Pittsburgh, Pennsylvania
June 22, 2008
June 22, 2008
June 25, 2008
2153-5965
First-Year Programs
15
13.376.1 - 13.376.15
10.18260/1-2--3933
https://peer.asee.org/3933
492
Susan Montgomery is a lecturer and program advisor in the Chemical Engineering Dept. at the University of Michigan. She earned a BSEChE from the University of Michigan, and PhD ChE from Princeton University. She is the ASEE Campus representative and faculty advisor to the ASEE graduate student group. She leads a team of students developing educational software for chemical engineering.
Rod Johnson is a lecturer in Technical Communication at the University of Michigan College of Engineering. He has a Ph.D in Linguistics from the University of Michigan. He was part of the original team developing Michigan's Introduction to Engineering course and has taught it since 1992.
Design, the Next Generation: A first-year course in product design
Introduction
In recent years the teaching of engineering, exemplified by ABET Criteria 20001, has recognized that professional engineers have to master a wide variety of skills and responsibilities—not only traditional engineering science and problem solving, but working in multidisciplinary teams and effectively communicating about their work. The challenge for educators has been to integrate this more holistic view of an engineer’s training with the already demanding curricula already in place. At the University of Michigan all incoming first-year students are required to take a course, Engineering 100, “Introduction to Engineering,” that integrates many of these skills— design, communication, engineering science and teamwork—in the context of a semester-long project. This course has several sections each semester, each with a different project focus. Some sections of this course go through a complete design/build/test cycle, while others, such as ours, focus more closely on the design process.
Our section, Design: The Next Generation, focuses on the product design process. Students learn about design through redesign of common consumer devices. They undertake a market analysis of the device as part of determining design objectives, undertake experimental studies on the performance of existing products, carry out reverse engineering of two models, and propose a design for the next generation of the device. As part of this experience they become immersed in the design process; design and execute experiments; use basic statistics to analyze the needs of their users and their experimental results; write technical reports and proposals; and prepare and deliver oral presentations. We also focus on the students’ growth as competent team members, with an ongoing peer evaluation process that includes individual or team intervention as needed. In this paper, we provide details on the teaching of our course, and share insights that should help others planning to teach a similar course in the future.
Course overview
The outcomes that all students in the “Introduction to Engineering” course are expected to achieve are outlined in Table 1 and shown in more detail in the Appendix.
It is worth noting that most of these outcomes do not lend themselves well to a purely cognitive approach—that is one that focuses on transferring knowledge from instructor to student. In fact, it is sometimes difficult to specify exactly what the “knowledge” component of design, teamwork or communication should be. Instead, we focus on developing students’ skill and confidence as practitioners in these areas by letting them work through the experience. In some areas our role is as much that of coach as it is subject-area expert.
Montgomery, S., & Johnson, R. (2008, June), Design, The Next Generation: A First Year Course In Product Design Paper presented at 2008 Annual Conference & Exposition, Pittsburgh, Pennsylvania. 10.18260/1-2--3933
ASEE holds the copyright on this document. It may be read by the public free of charge. Authors may archive their work on personal websites or in institutional repositories with the following citation: © 2008 American Society for Engineering Education. Other scholars may excerpt or quote from these materials with the same citation. When excerpting or quoting from Conference Proceedings, authors should, in addition to noting the ASEE copyright, list all the original authors and their institutions and name the host city of the conference. - Last updated April 1, 2015