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Course Criteria
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1.00 Credits
Testing with traditional instruments for pressure, temperature, humidity and flow will be carried out. Static and dynamic behavior of instruments will be observed. Concurrent registration in ME 352, or permission of instructor. F (N)
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2.00 Credits
A broad, general, and practical coverage of fluid power technology intended to acquaint students with basic design, functions and applications of fluid power components and systems in the area of hydraulics and pneumatics. Prerequisites: MT121 or MT125. Concurrent registration in ME 355, or permission of instructor. S (N)
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1.00 Credits
Laboratory experiences include demonstrations of fluid principles, study of industrial components, design and testing of basic circuitry. Concurrent registration in ME 354, or permission of instructor. S (N)
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1.00 Credits
This course is an introduction to computer problem solving in mechanical engineering technology. The course topics include Microsoft Word Processing, Power Point, Access, Internet applications and MathCAD. Prerequisite: MT 125 or MT121. Concurrent registration in ME 384, or permission of instructor. F (N)
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1.00 Credits
The student will learn computer applications and will utilize them to do the assigned projects related to the course topics. Concurrent registration in ME 382, or permission of instructor. F (N)
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3.00 Credits
The course reviews basic electricity using phasor diagram to solve circuits with resistance, inductance and capacitance. Computer software is applied to solve basic electronic circuits. Theory of transformers is discussed by the open circuit test, short circuit test, voltage regulation, polarity test, delta and Y connections. Theory of motors and generators are reviewed. The application of single-phase AC motors, three phase motors, DC motors and the related controls are discussed. Pre-requisite: MT125 or MT121, or permission of the instructor. S (N)
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2.00 Credits
Actual practice in using tools related to the air conditioning field; sheet metal layout and fabrication; methods of layout- simple or parallel line, radial line and triangulation; fabrication and assembling of fittings and ducts. F (N)
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3.00 Credits
Heating and cooling load calculations of buildings are discussed. Heat loss or gain through walls and windows by conduction and air infiltration are reviewed. Solar heat gain through windows is studied. Heat gains by people, equipment and lighting is discussed. Heating and cooling equipment sizing is demonstrated in projects. Duct sizing, pipe sizing, piping methods and psychrometrics are briefly reviewed in this course. Concurrent registration in ME 102, or permission of instructor. S (N)
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3.00 Credits
This course discusses the physical principles related to heating and air conditioning, different types of HVAC (e.g. all air, all water/hydroid) systems, comfort zone, hydronic piping systems, terminal units, furnaces, boilers, combustion, psychrometrics, fluid flow in pipes and ducts, pipe sizing, duct sizing, air conditioning equipment, automatic control, instrumentation, energy utilization/consumption and finally a brief review over the refrigeration theory. Concurrent registration in ME 101, or permission of instructor. F (N)
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3.00 Credits
Basic principles of blueprint reading, different types of line, different views, arrangements of views, auxiliary views, dimensioning, notes, sectioning, welding notations, dimensional tolerances, geometric dimensioning and tolerancing, orthographic projection, pictorial drawings, interpretation of engineering drawings, industrial blueprints and freehand sketching. F (N)
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