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Course Criteria
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3.00 Credits
An advanced process-oriented drafting course in design, layout, and detail of production tooling. Consideration is given to locating, clamping, and tolerancing jigs and fixtures for the manufacture of an industrial part. Standard parts catalogs and library reference material provide guidance in solving design problems. Drawing assignments are done extensively on CAD. Prerequisites: DRAF 130, DRAF 142 and MATH 100 or above
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2.00 Credits
An advanced drawing course that examines the demands of product drafting. The design process is applied in the development of a product with consideration given to its function, material, ergonomics, and its ability to be economically manufactured. Drawing assignments are done extensively on CAD. Prerequisites: DRAF 130, DRAF 142 and MATH 100 or above
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4.00 Credits
A CAD course to develop skill in the advanced operations of making three-dimensional drawings. Solids analysis and the manipulation of geometry using auxiliary views are practiced. Concepts of descriptive geometry and detailing are reviewed and expanded as they relate to CAD model geometry. Prerequisites: DRAFT 110 and DRAF 120. Completion of or concurrent enrollment in DRAF 130 and DRAF 142.
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4.00 Credits
(4 Credit Hours) A course in three-dimensional, feature-based parametric solid CAD. This course has the student create complex three-dimensional parametric models and then generate two-dimensional views from those CAD models. Single parts and assemblies are developed, constrained, and manipulated in the modeling process. Prerequisites: DRAFT 110 and DRAF 120. Completion of or concurrent enrollment in DRAF 130 and DRAF 142.
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4.00 Credits
A beginning course covering the fundamentals of electricity as applied to the electrical field. Topics include electron theory, Ohm's Law, circuits, magnetism, inductance, capacitance, and alternating current circuits. Students will use both computer simulation and construct circuits, voltmeters, ammeters, power supplies, signal generators, and oscilloscopes during lab. Co-requisites: ELEC 100 is recommended but not required
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3.00 Credits
Introduces the fundamentals of solid-state components found in electronic circuits. Topics include solid state diodes, field effect transistors, and bipolar transistors. Students learn the characteristics of these components and some basic circuits in which they are commonly used. A software program is used to simulate various electronic circuits. Suggested Prerequisites: Completion of or concurrent enrollment in ELEC 103 is recommended
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3.00 Credits
An introductory course for electronics majors that covers: digital concepts; binary, hexadecimal, and BCD number systems; TTL and CMOS integrated circuit logic gate technology; Boolean algebra; logic tables; combinational logic; monostable and biostable multivibrators; storage registers; asynchronous counters; and the use of digital electronic simulation software. About half of class time is devoted to hands-on laboratory experiments.
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3.00 Credits
An introductory course designed to familiarize the student with basic hydraulic principles, laws, components, and symbols. Students are introduced to safety, the use of tools, and procedures in the design, building, testing, troubleshooting, and repair of industrial hydraulic systems. This course includes lectures, demonstrations, and laboratory activities.
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3.00 Credits
An intermediate-level course concentrating on the theory and application of DC motors and generators, AC alternators, and singlephase and three-phase induction motors. Single-phase and three-phase transformers are also covered. This course includes both lectures and laboratory activities with verification of several circuit principles.
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3.00 Credits
An intermediate-level course covering fundamental circuits and their characteristics, designed to provide a sound understanding of rectifier circuits and amplifier systems. Laboratory work consists of experiments in rectification, filtering, amplification, and coupling. Prerequisites: ELEC 103
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