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For many college students, studying the hard sciences seems out of the question. Students and professors alike collude in the prejudice that physics and molecular biology, mathematics and engineering are elite disciplines restricted to a small number with innate talent. Gregory Light and Marina Micari reject this bias, arguing, based on their own transformative experiences, that environment is just as critical to academic success in the sciences as individual ability. Making Scientists lays the groundwork for a new paradigm of how scientific subjects can be taught at the college level, and how we can better cultivate scientists, engineers, and other STEM professionals. The authors invite us into Northwestern University’s Gateway Science Workshop, where the seminar room is infused with a sense of discovery usually confined to the research lab. Conventional science instruction demands memorization of facts and formulas but provides scant opportunity for critical reflection and experimental conversation. Light and Micari stress conceptual engagement with ideas, practical problem-solving, peer mentoring, and—perhaps most important—initiation into a culture of cooperation, where students are encouraged to channel their energy into collaborative learning rather than competition with classmates. They illustrate the tangible benefits of treating students as apprentices—talented young people taking on the mental habits, perspectives, and wisdom of the scientific community, while contributing directly to its development. Rich in concrete advice and innovative thinking, Making Scientists is an invaluable guide for all who care about the future of science and technology.
Americans have access to some of the best science education in the world, but too often black students are excluded from these opportunities. This essential book by leading voices in the field of education reform offers an inspiring vision of how America’s universities can guide a new generation of African Americans to success in science. Educators, research scientists, and college administrators have all called for a new commitment to diversity in the sciences, but most universities struggle to truly support black students in these fields. Historically black colleges and universities (HBCUs) are different, though. Marybeth Gasman, widely celebrated as an education-reform visionary, and Thai-Huy Nguyen show that many HBCUs have proven adept at helping their students achieve in the sciences. There is a lot we can learn from these exemplary schools. Gasman and Nguyen explore ten innovative schools that have increased the number of black students studying science and improved those students’ performance. Educators on these campuses have a keen sense of their students’ backgrounds and circumstances, familiarity that helps their science departments avoid the high rates of attrition that plague departments elsewhere. The most effective science programs at HBCUs emphasize teaching when considering whom to hire and promote, encourage students to collaborate rather than compete, and offer more opportunities for black students to find role models among both professors and peers. Making Black Scientists reveals the secrets to these institutions’ striking successes and shows how other colleges and universities can follow their lead. The result is a bold new agenda for institutions that want to better serve African American students.
This book presents the most important contributions to modern psychological science and explains how the contributions came to be.
A new perspective on how scientists reason about the world, design and interpret experiments and communicate with one another and with the larger society outside science.
Scientists often make surprising claims about things that no one can observe. In physics, chemistry, and molecular biology, scientists can at least experiment on those unobservable entities, but what about researchers in fields such as paleobiology and geology who study prehistory, where no such experimentation is possible? Do scientists discover facts about the distant past or do they, in some sense, make prehistory? In this book Derek Turner argues that this problem has surprising and important consequences for the scientific realism debate. His discussion covers some of the main positions in philosophy of science - realism, social constructivism, empiricism, and the natural ontological attitude - and shows how they relate to issues in paleobiology and geology. His original and thought-provoking book will be of wide interest to philosophers and scientists alike.
An account that analyzes the dynamic reasoning processes implicated in a fundamental problem of creativity in science: how does genuine novelty emerge from existing representations? How do novel scientific concepts arise? In Creating Scientific Concepts, Nancy Nersessian seeks to answer this central but virtually unasked question in the problem of conceptual change. She argues that the popular image of novel concepts and profound insight bursting forth in a blinding flash of inspiration is mistaken. Instead, novel concepts are shown to arise out of the interplay of three factors: an attempt to solve specific problems; the use of conceptual, analytical, and material resources provided by the cognitive-social-cultural context of the problem; and dynamic processes of reasoning that extend ordinary cognition. Focusing on the third factor, Nersessian draws on cognitive science research and historical accounts of scientific practices to show how scientific and ordinary cognition lie on a continuum, and how problem-solving practices in one illuminate practices in the other. Her investigations of scientific practices show conceptual change as deriving from the use of analogies, imagistic representations, and thought experiments, integrated with experimental investigations and mathematical analyses. She presents a view of constructed models as hybrid objects, serving as intermediaries between targets and analogical sources in bootstrapping processes. Extending these results, she argues that these complex cognitive operations and structures are not mere aids to discovery, but that together they constitute a powerful form of reasoning—model-based reasoning—that generates novelty. This new approach to mental modeling and analogy, together with Nersessian's cognitive-historical approach, make Creating Scientific Concepts equally valuable to cognitive science and philosophy of science.
