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This broad collection of accessible essays helps readers develop a fuller appreciation of the nature of science and scientific knowledge in general. The focus throughout is on the relationships in science between fact and theory, about the nature of scientific theory, and about the kinds of claims on truth that science makes. Arranges essays according to three essential aspects of scientific practice: Method, theory, and discovery. For scientists looking to broaden their general knowledge of basic scientific theory.
To scientists, the tsunami of relativism, scepticism, and postmodernism that washed through the humanities in the twentieth century was all water off a duck’s back. Science remained committed to objectivity and continued to deliver remarkable discoveries and improvements in technology. In What Science Knows, the Australian philosopher and mathematician James Franklin explains in captivating and straightforward prose how science works its magic. He begins with an account of the nature of evidence, where science imitates but extends commonsense and legal reasoning in basing conclusions solidly on inductive reasoning from facts. After a brief survey of the furniture of the world as science sees it—including causes, laws, dispositions and force fields as well as material things—Franklin describes colorful examples of discoveries in the natural, mathematical, and social sciences and the reasons for believing them. He examines the limits of science, giving special attention both to mysteries that may be solved by science, such as the origin of life, and those that may in principle be beyond the reach of science, such as the meaning of ethics. What Science Knows will appeal to anyone who wants a sound, readable, and well-paced introduction to the intellectual edifice that is science. On the other hand it will not please the enemies of science, whose willful misunderstandings of scientific method and the relation of evidence to conclusions Franklin mercilessly exposes.
Satisfy your curious budding scientist with a book that explains the way we explain everything else. It all comes down to Science! Learn about a range of subjects that tell us about everything. From earth science and biology, to energy, physics, and astronomy. We give the answers to the questions kids aged 7-10 really want to know about in easy-to-follow question and answer format. This book focuses on the subjects that kids really want to know about and the questions they ask. Every question is answered with a detailed explanation, rich illustrations, and easy to understand text that will ease the curiosity of young minds. From earth science and biology to energy, physics, and astronomy. Did You Know? Science makes learning the science behind everyday matters easy to understand, fun, and engaging. Answers to over 200 questions about the living world, the human body, the material world, energy, forces, movement, and our planet. Described in colorful pages and in a fun question-and-answer format. Designed for ages 5-9 and organized into easy to understand bite-size nuggets of information. Fantastic Facts For Curious Minds! Did You Know? Science answers all the amazing questions children have about science, from how lights turn on and what makes cars go, to what makes the Earth look blue and how people move! This colorful and exciting book is full of awesome pictures and incredible facts about magnets, fossils, the human body, our planet, and much more! This is the ideal science encyclopedia to help your budding Einstein, as well as for parents who need to answer those tricky science questions sparked by curiosity. “Where does light come from? Can I feel forces? What is my body made of?” This amazing science book will answer interesting questions about: - The Living World - The Human Body - The Material World - Energy - Our Planet - Forces And Movement Did You Know? Science: Amazing Answers To More Than 200 Awesome Questions is part of the educational series Did You Know? Encyclopedias. Complete the collection and learn more about the world around you and the questions you ask, science, and space.
How do scientific conjectures become laws? Why does proof mean different things in different sciences? Do numbers exist, or were they invented? Why do some laws turn out to be wrong?In this wide-ranging book, Brian Davies discusses the basis for scientists' claims to knowledge about the world. He looks at science historically, emphasizing not only the achievements of scientists from Galileo onwards, but also their mistakes. He rejects the claim that all scientific knowledge is provisional, by citing examples from chemistry, biology and geology. A major feature of the book is its defence of the view that mathematics was invented rather than discovered. While experience hasshown that disentangling knowledge from opinion and aspiration is a hard task, this book provides a clear guide to the difficulties.Full of illuminating examples and quotations, and with a scope ranging from psychology and evolution to quantum theory and mathematics, this book brings alive issues at the heart of all science.
