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Why Science Matters: Understanding the Methods of Psychological Research rises above standard research methods texts by presenting an up-to-date view of contemporary psychological science as it is currently understood and practiced. Explores not only the procedural aspects of psychological research, but also delves into the issue of how to accomplish effective science. Explicates how hypotheses and theories are to be evaluated. Suggests that the proper approach to devising and evaluating theories is by abduction, not by induction or deduction alone. Incorporates new investigatory procedures, current methodologists, conflicts and issues, implications of the philosophy of science, and a lively prose style. Provides a picture of science that will engage students and expand their abilities as both scientists and psychologists.
A science book for the general reader that is informative enough to be a popular textbook and yet well-written enough to appeal to general readers. “Hazen and Trefil [are] unpretentious—good, down-to-earth, we-can-explain-anything science teachers, the kind you wish you had but never did.”—The New York Times Book Review Knowledge of the basic ideas and principles of science is fundamental to cultural literacy. But most books on science are often too obscure or too specialized to do the general reader much good. Science Matters is a rare exception—a science book that is informative enough for introductory courses in high school and college, and yet lucid enough for readers uncomfortable with scientific jargon and complicated mathematics. And now, revised and expanded, it is up-to-date, so that readers can enjoy Hazen and Trefil's refreshingly accessible explanations of the most recent developments in science, from particle physics to biotechnology.
All earnest and honest human quests for knowledge are efforts to understand Nature, which includes both human and nonhuman systems, the objects of study in science. Thus, broadly speaking, all these quests are in the science domain. The methods and tools used may be different; for example, the literary people use mainly their bodily sensors and their brain as the information processor, while natural scientists may use, in addition, measuring instruments and computers. Yet, all these activities could be viewed in a unified perspective ? they are scientific developments at varying stages of maturity and have a lot to learn from each other.That ?everything in Nature is part of science? was well recognized by Aristotle, da Vinci and many others. Yet, it is only recently, with the advent of modern science and experiences gathered in the study of statistical physics, complex systems and other disciplines, that we know how the human-related disciplines can be studied scientifically.Science Matters is about all human-dependent knowledge, wherein humans (the material system of Homo sapiens) are studied scientifically from the perspective of complex systems. It includes all the topics covered in the humanities and social sciences. Containing contributions from knowledgeable humanists, social scientists and physicists, the book is intended for those ? from artists to scientists ? who are curious about the world and are interested in understanding it with a unified perspective.
Whether we want to improve education or cut crime, to enhance public health or to generate clean energy, we need the experimental methods of science - the best tool humanity has yet developed for working out what works. Yet from the way we're governed to the news we're fed by the media we're let down by a lack of understanding and respect for its insights and evidence. In The Geek Manifesto Mark Henderson explains why and how we need to entrench scientific thinking more deeply into every aspect of our society. A new movement is gathering. Let's turn it into a force our leaders cannot ignore. This edition includes an appendix: 'A Geek Manifesto for America' by David Dobbs.
When Galileo dropped cannon-balls from the top of the Leaning Tower of Pisa, he did more than overturn centuries of scientific orthodoxy. At a stroke, he established a new conception of the scientific method based upon careful experimentation and rigorous observation - and also laid the groundwork for an ongoing conflict between the critical open-mindedness of science and the recalcitrant dogmatism of religion that would continue to the modern day. The problem is that Galileo never performed his most celebrated experiment in Pisa. In fact, he rarely conducted any experiments at all. The Church publicly celebrated his work, and Galileo enjoyed patronage from the great and the powerful; his ecclesiastical difficulties only began when disgruntled colleagues launched a campaign to discredit their academic rival. But what does this tell us about modern science if its own foundation myth turns out to be nothing more than political propaganda? Getting Science Wrong discusses some of the most popular misconceptions about science, and their continuing role in the public imagination. Drawing upon the history and philosophy of science it challenges wide-spread assumptions and misunderstandings, from creationism and climate change to the use of statistics and computer modelling. The result is an engaging introduction to contentious issues in the philosophy of science and a new way of looking at the role of science in society.
