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The increasing presence of women within engineering programs is one of today's most dramatic developments in higher education. Long before, however, a group of talented and determined women carved out new paths in the College of Engineering at the University of Illinois. Laura D. Hahn and Angela S. Wolters bring to light the compelling hidden stories of these pioneering figures. When Mary Louisa Page became the College's first female graduate in 1879, she also was the first American woman ever awarded a degree in architecture. Bobbie Johnson's insistence on "a real engineering job" put her on a path to the Apollo and Skylab programs. Grace Wilson, one of the College's first female faculty members, taught and mentored a generation of women. Their stories and many others illuminate the forgotten history of women in engineering. At the same time, the authors offer insights into the experiences of today's women from the College -- a glimpse of a brighter future, one where more women in STEM fields apply their tireless dedication to the innovations that shape a better tomorrow.
Diversity drives better business results; however, despite decades of effort, women make up only 15% of engineers. Retaining Women in Engineering: The Empowerment of Lean Development approaches the problem of women leaving engineering from a systems-level perspective to change the way engineering is done and level the playing field between men and women. This book utilizes the six principles of Lean Development and draws from the learnings of the field of medicine, recognizing that access to a vast amount of written knowledge is an important part of a physician’s learning process. Using these principles, the book provides leaders with concrete strategies and methods to change the way engineering is done and learning occurs. Integrated within the book are "gray box stories" which describe two different worlds that engineers work in: that of traditional development and that of Lean Development. These stories underscore the way that the gender confidence gap, bias, and stereotypes affect a female engineer’s career. Additionally, the book highlights how the methods of Lean Development strengthen an individual’s ability to control their learning and career, and a leader’s ability to coach others more effectively. Ultimately, this results in more capable teams. Furthermore, not unlike the marine chronometer (a clock) which solved the centuries old challenge of establishing the longitudinal location for a ship at sea, this book finds the "clock" that levels the playing field between men and women. This book will help leaders at every level within an engineering firm, as well as women engineers and managers who want to grow to their full potential, and others who care about gender equity.
This report contains fifteen presentations from a workshop on best practices in managing diversity, hosted by the NAE Committee on Diversity in the Engineering Workforce on October 29-30, 2001. NAE (National Academy of Engineering) president William Wulf, IBM vice-president Nicholas Donofrio, and Ford vice-president James Padilla address the business case for diversity, and representatives of leading engineering employers discuss how to increase the recruitment, retention, and advancement of women and underrepresented minorities in engineering careers. Other speakers focus on mentoring, globalization, affirmative action backlash, and dealing with lawsuits. Corporate engineering and human resources managers attended the workshop and discussed diversity issues faced by corporations that employ engineers. Summaries of the discussions are also included in the report.
Diversity drives better business results; however, despite decades of effort, women make up only 15% of engineers. Retaining Women in Engineering: The Empowerment of Lean Development approaches the problem of women leaving engineering from a systems-level perspective to change the way engineering is done and level the playing field between men and women. This book utilizes the six principles of Lean Development and draws from the learnings of the field of medicine, recognizing that access to a vast amount of written knowledge is an important part of a physician's learning process. Using these principles, the book provides leaders with concrete strategies and methods to change the way engineering is done and learning occurs. Integrated within the book are "gray box stories" which describe two different worlds that engineers work in: that of traditional development and that of Lean Development. These stories underscore the way that the gender confidence gap, bias, and stereotypes affect a female engineer's career. Additionally, the book highlights how the methods of Lean Development strengthen an individual's ability to control their learning and career, and a leader's ability to coach others more effectively. Ultimately, this results in more capable teams. Furthermore, not unlike the marine chronometer (a clock) which solved the centuries old challenge of establishing the longitudinal location for a ship at sea, this book finds the "clock" that levels the playing field between men and women. This book will help leaders at every level within an engineering firm, as well as women engineers and managers who want to grow to their full potential, and others who care about gender equity.
Women continue to comprise a small minority of students in engineering education and subsequent employment, despite the numerous initiatives over the past 25 years to attract and retain more women in engineering. This book demonstrates the ways in which traditional engineering education has not attracted, supported or retained female students and identifies the issues needing to be addressed in changing engineering education to become more gender inclusive. This innovative and much-needed work also addresses how faculty can incorporate inclusive curriculum within their courses and programs, and provides a range of exemplars of good practice in gender inclusive engineering education that will be immediately useful to faculty who teach engineering students.
