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Course Criteria
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3.00 Credits
Prerequisites: MATH 123 and ENGT 168 An advanced logic systems course involving digital systems for measurement, computation and control. Topics include hardware systems for the purposes of personal computing, data acquisition, programmable control and micro controlling. 2 lecture hours; 2 lab hours per week.
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3.00 Credits
Prerequisite: ENGT 172 A course in graphical illustration designed for studies which develop skills in illustrating 3D Mechanical drawings. Studies include intermediate and advanced skill development for 3D mechanical illustration, terminology and techniques using Mechanical Desktop's graphics CAD software AutoCAD 2002 or newer. Studies progress from basic wire frame and surface models to solid modeling and rendering. 1 lecture hours; 4 lab hours per week.
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3.00 Credits
Prerequisite: MATH 223 Acquaints students with the use of microcomputers by programming in Visual Basic and Visual C++ languages. Includes problem solving techniques using arrays, branching methods, loops, subprograms, and parameter passing. 2 lecture hours; 2 lab hours per week.
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3.00 Credits
Prerequisite: ENGT 172 Beginning 3-D Modeling using Pro E, covering the areas of constraint based sketching, extruding, feature construction tools, revolved features, drawing and section views. 2 lecture hours; 2 lab hours per week.
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3.00 Credits
Prerequisite: EMT 180 In this manufacturing processes course, the student will learn about lathe operations. Topics include lathe geometry, spindle and quick change gearing, saddle controls and power feeds, cross slide and compound slide plus gibbing, backlash compensation, chucks and collets, turning, grinding, sharpening, honing, tool height and angle adjustment, and speeds and feeds. 2 lecture hours; 2 lab hours per week.
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3.00 Credits
Prerequisite: ENGT 180 In this manufacturing processes course, the student will learn about vertical and horizontal milling. Topics include milling machine geometry, gear boxes and power feeds, correct use of spindle hand feed, correct cutter rotation for uphill milling and downhill milling and when to use each, spindle speeds and feeds, use of parallel vises, work piece clamping, alignment of vise with machine table, and backlash compensation. 2 lecture ours; 2 lab hours per week.
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3.00 Credits
Prerequisite: ENGT 186 This second course in CNC operations will expand to the student programming and operations of the CNC lathe and vertical milling machines. Topics will include programming formats, canned cycles, cutter compensation, and auxiliary machine control functions. 2 lecture hours; 2 lab hours per week.
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2.00 - 3.00 Credits
Prerequisite: Successful completion of first year sustainable energy certificate courses. This is an internship course to be performed upon or near graduation form the Sustainable Energy certificate program. Students are expected to locate and materially participate in an employment experience related to alternative or sustainable energy generation. The internship requires periodic discussions of student journals, employment experiences, problem solving experiences and system design or analysis applications. Eighty hours of intern employment equals one academic credit hour. 2 lecture hours; 0 lab hours per week.
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3.00 Credits
Prerequisites: MATH 223 and ENGT 210 A continuation of the Mechatronics course offered in the third semester. This course involves a study of close-loop controllers, multi-loop systems, PLC's and human-machine interfaces. The course focuses upon continuous control mode algorithms, multi-loop configurations and HMI/MMI using commonly available software. Loop analysis, tuning, and troubleshooting is emphasized during task-oriented lab experiments. The ISA-CCST emphasis is also continued from the previous course. 2 lecture hours; 2 lab hours per week.
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3.00 Credits
Prerequisite: Sophomore standing. This is a study of new and evolving technologies in engineering. Current topics include locating and learning new technologies, technological trends, micro-electro-mechanical sensors (MEMS), nano-scale technologies, autonomous systems and alternative energies. 3 lecture hours; 0 lab hours per week.
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