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Course Criteria
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4.00 Credits
CAS PY 212, CAS MA 226, and CAS CH 102. Thermodynamic systems. Heat, temperature, and pressure. State variables and equations of state. First and second laws of thermodynamics. Entropy. Thermodynamic potentials. Kinetic theory. Intermolecular forces and transport phenomena. Statistical mechanics. Ensembles and distribution functions. The statistical interpretation of entropy. Partition function. 4 cr.
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0.00 Credits
acceptence into the Cooperative Education Program. Students work part-time, as defined by their employing company, while registering for 8 C11 credits. Registration for 12 or more credits requires the written approval of the director. Students registered in ENG EK 497E are assessed a fee upon placement. 0 cr.
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0.00 Credits
acceptance into the Cooperative Education Program; attendance at all preparatory seminar sessions. Students register only upon receiving a cooperative education position. The Cooperative Education Program helps students to integrate classroom theory with actual engineering experience. Under professional supervision, students learn firsthand about the engineering environment by working in a paid, full-time position in a medical or research facility, private business, industry, or governmental agency. Through seminars on topics such as self-assessment, identification of work skills, résumé writing, interview skills, and understanding the corporate world, students learn the broad career skills required to obtain co-op and permanent employment. 0 cr.
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3.00 Credits
CAS MA 226. A first course in probability and statistics for students with a level of mathematical maturity and experience comparable to that normally found in entering graduate students. Sample spaces, probability measures, random variables, expectation, applications of transform methods, stochastic convergence and limit theorems, second order statistics, estimations, and stochastic forecasting, introduction to random processes, and filtering applications. May not be taken for credit in addition to ENG EC 381 or ENG MN 308. 4 cr.
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4.00 Credits
to basic applied mathematics for science and engineering, emphasizing practical methods and unifying geometrical concepts. Topics include linear algebra for real and complex matrices. Quadratic forms, Lagrange multipliers and elementary properties of the rotation group. Vector differential and integral calculus. Complex function theory, singularities and multivalued functions, contour integration and series expansions. Fourier and Laplace transforms. Elementary methods for solving ordinary linear differential and systems of differential equations with applications to electrical circuits and mechanical structures. 4 cr.
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4.00 Credits
CAS MA 242 (or equivalent), and ENG EK 307 (or equivalent), and ENG EC 453 (or any other course that uses Vector Calculus). The structure of problems involving positive definite quadratic forms is developed by considering circuit theory and continuum problems. Direct variational methods, finite elements, the conjugate gradient method developed for positive definite (elliptic) problems, and the fast Fourier transform are presented. 4 cr. TOP OF PAGE ENG BE 200 Introduction to ProbabilityPrereq: CAS MA 225 and ENG EK 127. An introductory course designed for sophomore engineering students that introduces the fundamentals of probability and statistics without the use of transforms. Coverage includes multiple random variables, expectation, Markov chains, and statistical testing. Computer simulations of probabilistic systems are included. Examples are taken from engineering systems. This course cannot be taken for credit in addition to ENG EC 381. 2 cr.
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2.00 Credits
ENG EK 301; coreq: CAS MA 226. Introduction to fundamental engineering concepts in astronautics, including rocket and extra-atmospheric propulsion, the atmosphere and space environments, spacecraft subsystem, and spacecraft design parameters. 2 cr.
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2.00 Credits
to managerial decision-making from product concept to finished good. Topics include manufacturing strategy, forecasting, DFX, resource planning, project scheduling, and supply chain design and management. Emphasis placed on understanding topics as interdependent components of a lean manufacturing system. Underlying management science theory is supplemented by plant tours, lectures by industrial practitioners, and a semester project. 2 cr.
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4.00 Credits
ENG EK 301. Fundamentals of engineering dynamics. Kinetics of rigid bodies in two and three dimensions. Impulsive motion; impact. Energy and momentum methods. Mechanical vibrations of linear single-degree-of-freedom systems. 4 cr.
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3.00 Credits
ENG EK 301. Properties of fluids. Fluid statics. Flow kinematics and dynamics. Dimensional analysis. Control volume approach to conservation of mass, momentum, and energy. Bernoulli's equation. Pipe flow. Discussion of boundary layers, drag, and lift. Applications to flow measurement, turbomachinery, and propulsion. Includes lab. Cannot be taken for credit in addition to ENG BE 436. 4 cr.
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