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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

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

** Team Project grade will factor in the Team Assessment Feedback from each team member.