front cover of Making Black Scientists
Making Black Scientists
A Call to Action
Marybeth Gasman and Thai-Huy Nguyen
Harvard University Press, 2019

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.

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Making Genes, Making Waves
A Social Activist in Science
Jon Beckwith
Harvard University Press, 2002

In 1969, Jon Beckwith and his colleagues succeeded in isolating a gene from the chromosome of a living organism. Announcing this startling achievement at a press conference, Beckwith took the opportunity to issue a public warning about the dangers of genetic engineering. Jon Beckwith's book, the story of a scientific life on the front line, traces one remarkable man's dual commitment to scientific research and social responsibility over the course of a career spanning most of the postwar history of genetics and molecular biology.

A thoroughly engrossing memoir that recounts Beckwith's halting steps toward scientific triumphs--among them, the discovery of the genetic element that turns genes on--as well as his emergence as a world-class political activist, Making Genes, Making Waves is also a compelling history of the major controversies in genetics over the last thirty years. Presenting the science in easily understandable terms, Beckwith describes the dramatic changes that transformed biology between the late 1950s and our day, the growth of the radical science movement in the 1970s, and the personalities involved throughout. He brings to light the differing styles of scientists as well as the different ways in which science is presented within the scientific community and to the public at large. Ranging from the travails of Robert Oppenheimer and the atomic bomb to the Human Genome Project and recent "Science Wars," Beckwith's book provides a sweeping view of science and its social context in the latter half of the twentieth century.

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Making Marie Curie
Intellectual Property and Celebrity Culture in an Age of Information
Eva Hemmungs Wirtén
University of Chicago Press, 2015
In many ways, Marie Curie represents modern science. Her considerable lifetime achievements—the first woman to be awarded a Nobel Prize, the only woman to be awarded the Prize in two fields, and the only person to be awarded Nobel Prizes in multiple sciences—are studied by schoolchildren across the world. When, in 2009, the New Scientist carried out a poll for the “Most Inspirational Female Scientist of All Time,” the result was a foregone conclusion: Marie Curie trounced her closest runner-up, Rosalind Franklin, winning double the number of Franklin’s votes. She is a role model to women embarking on a career in science, the pride of two nations—Poland and France—and, not least of all, a European Union brand for excellence in science.

Making Marie Curie explores what went into the creation of this icon of science. It is not a traditional biography, or one that attempts to uncover the “real” Marie Curie. Rather, Eva Hemmungs Wirtén, by tracing a career that spans two centuries and a world war, provides an innovative and historically grounded account of how modern science emerges in tandem with celebrity culture under the influence of intellectual property in a dawning age of information. She explores the emergence of the Curie persona, the information culture of the period that shaped its development, and the strategies Curie used to manage and exploit her intellectual property. How did one create and maintain for oneself the persona of scientist at the beginning of the twentieth century? What special conditions bore upon scientific women, and on married women in particular? How was French identity claimed, established, and subverted? How, and with what consequences, was a scientific reputation secured?

In its exploration of these questions and many more, Making Marie Curie provides a composite picture not only of the making of Marie Curie, but the making of modern science itself.
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Making Scientists
Six Principles for Effective College Teaching
Gregory Light and Marina Micari
Harvard University Press, 2013

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.

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front cover of The Man Who Flattened the Earth
The Man Who Flattened the Earth
Maupertuis and the Sciences in the Enlightenment
Mary Terrall
University of Chicago Press, 2002
Self-styled adventurer, literary wit, philosopher, and statesman of science, Pierre-Louis Moreau de Maupertuis (1698-1759) stood at the center of Enlightenment science and culture. Offering an elegant and accessible portrait of this remarkable man, Mary Terrall uses the story of Maupertuis's life, self-fashioning, and scientific works to explore what it meant to do science and to be a man of science in eighteenth-century Europe.

