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Course Criteria
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3.00 Credits
Prerequisite: Written permission of the department chair. Selected special topics in mechanical engineering such as applied computational fluid dynamics, mechanics of structures, or thermal systems design. May be repeated for credit with different topics.
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3.00 Credits
Prerequisite: EG031, EG331. Corequisite: EG032. An intro- duction to the theory of operation of various active components such as diodes, BJT, and MOSFET. Dis- cusses transistor amplifier design based on small signal models. Studies special topics such as power supply, pulse, and digital circuit designs. Uses the operational amplifier as the fundamental building block in the sys- tem level design.
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3.00 Credits
Prerequisite: EG333. This course begins with a review of discrete-time signals and systems. The z-transform is treated in detail. Sampling and quantization of con- tinuous-time signals, including sample-rate conversions, is explored. Transform analysis of linear time-invariant system is treated in detail. Some MATLAB exercises are included.
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3.00 Credits
Prerequisite: EG381, EG434. This course begins with a thorough discussion of structures for the implementa- tion of nonrecursive and recursive systems. Filter design techniques for nonrecursive and recursive systems are covered. The Discrete Fourier Transform (DFT) is defined and methods for its efficient computation are144 Engineering Science derived. The course concludes with Fourier analysis of signals using the DFT. MATLAB is used extensively in realistic design assignments.
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3.00 Credits
Prerequisite: EG381. Considers complete system life-cycle engineering issues. Introduces the use of mathematical models to analyze and optimize real world systems. Stud- ies deterministic systems, microeconomics, forecasting, and reliability and decision analyses. Case studies and projects may be used.
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3.00 Credits
Prerequisite: EG051, EG351. Studies electrical properties of conductors and semiconductors including the solid- state description of modern electronic devices. Devel- ops the magnetic and optical properties of modern materials and their applications.
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3.00 Credits
Prerequisite: EG051, EG351. Covers properties of x-rays, crystallography, and x-ray diffraction. Various experi- mental x-ray diffraction techniques and analyses are considered along with their applications to crystal characterization problems.
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3.00 Credits
Prerequisite: EG051, EG301, EG351. Covers stress-strain relationships for materials, crystallographic aspects of plastic deformation, dislocation theory, fracture and materials testing techniques. EG455 Transformations in Solids (3.00 cr.) Prerequisite: EG051, EG351, EG380. Covers equilibrium multicomponent systems and their phase diagrams, transport phenomena, and nucleation and growth processes.
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3.00 Credits
Prerequisite: Written permission of the department chair. Selected special topics in materials engineering such as alloy selection for engineering design, failure analy- sis, or microstructural characterization. May be repeated for credit with different topics.
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3.00 Credits
Corequisite: EG071. Number systems, logic gates, inte- grated circuits, combinatorial logic design, flip flops, registers, and the design of sequential systems. Empha- sizes state machines and state diagrams. Applications are taken from large digital systems in general and digital computer systems in particular. Design projects are used to illustrate techniques throughout the course.
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