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Course Criteria
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1.00 - 4.00 Credits
The fundamental theory of transistors and other solid-state devices and its verification. Amplifiers, oscillators, and other applications using a sinusoidal wave are analyzed. Pre/corequisite: EET 1025C. Laboratory fee. (2 hour lecture; 4 hour lab)
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4.00 Credits
Transistors and other solid-state devices. Amplifiers, oscillators, pulse and switching circuits and other applications using both sinusoidal and non-sinusoidal waves are analyzed. Prerequisites: EET 1037C, 1141C, 2101C. Laboratory fee. (2 hour lecture; 4 hour lab) about the construction, installation, testing and repair of the physical layer of the network, including wired cables, fiber optic media, wireless transmitters and antennas. Demonstrated knowledge of microcomputer fundamentals and system components is required. Laboratory fee. A.S. degree credit only. (2 hour lecture; 2 hour lab)
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2.00 Credits
This course is designed to familiarize the student with the study of fundamental nuclear plant sciences. Coursework covers the broad spectrum of fundamental nuclear power plant sciences which encompasses basic electrical science, properties of reactor plant materials, basic atomic and nuclear physics, heat transfer and fluid flow, reactor safety design, and plant chemistry. (2 hour lecture)
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1.00 Credits
This course is designed to provide training in a student's field of study through work experience. Students are graded on the basis of documentation of learning acquired as reported by student and employer. Prerequisite: Cooperative Education Office approval. Students will be assigned specific course prefixes related to their academic major prior to registration. All students must contact the Cooperative Education Office to obtain registration approval. (3 hour lecture)
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2.00 - 4.00 Credits
Construction, characteristics, and applications of the various electron tube and semiconductor devices including newer solidstate devices, and some of the important industrial and commercial systems in which they are employed. Prerequisite: EET 1141C. Laboratory fee. (2 hour lecture; 4 hour lab)
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3.00 Credits
This course is designed for students specializing in industrial equipment maintenance. Students learn and apply the basic principles and operation of hydraulic and pneumatic instrumentation and testing equipment to repair equipment. Laboratory experiments are performed with extensive hands-on application. Prerequisite: MAC 1105. A.S. degree credit only. Special fee. (2 hour lecture; 2 hour lab)
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3.00 Credits
Prepares technicians for the first or second class radio-telephone operators' license examination as administered by the Federal Communications Commission. Students who possess a valid FCC first or second class license may arrange for Credit-by- Departmental Examination. Prerequisites: EET 1015C, 1025C, 1037C, 1141C, 1142C; corequisite: EET 2101C. (3 hour lecture)
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4.00 Credits
An analysis of the principles of radio wave transmission and reception. AM and FM transmitters, receivers, and single side-band, television and digital data transmission lines, wave other abnormal conditions; and the protection of transformers, motors, and generators. Prerequisite: EET 2515C; corequisite: EET 2527C. A.S. degree credit only. Special fee. (2 hour lecture; 2 hour lab).
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4.00 Credits
This course is designed to give the electronics student a theoretical and practical background in the basic concepts and applications of Digital and Data Communications. Examples of topics covered are: A/D and D/A conversions; data communications codes and standards; modulation, transmission impairment, the telephone system, MODEMS, multiplexers, electrical interface standards including RS-232-C. There will be laboratory applications on most topics. Prerequisites: CET 2114C, EET 1025C. Laboratory fee. (2 hour lecture; 4 hour lab)
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3.00 Credits
This course is designed for students specializing in industrial equipment maintenance. Students learn how to analyze, troubleshoot, and repair rotating electric machinery with emphasis on industrial applications. Students learn terminology specific to motors, generators, and transformers; electromechanical device theory; circuits connecting electromechanical devices to voltage sources and loads; and how to apply mathematical analysis to determine quantitative circuit functioning in terms of voltage, current, and power. Prerequisite: EET 1025C. Corequisite: EET 1141C. A.S. degree credit only. Special fee. (2 hour lecture; 2 hour lab)
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