Studying the Career Pathways of Engineers

Sheri D. Sheppard; Anthony Lising Antonio; Samantha R. Brunhaver; Shannon K. Gilmartin

doi:10.1017/CBO9781139013451.020

Chapter 15 - Studying the Career Pathways of Engineers

An Illustration with Two Data Sets

Published online by Cambridge University Press: 05 February 2015

Sheri D. Sheppard ,

Anthony Lising Antonio ,

Samantha R. Brunhaver and

Shannon K. Gilmartin

Edited by

Aditya Johri and

Barbara M. Olds

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Sheri D. Sheppard: Affiliation:
Stanford University
Anthony Lising Antonio: Affiliation:
Stanford University
Samantha R. Brunhaver: Affiliation:
Stanford University
Shannon K. Gilmartin: Affiliation:
Stanford University
Aditya Johri: Affiliation:
Virginia Polytechnic Institute and State University
Barbara M. Olds: Affiliation:
Colorado School of Mines

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Summary

Introduction

While calls for the strengthening of U.S. education once again surface in the name of global competitiveness, a primary issue facing engineering education is retention in the profession. As Lowell and Salzman (2007) have argued, the demand for engineers and scientists remains strong and the overall production of engineers and scientists appears more than adequate. The troubling trend over the last two decades, however, is that the highest performing students and graduates are leaving science and engineering pathways at higher rates than are their lower performing peers (Lowell, Salzman, Bernstein, & Henderson, 2009). This finding is significant for engineering education as it identifies an important direction for research in this area. Based on their study of pathways through and beyond college, Lowell et al. (2009) conclude that “students are not leaving STEM pathways because of lack of preparation or ability” and that research efforts should turn to “factors other than educational preparation or student ability in this compositional shift to lower-performing students in the STEM pipeline” (p. iii).

Our understanding of the aforementioned shift is limited even while the study of engineering career pathways began as early as the late 1970s with the work of LeBold, Bond, and Thomas (1977) on black engineers at Purdue University. Although the literature on engineering education and the profession has proliferated since that time, relatively few studies have looked carefully at the career decisions of engineering graduates. For instance, much of the work on engineering career pathways simply accounts for the numbers of engineers at different points in the pathway to quantify attrition points and rates (e.g., Bradburn, Nevill, Forrest, Cataldi, & Perry, 2006; Choy, Bradburn, & Carroll, 2008; Forrest Cataldi et al., 2011; Frehill, 2007a; Reese, 2003; Regets, 2006) and provides little information on differential pathways or the factors which influence these pathways. More recent work investigates aspects of early career engineers that reflect a focus beyond educational preparation and training and academic and technical ability (e.g., Fouad & Singh, 2011; Ro, 2011), but a thorough review reveals a collection of data sets and studies that remain incomplete for comprehensively understanding the early career pathways of engineers.

Type: Chapter
Information: Cambridge Handbook of Engineering Education Research , pp. 283 - 310

DOI: https://doi.org/10.1017/CBO9781139013451.020 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2014

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References

Amelink, C., & Creamer, E. G. (2010). Gender differences in elements of the undergraduate experience that influence satisfaction with the engineering major and the intent to pursue engineering as a career. Journal of Engineering Education, 99(1), 81–92.CrossRef Google Scholar

American Society for Engineering Education. (2011). Engineering and engineering technology college profiles for 2006. Retrieved from

Astin, A. W. (1993). What matters in college? Four critical years revisited. San Francisco: Jossey-Bass.Google Scholar

Atman, C. J.,Sheppard, S. D.,Turns, J.,Adams, R. S.,Fleming, L. N.,Stevens, R.,…Lund, D. (2010). Enabling student success: The final report for the Center for the Advancement of Engineering Education. San Rafael, CA: Morgan and Claypool.Google Scholar

Bradburn, E. M.,Nevill, S.,Forrest Cataldi, E., & Perry, K. (2006). Where are they now? A description of 1992–93 bachelor's degree recipients 10 years later (NCES 2007–159). Washington, DC: The U. S. Department of Education, National Center for Education Statistics.Google Scholar

Brunhaver, S.,Gilmartin, S.,Chen, H., & Sheppard, S. (2012). Correlates of post-graduation paths among early career engineering graduates. Paper presented at the Association for the Study of Higher Education Annual Conference, Las Vegas, NV.Google Scholar

Bureau of Labor Statistics. (2006). The employment situation: April 2006. Washington, DC: United States Department of Labor.Google Scholar

Bureau of Labor Statistics. (2011). National cross-industry estimates, May 2007. Retrieved from

Chen, H. L.,Grau, M. M.,Brunhaver, S. R.,Gilmartin, S. K.,Sheppard, S. D., & Warner, M. (2012). Designing the Pathways of Engineering Alumni Research Survey (PEARS). In Proceedings of the American Society for Engineering Education Annual Conference, San Antonio, TX.Google Scholar

Choy, S. P.,Bradburn, E. M., & Carroll, C. D. (2008). Ten years after college: Comparing the employment experiences of 1992–93 bachelor's degree recipients with academic and career-oriented majors (NCES 2008–155). Washington, DC: The U. S. Department of Education, National Center for Education Statistics.

