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This innovative work critically studies the contemporary problems of one segment of science, technology, engineering, and math (STEM) education. The lack of a diverse U.S.-based pool of talent entering the field of engineering education has been termed a crisis by academic and political leaders. Engineering remains one of the most sex segregated academic arenas; the intersection of gendered and racialized exclusion results in very few Latina engineers. Drawing on cutting-edge scholarship in gender and Latino/a studies, the book provides an analytically incisive view of the experiences of Latina engineers. Sponsored by the National Science Foundation through a Gender in Science and Engineering grant, the authors bridge interdisciplinary perspectives to illuminate the nuanced and multiple exclusionary forces that shape the culture of engineering. A large, multi-institution, longitudinal dataset permits disaggregation by race and gender. The authors rely on primary and secondary sources and incorporate an integrated mixed-methods approach combining quantitative and qualitative data. Together, this analysis of the voices of Latina engineering majors breaks new ground in the literature on STEM education and provides an exemplar for future research on subpopulations in these fields. This book is aimed at researchers who study underrepresented groups in engineering and are interested in broadening participation and ameliorating problems of exclusion. It will be attractive to scholars in the fields of multicultural and higher education, sociology, cultural anthropology, cultural studies, and feminist technology studies, and all researchers interested in the intersections of STEM, race, and gender. This resource will be useful for policy-makers and educational leaders looking to revitalize and re-envision the culture within engineering.
Since the late 1950s, the engineering job market in the United States has been fraught with fears of a shortage of engineering skill and talent. U.S. Engineering in a Global Economy brings clarity to issues of supply and demand in this important market. Following a general overview of engineering-labor market trends, the volume examines the educational pathways of undergraduate engineers and their entry into the labor market, the impact of engineers working in firms on productivity and innovation, and different dimensions of the changing engineering labor market, from licensing to changes in demand and guest worker programs. The volume provides insights on engineering education, practice, and careers that can inform educational institutions, funding agencies, and policy makers about the challenges facing the United States in developing its engineering workforce in the global economy.
The Cambridge Handbook of Engineering Education Research is the critical reference source for the growing field of engineering education research, featuring the work of world luminaries writing to define and inform this emerging field. The Handbook draws extensively on contemporary research in the learning sciences, examining how technology affects learners and learning environments, and the role of social context in learning. Since a landmark issue of the Journal of Engineering Education (2005), in which senior scholars argued for a stronger theoretical and empirically driven agenda, engineering education has quickly emerged as a research-driven field increasing in both theoretical and empirical work drawing on many social science disciplines, disciplinary engineering knowledge, and computing. The Handbook is based on the research agenda from a series of interdisciplinary colloquia funded by the US National Science Foundation and published in the Journal of Engineering Education in October 2006.
This book is aimed at engineering academics worldwide, who are attempting to bring social justice into their work and practice, or who would like to but don't know where to start. This is the first book dedicated specifically to University professionals on Engineering and Social Justice, an emerging and exciting area of research and practice. An international team of multidisciplinary authors share their insights and invite and inspire us to reformulate the way we work. Each chapter is based on research and yet presents the outcomes of scholarly studies in a user oriented style. We look at all three areas of an engineering academic's professional role: research, teaching and community engagement. Some of our team have created classes which help students think through their role as engineering practitioners in society. Others are focusing their research on outcomes that are socially just and for client groups who are marginalized and powerless. Yet others are consciously engaging local community groups and exploring ways in which the University might 'serve' communities at home and globally from a post-development perspective. We are additionally concerned with the student cohort and who has access to engineering studies. We take a broad social and ecological justice perspective to critique existing and explore alternative practices. This book is a handbook for any engineering academic, who wishes to develop engineering graduates as well as technologies and practices that are non-oppressive, equitable and engaged. It is also an essential reader for anyone studying in this interdisciplinary juncture of social science and engineering. Scholars using a critical theoretical lens on engineering practice and education, from Science and Technology Studies, History and Philosophy of Engineering, Engineering and Science Education will find this text invaluable.
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This book aims to isolate specific success factors for underrepresented minorities in undergraduate engineering programs. Based on a three-phase study spearheaded by the National Action Council for Minorities in Engineering, the findings include evidence that hands-on exposure to problem-based courses, research, and especially internships are powerful catalysts for engineering success, and that both college adjustment and academic skills matter, in varying degrees, to minority success. By encompassing an unusually large number and range of programs, this research adds to the evidence base for the importance of hands-on exposure to the work of engineering.