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From stem cell research to global warming, human cloning, evolution, and beyond, political debates about science in recent years have fallen into the familiar categories of America's culture wars. Imagining the Future explores the meaning of science and technology in American politics today. The science debates, Yuval Levin argues, expose the deepest strengths and greatest weaknesses of both the left and the right, and present serious challenges to American democratic self-government. What do arguments about embryos, climate, or the origins of man reveal about contemporary America? Why do issues involving science seem to divide us along the same fault lines as so many other issues in our political life? Is science morally neutral, or is it an endeavor filled with moral promise - and peril? Are American conservatives really waging war on science? Is the American left justified in calling itself the party of science? Most of the science debates, Levin concludes, are not about particular theories or facts or technologies. Rather, they come down to a profound dispute between liberals and conservatives about the right way to think about the future. Science is only one subject of this broader dispute; but today's science debates can illuminate the contours of our politics and clarify the rift at the heart of our polity.
The idea that science is or should be value-free, and that values are or should be formed independently of science, has been under fire by philosophers of science for decades. Science and Moral Imagination directly challenges the idea that science and values cannot and should not influence each other. Matthew J. Brown argues that science and values mutually influence and implicate one another, that the influence of values on science is pervasive and must be responsibly managed, and that science can and should have an influence on our values. This interplay, he explains, must be guided by accounts of scientific inquiry and value judgment that are sensitive to the complexities of their interactions. Brown presents scientific inquiry and value judgment as types of problem-solving practices and provides a new framework for thinking about how we might ethically evaluate episodes and decisions in science, while offering guidance for scientific practitioners and institutions about how they can incorporate value judgments into their work. His framework, dubbed “the ideal of moral imagination,” emphasizes the role of imagination in value judgment and the positive role that value judgment plays in science.
This book looks at the role of the imagination in science, from both philosophical and psychological perspectives. These contributions combine to provide a comprehensive and exciting picture of this under-explored subject.
Imagining Science brings together internationally recognized artists, scientists, and social commentators to feature a body of original artwork and essays which explores the complex legal, ethical, and social concerns about advances in biotechnology, such as stem cell research, cloning, and genetic testing. Many important questions and themes emerge from this exchange, highlighting the linkages between scientific and creative research. This collaboration also stresses the vital role art can play in critiquing these biomedical technologies, particularly as advancements in science begin to challenge our ethical boundaries.
During the early modern period, western Europe was transformed by the proliferation of new worlds—geographic worlds found in the voyages of discovery and conceptual and celestial worlds opened by natural philosophy, or science. The response to incredible overseas encounters and to the profound technological, religious, economic, and intellectual changes occurring in Europe was one of nearly overwhelming wonder, expressed in a rich variety of texts. In the need to manage this wonder, to harness this imaginative overabundance, Mary Baine Campbell finds both the sensational beauty of early scientific works and the beginnings of the divergence of the sciences—particularly geography, astronomy, and anthropology—from the writing of fiction. Campbell's learned and brilliantly perceptive new book analyzes a cross section of texts in which worlds were made and unmade; these texts include cosmographies, colonial reports, works of natural philosophy and natural history, fantastic voyages, exotic fictions, and confessions. Among the authors she discusses are André Thevet, Thomas Hariot, Francis Bacon, Galileo, Margaret Cavendish, and Aphra Behn. Campbell's emphasis is on developments in England and France, but she considers works in languages other than English or French which were well known in the polyglot book culture of the time. With over thirty well-chosen illustrations, Wonder and Science enhances our understanding of the culture of early modern Europe, the history of science, and the development of literary forms, including the novel and ethnography.
The Scientific Revolution of the seventeenth century has often been called a decisive turning point in human history. It represents, for good or ill, the birth of modern science and modern ways of viewing the world. In What Galileo Saw, Lawrence Lipking offers a new perspective on how to understand what happened then, arguing that artistic imagination and creativity as much as rational thought played a critical role in creating new visions of science and in shaping stories about eye-opening discoveries in cosmology, natural history, engineering, and the life sciences.When Galileo saw the face of the Moon and the moons of Jupiter, Lipking writes, he had to picture a cosmos that could account for them. Kepler thought his geometry could open a window into the mind of God. Francis Bacon's natural history envisioned an order of things that would replace the illusions of language with solid evidence and transform notions of life and death. Descartes designed a hypothetical "Book of Nature" to explain how everything in the universe was constructed. Thomas Browne reconceived the boundaries of truth and error. Robert Hooke, like Leonardo, was both researcher and artist; his schemes illuminate the microscopic and the macrocosmic. And when Isaac Newton imagined nature as a coherent and comprehensive mathematical system, he redefined the goals of science and the meaning of genius.What Galileo Saw bridges the divide between science and art; it brings together Galileo and Milton, Bacon and Shakespeare. Lipking enters the minds and the workshops where the Scientific Revolution was fashioned, drawing on art, literature, and the history of science to reimagine how perceptions about the world and human life could change so drastically, and change forever.
Presents an illustrated examination of the impact of the film "Star Wars" on the culture of technological advancement, providing information on the how the future develop in two key areas, transportation and robotics.
Sha concludes that both fields benefited from thinking about how imagination could cooperate with reason—but that this partnership was impossible unless imagination's penchant for fantasy could be contained.
The first-ever book on the science of imagination, which sheds light on both the complex inner-workings of our mind and the ways in which we can channel imagination for a better life. We don’t think of imagination the way that we should. The word is often only associated with children, artists and daydreamers, but in reality, imagination is an integral part of almost every action and decision that we make. Simply put, imagination is a person’s ability to create scenarios in his or her head: this can include everything from planning a grocery list, to honing a golf swing, to having religious hallucinations. And while imagination has positive connotations, it can also lead to decreased productivity and cooperation, or worse, the continuous reliving of past trauma.The human brain is remarkable in its ability to imagine—it can imagine complex possible futures, fantasy worlds, or tasty meals. We can use our imaginations to make us relaxed or anxious. We can imagine what the world might be, and construct elaborate plans. People have been fascinated with the machination of the human brain and its ability to imagine for centuries. There are books on creativity, dreams, memory, and the mind in general, but how exactly do we create those scenes in our head? With chapters ranging from hallucination and imaginary friends to how imagination can make you happier and more productive, Jim Davies' Imagination will help us explore the full potential of our own mind.
Colour imaging technology has become almost ubiquitous in modern life in the form of monitors, liquid crystal screens, colour printers, scanners, and digital cameras. This book is a comprehensive guide to the scientific and engineering principles of colour imaging. It covers the physics of light and colour, how the eye and physical devices capture colour images, how colour is measured and calibrated, and how images are processed. It stresses physical principles and includes a wealth of real-world examples. The book will be of value to scientists and engineers in the colour imaging industry and, with homework problems, can also be used as a text for graduate courses on colour imaging.