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    • 3.00 Credits



      An introductory course in the applications of 3-dimensional parametric modeling software in industrial design and applications. Students will learn the basics of 3-dimensional modeling of components, how these components are assembled in assembly drawings, and how the fit, form and function of each component in the assembly is verified. Emphasis is placed on problem solving with individual and group assignments. Prerequisites(s): ETDD 1020/1021 or permission of instructor. As Required.
    • 0.00 Credits


      An introductory course in the applications of 3-dimensional parametric modeling software in industrial design and applications. Students will learn the basics of 3-dimensional modeling of components, how these components are assembled in assembly drawings, and how the fit, form and function of each component in the assembly is verified. Emphasis is placed on problem solving with individual and group assignments. Prerequisites(s): ETDD 1020/1021 or permission of instructor. As Required.
    • 3.00 Credits


      A study of parametric solid modeling where students will learn the basics of creating two dimensional sketches, creating three dimensional parts using the applications of extruding, revolving, sweeping and lofting of two dimensional sketches, and assembling solid models into functioning assembly models. The theories of dimensional and geometric constraining of entities will be covered in depth. Part and model files will be used to generate two-dimensional mechanical drawings for documentation purposes. Prerequisite(s): ETDD 1010/1011 or permission of instructor. 2 hours lecture/2 hours lab.
    • 0.00 Credits


      A study of parametric solid modeling where students will learn the basics of creating two dimensional sketches, creating three dimensional parts using the applications of extruding, revolving, sweeping and lofting of two dimensional sketches, and assembling solid models into functioning assembly models. The theories of dimensional and geometric constraining of entities will be covered in depth. Part and model files will be used to generate two-dimensional mechanical drawings for documentation purposes. Prerequisite(s): ETDD 1010/1011 or permission of instructor. 2 hours lecture / 2 hours laboratory
    • 3.00 Credits


      A continuation of ETDD 2820, where advanced topics of parametric modeling will be covered. Modeling techniques for advanced models such as gears, cams, sheet metal parts and other motion dependent mechanisms will be covered. S
    • 0.00 Credits


      A continuation of ETDD 2820, where advanced topics of parametric modeling will be covered. Modeling techniques for advanced models such as gears, cams, sheet metal parts and other motion dependent mechanisms will be covered. S
    • 1.00 - 4.00 Credits



      This course is for specially designed advanced study within the realm of Engineering and Architectural Graphics for both board and computer graphic application. May be repeated for 12 hours credit. Prerequisite(s): Consent of instructor. As Required.

    • 4.00 Credits


      An introductory course in DC and AC circuits. Topics include atomic structure, current and voltage, resistance and power. Ohm's Law and series and parallel circuits are covered. Transient response for capacitors and inductors are also discussed. The course includes fundamental AC concepts and phasor calculations for impedance, voltage, and current in RLC circuits. There will also be discussion of ladder logic and introduction to motors and transformers. Prerequisite/Co-Requisite(s): Completion of all learning suport math courses or approval of instructor.
    • 4.00 Credits



      A continuation of ETEE1110. This course extends DC topics to include Network Theorems such as Mesh and Nodal Analysis, Superposition, Thevenin and Norton equivalent circuits. AC topics are covered in more detail and include series and parallel resonance, filters, and three-phase power. Transformers and motors are also covered in more depth than in Circuits I. Prerequisite(s): Completion of all learning support math courses is required, ETEE 1110 or permission of instructor.

    • 3.00 Credits


      An introduction to integrated circuit logic families. A study of number systems, logic gates, Boolean algebra, Karnaugh maps, and the analysis of combinational logic circuits such as flip-flops and other multi-vibrators. Prerequisite(s): Completion of all Learning Support Mathematics. Corequisite: ETEE 1511 F