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“An engaging, insightful, and challenging call to examine both the rhetoric and reality of innovation and inclusion in science and science policy.” —Daniel R. Morrison, American Journal of Sociology Stem cell research has sparked controversy and heated debate since the first human stem cell line was derived in 1998. Too frequently these debates devolve to simple judgments—good or bad, life-saving medicine or bioethical nightmare, symbol of human ingenuity or our fall from grace—ignoring the people affected. With this book, Ruha Benjamin moves the terms of debate to focus on the shifting relationship between science and society, on the people who benefit—or don’t—from regenerative medicine and what this says about our democratic commitments to an equitable society. People’s Science uncovers the tension between scientific innovation and social equality, taking the reader inside California’s 2004 stem cell initiative, the first of many state referenda on scientific research, to consider the lives it has affected. Benjamin reveals the promise and peril of public participation in science, illuminating issues of race, disability, gender, and socio-economic class that serve to define certain groups as more or less deserving in their political aims and biomedical hopes. Ultimately, Ruha Benjamin argues that without more deliberate consideration about how scientific initiatives can and should reflect a wider array of social concerns, stem cell research—from African Americans’ struggle with sickle cell treatment to the recruitment of women as tissue donors—still risks excluding many. Even as regenerative medicine is described as a participatory science for the people, Benjamin asks us to consider if “the people” ultimately reflects our democratic ideals.
Challenges popular beliefs that credit such figures as Galileo, Newton, and Einstein with bringing about modern science, explaining how everyday laborers participated in creating science and continue to do so today, in an account that also documents how the development of science affects ordinary people. Original.
For the first time, this book compiles original documents from Science for the People, the most important radical science movement in U.S. history. Between 1969 and 1989, Science for the People mobilized American scientists, teachers, and students to practice a socially and economically just science, rather than one that served militarism and corporate profits. Through research, writing, protest, and organizing, members sought to demystify scientific knowledge and embolden "the people" to take science and technology into their own hands. The movement's numerous publications were crucial to the formation of science and technology studies, challenging mainstream understandings of science as "neutral" and instead showing it as inherently political. Its members, some at prominent universities, became models for politically engaged science and scholarship by using their knowledge to challenge, rather than uphold, the social, political, and economic status quo. Highlighting Science for the People's activism and intellectual interventions in a range of areas -- including militarism, race, gender, medicine, agriculture, energy, and global affairs -- this volume offers vital contributions to today's debates on science, justice, democracy, sustainability, and political power.
Understanding Young People's Science Aspirations offers new evidence and understanding about how young people develop their aspirations for education, learning and, ultimately, careers in science. Integrating new findings from a major research study with a wide ranging review of existing international literature, it brings a distinctive sociological analytic lens to the field of science education. The book offers an explanation of how some young people do become dedicated to follow science, and what might be done to increase and broaden this population, exploring the need for increased scientific literacy among citizens to enable them to exercise agency and lead a life underpinned by informed decisions about their own health and their environment. Key issues considered include: why we should study young people’s science aspirations the role of families, social class and science capital in career choice the links between ethnicity, gender and science aspirations the implications for research, policy and practice. Set in the context of widespread international policy concern about the urgent need to improve, increase and diversify participation in post-16 science, this key text considers how we must encourage a supply of appropriately qualified future scientists and workers in STEM industries and ensure a high level of scientific literacy in society. It is a crucial read for all training and practicing science teachers, education researchers and academics, as well as anyone invested in the desire to help fulfil young people’s science aspirations.
The work details the emergence, in the post-Napoleonic War period, of a growing popular interest in the critical potentialities of political economy. It considers why this occurred and discusses how the conceptual and analytical tools of political economy were utilised to formulate a critique of early industrial capitalism. The book examines the theories of labour exploitation and capitalist crisis which represented the essence of that critique both as they were elaborated by early-nineteenth-century British anti-capitalist and socialist writers and as they were popularised by writers in the working-class press of the period 1816-34. The book argues that by 1834 in consequence of the efforts of writers such as Hodgskin, Thompson, Gray, Owen and their popularisers the foundations of a distinctively anti-capitalist and socialist political economy had been established and widely disseminated. But these foundations were theoretically flawed. They were flawed by an overconcentration on the sphere of exchange which derived from a particular conception of the determination of exchange value under capitalism; an overconcentration which led on to the suggestion of remedies for the problem of working-class poverty and distress which were necessarily doomed to failure.
