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Course Criteria
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2.00 Credits
An introduction to engineering as a discipline and a profession. Includes instruction in the application of mathematical and scientific principles to the solution of practical problems, and in technical communication, and engineering design. Emphasis on writing laboratory reports, including data analysis, business correspondence, technical papers and a design report. Additional emphasis on presentation skills. Introduction to design methodology and teambased project activities.
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3.00 Credits
Introduction to spatial relationships, multi-view projection and sectioning, dimensioning, graphical presentation of data, and fundamentals of computer graphics. (Designed for engineering majors.)
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1.00 Credits
Laboratory exercises to reinforce ENGR 2305 and to verify methods of linear circuit analysis. Exercises include software and hardware components that integrate hands-on experience with linear circuit elements and use of professional engineering equipment. Strongly encouraged for all engineering students; required for electrical engineering students. Co-requisite: ENGR 2305
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1.00 Credits
Basic laboratory experiments supporting theoretical principles presnted in ENGR2307 involving electrical and electronic components and circuits, including circuit analysis, network principles, motors and steady-state and transient responses, and preparation of laboratory reports. Prerequisites: PHYS2426 Co-requisite: ENGR2307
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3.00 Credits
Calculus-based study of composition and resolution of forces, equilibrium of force systems, friction, centroids, and moments of inertia. Prerequisites: Credit or registration for MATH 2414 and PHYS 2425.
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3.00 Credits
Calculus-based study of dynamics of rigid bodies, force-mass-acceleration, work-energy, and impulsemomentum computation. Prerequisites: ENGR 2301 and MATH 2414.
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3.00 Credits
Introduction to computer programming. Emphasis on the fundamentals of structured design, development, testing, implementation, and documentation in engineering applications with numerical analysis. Includes coverage of language syntax, data and file structures, input/output devices, and disks/files. Prerequisite: Credit or registration for MATH 2414.
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3.00 Credits
A calculus-based introduction to linear circuits and circuit analysis. Principles of electrical circuits and systems including DC networks, operational amplifiers, transient response, and sinusoidal steady state analysis. For all engineering students. Prerequisite: PHYS 2426
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3.00 Credits
Basic concepts of electrical engineering using calculus; the fundamentals of electrical and electronic components and circuits, circuit analysis, network principles, motors, and steady-state and transienct responses, application of Laplace transforms; and use of computational software to solce network problems; application of the principles to the solution of electrical engineering problems; relationship between basic princples and advanced applications. Prerequisite: PHYS2426 Co-requisite: ENGR2107
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0.00 Credits
No course description available.
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