EGR 122 Engineering Design Spring Semester 2023
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EGR 122
Engineering Design
Spring Semester 2023
Course Description
Applies engineering methods to a semester-long team design project with an emphasis on engineering software involving 2D and 3D computer aided design; data modeling and analysis; and iterative programming solutions. Covers design drawings and dimensioning; spreadsheet software usage; mathematical scripting language; and professional practices.
Lecture 2 hours. Laboratory 2 hours. Total 4 hours per week. 3 credits
General Course Purpose
Prepare students for further study in any Engineering curriculum
Course Prerequisites/Corequisites
Prerequisite: EGR 121 or departmental permission.
Course Objectives
• Problem Solving
o Identify and solve problems using engineering methodologies
• Technology Application
o Use spreadsheet, word processing and presentation software to collect, organize, analyze and present engineering data
• Communication
o Effectively communicate engineering work in oral, written, and visual formats, using graphical information as relevant
• Collaboration
o Improve teamwork skills through a semester-long project
• Professional Ethics
o Explore important contemporary issues facing engineering through case study and/or design project
• Design Process
o Apply the engineering design process including needs identification, specification, analysis of design alternatives, planning, prototyping, testing, and delivery
o Consider sustainability and economic, societal, and environmental impact of design options
• Programming Skills
o Write computer programs for engineering analysis using mathematical scripting software to include looping structures and user-defined functions*
o Develop and apply flowcharts to create algorithms
• Engineering Drawings
o Produce and interpret drawings appropriate to various engineering or related disciplines*
o Produce engineering sketches by hand*
o Demonstrate foundational skill with 2D and 3D computer aided engineering software, to include dimensioning, scaling, orthographic, isometric and exploded views, and assembly*
o Demonstrate an understanding of tolerances and precision
• Data Modeling and Analysis
o Model systems and analyze data using linearization, correlation, and normal distribution
• Design Project
o Apply the design process in a semester-long team project*
o Demonstrate a basic level of understanding of project management methods
o Demonstrate knowledge of basic intellectual property considerations
o Create appropriate design drawings*
o Create and evaluate a physical prototype*
o Write a formal design report documenting the considerations in the design process
o Deliver engineering presentation and demonstrate prototype
o Evaluate team dynamics, and project process and results
Major Topics to be Included
• Problem Solving
• Technology Application
• Communication
• Collaboration
• Professional Ethics
• Design Process
• Programming Skills
• Engineering Drawings
• Data Modeling and Analysis
• Design Project
Continuity of Instruction during Emergency Closure:
During emergency closures lasting more than a day, instructions will be done through Canvas.
Course Outline |
|
|
MeetingDates (Thursday) |
Unit |
Topics |
19-Jan |
1 |
Introduction Engineering Design Introduction to Computer Programming and Inventor |
26-Jan |
2 |
Defining a Design ProcessProblem Definition: Detailing Customer RequirementsClarifying the Objectives Identifying Constraints Establishing Functions |
2-Feb |
3 |
Inventor Lesson 1 |
9-Feb |
4 |
Inventor Lesson 2 |
16-Feb |
5 |
Conceptual Design: Generating Design Alternatives Evaluating Design Alternatives and Choosing a Design Computer Programming Module 1 |
23-Feb |
6 |
Computer Programming Module 2 |
2-Mar |
7 |
Computer Programming Module 3 Data Acquisition and Statistics Assignment |
9-Mar |
8 |
Mid Term Examination Mid Term Project Presentation |
16-Mar |
|
Spring Break |
23-Mar |
9 |
Communicating Designs Graphically Prototyping and Proofing the Design Communicating Designs Orally and in WritingMathematical Modeling in Design |
30-Mar |
10 |
Inventor Lesson 3 and 4 |
6-Apr |
11 |
Computer Programming Module 4 and 5 |
13-Apr |
12 |
Engineering Economics in Design Design for Production, Use and SustainabilityDesign Team Dynamics Managing a Design Project |
20-Apr |
13 |
Team Project Presentation |
27-Apr |
14 |
Ethics in Design |
4-May |
15 |
Final Examination |
Textbook:
Engineering Design, 4th Edition, Dym and Little (ISBN: 978- 1- 118-32458-5), Publisher: Wiley,
Reference:
Parametric Modeling with AutoDESK Inventor 2019, Shih (ISBN: 978- 1-63057- 197-9) Publisher: SDC MATLAB for Engineers, Moore, (ISBN 978-0- 13-210325- 1) Publisher: Pearson
Engineering Computations, An Introduction Using MATLAB and Excel, Musto, Howard, Williams, (ISBN 978-0-07-338016-2), Publisher, McGraw Hill
Software: AutoDESK Inventor, MATLAB, Microsoft Office (Word, Excel and Powerpoint)
Parametric Modeling using Inventor Lessons
Grade Distribution
No make-up midterm and final examinations
Assignments |
25% |
Midterm Exam* |
25% |
Team Project** |
25% |
Final Examination* |
25% |
Total |
100% |
** Team Project grade will factor in the Team Assessment Feedback from each team member.
2023-02-11