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Course Criteria
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4.00 Credits
Point estimation; hypothesis testing and confi dence intervals; one- and twosample inference; introduction to analysis of variance, experimental design, control charts and measurement studies. (0307-361) Credit 4 (W)
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4.00 Credits
This course focuses on the programming language used in SAS statistical software to read in raw data, create and manipulate SAS data sets, and create SAS macros. This course covers the material for "SAS Base Programmer" certification. Students seeking employment in statistical professions are encouraged to attain this certifi cation. Corresponding Minitab commands and macro programming will also be covered. (1016-352 or equivalent). (Cross-listed with 0307-742.) Credit 4 (F)
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4.00 Credits
This course introduces students to the design, operation and applications of lasers (Light Amplifi cation by Stimulated Emission of Radiation). Topics: ray tracing, Gaussian beams, optical cavities, atomic radiation, laser oscillation and amplifi cation, mode locking and Q switching, and applications of lasers. (0301-482) Class 4, Credit 4
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4.00 Credits
This course discusses basic goals, principles and techniques of integrated optical devices and systems, and explains how the various optoelectronic devices of an integrated optical system operate and how they are integrated into a system. Topics include optical waveguides, optical couplers, microoptical resonators, plasmonics, photonic crystals, modulators, introduction to semiconductor lasers and optical detectors, optical signal processing systems, design tools, fabrication techniques, and the applications of optical integrated circuits. Some of the current state-of-the-art devices and systems will be investigated by reference to journal articles. (0301-473, 482) Class 4, Credit 4
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4.00 Credits
This course covers fundamental issues and design concerns used to construct MicroElectroMechanical Systems (MEMS) devices. Subjects include: micro fl uid science, microscale heat transfer, mechanical behavior of microstructures, as well as design, simulations and optimization of micro devices. Course is intended for engineering students, for microsystems engineering and other related disciplines. (1017-313) Class 4, Credit 4
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4.00 Credits
This course provides an introduction to the operating principles of optoelectronic devices used in various digital transmission and information processing systems. Emphasis is on the generation (via lasers) and detection of optical signals. Topics covered: (1) geometrical optics, interferometry, and polarization; (2) photons in semiconductors, semiconductor photon sources (light-emitting diode and laser diode), semiconductor photon detectors, and modulators; (3) optoelectronic systems and related engineering applications. (0301-482) Class 4, Credit 4
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3.00 Credits
A first course for chemical engineers, introducing units, dimensions and dimensional analysis, simple material and energy balances for batch and continuous systems in steady and unsteady states with/without chemical reaction, and elementary phase equilibrium in multi-component systems. (1011-216 or equivalent; 1016-283 or equivalent may be taken as prerequisites or as corequisites) Class 4, Credit 4 (F)
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4.00 Credits
This course covers the analysis and design of chemical processes for the separation and purifi cation of mixtures. The course will include an introduction to the fundamentals of diffusion and the analogies between heat and mass transfer, leading up to mass transfer coeffi cients and their use in solving a variety of engineering problems. Design methodologies will be examined for equilibrium based processes (such as absorption, distillation, extraction and crystallization) and rate-governing separations (such as dialysis and reverse osmosis). Fixed bed processes such as adsorption and ion exchange will also be introduced. (0309-230, 1016-306 or equivalent, and 1016-305 recommended) Class 4, Credit 4 (W)
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4.00 Credits
The course provides the fundamental principles of chemical kinetics in single phase systems and their mathematical formalization from a continuum, micro-scale viewpoint. Topics include mass action kinetics and absolute rate theory, series and parallel reaction systems, and the mathematical modeling of various reactor confi gurations under idealized conditions. Well-mixed and continuous, plug fl ow reactor systems are analyzed for both single and multiple reaction systems. Continuous versus batch operation under isothermal and adiabatic conditions are examined. (0309-230, 1016-306 or equivalent, and 1016-305 recommended) Class 4, Credit 4 (F)
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0.00 Credits
This written paper is a requirement for students enrolled in the minor for chemical engineering systems analysis. The topic area is chosen by the student with faculty adviser approval, and must be amenable to analysis using chemical engineering systems methodology and principles (Concurrent with completion of coursework of the minor) Class 0, Credit 0
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