#1 NEW YORK TIMES BESTSELLERA landmark volume in science writing by one of the great minds of our time, Stephen Hawking's book explores such profound questions as: How did the universe begin--and what made its start possible? Does time always flow forward? Is the universe unending--or are there boundaries? Are there other dimensions in space? What will happen when it all ends? Told in language we all can understand, A Brief History of Time plunges into the exotic realms of black holes and quarks, of antimatter and "arrows of time," of the big bang and a bigger God--where the possibilities are wondrous and unexpected. With exciting images and profound imagination, Stephen Hawking brings us closer to the ultimate secrets at the very heart of creation.
"A fascinating account of the theoretical ideas behind supersymmetry...told by someone who has contributed deeply to the development of the field." -NatureFor most of human history, man has been trying to discover just how the universe works. In this groundbreaking work, renowned physicist Gordon Kane first gives us the basics of the Standard Model, which describes the fundamental constituents and forces of nature. He then explains the next great leap in understanding: the theory of supersymmetry, which implies that each of the fundamental particles has a "superpartner" that can be detected at energies and intensities only now being achieved in the giant accelerators. If Kane and his colleagues are correct, these superpartners will also help solve many of the puzzles of modern physics-such as the existence of the Higgs boson-as well as one of the biggest mysteries is cosmology: the notorious "dark matter" of the universe.
Reveals recent developments in quantum theory and explains the fundamental riddle of quantum mechanics--why a single photon can be seen going in two directions at once
Mike Lynch is Minnesota's most popular amateur astronomer and instructor. He has been leading stargazing classes for more than 30 years as well as writing a weekly astronomy column for the "St. Paul Pioneer Press." In his other life, Mike has been a meteorologist and popular radio personality at WCCO Radio for 23 years. Now with "Mike Lynch's Minnesota StarWatch" you can easily pick up what thousands of Minnesotans, ages 12 and up, have learned in his popular stargazing classes. You won't find a more enthusiastic guide to the night sky than Mike Lynch and you won't find a better guidebook to our night sky than "Mike Lynch's Minnesota Star Watch."
Quantum theorist Erwin Schrvdinger invented his now-famous cat to illustrate the apparently impossible conundrums associated with quantum physics. The cat lives in an opaque box with a fiendish device that randomly feeds it either food, allowing it to live, or poison, which kills it. But in the quantum world, all possibilities coexist and have a reality of their own, and they ensure that the cat is both alive and dead, simultaneously.
Who's Afraid of Schrvdinger's Cat? is a clear, concise explanation of the new sciences of quantum mechanics, chaos and complexity theory, relativity, new theories of mind, and the new cosmology. It studies worlds beyond the realm of common sense, and the new kinds of thinking that we need to understand ourselves, our minds, and our human place in the larger scheme of things.
"A wealth of intriguing and lovely ideas." -- Information Technology & Learning.
While the beauty of mathematics is often discussed, the aesthetic appeal of the discipline is seldom demonstrated as clearly as in this intriguing journey into the realms where art and mathematics merge. Aimed at a wide range of ages and abilities, this engrossing book explores the possibilities of mathematical drawing through compass constructions and computer graphics.
Compass construction is an extremely ancient art, requiring no special skills other than the care it takes to place a compass point accurately. For the computer graphics part of the present work, however, readers will need some familiarity with basic high school mathematics-mainly algebra and trigonometry. Still, much of the book can be enjoyed even by "mathophobes," for it is about lines and circles and how to put them together to make various patterns, both abstract and natural.
One hundred and six full-page drawings, ranging from totally abstract to somewhat pictorial, demonstrate the possibilities of mathematical drawing and serve as inspiration to readers to carry out their own creative investigations. Among the illustrations are such intriguing configurationsas a five-point egg, golden ratio, 17-gon, plughole vortex, blancmange curve, Durer's pentagons, pentasnow, turtle geometry, and many more. In guiding students toward the comprehension and creation of such figures, the author explains helpful basic principles (of number, length and angle) as well as reviewing relevant fundamentals of trigonometry. In addition, he has provided numerous useful exercises (with answers} at the ends of the chapters, together with recommended further reading, detailed in the bibliography. 211 black-and-white illustrations. Bibliography. Index.
In May 1996 physicist Alan Sokal published an essay in the fashionable academic journal Social Text. The essay quoted hip theorists like Jacques Lacan, Donna Haraway, and Gilles Deleuze. The prose was thick with the jargon of poststructuralism. And the point the essay tried to make was counterintuitive: gravity, Sokal argued, was a fiction that society had agreed upon, and science needed to be liberated from its ideological blinders.
When Sokal revealed in the pages of Lingua Franca that he had written the article as a parody, the story hit the front page of the New York Times. It set off a national debate still raging today: Are scholars in the humanities trapped in a jargon-ridden Wonderland? Are scientists deluded in thinking their work is objective? Are literature professors suffering from science envy? Was Sokal's joke funny? Was the Enlightenment such a bad thing after all? And isn't it a little bit true that the meaning of gravity is contingent upon your cultural perspective?
Collected here for the first time are Sokal's original essay on quantum gravity, his essay revealing the hoax, the newspaper articles that broke the story, and the angry op-eds, letters, and e-mail exchanges sparked by the hoax from intellectuals across the country, including Stanley Fish, George F. Will, Michael B rub , and Katha Pollitt. Also included are extended essays in which a wide range of scholars ponder the long-term lessons of the hoax.