The Invention of Science: Why History of Science Matters for the Classroom introduces readers to some of the developments that were key for the emergence of Eurocentric science, the discipline we call science. Using history this book explores how human groups and individuals were key to the invention of the discipline of we call science. All human groups have a need and desire to produce systematic knowledge that supports their ongoing survival as a community. This book examines how history can help us to understand emergence of Eurocentric science from local forms of systematic knowledge. Each chapter explores elements that were central to the invention of science including beliefs of what was real and true, forms of reasoning to be valued, and how the right knowledge should be constructed and the role of language. But most importantly this book presented these ideas in an accessible way with activities and questions to help readers grapple with the ideas being presented. Enjoy!
Does science have all the answers? Can it even deal with abstract reasoning beyond the world we experience? How can we ensure that the physical world is sufficiently ordered to be intelligible to humans? How can mathematics, a product of human minds, unlock the secrets of the physical universe? Should all such questions be considered inadmissible if science cannot settle them? Metaphysics has traditionally been understood as reasoning beyond the reach of science, sometimes even claiming realities beyond its grasp. Because of this, metaphysics is often contemptuously dismissed by scientists and philosophers who wish to remain within the bounds of what can be scientifically proven. Yet scientists at the frontiers of physics unwittingly engage in metaphysics, as they are now happy to contemplate whole universes that are, in principle, beyond human reach. Roger Trigg challenges those who deny that science needs philosophical assumptions. Trigg claims that the foundations of science themselves have to lie beyond science. It takes reasoning apart from experience to discover what is not yet known and this metaphysical reasoning to imagine realities beyond what can be accessed. “In Beyond Matter, Roger Trigg advances a powerful, persuasive, fair-minded argument that the sciences require a philosophical, metaphysical foundation. This is a brilliant book for newcomers to the philosophy of science and experts alike.” —Charles Taliaferro, professor of philosophy, St. Olaf College
Most scientists and researchers aren’t prepared to talk to the press or to policymakers—or to deal with backlash. Many researchers have the horror stories to prove it. What’s clear, according to Nancy Baron, is that scientists, journalists and public policymakers come from different cultures. They follow different sets of rules, pursue different goals, and speak their own language. To effectively reach journalists and public officials, scientists need to learn new skills and rules of engagement. No matter what your specialty, the keys to success are clear thinking, knowing what you want to say, understanding your audience, and using everyday language to get your main points across. In this practical and entertaining guide to communicating science, Baron explains how to engage your audience and explain why a particular finding matters. She explores how to ace your interview, promote a paper, enter the political fray, and use new media to connect with your audience. The book includes advice from journalists, decision makers, new media experts, bloggers and some of the thousands of scientists who have participated in her communication workshops. Many of the researchers she has worked with have gone on to become well-known spokespeople for science-related issues. Baron and her protégées describe the risks and rewards of “speaking up,” how to deal with criticism, and the link between communications and leadership. The final chapter, ‘Leading the Way’ offers guidance to scientists who want to become agents of change and make your science matter. Whether you are an absolute beginner or a seasoned veteran looking to hone your skills, Escape From the Ivory Tower can help make your science understood, appreciated and perhaps acted upon.
In an era when many in the science community feel that science is under attack, In Defense of Science explains why ordinary citizens need to have an understanding of science, its methods, and its groundbreaking discoveries. The authors debunk several misconceptions of science and scientists, and advocate that science is an integral part of society and everyday life. This book begins with an introduction to science and its basic concepts, including a brief and entertaining history of science and scientific discoveries, before taking on current views of science in society. It surveys the many sources of our ideas of science, including pop culture, classics of literature, news media, and political discourse. Much of the information from these sources tends to mislead, and the only way to guard against such misinformation is to become scientifically literate, and promote scientific literacy in society. The book therefore delves into the reasons that so many people do not understand basic scientific principles and do not keep up with scientific breakthroughs, and finishes by examining the current state of science education. It includes many resources for further reading, and is presented in an engaging and entertaining way.
New approach demonstrating how social science can be successful, focusing on context, values, and power.