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Course Criteria
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1.00 - 5.00 Credits
Techniques for creating, viewing, and plotting 2D AutoCAD drawings will be presented. Lectures, demonstrations, and labs in a variety of applications will enhance the student's CAD ability and professional development. Topics include drawing, editing, and dimensioning commands; drawing setup; blocks; attributes; and plotting. : TECH 105 or permission of instructor. S
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1.00 - 2.00 Credits
An exploration of today's engineering and technology fields and the multifaceted role of the technologist Orientation to student services, academic policies, stress management, science study skills, time management, and other college survival skills will be presented. Additional topics of study include applied mathematics, use of scientific calculators, teamwork and problem solving skills in the classroom, and laboratory and an introduction to the physical units and dimensions encountered in the technologies. B
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2.00 - 3.00 Credits
An introduction to the basic topics of circuit theory and circuit analysis, both DC and AC; the concepts of voltage, current, and power are introduced, as are the primary linear components: resistors, inductors, and capacitors; the fundamental laws and theorems of circuit analysis are covered, including Ohm's, Kirchoff's, Superposition, as well as mesh and nodal circuit analysis. High school physics or SCI 101, and high school mathematics through Course II or MAT 145. F
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2.00 - 3.00 Credits
This course focuses on the theory and application of digital devices and circuits. Topics investigated include digital signals, binary number systems, Boolean Algebra and Karnaugh Mapping circuit reduction techniques Digital devices/circuits tested include basic logic gates, flip flops, counters, adders, registers, encoders, decoders, multiplexers, demultiplexers, and analog-digital converters. The course will also provide an introduction to microcontrollers and applications. : High school physics or SCI 101, and High school math through Course B or MAT 145. S
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0.00 - 3.00 Credits
This course provides an introduction to the properties and use of materials employed in construction. Topics that will be covered include foundations & soils, wood (light frame & heavy timber), concrete, masonry, steel, roofing, windows & doors, and finishes. Lecture topics are supplemented with material samples, photographs of built projects, video, and field trips. F
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1.00 - 5.00 Credits
This course includes advanced drafting skills required in a typical engineering design environment. Topics include drawing views, assembly drawings, threads and fasteners, dimensioning, tolerancing, bearings and shafts, gears, cams, springs, keys, sheet metal and weldments, and the design process. Students will use 2D drafting techniques and parametric solid modeling software : TECH 106. F
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1.00 - 5.00 Credits
A continuation of Engineering Drawing III. Advanced topics include geometric positioning and tolerancing as it relates to symbols, terms, datums, modifiers, geometric characteristics, true position and English/Metric units; and computer numerically controlled (CNC) manufacturing of student's CAD - documented parts executed via post processor software. The course will include an advanced design project involving design calculation formulas studied in other mechanical courses and design and drafting methods studied in previous drawing courses. S
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2.00 - 3.00 Credits
Study of force systems, equilibrium; two and three force members, vectors, analytical methods of solution, friction, moments of inertia of areas. Study of strength of materials concepts: stress, strain, torsional stress and strain, shear and moment in beams, load, shear, and moment diagramPHY 118 and MAT 145 required and MAT 152 recommended. F
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2.00 - 3.00 Credits
Continuation of Strength of Materials topics. Deflection of beams (statically determinate and indeterminate), combined load, welded, bolted and riveted connections, and columns. Dynamics topics include kinematics of rigid bodies, work, energy and power, impulse and momentumTECH 216. S
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2.00 - 4.00 Credits
Techniques for creating, viewing, plotting, and displaying 3D AutoCAD models will be presented Lectures, demonstrations, and labs in a variety of indepth application projects will enhance the student's CAD creative ability and professional development Topics include 3-D display, User Coordinate Systems, point filters, extrusion, surfaces, solid modeling, plotting, rendering, and software customization. : TECH 106 or permission of instructor. F
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