In spite of the increasing numbers of women entering graduate programs in the physical sciences and mathematics in recent years, they continue to remain underrepresented in tenure track academic positions in these fields. This symposium series book looks at the reasons for this under-representation of women in academic science. Social scientists examine the factors that are hindering women from attaining and advancing in these positions. The academic training of women in the US is examined as it relates to their placement in top universities. The situation of women chemists in Europe is also examined and best practices for the training and retention of women in academe are elucidated.
Science changes the world because the creation of knowledge opens up new pathways for us to explore new ways of doing things, and new questions to ask. My optimism lies in the fact that I think that the answer to why science is sexist does all of these things. In this eye-opening BWB Text, Nicola Gaston, President of the New Zealand Association of Scientists, reveals the ways in which the discipline of science is sexist. From the under-representation of women to the argument that mental capabilities are gendered, Gaston demonstrates the extent of our unconscious bias against female scientists, and warns of its damaging consequences for science and for society. In asking what can be done to combat this bias, she calls for us to rethink not just our attitudes towards gender, but also towards scientific knowledge and inquiry.
This encyclopedia surveys the scientific research on gender throughout the ages—the people, experiments, and impact—of both legitimate and illegitimate findings on the scientific community, women scientists, and society at large. Women, Science, and Myth: Gender Beliefs from Antiquity to the Present examines the ways scientists have researched gender throughout history, the ways those results have affected society, and the impact they have had on the scientific community and on women, women scientists, and women's rights movements. In chronologically organized entries, Women, Science, and Myth explores the people and experiments that exemplify the problematic relationship between science and gender throughout the centuries, with particular emphasis on the 20th century. The encyclopedia offers a section on focused cross-period themes such as myths of gender in different scientific disciplines and the influence of cultural norms on specific eras of gender research. It is a timely and revealing resource that celebrates science's legitimate accomplishments in understanding gender while unmasking the sources of a number of debilitating biases concerning women's intelligence and physical attributes.
Gender Differences at Critical Transitions in the Careers of Science, Engineering, and Mathematics Faculty presents new and surprising findings about career differences between female and male full-time, tenure-track, and tenured faculty in science, engineering, and mathematics at the nation's top research universities. Much of this congressionally mandated book is based on two unique surveys of faculty and departments at major U.S. research universities in six fields: biology, chemistry, civil engineering, electrical engineering, mathematics, and physics. A departmental survey collected information on departmental policies, recent tenure and promotion cases, and recent hires in almost 500 departments. A faculty survey gathered information from a stratified, random sample of about 1,800 faculty on demographic characteristics, employment experiences, the allocation of institutional resources such as laboratory space, professional activities, and scholarly productivity. This book paints a timely picture of the status of female faculty at top universities, clarifies whether male and female faculty have similar opportunities to advance and succeed in academia, challenges some commonly held views, and poses several questions still in need of answers. This book will be of special interest to university administrators and faculty, graduate students, policy makers, professional and academic societies, federal funding agencies, and others concerned with the vitality of the U.S. research base and economy.
The United States economy relies on the productivity, entrepreneurship, and creativity of its people. To maintain its scientific and engineering leadership amid increasing economic and educational globalization, the United States must aggressively pursue the innovative capacity of all its people—women and men. However, women face barriers to success in every field of science and engineering; obstacles that deprive the country of an important source of talent. Without a transformation of academic institutions to tackle such barriers, the future vitality of the U.S. research base and economy are in jeopardy. Beyond Bias and Barriers explains that eliminating gender bias in academia requires immediate overarching reform, including decisive action by university administrators, professional societies, federal funding agencies and foundations, government agencies, and Congress. If implemented and coordinated across public, private, and government sectors, the recommended actions will help to improve workplace environments for all employees while strengthening the foundations of America's competitiveness.
A Cultural History of Chemistry in the Modern Age covers the period from 1914 to the present. The impact of chemistry and the chemical industry on science, war, society, and the economy has made this era the “Chemical Age”. Having prospered in the West, chemical science spread across the globe and slowly became more diversified in terms of its ethnic and gendered mix. After flourishing for sixty years, the chemical industry was impacted by the Oil Crisis of the 1970s and became almost invisible in the West. While the industry has clearly delivered many benefits to society-such as new materials and better drugs-it has been excoriated by critics for its impact on the environment. The 6 volume set of the Cultural History of Chemistry presents the first comprehensive history from the Bronze Age to today, covering all forms and aspects of chemistry and its ever-changing social context. The themes covered in each volume are theory and concepts; practice and experiment; laboratories and technology; culture and science; society and environment; trade and industry; learning and institutions; art and representation. Peter J. T. Morris is Honorary Research Associate at the Science Museum, London, and at University College London, UK Volume 6 in the Cultural History of Chemistry set. General Editors: Peter J. T. Morris, University College London, UK, and Alan Rocke, Case Western Reserve University, USA.
Many countries have implemented policies to increase the number and quality of scientific researchers as a means to foster innovation and spur economic development and progress. To that end, grounded in a view of women as a rich, yet underutilized knowledge and labor resource, a great deal of recent attention has focused on encouraging women to pursue education and careers in science — even in countries with longstanding dominant patriarchal regimes. Yet, overall, science remains an area in which girls and women are persistently disadvantaged. This book addresses that situation. It bridges the gap between individual- and societal-level perspectives on women in science in a search for systematic solutions to the challenge of building an inclusive and productive scientific workforce capable of creating the innovation needed for economic growth and societal wellbeing. This book examines both the role of gender as an organizing principle of social life and the relative position of women scientists within national and international labor markets. Weaving together and engaging research on globalization, the social organization of science, and gendered societal relations as key social forces, this book addresses critical issues affecting women’s contributions and participation in science. Also, while considering women’s representation in science as a whole, examinations of women in the chemical sciences, computing, mathematics and statistics are offered as examples to provide insights into how differing disciplinary cultures, functional tasks and socio-historical conditions can affect the advancement of women in science relative to important variations in educational and occupational realities. Edited by three social scientists recognized for their expertise in science and technology policy, education, workforce participation, and stratification, this book includes contributions from an intellectually diverse group of international scholars and analysts and features compelling cases and initiatives from around the world, with implications for research, industry practice, education and policy development.