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By explaining the physics behind ordinary objects, this book unravels the mysteries of how things work. Using familiar examples from everyday life and modern technology, this book explains the seemingly inexplicable phenomena we encounter all around us. As it examines everything from roller coasters to radio, musical instruments to makeup, and knuckleballs to nuclear weapons, How Everything Works provides the answers to such questions as why the sky is blue, why metal is a problem in microwave ovens, and why some clothes require dry cleaning. With fascinating and fun real-life examples that provide the answers to scores of questions, How Everything Works is nothing short of a user's manual to our everyday world.
From Nobel Prize-winning work in atomic physics to community concerns over radiation leaks, Brookhaven National Laboratory's ups and downs track the changing fortunes of "big science" in the United States since World War II. But Brookhaven is also unique; it was the first major national laboratory built specifically for basic civilian research. In Making Physics, Robert P. Crease brings to life the people, the instruments, the science, and the politics of Brookhaven's first quarter-century.
In 1687 Isaac Newton ushered in a new scientific era in which laws of nature could be used to predict the movements of matter with almost perfect precision. Newton's physics also posed a profound challenge to our self-understanding, however, for the very same laws that keep airplanes in the air and rivers flowing downhill tell us that it is in principle possible to predict what each of us will do every second of our entire lives, given the early conditions of the universe. Can it really be that even while you toss and turn late at night in the throes of an important decision and it seems like the scales of fate hang in the balance, that your decision is a foregone conclusion? Can it really be that everything you have done and everything you ever will do is determined by facts that were in place long before you were born? This problem is one of the staples of philosophical discussion. It is discussed by everyone from freshman in their first philosophy class, to theoretical physicists in bars after conferences. And yet there is no topic that remains more unsettling, and less well understood. If you want to get behind the façade, past the bare statement of determinism, and really try to understand what physics is telling us in its own terms, read this book. The problem of free will raises all kinds of questions. What does it mean to make a decision, and what does it mean to say that our actions are determined? What are laws of nature? What are causes? What sorts of things are we, when viewed through the lenses of physics, and how do we fit into the natural order? Ismael provides a deeply informed account of what physics tells us about ourselves. The result is a vision that is abstract, alien, illuminating, and-Ismael argues-affirmative of most of what we all believe about our own freedom. Written in a jargon-free style, How Physics Makes Us Free provides an accessible and innovative take on a central question of human existence.
"The activities and examples include many that have withstood the test of time for successful science instruction and that enable teachers to link science to the lives of students." —Elizabeth Hammerman, Science Educator and Consultant "A substantial contribution to the field of science education and an easy way for busy teachers to make science more meaningful, exciting, and connected for students. An important mix of both content and activities that teachers can use to meet individual needs." —Kerry Williams, Professor, Wayne State College Boost student interest and understanding in the physical sciences! Teaching physical science in the elementary and middle grades can be challenging for busy teachers faced with growing science demands and limited classroom resources. Robert Prigo provides fun and engaging activities using safe, available materials that educators can easily incorporate into lesson plans. Extensive examples, sample inquiry questions, and ideas for initiating units are readily available for teachers to pick and choose from to meet student needs. The result of more than two decades of professional development work with hundreds of teachers and administrators, Making Physics Fun addresses five specific areas of physical science: motion and force, fluids and buoyancy, waves and sound, light and electromagnetic waves, and electricity and magnetism. Dozens of activities demonstrating physics in action help students of all ages relate physics principles to their everyday experiences. Using easy-to-understand language, this practitioner-friendly resource helps teachers: Address the "big ideas" in K–8 science education Promote student understanding with ready-to-use learning experiences Use hands-on activities to help students make larger, real-world connections Assemble classroom learning centers to facilitate deeper understanding of basic physics principles With conceptual summaries to support teachers′ proficiency and understanding of the content, this guidebook is ideal for bringing physics to life for students in the classroom and in their lives!
From the host of the History channel’s Brad Meltzer’s Decoded: the laws of the universe like you’ve never experienced them before. This approachable book explains the world of physics with clarity, humor, and a dash of adventure. Physics for Rock Stars is not a weighty treatise on science, but a personal tour of physics from a quirky friend. Anyone who’s ever wondered why nature abhors a vacuum, what causes magnetic attraction, or how to jump off a moving train or do a perfect stage dive will find answers and a few laughs too. No equations, numbers, or tricky concepts—just an inspiring and comical romp through the basics of physics and the beauty of the organized universe.
Physics is really important to game programmers who need to know how to add physical realism to their games. They need to take into account the laws of physics when creating a simulation or game engine, particularly in 3D computer graphics, for the purpose of making the effects appear more real to the observer or player.The game engine ne
Original publication and copyright date: 2011.
A landmark tour of the new science of "idea flow" outlines revolutionary insights into the mysteries of collective intelligence and social influence, explaining the virtually unlimited data sets of today's digital technologies and the considerable accuracy of information from social networks.
Philosophy of physics is concerned with the deepest theories of modern physics - quantum theory, our theories of space, time and symmetry, and thermal physics - and their strange, even bizarre conceptual implications. This book explores the core topics in philosophy of physics, and discusses their relevance for both scientists and philosophers.
"A thorough, illuminating exploration of the most consequential controversy raging in modern science." --New York Times Book Review An Editor's Choice, New York Times Book Review Longlisted for PEN/E.O. Wilson Prize for Literary Science Writing Longlisted for Goodreads Choice Award Every physicist agrees quantum mechanics is among humanity's finest scientific achievements. But ask what it means, and the result will be a brawl. For a century, most physicists have followed Niels Bohr's solipsistic and poorly reasoned Copenhagen interpretation. Indeed, questioning it has long meant professional ruin, yet some daring physicists, such as John Bell, David Bohm, and Hugh Everett, persisted in seeking the true meaning of quantum mechanics. What Is Real? is the gripping story of this battle of ideas and the courageous scientists who dared to stand up for truth. "An excellent, accessible account." --Wall Street Journal "Splendid. . . . Deeply detailed research, accompanied by charming anecdotes about the scientists." --Washington Post