Donaldson, K. M.,Chen, H. L.,Toye, G.,Clark, M., & Sheppard, S. D. (2008). Scaling up: Taking the Academic Pathways of People Learning Engineering Survey (APPLES) national. Paper presented at the American Association for Engineering Education/Frontiers in Education Conference, Saratoga Springs, NY.Google Scholar

Eris, O.,Chachra, D.,Chen, H.,Sheppard, S.,Ludlow, L.,Rosca, C.,…Toye, G. (2010). Outcomes of a longitudinal administration of the Persistence in Engineering Survey. Journal of Engineering Education, 99(4), 371–395.CrossRef Google Scholar

Forrest Cataldi, E.,Green, C.,Henke, R.,Lew, T.,Woo, J.,Shepherd, B.,…& Socha, T. (2011). 2008–09 Baccalaureate and Beyond Longitudinal Study (B&B:08/09): First look. Washington, DC: The U. S. Department of Education, National Center for Education Statistics.

Fouad, N. A., & Singh, R. (2011). Stemming the tide: Why women leave engineering. Milwaukee, WI: The University of Wisconsin-Milwaukee.Google Scholar

Frehill, L. (2007a). What do women do with engineering degrees? In Proceedings of the 2007 Women in Engineering Programs and Advocates Network (WEPAN) Conference, Lake Buena Vista, FL.Google Scholar

Frehill, L. (2007b). The Society of Women Engineers National Survey about Engineering: Are women more or less likely than men to be retained in engineering after college?SWE Magazine, 53(4), 22–25.Google Scholar

Frehill, L. (2007c). The Society of Women Engineers National Survey about Engineering: Is the engineering workplace ‘warming’ for women?SWE Magazine, 53(5), 16–20.Google Scholar

Frehill, L. (2008). The Society of Women Engineers National Survey about Engineering: Why do women leave the engineering work force?SWE Magazine, 54(1), 24–26.Google Scholar

Gilmartin, S. K.,Antonio, A. L.,Brunhaver, S. R.,Chen, H. L., & Sheppard, S. D. (Forthcoming). Career plans of undergraduate engineering students: Characteristics and contexts. In Freeman, R. & Salzman, H. (Eds.), U. S. engineering in the global economy. Cambridge, MA: National Bureau of Economic Research.

LeBold, W.,Bond, A., & Thomas, M. (1977). Recruitment and retention of Black Americans in engineering at Purdue: A follow-up study of Black engineering graduates. West Lafayette, IN: Purdue University.Google Scholar

Lichtenstein, G.,Loshbaugh, H. G.,Claar, B.,Chen, H. L.,Jackson, K., & Sheppard, S. D. (2009). An engineering major does not (necessarily) an engineer make: Career decision-making among undergraduate engineering majors. Journal of Engineering Education, 98(2), 227–234.CrossRef Google Scholar

Lowell, B. L., & Salzman, H. (2007). Into the eye of the storm: Assessing the evidence on science and engineering education, quality, and workforce demand. Washington, DC: Urban Institute.Google Scholar

Lowell, B. L.,Salzman, H.,Bernstein, H., & Henderson, E. (2009). Steady as she goes? Three generations of students through the science and engineering pipeline. Paper presented at the Annual Meetings of the Association for Public Policy Analysis and Management, Washington, DC.Google Scholar

National Center for Education Statistics. (2011). Integrated postsecondary education data system, 2006. Retrieved from

National Science Foundation (NSF),Division of Science Resources Statistics. (2011). Women, minorities, and persons with disabilities in science and engineering: 2011. Special Report NSF 11–309. Arlington, VA. Retrieved from .

National Science Foundation (NSF),National Center for Science and Engineering Statistics. (2006). NSRCG PUBLIC 2006 data file. Retrieved from

Ohland, M. W.,Brawner, C. E.,Layton, R. A.,Long, R. A.,Lord, S. M., & Wasburn, M. H. (2011). Race, gender, and measures of success in engineering education. Journal of Engineering Education, 100(2), 225–252.CrossRef Google Scholar

Pascarella, E. T., & Terenzini, P. T. (2005). How college affects students. A third decade of research. San Francisco, CA: Jossey-Bass.Google Scholar

Reese, C. (2003). Employment history survey of ASCE's younger members. Leadership and Management in Engineering, 3(1), 33–53.CrossRef Google Scholar

Regets, M. C. (2006). What do people do after earning a science and engineering bachelor's degree? Info Brief 06–234. Washington, DC: The National Science Foundation.Google Scholar

Ro, H. K. (2011). An investigation of engineering students’ post-graduation plans inside or outside of engineering (Doctoral dissertation). University Park, PA: The Pennsylvania State University. Retrieved from .Google Scholar

Robst, J. (2007). Education and job match: The relatedness of college major and work. Economics of Education Review, 26(4), 397–407.CrossRef Google Scholar

Seymour, E., & Hewitt, N. M. (1997). Talking about leaving: Why undergraduates leave the sciences. Boulder, CO: Westview Press.Google Scholar

Sheppard, S.,Gilmartin, S.,Chen, H. L.,Donaldson, K.,Lichtenstein, G.,Eris, O.,…Toye, G. (2010). Exploring the engineering student experience: Findings from the Academic Pathways of People Learning Engineering Survey (APPLES). (TR-10–01). Seattle, WA: Center for the Advancement of Engineering Education.Google Scholar

Sheppard, S.,Matusovich, H. M.,Atman, C.,Streveler, R. A., & Miller, R. L. (2011). Work in progress – Engineering Pathways Study: The college–career transition. Paper presented at the American Association for Engineering Education/Frontiers in Education Conference, Rapid City, SD.Google Scholar

Winters, K. E. (2012). Career goals and actions of early career engineering graduates (Doctoral dissertation). Blacksburg, VA: Virginia Polytechnic Institute and State University. Retrieved from .Google Scholar

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