mechanics applied to the design and selection of mechanical components. Design projects, which concentrate on conceptual design, engineering analysis, methods of manufacture, material selection, and cost. Introduction to Computer-Aided Design.-II. (II.)
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:courses 107B, 150A. Methods of statistical analysis with emphasis on applications in mechanical design and manufacturing. Applications include product evaluation and decision making, stress-strength interference, probabilistic design, systems reliability, and fatigue under random loading.-II. (II.) Hull
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 5 or Engineering 6 and 102. Principles of computer-aided mechanism design. Computer-aided kinematic, static, and dynamic analysis and design of planar mechanisms such as multiple-loop linkages and geared linkages. Introduction to kinematic synthesis of mechanisms.-II. (II.) Cheng
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