TY - JOUR

T1 - Design for the future

T2 - Analyzing the broader implications of electronic technologies in an introductory engineering class

AU - Breslin, Samantha Dawn

AU - Przestrzelski, Bre

AU - Lord, Susan

PY - 2020

Y1 - 2020

N2 - This innovative practice full paper shows how considerations of social, environmental, and economic context were integrated into a required introductory course on electrical engineering. We describe the content, implementation, and results of a "Design for the Future" module conducted in Spring 2019. This module is framed around a course-long student project where students choose a technology of interest (TOI) to them that relates to electrical engineering, (e.g. Tesla batteries, solar cells, and tidal-powered turbines). The module includes a student proposal; lectures and discussions interrogating how to determine and define sustainable technologies and how these can be improved; a memo homework asking students to consider the design of a solar farm; an in-class worksheet exercise designed to help students consider the design implications of who benefits, who pays, and who is excluded in relation to their TOI; and, finally, students present and submit a report on their TOI. Student feedback in surveys and a focus group showed that the module enabled students to think more deeply about the broader implications of technologies and their electrical components. We provide a reflection on the successes and areas for improvement of this module, along with module materials, with the hope that they might help others incorporate them into their courses towards developing the capacity among engineering students to address broad considerations that support values such as sustainability and social justice.

AB - This innovative practice full paper shows how considerations of social, environmental, and economic context were integrated into a required introductory course on electrical engineering. We describe the content, implementation, and results of a "Design for the Future" module conducted in Spring 2019. This module is framed around a course-long student project where students choose a technology of interest (TOI) to them that relates to electrical engineering, (e.g. Tesla batteries, solar cells, and tidal-powered turbines). The module includes a student proposal; lectures and discussions interrogating how to determine and define sustainable technologies and how these can be improved; a memo homework asking students to consider the design of a solar farm; an in-class worksheet exercise designed to help students consider the design implications of who benefits, who pays, and who is excluded in relation to their TOI; and, finally, students present and submit a report on their TOI. Student feedback in surveys and a focus group showed that the module enabled students to think more deeply about the broader implications of technologies and their electrical components. We provide a reflection on the successes and areas for improvement of this module, along with module materials, with the hope that they might help others incorporate them into their courses towards developing the capacity among engineering students to address broad considerations that support values such as sustainability and social justice.

KW - Faculty of Social Sciences

KW - implications of design

KW - social

KW - environmental and economic context

KW - electrical engineering

KW - design for the future

U2 - 10.1109/FIE44824.2020.9273910

DO - 10.1109/FIE44824.2020.9273910

M3 - Journal article

SP - 1

EP - 6

JO - Frontiers in Education Conference. Conference Proceedings

JF - Frontiers in Education Conference. Conference Proceedings

SN - 1539-4565

ER -