Beginning his scientific career as a mathematician in Paris, Maupertuis entered the public eye with a much-discussed expedition to Lapland, which confirmed Newton's calculation that the earth was flattened at the poles. He also made significant, and often intentionally controversial, contributions to physics, life science, navigation, astronomy, and metaphysics. Called to Berlin by Frederick the Great, Maupertuis moved to Prussia to preside over the Academy of Sciences there. Equally at home in salons, cafés, scientific academies, and royal courts, Maupertuis used his social connections and his printed works to enhance a carefully constructed reputation as both a man of letters and a man of science. His social and institutional affiliations, in turn, affected how Maupertuis formulated his ideas, how he presented them to his contemporaries, and the reactions they provoked.

Terrall not only illuminates the life and work of a colorful and important Enlightenment figure, but also uses his story to delve into many wider issues, including the development of scientific institutions, the impact of print culture on science, and the interactions of science and government. Smart and highly readable, Maupertuis will appeal to anyone interested in eighteenth-century science and culture.

“Terrall’s work is scholarship in the best sense. Her explanations of arcane 18th-century French physics, mathematics, astronomy, and biology are among the most lucid available in any language.”—Virginia Dawson, American Historical Review

Winner of the 2003 Pfizer Award from the History of Science Society
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The Man Who Invented the Chromosome
A Life of Cyril Darlington
Oren Solomon Harman
Harvard University Press, 2004

Born by mistake, or connivance, to struggling parents in a small Lancashire cotton town in 1903, an uninspired Darlington inadvertently escaped the obscurity of farming life and rose instead, against all odds, to become within a few short years the world's greatest expert on chromosomes, and one of the most penetrating biological thinkers of the twentieth century. Harman follows Darlington's path from bleak prospects to world fame, showing how, within the most miniscule of worlds, he sought answers to the biggest questions--how species originate, how variation occurs, how Nature, both blind and foreboding, random and insightful, makes her way from deep past to unknown future. But Darlington did not stop there: Chromosomes held within their tiny confines untold, dark truths about man and his culture. This passionate conviction led the once famed Darlington down a path of rebuke, isolation, and finally obscurity.

As The Man Who Invented the Chromosome unfolds Darlington's forgotten tale--the Nazi atrocities, the Cold War, the crackpot Lysenko, the molecular revolution, eugenics, Civil Rights, the welfare state, the changing views of man's place in nature, biological determinism--all were interconnected. Just as Darlington's work provoked him to ask questions about the link between biology and culture, his life raises fundamental questions about the link between science and society.

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A Man Who Loved the Stars
John A. Brashear
University of Pittsburgh Press, 1988
The inspiring story of a man whose avocation as a stargazer and vocation as a millwright led to his development of lenses, mirrors and other astronomical apparatus. John A. Brashear's technological advances were later employed by astronomers in the United States and Europe.  Brashear also attracted the friendship and financial support of astronomer Samuel Lagley, railroad magnate William Thaw, Henry Clay Frick, and Andrew Carnegie, who gave him $20,000 for the construction of Allegheny Observatory in Pittsburgh. The inspiring story of a man whose avocation as a stargazer and vocation as a millwright led to his development of lenses, mirrors and other astronomical apparatus. John A. Brashear's technological advances were later employed by astronomers in the United States and Europe.  Brashear also attracted the friendship and financial support of astronomer Samuel Lagley, railroad magnate William Thaw, Henry Clay Frick, and Andrew Carnegie, who gave him $20,000 for the construction of Allegheny Observatory in Pittsburgh.
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Mean and Lowly Things
Snakes, Science, and Survival in the Congo
Kate Jackson
Harvard University Press, 2010

In 2005 Kate Jackson ventured into the remote swamp forests of the northern Congo to collect reptiles and amphibians. Her camping equipment was rudimentary, her knowledge of Congolese customs even more so. She knew how to string a net and set a pitfall trap, but she never imagined the physical and cultural difficulties that awaited her.

Culled from the mud-spattered pages of her journals, Mean and Lowly Things reads like a fast-paced adventure story. It is Jackson’s unvarnished account of her research on the front lines of the global biodiversity crisis—coping with interminable delays in obtaining permits, learning to outrun advancing army ants, subsisting on a diet of Spam and manioc, and ultimately falling in love with the strangely beautiful flooded forest.

