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What can we learn when we follow people over the years and across the course of their professional lives? Joseph C. Hermanowicz asks this question specifically about scientists and answers it here by tracking fifty-five physicists through different stages of their careers at a variety of universities across the country. He explores these scientists’ shifting perceptions of their jobs to uncover the meanings they invest in their work, when and where they find satisfaction, how they succeed and fail, and how the rhythms of their work change as they age. His candid interviews with his subjects, meanwhile, shed light on the ways career goals are and are not met, on the frustrations of the academic profession, and on how one deals with the boredom and stagnation that can set in once one is established. An in-depth study of American higher education professionals eloquently told through their own words, Hermanowicz’s keen analysis of how institutions shape careers will appeal to anyone interested in life in academia.
A revealing and provocative look at the current state of global science We take the advance of science as given. But how does science really work? Is it truly as healthy as we tend to think? How does the system itself shape what scientists do? The Secret Life of Science takes a clear-eyed and provocative look at the current state of global science, shedding light on a cutthroat and tightly tensioned enterprise that even scientists themselves often don't fully understand. The Secret Life of Science is a dispatch from the front lines of modern science. It paints a startling picture of a complex scientific ecosystem that has become the most competitive free-market environment on the planet. It reveals how big this ecosystem really is, what motivates its participants, and who reaps the rewards. Are there too few scientists in the world or too many? Are some fields expanding at the expense of others? What science is shared or published, and who determines what the public gets to hear about? What is the future of science? Answering these and other questions, this controversial book explains why globalization is not necessarily good for science, nor is the continued growth in the number of scientists. It portrays a scientific community engaged in a race for limited resources that determines whether careers are lost or won, whose research visions become the mainstream, and whose vested interests end up in control. The Secret Life of Science explains why this hypercompetitive environment is stifling the diversity of research and the resiliency of science itself, and why new ideas are needed to ensure that the scientific enterprise remains healthy and vibrant.
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.
Since 1901 there have been over three hundred recipients of the Nobel Prize in the sciences. Only ten of themâ€"about 3 percentâ€"have been women. Why? In this updated version of Nobel Prize Women in Science, Sharon Bertsch McGrayne explores the reasons for this astonishing disparity by examining the lives and achievements of fifteen women scientists who either won a Nobel Prize or played a crucial role in a Nobel Prize - winning project. The book reveals the relentless discrimination these women faced both as students and as researchers. Their success was due to the fact that they were passionately in love with science. The book begins with Marie Curie, the first woman to win the Nobel Prize in physics. Readers are then introduced to Christiane Nusslein-Volhard, Emmy Noether, Lise Meitner, Barbara McClintock, Chien-Shiung Wu, and Rosalind Franklin. These and other remarkable women portrayed here struggled against gender discrimination, raised families, and became political and religious leaders. They were mountain climbers, musicians, seamstresses, and gourmet cooks. Above all, they were strong, joyful women in love with discovery. Nobel Prize Women in Science is a startling and revealing look into the history of science and the critical and inspiring role that women have played in the drama of scientific progress.
Harold C. Urey (1893–1981), whose discoveries lie at the foundation of modern science, was one of the most famous American scientists of the twentieth century. Born in rural Indiana, his evolution from small-town farm boy to scientific celebrity made him a symbol and spokesman for American scientific authority. Because he rose to fame alongside the prestige of American science, the story of his life reflects broader changes in the social and intellectual landscape of twentieth-century America. In this, the first ever biography of the chemist, Matthew Shindell shines new light on Urey’s struggles and achievements in a thoughtful exploration of the science, politics, and society of the Cold War era. From Urey’s orthodox religious upbringing to his death in 1981, Shindell follows the scientist through nearly a century of American history: his discovery of deuterium and heavy water earned him the Nobel Prize in 1934, his work on the Manhattan Project helped usher in the atomic age, he initiated a generation of American scientists into the world of quantum physics and chemistry, and he took on the origin of the Moon in NASA’s lunar exploration program. Despite his success, however, Urey had difficulty navigating the nuclear age. In later years he lived in the shadow of the bomb he helped create, plagued by the uncertainties unleashed by the rise of American science and unable to reconcile the consequences of scientific progress with the morality of religion. Tracing Urey’s life through two world wars and the Cold War not only conveys the complex historical relationship between science and religion in the twentieth century, but it also illustrates how these complexities spilled over into the early days of space science. More than a life story, this book immerses readers in the trials and triumphs of an extraordinary man and his extraordinary times.
You are what you eat. Food and diet have an enormous influence on your health and well-being, but eating the right amount of the right things - and not too much of the wrong things - isn't easy. But, as in most walks of life, knowledge is power. This book will empower you to eat healthily, lose weight, and sort the fads from the science facts. This is the New Scientist take on a "New Year, New You" book: an eye-opening and myth-busting guide to everything from sugar to superfoods, from fasting to eating like a caveman and from veganism to your gut microbiome. Forget faddy diet books or gimmicky exercise programs, this is what is scientifically proven to make you live longer and to be healthier and happier.
One of the world's leading experts on bioenergetics unravels the deepest mystery of human physiology: biological energyQwhat it is, how we get it, how we expend it, and most importantly, how we can make more. 6 diagrams.
The book of Erwin Schrödinger about life evokes a variety of basic questions concerning the understanding of life in terms of modern physics rather than biochemistry. Problems of organization and regulation of biological systems cannot be understood by revealing only the chemical processes of the living state. A group of reputable physicists — among them the followers of Heisenberg and Fröhlich — and biologists came to this same conclusion through several workshops on this topic. This book contains their contributions, written from different viewpoints of theoretical physics and modern biology. These articles are valuable not only for understanding life, but also for creating new and non-invasive diagnostic and therapeutic tools in medicine; they also contribute importantly to a deeper understanding of evolutionary processes, including the development of consciousness.