Shortlisted for the Fage and Oliver Prize 2018 From December 2013, the largest Ebola outbreak in history swept across West Africa, claiming thousands of lives in Liberia, Sierra Leone and Guinea. By the middle of 2014, the international community was gripped by hysteria. Experts grimly predicted that millions would be infected within months, and a huge international control effort was mounted to contain the virus. Yet paradoxically, by this point the disease was already going into decline in Africa itself. So why did outside observers get it so wrong? Paul Richards draws on his extensive first-hand experience in Sierra Leone to argue that the international community’s panicky response failed to take account of local expertise and common sense. Crucially, Richards shows that the humanitarian response to the disease was most effective in those areas where it supported these initiatives and that it hampered recovery when it ignored or disregarded local knowledge.
Longlisted for the Fleck Prize from the Society for Social Studies of Science (4S) Citizen science—research involving nonprofessionals in the research process—has attracted both strong enthusiasts and detractors. Many environmental professionals, activists, and scholars consider citizen science part of their toolkit for addressing environmental challenges. Critics, however, contend that it represents a corporate takeover of scientific priorities. In this timely book, two sociologists move beyond this binary debate by analyzing the tensions and dilemmas that citizen science projects commonly face. Key lessons are drawn from case studies where citizen scientists have investigated the impact of shale oil and gas, nuclear power, and genetically engineered crops. These studies show that diverse citizen science projects face shared dilemmas relating to austerity pressures, presumed boundaries between science and activism, and difficulties moving between scales of environmental problems. By unpacking the politics of citizen science, this book aims to help people negotiate a complex political landscape and choose paths moving toward social change and environmental sustainability.
Informal science is a burgeoning field that operates across a broad range of venues and envisages learning outcomes for individuals, schools, families, and society. The evidence base that describes informal science, its promise, and effects is informed by a range of disciplines and perspectives, including field-based research, visitor studies, and psychological and anthropological studies of learning. Learning Science in Informal Environments draws together disparate literatures, synthesizes the state of knowledge, and articulates a common framework for the next generation of research on learning science in informal environments across a life span. Contributors include recognized experts in a range of disciplines-research and evaluation, exhibit designers, program developers, and educators. They also have experience in a range of settings-museums, after-school programs, science and technology centers, media enterprises, aquariums, zoos, state parks, and botanical gardens. Learning Science in Informal Environments is an invaluable guide for program and exhibit designers, evaluators, staff of science-rich informal learning institutions and community-based organizations, scientists interested in educational outreach, federal science agency education staff, and K-12 science educators.
In the 1920s an international team of scientists and miners unearthed the richest evidence of human evolution the world had ever seen: Peking Man. After the communist revolution of 1949, Peking Man became a prominent figure in the movement to bring science to the people. In a new state with twin goals of crushing “superstition” and establishing a socialist society, the story of human evolution was the first lesson in Marxist philosophy offered to the masses. At the same time, even Mao’s populist commitment to mass participation in science failed to account for the power of popular culture—represented most strikingly in legends about the Bigfoot-like Wild Man—to reshape ideas about human nature. The People’s Peking Man is a skilled social history of twentieth-century Chinese paleoanthropology and a compelling cultural—and at times comparative—history of assumptions and debates about what it means to be human. By focusing on issues that push against the boundaries of science and politics, The People’s Peking Man offers an innovative approach to modern Chinese history and the history of science.
How do people understand science? How do they feel about science, how do they relate to it, what do they hope from it and what do they fear about it? Science of the People: Understanding and using science in everyday contexts helps answer these questions as the result of painstaking interviewing by Professor Joan Solomon of all and sundry in a fairly typical small town. The result is a unique overview of how a very wide range of adults, united only by local geography, relate to science. Many of the findings run contrary to what is widely believed about how science is learnt and about how people view it. Chapters include: An Approach to Awareness Publics for Science? Ethics and Action Interpretation and Change Joan Solomon, who sadly died before this book could be published, enjoyed an international reputation in science education. After a long career teaching science in secondary schools she moved into the university sector and ending up holding chairs of science education at the Open University, King’s College London and the University of Plymouth. She was a world leader in her subject and inspired classroom teachers and wrote a number of very influential papers with some of them. She produced many important books, booklets and other resources to help science teachers and science educators get to grips with the history and philosophy of science and the teaching of energy, amongst other topics. This book is essential reading for those involved in Science education and educational policy.