Since the discovery of the structure of DNA and the birth of the genetic age, a powerful vocabulary has emerged to express science’s growing command over the matter of life. Armed with knowledge of the code that governs all living things, biology and biotechnology are poised to edit, even rewrite, the texts of life to correct nature’s mistakes. Yet, how far should the capacity to manipulate what life is at the molecular level authorize science to define what life is for? This book looks at flash points in law, politics, ethics, and culture to argue that science’s promises of perfectibility have gone too far. Science may have editorial control over the material elements of life, but it does not supersede the languages of sense-making that have helped define human values across millennia: the meanings of autonomy, integrity, and privacy; the bonds of kinship, family, and society; and the place of humans in nature.
The sociology of science is dominated today by relativists who boldly argue that the content of science is not influenced by evidence from the empirical world but is instead socially constructed in the laboratory. Making Science is the first serious critique by a sociologist of the social constructivist position. Stephen Cole begins by making a distinction between two kinds of knowledge: the core, which consists of those contributions that have passed the test of evaluation and are universally accepted as true and important, and the research frontier, which is composed of all work in progress that is still under evaluation. Of the thousands of scientific contributions made each year, only a handful end up in the core. What distinguishes those that are successful? Agreeing with the constructivists, Cole argues that there exists no set of rules that enables scientists to certify the validity of frontier knowledge. This knowledge is "underdetermined" by the evidence, and therefore social factors--such as professional characteristics and intellectual authority--can and do play a crucial role in its evaluation. But Cole parts company with the constructivists when he asserts that it is impossible to understand which frontier knowledge wins a place in the core without first considering the cognitive characteristics of the contributions. He concludes that although the focus of scientific research, the rate of advance, and indeed the everyday making of science are influenced by social variables and processes, the content of the core of science is constrained by nature. In Making Science, Cole shows how social variables and cognitive variables interact in the evaluation of frontier knowledge.
A Los Angeles Times Book Prize Finalist Most of us learn about science from media coverage, and anyone seeking factual information on climate change, vaccine safety, genetically modified foods, or the dangers of peanut allergies has to sift through an avalanche of bogus assertions, misinformation, and carefully packaged spin. Cornelia Dean draws on thirty years of experience as a science reporter at the New York Times to expose the tricks that handicap readers with little background in science. She reveals how activists, business spokespersons, religious leaders, and talk show hosts influence the way science is reported and describes the conflicts of interest that color research. At a time when facts are under daily assault, Making Sense of Science seeks to equip nonscientists with a set of critical tools to evaluate the claims and controversies that shape our lives. “Making Sense of Science explains how to decide who is an expert, how to understand data, what you need to do to read science and figure out whether someone is lying to you... If science leaves you with a headache trying to figure out what’s true, what it all means and who to trust, Dean’s book is a great place to start.” —Casper Star-Tribune “Fascinating... Its mission is to help nonscientists evaluate scientific claims, with much attention paid to studies related to health.” —Seattle Times “This engaging book offers non-scientists the tools to connect with and evaluate science, and for scientists it is a timely call to action for effective communication.” —Times Higher Education
What we don’t know can hurt us—and does so every day. Climate change, health care policy, weapons of mass destruction, an aging infrastructure, stem cell research, endangered species, space exploration—all affect our lives as citizens and human beings in practical and profound ways. But unless we understand the science behind these issues, we cannot make reasonable decisions—and worse, we are susceptible to propaganda cloaked in scientific rhetoric. To convey the facts, this book suggests, scientists must take a more active role in making their work accessible to the media, and thus to the public. In Am I Making Myself Clear? Cornelia Dean, a distinguished science editor and reporter, urges scientists to overcome their institutional reticence and let their voices be heard beyond the forum of scholarly publication. By offering useful hints for improving their interactions with policymakers, the public, and her fellow journalists, Dean aims to change the attitude of scientists who scorn the mass media as an arena where important work is too often misrepresented or hyped. Even more important, she seeks to convince them of the value and urgency of communicating to the public. Am I Making Myself Clear? shows scientists how to speak to the public, handle the media, and describe their work to a lay audience on paper, online, and over the airwaves. It is a book that will improve the tone and content of debate over critical issues and will serve the interests of science and society.