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Course Criteria
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4.00 Credits
Lecture-3 hours; laboratory-3 hours. Prerequisite:Engineering 100, 102, course 50. Mechatronics system concept and overview, control system design overview, control software architecture, control hardware architecture, microcontroller and interface technology for mechatronics control, sensor for mechatronics systems, actuator drives.-III. (III.) Yamazaki
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 106. Introduction to combustion kinetics; the theory of pre-mixed flames and diffusion flames; turbulent combustion; formation of air pollutants in combustion systems; examples of combustion devices which include internal combustion engines, gas turbines, furnaces and waste incinerators; alternative fuel sources.-III. (III.) Kennedy, Shaw
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 106. Modern power plants for electric power generation and cogeneration. Thermodynamic analysis of different types of power plants using various fuels. Design studies of specific power plants.-II. Hoffman
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4.00 Credits
Lecture-3 hours; laboratory-3 hours. Prerequisite:Engineering 103 and 105. Fundamentals of internal combustion engine design and performance. Future needs to adapt to environmental concerns, and the feasibility of better alternatives in the future.-I. (III.) Dwyer
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4.00 Credits
Lecture-3 hours; laboratory-3 hours. Prerequisite:course 5 or Engineering 6, 103 and 105. Conduction, convection, and radiation heat transfer. Computational modeling of heat transfer in engineering. Applications to engineering equipment with the use of digital computers.-I, II, III. (I, II, III.) Baughn
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4.00 Credits
Lecture-3 hours; laboratory-3 hours. Prerequisite:Engineering 100 and 102, upper division standing. Modeling of dynamic engineering systems in various energy domains. Analysis and design of dynamic systems. Response of linear systems. Digital computer simulation and physical experiments.-I, II, III. Karnopp, Margolis
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 171, Engineering 100. Classical feedback control; block diagrams; control systems performance specifications; steady state errors; rise and settling times; root locus; PID controllers; control design with Bode and Nyquist plots; stability; phase and gain margin; lead and lag compensators; state variable feedback controllers.-I, II, III. Farouki, Eke
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2.00 Credits
Laboratory-6 hours. Prerequisite: courses 150B, 165, and 172, consent of instructor, senior standing in Mechanical Engineering. Performance of practical mechanical engineering projects which include one or more of the following: analysis, design, development and evaluation of mechanism engineering system. (Deferred grading only, pending completion of sequence.)-I, II, III. (I, II, III.)
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2.00 Credits
Laboratory-6 hours. Prerequisite: course 184A in a previous quarter from the same instructor; consent of instructor. Performance of practical mechanical engineering projects which include one or more of the following: analysis, design, development, and evaluation of a mechanical engineering system.-I, II, III. (I, II, III.)
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2.00 Credits
Lecture-1 hour; laboratory-3 hours. Prerequisite:course 150A, 165, senior standing in Mechanical Engineering or Aeronautical Science and Engineering. Capstone mechanical engineering design course; the mechanical engineering design process and its use in the design of engineering systems. (Deferred grading only, pending completion of sequence.)-I-II, II-III. (I-II, II-III.)
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