Conference Session

Technological and Engineering Literacy/Philosophy of Engineering Division Technical Session 3

Collection

2018 ASEE Annual Conference & Exposition

Authors

Joakim Sigurd Wren, Linköping University, Sweden

Tagged Topics

Diversity

Tagged Divisions

Technological and Engineering Literacy/Philosophy of Engineering

engineering.Teaching in the programs are mainly carried out as lectures, lessons, and laboratory sessions. In atypical engineering course, 30−40% of the education is carried out as lectures, 30−40% aslessons and 20−40% as laboratory experiments. In addition, case studies and project works areused in about half of the courses. Some projects are small (down to 15% of the course workload)and some may make up the whole course.In the present study, two courses are of interest. One is a course in Engineering thermodynamicswhich both the ME, DPD and IEM students take; the ME students as the very first course of theprogram, and the PDP and IEM students at the middle of the second year. The other is a bachelor(capstone) project course that the IEM students take as

Conference Session

Aspects of Engineering Literacy and Community and Industry Engagement

Collection

2017 ASEE Annual Conference & Exposition

Authors

Mike Thomas Pitcher, University of Texas, El Paso; Pedro Arturo Espinoza, University of Texas, El Paso; Oscar Antonio Perez, University of Texas at El Paso; Hugo Gomez, University of Texas, El Paso; Randy Hazael Anaya, University of Texas, El Paso; Hector Erick Lugo Nevarez, University of Texas at El Paso; Peter Golding P.E., University of Texas at El Paso; Erik Lopez; Deena Mustin, UTEP Academic Technologies ; Robin Munoz, Academic Technologies; Jackeline Munoz; Sarah Huizar, UTEP Academic Technologies Learning Environments; Crystal Fernandez-Pena, Carnegie Mellon University; Celena Arreola; Tetyana Zhyvotovska, University of Texas at El Paso

Tagged Topics

Diversity

Tagged Divisions

Technological and Engineering Literacy/Philosophy of Engineering

heavily integrated into the classroom piece whichwould be not be replicable in our project as we had no classroom piece to use to grade such. “Inengineering, there are many examples of service-learning programs ranging from freshmanintroductory courses to senior capstone courses. Despite their successes, an area that theengineering education community has yet to fully develop is the reflection component of service-learning.”3 We have made a conscious choice to keep the project housed outside the bounds of a forcredit course due to student feedback which will be specifically discussed in the results section.RESULTS The exhibits that have been created over the years have varied greatly in design and have grown in depthand complexity over that

Conference Session

Promoting Engineering and Technological Literacy

Collection

2016 ASEE Annual Conference & Exposition

Authors

Janet L. Gbur, Case Western Reserve University; Daniela Solomon, Case Western Reserve University

Tagged Topics

Diversity

Tagged Divisions

Technological and Engineering Literacy/Philosophy of Engineering

, June 12-15, 2005, Portland, OR. Available from: https://peer.asee.org/1465013. Dutson AJ, Todd RH, Magleby SP, Sorensen CD. 1997. A Review of Literature on Teaching Engineering Design through Project‐Oriented Capstone Courses. Journal of Engineering Education. 86(1):17-28. Available from: http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.33.3949&rep=rep1&type=pdf14. Kunst BS, Goldberg JR. 2003. Standards Education in Senior Design Courses. IEEE Engineering in Medicine and Biology Magazine. 22(4):114-117.15. Kelly W. 2003. Incorporating Engineering Standards in the Major Design Experience. In: Proceedings of the 110th ASEE Annual Conference, June 22-25, 2003, Nashville, TN. Available from

Conference Session

Interactive Panel on Improving the Experiences of Marginalized Students on Engineering Design Teams

Collection

2015 ASEE Annual Conference & Exposition

Authors

Lorelle A Meadows, Michigan Technological University; Denise Sekaquaptewa, University of Michigan; Marie C Paretti, Virginia Tech; Alice L. Pawley, Purdue University, West Lafayette; Shawn S. Jordan, Arizona State University, Polytechnic campus; Debbie Chachra, Olin College of Engineering; Adrienne Minerick, Michigan Technological University

Tagged Topics

Diversity

Tagged Divisions

Design in Engineering Education, Electrical and Computer, Engineering Libraries, First-Year Programs, Liberal Education/Engineering & Society, Minorities in Engineering, Student, Technological and Engineering Literacy/Philosophy of Engineering, Women in Engineering

experiences.Dr. Marie C Paretti, Virginia Tech Marie C. Paretti is an Associate Professor of Engineering Education at Virginia Tech, where she co- directs the Virginia Tech Engineering Communications Center (VTECC). Her research focuses on com- munication in engineering design, interdisciplinary communication and collaboration, design education, and gender in engineering. She was awarded a CAREER grant from the National Science Foundation to study expert teaching in capstone design courses, and is co-PI on numerous NSF grants exploring com- munication, design, and identity in engineering. Drawing on theories of situated learning and identity development, her work includes studies on the teaching and learning of communication

Conference Session

TELPhE Division Technical Session 1: Expanding Technological and Engineering Literacies

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Alan Cheville, Bucknell University; John Heywood, Trinity College Dublin

Tagged Topics

Diversity

Tagged Divisions

Technological and Engineering Literacy/Philosophy of Engineering

share much in common with engineering, particularly in terms ofjob functions following graduation [21] such as project management; in both degree programsgraduates are trained to work with contingent problems. Two other degree programs are worthmentioning in terms of their need to deal with contingent problems and in which practitionersoften operate on heuristics rather than rules: teaching and nursing. Until fairly recently thesewere considered primarily occupations that women went into which associated them with lowerstatus than engineering or management given historical belief systems. However, the wayscontingent knowledge is used to manage highly contextualized problems is similar.An in-depth comparison of the educational methods used by

Conference Session

Dimensions of Engineering Literacy and Engineering in General Education

Collection

2017 ASEE Annual Conference & Exposition

Authors

Yuetong Lin, Indiana State University; A. Mehran Shahhosseini, Indiana State University; M. Affan Badar, University of Sharjah & Indiana State University

Tagged Topics

Diversity

Tagged Divisions

Technological and Engineering Literacy/Philosophy of Engineering

learningare collaborative learning, co-operative learning, and problem-based learning. Various studies,from using interactive, hands-on lessons and activities designed to teach research process toundergraduate engineering students 1 , to preparing manufacturing engineering students throughcompetitions, projects sponsored by industry, capstone projects, laboratory exercises or projectssimulating real-life scenarios 2 , have shown that active learning increases student performance inSTEM subjects.Critical thinking, identified by The U. S. Department of Labor as the raw material of a number ofkey workplace skills such as problem solving, decision making, organizational planning, and riskmanagement, is highly coveted by employers of engineering graduates

Conference Session

Promoting Engineering and Technological Literacy

Collection

2015 ASEE Annual Conference & Exposition

Authors

Kenneth W. Van Treuren, Baylor University

Tagged Topics

Diversity

Tagged Divisions

Technological and Engineering Literacy/Philosophy of Engineering

outside theirmajors.One way to promote engineering and liberal arts is to use projects with an innovative andentrepreneurial emphasis.32 Students are challenged by big questions that are open ended andthat allows them to pursue creative solutions, typically in capstone projects. This helps studentsto see their engineering education in the global context.Another way to integrate engineering and liberal arts is to develop minors such as “TechnologyManagement and Policy” that is available at the University of Virginia.33 As an interdisciplinaryminor, it is open to all undergraduates. This program helped engineering students find relevantliberal arts courses that are a vital component of a professional study. If these courses areimportant for a minor