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Course Criteria
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4.00 Credits
This course is primarily concerned with development of reproducable pictorials obliques, isometrics, axonometrics, perspectives, and autoshade drawings. Use of MICROCAD will help to make the transition from mechanical drawing to geometric modeling. 2 hours lecture, 4 hours lab. Credit Hours: 4.000 Lecture hours: 2.000 Lab hours: 4.000 Levels: Undergraduate Schedule Types: Lecture/Lab Combination Prerequisites: TMT 115 and TEG 205
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3.00 Credits
Gasic study of hydrolics and pneumatics. Applications of hydraulic principles to industrial control systems and compressed air systems to common industrial control circuits. Prerequisites: PHY 111, 101L; TMT 113 Credit Hours: 3.000 Levels: Undergraduate Schedule Types: Lecture Prerequisites: PHY 111 and PHY 101L and TMT 113
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2.00 Credits
An introduction to the basic concepts of semiconductor devices and their applications. Diode and bipolar transistors are discussed. Diode applications half wave rectifier, bridge rectifier, and power supply are covered. Class A amplifier gain, input and output impedance, bias techniques, and transistor configurations are explained. 2 hours lecture, 4 hours lab. Prerequisite: TEG 161. Credit Hours: 4.000 Lecture hours: 2.000 Lab hours: 4.000 Levels: Undergraduate Schedule Types: Lecture/Lab Combination Prerequisites: TEG 161
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3.00 Credits
Will begin with basic PC fundamentals and continue through the study of higher level languages using BASIC for solution of engineering problems. Typical PC applications are presented. 2 hours lecture, 4 hours lab. Credit Hours: 3.000 Lecture hours: 2.000 Lab hours: 2.000 Levels: Undergraduate Schedule Types: Lecture/Lab Combination
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4.00 Credits
The fundamental chemistry and application of chemistry and physics to the commonly endountered engineering materials including ferrous and non ferrous metals, ceramics, polymers, and composites. 3 hours lecture, 2 hours lab. Credit Hours: 4.000 Lecture hours: 3.000 Lab hours: 2.000 Levels: Undergraduate Schedule Types: Lecture/Lab Combination Prerequisites: PHY 111 and PHY 101
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3.00 Credits
Material flow, warehousing, quantitive techniques, estimating, planning, and design of industrial and service facilities with emaphasis on material handling, production and office layout, management, personnel, aesthetics, and the environment. 3 hours lecture. Credit Hours: 3.000 Lecture hours: 3.000 Levels: Undergraduate Schedule Types: Lecture
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3.00 Credits
To introduce the student to a comprehensive approach to the central factors involved in developing safe practices and conditions. Imparts in the student the ability to set up safety organizations and conduct safety education and training. Gives the student the ability to recognize the effect of plant layout, mechanical guards, and the occupational health hazzards on injury rates and accident costs. Imparts in the student the economic and engineering aspects of fire protection, personal protection equipment, industrial waste disposal, and the analysis of a safety program. Credit Hours: 3.000 Levels: Undergraduate Schedule Types: Lecture
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2.00 Credits
Continuation in the discussion of transistor amplifiers. AC load line, class B power amplifier, and transformer couplings are discussed. JFET, E MOSFET, D MOSFET, transistors, their biasing techniques, and applications are introduced. 2 hours lecture, 4 hours lab. Prerequisite: TEG 210. Credit Hours: 4.000 Lecture hours: 2.000 Lab hours: 4.000 Levels: Undergraduate Schedule Types: Lecture/Lab Combination Prerequisites: TEG 210
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4.00 Credits
Application programming course on automated manufacturing. Robotic programming with pendant and BASIC. Cell interfacing; robot, CNC, and support devices operating in a BASIC programming environment. 2hours lecture, 4 hours lab. Credit Hours: 4.000 Lecture hours: 2.000 Lab hours: 4.000 Levels: Undergraduate Schedule Types: Lecture/Lab Combination Prerequisites: TEG 205 or TEG 153
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3.00 Credits
An overview of the concepts of work measurement and its use in the industrial environment. The techniques behind time and mothin study, work sampling, predetermined time systems, and standard data will be studied. Emphasis will be on understanding the application and ramification of work measurement in manufactoring organizations. Will explore the Continuous Improvement concept, or Just in Time (JIT) and how it is impacted by work measurement. Will visist the related disciplines of production management, capacity analysis, and manufacturing flow and facilities. 3 hours lecture. Prerequisiste: TMG 201. Credit Hours: 3.000 Lecture hours: 3.000 Levels: Undergraduate Schedule Types: Lecture Prerequisites: TMG 201
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