There is ample evidence that it is difficult for the general public to understand and internalize scientific facts. Disputes over such facts are often amplified amid political controversies. As we've seen with climate change and even COVID-19, politicians rely on the perceptions of their constituents when making decisions that impact public policy. So, how do we make sure that what the public understands is accurate? In this book, Steven L. Goldman traces the public's suspicion of scientific knowledge claims to a broad misunderstanding, reinforced by scientists themselves, of what it is that scientists know, how they know it, and how to act on the basis of it. In sixteen chapters, Goldman takes readers through the history of scientific knowledge from Plato and Aristotle, through the birth of modern science and its maturation, into a powerful force for social change to the present day. He explains how scientists have wrestled with their own understanding of what it is that they know, that theories evolve, and why the public misunderstands the reliability of scientific knowledge claims. With many examples drawn from the history of philosophy and science, the chapters illustrate an ongoing debate over how we know what we say we know and the relationship between knowledge and reality. Goldman covers a rich selection of ideas from the founders of modern science and John Locke's response to Newton's theories to Thomas Kuhn's re-interpretation of scientific knowledge and the Science Wars that followed it. Goldman relates these historical disputes to current issues, underlining the important role scientists play in explaining their own research to nonscientists and the effort nonscientists must make to incorporate science into public policies. A narrative exploration of scientific knowledge, Science Wars engages with the arguments of both sides by providing thoughtful scientific, philosophical, and historical discussions on every page.
In 2012, the White House put out a call to increase the number of STEM graduates by one million. Since then, hundreds of thousands of science students have started down the path toward a STEM career. Yet, of these budding scientists, more than half of all college students planning to study science or medicine leave the field during their academic careers. This guide is the perfect personal mentor for any aspiring scientist. Like an experienced lab partner or frank advisor, the book points out the pitfalls while providing encouragement. Chapters cover the entire college experience, including choosing a major, mastering study skills, doing scientific research, finding a job, and, most important, how to foster and keep a love of science.
Science is a way of knowing about the world. At once a process, a product, and an institution, science enables people to both engage in the construction of new knowledge as well as use information to achieve desired ends. Access to scienceâ€"whether using knowledge or creating itâ€"necessitates some level of familiarity with the enterprise and practice of science: we refer to this as science literacy. Science literacy is desirable not only for individuals, but also for the health and well- being of communities and society. More than just basic knowledge of science facts, contemporary definitions of science literacy have expanded to include understandings of scientific processes and practices, familiarity with how science and scientists work, a capacity to weigh and evaluate the products of science, and an ability to engage in civic decisions about the value of science. Although science literacy has traditionally been seen as the responsibility of individuals, individuals are nested within communities that are nested within societiesâ€"and, as a result, individual science literacy is limited or enhanced by the circumstances of that nesting. Science Literacy studies the role of science literacy in public support of science. This report synthesizes the available research literature on science literacy, makes recommendations on the need to improve the understanding of science and scientific research in the United States, and considers the relationship between scientific literacy and support for and use of science and research.
Britain's most famous mathematician takes us to the edge of knowledge to show us what we cannot know. Is the universe infinite? Do we know what happened before the Big Bang? Where is human consciousness located in the brain? And are there more undiscovered particles out there, beyond the Higgs boson? In the modern world, science is king: weekly headlines proclaim the latest scientific breakthroughs and numerous mathematical problems, once indecipherable, have now been solved. But are there limits to what we can discover about our physical universe? In this very personal journey to the edges of knowledge, Marcus du Sautoy investigates how leading experts in fields from quantum physics and cosmology, to sensory perception and neuroscience, have articulated the current lie of the land. In doing so, he travels to the very boundaries of understanding, questioning contradictory stories and consulting cutting edge data. Is it possible that we will one day know everything? Or are there fields of research that will always lie beyond the bounds of human comprehension? And if so, how do we cope with living in a universe where there are things that will forever transcend our understanding? In What We Cannot Know, Marcus du Sautoy leads us on a thought-provoking expedition to the furthest reaches of modern science. Prepare to be taken to the edge of knowledge to find out if there's anything we truly cannot know.
In Knowing Science, Alexander Bird presents an epistemology of science that rejects empiricism and gives a central place to the concept of knowledge. Science aims at knowledge and progresses when it adds to the stock of knowledge. That knowledge is social knowing—it is known by the scientific community as a whole. Evidence is that from which knowledge can be obtained by inference. From this, it follows that evidence is knowledge, and is not limited to perception, nor to observation. Observation supplies evidence that is basic relative to a field of enquiry and can be highly non-perceptual. Theoretical knowledge is typically gained by inference to the only explanation, in which competing plausible hypotheses are falsified by the evidence. In cases where not all competing hypotheses are refuted, scientific hypotheses are not known but instead possess varying degrees of plausibility. Plausibilities in the light of the evidence are probabilities and link eliminative explanationism to Bayesian conditionalization. Bird argues that scientific realism and anti-realism as global metascientific claims should be rejected-the track record gives us only local metascientific claims.
Published in hardcover as What the dog knows: the science and wonder of working dogs by Simon & Schuster, New York, c2013.