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Course Criteria
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1.00 Credits
A continuation of the concepts introduced in Engineering 130, using more advanced drawing concepts and CAD commands. One two-hour lab each week. Corequisite: Engineering 130.
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3.00 Credits
Statics of particles and rigid bodies as applied to engineering design. Topics include vector algebra, forces, moments and couples, conditions of equilibrium, friction, and virtual work. Prerequisite: Physics 241.
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3.00 Credits
Theory and analysis of electrical and electronics circuits. Topics include basic circuit elements, laws of circuit analysis, Kirchoff's laws, loop and nodal analysis, differential equations for modeling electronic circuits, AC and DC analysis, transient analysis, complex impedance and steady state analysis, Laplace Transforms, and frequency domain analysis. Prerequisite: Physics 242 University Physics II.
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3.00 Credits
Theory and analysis of forces, stress, and strain within engineering structural elements and members. Topics include the theory of stress and strain, elastic and plastic deformation, modes of structural failure, compression and tension, torsion, shear, shafts, beams, posts, transformations of stress and strain. Prerequisite: Physics 241 University Physics I.
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2.00 Credits
AC/DC circuit analysis, transients, characteristics of equivalent circuits for diodes, transistors, power supplies, transistor/operational amplifiers, and feedback applications. Two lectures and one laboratory each week. Prerequisite: Physics 142 or 242.
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2.00 Credits
Boolean algebra, logic gates, combinational logic circuits, state minimization, flip/flops, sequential circuits, asynchronous and synchronous counters. Course emphasizes design aspects using electronic design software. Two lectures and one laboratory each week. Prerequisite: Physics 142 or 242.
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2.00 Credits
Design, analysis, and implementation of digital controls systems using microcomputers and microcontrollers. Special attention given to the interfacing of hardware and digital devices to processors and controllers. Two lectures and one laboratory each week. Prerequisite: Engineering 422.
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2.00 Credits
The objective of this course is to use a hands-on approach to introduce the basic concepts in robotics, focusing on mobile robots and the importance of sensors and the integration of those sensors. Also to be discussed are navigation mechanisms and the various robot learning and control paradigms. Two lectures and one laboratory each week. Prerequisite: Engineering 432.
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1.00 - 4.00 Credits
Designed to provide engineering experience in applied settings. An academic plan must be developed in consultation between the supervising faculty member, student and work supervisor. Students must complete 45 hours of supervised work for each unit of credit received. May be repeated up to a total of four units.
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1.00 - 4.00 Credits
The topics chosen in engineering depend on regular or visiting faculty expertise as well as student demand. May be repeated (with varied topics) up to a total of six units.
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