Maricopa Community Colleges  ECE106AA   19946-19972 
Official Course Description: MCCCD Approval: 03/25/97
ECE106AA 19946-19972 LEC
LAB 		3 Credit(s)
0 Credit(s) 		3 Period(s)
3 Period(s)
Introduction to Computer-Aided Engineering
Computer-aided engineering analysis and design, computer graphics, system modeling, optimization, and graphics documentation. Prerequisites: ECE105 and one year of high school physics. Corequisites: PHY112 or PHY116 in lieu of one year of high school physics.
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MCCCD Official Course Competencies:
 
ECE106AA   19946-19972 Introduction to Computer-Aided Engineering
1. Describe the main tasks in the engineering design process. (I)
2. Identify the elements of problem definition in an engineering design problem. (I)
3. Use freehand drawing to develop an engineering design solution. (I)
4. Describe the process of design and development, and give detailed examples of the engineer's function in the engineering design process. (I)
5. Apply a computer-aided drawing toll, such as AutoCAD, Generic CAD, or FastCAD, to describe an engineering design. (I)
6. Apply the principles of costing, life-cycle costing, and present value calculation in the solution of an engineering design problem. (II)
7. Apply statistics, probability, and correlation of data to describe the solution of an engineering design problem. (III)
8. Use an equation solving tool, such as TK Solver Plus or Mathematics, to develop an analytical model to solve an engineering design problem. (III)
9. Use a spreadsheet, such as Lotus 1-2-3, Lotus Improv, SuperCALC, or AS-EASY-AS, to develop an engineering analysis model to solve an engineering design problem. (III)
10. Use standard engineering documentation techniques to describe an engineering design. (IV)
11. Describe and document the solution to an engineering design problem. (IV)
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MCCCD Official Course Outline:
 
ECE106AA   19946-19972 Introduction to Computer-Aided Engineering
    I. The Engineering Design Process
        A. Problem definition
        B. Idea generation
          1. Methods and tasks
          2. Freehand sketching: ideational drawing
          3. Freehand drawing: communication drawing
        C. Model generation
          1. Hand calculation
          2. Model creation
          3. System modeling
        D. Search for feasible designs
        E. Design documentation
          1. Report writing
          2. Computer-aided drawing
          3. Engineering drawing and documentation standards
          4. Design documentation and data presentation
      II. Engineering Economy
          A. Calculating the value of goods and services
          B. Time value of money
          C. Net present worth method
        III. Engineering Analysis
            A. Model creation using equation solver
            B. Model creation using spreadsheets
            C. System modeling
            D. Probability and statistics in engineering design
          IV. The Engineering Design Problem
              A. Introduction of the design problem
              B. Rules and formulas for the problem solution
              C. Optimum design considerations
              D. Cost analysis of design problem
              E. Solution formulation
              F. Integrated design considerations
              G. Solution documentation
              H. Design documentation
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