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Course Criteria
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3.00 Credits
Covers selected topics in mathematical analysis with emphasis on applications to engineering problems. Vector Analysis, line and surface integrals, complex variables and integrals, conformal mapping, series, residues, potential theory, and special functions.
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3.00 Credits
Prerequisites: satisfactory completion of ENGL 5B and 10, junior standing. Preparation of resumes, letters of transmittal, technical reports, research proposals, progress reports, business plans, and oral presentations. Covers using effective writing techniques in the process of commercializing a technology/process. Meets upper-division writing skills requirement for graduation. (Formerly ME 191T)
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3.00 Credits
Open to qualified high school juniors and seniors only. Selected topics in engineering that serve as an introduction to the field of engineering and technology. (Formerly ENGR 1T)
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3.00 Credits
Selected topics in engineering that serve as an introduction to the field of engineering and technology.
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3.00 Credits
Study of analytical tools used in the analysis and modeling of engineering systems. Emphasis is placed on solving problems in engineering disciplines.
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3.00 Credits
Prerequisite: a first course in numerical analysis at the graduate level. Solution of engineering problems using digital computation. Modeling of engineering systems for numerical analysis.
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3.00 Credits
A first course in probability theory and statistical analysis at the graduate level. Finite sample spaces, conditional probability and independence, one-dimensional random variables, functions of random variables, two- and higher-dimensional random variables, poisson and other discrete random variables, continuous random variables, moment-generating function, reliability theory, sums of random variables, samples and sampling distributions, estimation of parameters, testing hypothesis.
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3.00 Credits
A first-year graduate course covering the analysis, synthesis, and performance of linear control systems. Partial fraction expansion, Routh's criterion, the impulse function. Basic servo characteristics and types, block diagrams, transfer functions. A detailed treatment of the root locus method for analysis and synthesis. Frequency response, logarithmic and polar plots, Nyquist's criterion, stability characteristics, phase margin and gain margin.
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3.00 Credits
Prerequisite: ENGR 210 or permission of coordinator. Describing function analysis of nonlinear control systems; phase-plane analysis; Liapunov stability analysis; discretetime systems; z-transform-method; linear stochastic systems; application of statistical design principles; optimal and adaptive control systems; digital control systems.
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3.00 Credits
Prerequisites: ENOL 45 and ENOL 164 (ENOL 164 may be taken concurrently). Factors affecting the quality of wines in terms of growing region, grape maturity, harvesting, vinification, cellaring, blending, and storage practices; attributes and defects in premium varietals. Statistical concepts. (2 lecture, 2 lab hours) S
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