The reptile fauna of the Republic of Congo was all but undescribed, and Jackson’s mission was to carry out the most basic study of the amphibians and reptiles of the swamp forest: to create a simple list of the species that exist there—a crucial first step toward efforts to protect them. When the snakes evaded her carefully set traps, Jackson enlisted people from the villages to bring her specimens. She trained her guide to tag frogs and skinks and to fix them in formalin. As her expensive camera rusted and her Western soap melted, Jackson learned what it took to swim with the snakes—and that there’s a right way and a wrong way to get a baby cobra out of a bottle.

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The Meanings of J. Robert Oppenheimer
Lindsey Michael Banco
University of Iowa Press, 2016
He called the first atomic bomb “technically sweet,” yet as he watched its brilliant light explode over the New Mexico desert in 1945 in advance of the black horrors of Hiroshima and Nagasaki, he also thought of the line from the Hindu epic The Bhagavad Gita: “I am become Death, the destroyer of worlds.” Physicist J. Robert Oppenheimer, the scientific director of the Manhattan Project, the single most recognizable face of the atomic bomb, and a man whose name has become almost synonymous with Cold War American nuclear science, was and still is a conflicted, controversial figure who has come to represent an equally ambivalent technology.

The Meanings of J. Robert Oppenheimer examines how he has been represented over the past seven decades in biographies, histories, fiction, comics, photographs, film, television, documentaries, theater, and museums. Lindsey Michael Banco gathers an unprecedented group of cultural texts and seeks to understand the multiple meanings Oppenheimer has held in American popular culture since 1945. He traces the ways these representations of Oppenheimer have influenced public understanding of the atomic bomb, technology, physics, the figure of the scientist, the role of science in war, and even what it means to pursue knowledge of the world around us. Questioning and unpacking both how and why Oppenheimer is depicted as he is across time and genre, this book is broad in scope, profound in detail, and offers unique insights into the rise of nuclear culture and how we think about the relationship between history, imagination, science, and nuclear weapons today. 
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Molecular Politics
Developing American and British Regulatory Policy for Genetic Engineering, 1972-1982
Susan Wright
University of Chicago Press, 1994
The promise of genetic engineering in the early 1970s to profoundly reshape the living world activated a variety of social interests in its future promotion and control. With public safety, gene patents, and the future of genetic research at stake, a wide range of interest groups competed for control over this powerful new technology.

In this comparative study of the development of regulatory policy for genetic engineering in the United States and the United Kingdom, Susan Wright analyzes government responses to the struggles among corporations, scientists, universities, trade unions, and public interest groups over regulating this new field. Drawing on archival materials, government records, and interviews with industry executives, politicians, scientists, trade unionists, and others on both sides of the Atlantic, Molecular Politics provides a comprehensive account of a crucial set of policy decisions and explores their implications for the political economy of science.

By combining methods from political science and the history of science, Wright advances a provocative interpretation of the evolution of genetic engineering policy and makes a major contribution to science and public policy studies.
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Moth Catcher
An Evolutionist'S Journey Through Canyon And Pass
Michael M. Collins
University of Nevada Press, 2007

The memoir of a scientist and the wild silk moths he studiesBiologist Michael Collins has been studying wild silk moths since he was a boy. This family — which includes the largest and most colorful of the North American moths — led Collins into a long career as a scientist, and has provided him with significant insights into the process by which new species evolve. Moth Catcher is Collins’s engaging account of his development as a scientist and of his groundbreaking research. The canyon and pass environments of the American West offer a setting in which, since the last Ice Age, organisms have adapted to new surroundings and where many have formed new species. Collins has discovered in the Sierra Nevada that geneticists call a “hybrid zone” where two species interbreed. This hybrid zone is unusual because both sexes are fertile, unlike lab-bred hybrids between the same silk moth species. Collins explains how such hybrid populations serve as laboratories in nature where the process of speciation can be observed and studied. This book offers a fascinating view into the work of a field scientist and the ways that evolution continues to operate around us. Collins’s colorful accounts of his fieldwork will delight any reader who loves the outdoors and is captivated by the diversity and interrelations of the life forms found there. And his passion for his research and the fragile, exquisite creatures that he studies will inspire a new appreciation of the wonders of the natural world and the myriad life forms that occupy it.

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