In 2001, the National Science Foundation's ADVANCE Institutional Transformation program began awarding five-year grants to colleges and universities to address a common problem: how to improve the work environment for women faculty in science and engineering. Drawing on the expertise of scientists, engineers, social scientists, specialists in organizational behavior, and university administrators, this collection is the first to describe the variety of innovative efforts academic institutions around the country have undertaken. Focusing on a wide range of topics, from how to foster women's academic success in small teaching institutions, to how to use interactive theater to promote faculty reflection about departmental culture, to how a particular department created and maintained a healthy climate for women's scientific success, the contributors discuss both the theoretical and empirical aspects of the initiatives, with emphasis on the practical issues involved in creating these approaches. The resulting evidence shows that these initiatives have the desired effects. The cases represented in this collection depict the many issues women faculty in science and engineering face, and the solutions that are presented can be widely accepted at academic institutions around the United States. The essays inTransforming Science and Engineeringillustrate that creating work environments that sustain and advance women scientists and engineers benefits women, men, and underrepresented minorities. Abigail J. Stewart is Sandra Schwartz Tangri Distinguished University Professor of Psychology and Women's Studies at the University of Michigan and author or editor of several books, includingTheorizing Feminism: Parallel Trends in the HumanitiesandSocial Sciences and Feminisms in the Academy. Janet E. Malley is a psychologist and Associate Director of the Institute for Research on Women and Gender at the University of Michigan. Danielle LaVaque-Manty is Research Associate at the Institute for Research on Women and Gender at the University of Michigan. Cover photo: Joanne Leonard With a foreword by Mary Sue Coleman, President of the University of Michigan "If you have thrown up your hands in despair after trying to retain women science and engineering in the academy, read this book. It offers detailed descriptions of a wide array of tried-and-true programs that have been tested out by the NSF ADVANCE program." ---Joan C. Williams, 1066 Foundation Chair & Distinguished Professor of Law Director, Center for WorkLife Law University of California "Solid and practical, this volume details the first years of NSF funded institutional change to remake gender dynamics inside U.S. science. What works? What doesn't? And why?" ---Londa Schiebinger, John L. Hinds Professor of History of Science and Barbara D. Finberg Director, Michelle R. Clayman Institute for Gender Research at Stanford University, and author ofHas Feminism Changed Science? "This book's time has come.Transforming Science and Engineeringis important, and lots of people can learn from what has happened in the ADVANCE universities." ---Lotte Bailyn, Professor of Management, Behavioral and Policy Sciences Department, Sloan School of Management, MIT; author ofBreaking the Mold: Redesigning Work for Productive and Satisfying Lives; and coauthor ofBeyond Work-Family Balance: Advancing Gender Equity and Workplace Performance "This collection profiles 16 NSF ADVANCE grant successes, sandwiched between an interview with Dr. Alice Hogan and Dr. Lee Harle's summary of cost-effective practices from ADVANCE programs, giving so many 'biggest bang for the buck' examples in so few pages that it will easily justify both the cost of the book and the reading time. These accounts do not continue the too-c
Career success guide for female engineers.
Women in the developed world expect to work in the labour force over the course of their lives. On finishing school more girls are entering universities and undertaking professional training for careers than ever before. Males and females enter many high status professions in roughly equal numbers. However, engineering stands out as a profession that remains obstinately male dominated. Despite efforts to change, little progress has been made in attracting and retaining women in engineering. This book analyses the outcomes of a decade-long investigation into this phenomenon, framed by two questions: Why are there so few women in engineering? And why is this so difficult to change? The study includes data from two major surveys, accounts from female engineers in a range of locations and engineering fields, and case studies of three large engineering corporations. The authors explore the history and politics of several organisations related to women in engineering, and conclude with an analysis of a range of campaigns that have been waged to address the issue of women’s minority status in engineering. Challenging Knowledge, Sex and Power will be of great interest to students of feminist economics, and is also relevant to researchers in women’s studies and engineering education.
An accessible and timely guide to increasing female presence and leadership in tech companies Tech giants like Apple and Google are among the fastest growing companies in the world, leading innovations in design and development. The industry continues to see rapid growth, employing millions of people: in the US it is at the epicenter of the American economy. So why is it that only 5% of senior executives in the tech industry are female? Underrepresentation of women on boards of directors, in the C-suite, and as senior managers remains pervasive in this industry. As tech companies are plagued with high-profile claims of harassment and discrimination, and salary discrepancies for comparable work, one asks what prevents women from reaching management roles, and, more importantly, what can be done to fix it? The Future of Tech is Female considers the paradoxes involved in women’s ascent to leadership roles, suggesting industry-wide solutions to combat gender inequality. Drawing upon 15 years of experience in the field, Douglas M. Branson traces the history of women in the information technology industry in order to identify solutions for the issues facing women today. Branson explores a variety of solutions such as mandatory quota laws for female employment, pledge programs, and limitations on the H1-B VISA program, and grapples with the challenges facing women in IT from a range of perspectives. Branson unpacks the plethora of reasons women should hold leadership roles, both in and out of this industry, concluding with a call to reform attitudes toward women in one particular IT branch, the video and computer gaming field, a gateway to many STEM futures. An invaluable resource for anyone invested in gender equality in corporate governance, The Future of Tech is Female lays out the first steps toward a more diverse future for women in tech leadership
Although more women than men participate in higher education in the United States, the same is not true when it comes to pursuing careers in science and engineering. To Recruit and Advance: Women Students and Faculty in Science and Engineering identifies and discusses better practices for recruitment, retention, and promotion for women scientists and engineers in academia. Seeking to move beyond yet another catalog of challenges facing the advancement of women in academic science and engineering, this book describes actions actually taken by universities to improve the situation for women. Serving as a guide, it examines the following: Recruitment of female undergraduates and graduate students. Ways of reducing attrition in science and engineering degree programs in the early undergraduate years. Improving retention rates of women at critical transition pointsâ€"from undergraduate to graduate student, from graduate student to postdoc, from postdoc to first faculty position. Recruitment of women for tenure-track positions. Increasing the tenure rate for women faculty. Increasing the number of women in administrative positions. This guide offers numerous solutions that may be of use to other universities and colleges and will be an essential resource for anyone interested in improving the position of women students, faculty, deans, provosts, and presidents in science and engineering.