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Course Criteria
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3.00 Credits
This course represents the final field work experience for Child Development Associate [CDA] candidates. Students have the opportunity to develop and demonstrate competencies as future Child Development Associates by applying what they have learned in their CDA coursework. The formal observation is completed during this course and is needed when applying for the CDA credential. Lecture [1.00], Laboratory 4.00].
Prerequisite:
Prerequisite[s]: EDU-120, EDU-220. ELECTRONICS TECHNOLOGY
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2.00 Credits
This course presents an orientation to the various subspecialties within the field, their interrelationships, and their range of applications. The course also covers introductory topics in electrical and electronics drafting, computer-aided circuit analysis, and electronic fabrication. Lecture [1.00], Laboratory [2.00].
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4.00 Credits
This course includes Ohm's and Kirchoff's laws for analysis of series, parallel, and series/parallel circuits, and Thevenin's and Norton's theorems for multiple-loop circuits. Capacitance and inductance transient behavior is also studied, as well as branch, mesh, and node analysis. Lecture [3.00], Laboratory [3.00].
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4.00 Credits
This course covers the basics of power systems for residential, commercial, and industrial applications from a practical viewpoint. Lecture [3.00], Laboratory [3.00].
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3.00 Credits
This course covers the basics of how to site, design, and install photovoltaic [PV] systems. Topics include shading, the orientation of arrays, sizing for grid-connected and off-grid systems, design of systems for a given electrical load, safety practices for installers and the requirements of the National Electrical Code [NEC.] A PV system will be assembled and installed in class. This course can serve as a pre-requisite for the North American Board of Certified Energy Practitioners [NABCEP.] Lecture [2.00], Laboratory [2.00].
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4.00 Credits
This course introduces sinusoidal inputs and time response of RL, RC, and RLC circuits. Network theorems for AC-circuits are covered, as well as resonance, filters, and pulse response of reactive circuits. Lecture [3.00], Laboratory [3.00].
Prerequisite:
Prerequisite[s]: ELC-101. 19
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4.00 Credits
This course is an introduction to the fundamental concepts and applications of solid-state devices. Lecture [3.00], Laboratory [3.00]. Corequisite[s]: ELC-201.
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4.00 Credits
This course is the second course in a two-course sequence in electronics. It builds upon the first course with a study of solid-state voltage and power amplifiers, emitter followers, field-effect transistors and circuits, thyristors, frequency effects, and op-amps. Lecture [3.00], Laboratory [3.00].
Prerequisite:
Prerequisite[s]: ELC-203.
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4.00 Credits
This course emphasizes the application of electronic communication theory to practical systems. This first course of a two-course sequence covers AM and FM systems, television, and telephone. Digital and data communication will be introduced, and continued in Communication Systems II. Lecture [3.00], Laboratory [3.00]. Corequisite[s]: ELC-204.
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4.00 Credits
This course follows the first course in this sequence, continuing work in digital and data communication, and then covers transmission lines, radiowave propagation, antennas, microwave systems, satellite communications, fiber-optic systems, and cellular communication systems. Lecture [3.00], Laboratory [3.00].
Prerequisite:
Prerequisite[s]: ELC-214.
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