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Course Criteria
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3.00 Credits
Hours: 3 Course ID: 000640 Introduction to methods used in interior electric power distribution for commercial and industrial loads of heat, light and power, and requirements of National Electric Code. Lecture: 3 hours. Prerequisite: ET 110. Component: Lecture
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4.00 Credits
Hours: 4 Course ID: 000644 Theory and utilization of electrical motors and generators, including AC and DC motors and drives are studied. Theory and utilization of limit switches, solenoids, relays, contactors, and solid state devices in control circuits are included. Digital and analog control techniques, ladder logic, and programming techniques are applied to industrial and manufacturing processes. Lecture: 3 hours; Laboratory: 2 hours. Prerequisite: Consent of instructor. Component: Laboratory, Lecture
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3.00 Credits
Hours: 3 Course ID: 000646 A study of the various types of electric motors, generators, transformers, and specialized electrical machines used in industry. Emphasis is placed on applications, text procedures, and troubleshooting techniques. Lecture: 2 hours; Laboratory: 2 hours. Prerequisite: ET 111. Component: Laboratory, Lecture
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4.00 Credits
Hours: 4 Course ID: 000657 Programmable Logic Controllers are studied with emphasis on the function and use of PLCs in an industrial environment. Lecture: 3 hours; Laboratory: 2 hours. Prerequisite: ET 244 or consent of instructor. Component: Laboratory, Lecture
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3.00 Credits
Hours: 3 Course ID: 000660 Study of generation, transmission and distribution of electric power; construction, terminal equipment; fault protection; system behavior and stability; and industrial utilization. Lecture: 3 hours. Prerequisite: ET 111. Component: Lecture
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4.00 Credits
Hours: 4 Course ID: 000671 Emphasis is placed on the architecture of microprocessor systems, practical application of microprocessor technology, and troubleshooting techniques. Analysis of the principles and techniques used in microprocessor controlled electronic systems is also covered. Lecture: 3 hours; Laboratory: 2 hours. Prerequisite: ET 112 or consent of instructor. Component: Laboratory, Lecture
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5.00 Credits
Hours: 5 Course ID: 000676 Principles of fluid flow, including fluid properties, hydrostatics, and Bernoulli Theorem flow (ideal and real) through gravity-fed and pump-fed pipes are studied. Modes of heat transfer (conduction, radiation, and convection) related to simple heat transfer systems are included. Lecture: 4 hours; Laboratory: 3 hours. Prerequisite: ET 201 and ET 210, or consent of instructor. Component: Laboratory, Lecture
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3.00 Credits
Hours: 3 Course ID: 000679 A study of instruments used by the mechanical engineering technician and training in the techniques of their use. Component: Lecture
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4.00 Credits
Hours: 4 Course ID: 000682 Principles and techniques of measurement are taught in this course. Emphasis is on collection interpretation, and presentation of data; error analysis; capabilities and limitations of standard measurement instruments; and instrumentation in process control. Lecture: 3 hours; Laboratory: 2 hours. Prerequisite: ET 111 or consent of instructor. Component: Laboratory, Lecture
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4.00 Credits
Hours: 4 Course ID: 000691 A study of techniques associated with the design of machine elements, including structural members subjected to combined stresses resulting from shear or torsion coupled with axial and bending loadings is covered. Included are material treatments, failure theories, failure prevention, and steady and variable (fatigue) elements, including rotating shafts, pressure vessels, power screws, and attachment schemes. Lecture: 4 hours. Prerequisite: ET 201 and PHY 211, or consent of instructor. Component: Lecture
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