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Course Criteria
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3.00 Credits
Three hours lecture. Topics that will be studied include bearing capacity, isolated and combined footing design, lateral earth pressure, retaining wall design, pile and pier design, slope stability, and design of foundations for seismicity. Professional and ethical responsibility and legal ramifications of design problems also will be considered. Prereqs: ENGR 321.
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4.00 Credits
Three hours lecture, three hours lab. Study of environmental systems, water/air/soil resources, environmental legislation, and design of pollution control equipment. Topics include legislation review, water chemistry, water treatment, wastewater treatment, air pollution abatement, solid waste management, and hazardous waste treatment. Prereqs: ENGR 375 and CHEM 261.
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4.00 Credits
Three hours lecture, three hours lab. Study of the hydrologic cycle. Topics include precipitation analysis, infiltration analysis, groundwater flow, unit hydrograph development, hydrologic probabilities, and flow measurement. This course will consider both design of water use and water excess management facilities. Prereq: ENGR 375.
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3.00 Credits
Three hours lecture. Calculus-based examination of descriptive and inferential statistics. Topics covered include population and sample data analysis, discrete random variables, continuous random variables, frequency distributions, probability, hypothesis testing, analysis of variance, regression, and correlation. Computer applications for problem solution are required. Prereqs: ENGR 107, MATH 335 and junior standing.
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3.00 Credits
Three hours lecture. A study of the fundamental concepts of linear automated control of physical systems. The course includes the following areas of study: mathematical modeling, block diagrams, frequency response analysis, root-locus analysis, time-domain analysis, stability analysis, compensation techniques, controller design, and interface transducers. Prereqs: ENGR 345.
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3.00 Credits
Two hours lecture, three hours lab. Classification, analysis, and design of systems in both the time- and frequency- domains. Continuous-time linear systems: Fourier Series, Fourier Transform, bilateral Laplace Transform. Discrete-time linear systems: difference equations, Discrete-Time Fourier Transform, bilateral z- Transform. Sampling, quantization, and discrete-time processing of continuous- time signals. Prereq: ENGR 255.
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3.00 Credits
Two hours lecture, three hours lab. This course involves the design of firmware and hardware for microprocessor- based systems, including analog and digital interfaces, system architecture, memory system design, IO structure and handshaking protocols, interrupts, timers, parallel and serial subsystems, and analog-todigital conversion. Prereqs: ENGR 347 or consent of instructor.
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3.00 Credits
Two hours lecture, three hours lab. An introduction to software engineering principles, with emphasis on the methods, processes, tools, and metrics needed to develop quality software products and systems. Prereqs: Junior standing in engineering or consent of instructor.
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3.00 Credits
Two hours lecture, three hours lab. Fundamental concepts of power system analysis, transmission line parameters, basic system models, steady state performance, network calculations, power flow solutions, fault studies, symmetrical components, operating strategies and control. Prereqs: ENGR 349.
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3.00 Credits
Three hours lecture. An investigation into heat transfer and the formulation of the fundamental principles and laws that govern conduction, convection, and radiation for both steady state and transient conditions with their application in the analysis and design of actual processes and heat exchanges. Prereqs: MATH 433, ENGR 225, and ENGR 375.
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