A Brief History of Time: From the Big Bang to Black HolesBantam Books, 1988 - 198 páginas "Stephen W. Hawking has achieved international prominence as one of the great minds of the twentieth century. Now, for the first time, he has written a popular work exploring the outer limits of our knowledge of astrophysics and the nature of time and the universe. The result is a truly enlightening book: a classic introduction to today's most important scientific ideas about the cosmos, and a unique opportunity to experience the intellect of one of the most imaginative, influential thinkers of our age. From the vantage point of the wheelchair where he has spent the last twenty years trapped by Lou Gehrig's disease, Professor Hawking himself has transformed our view of the universe. His groundbreaking research into black holes offers clues to that elusive moment when the universe was born. Now, in the incisive style which is his trademark, Professor Hawking shows us how mankind's "world picture evolved from the time of Aristotle through the 1915 breakthrough of Albert Einstein, to the exciting ideas of today's prominent young physicists. Was there a beginning of time? Will there be an end? Is the universe infinite? Or does it have boundaries? With these fundamental questions in mind, Hawking reviews the great theories of the cosmos - and all the puzzles, paradoxes and contradictions still unresolved. With great care he explains Galileo's and Newton's discoveries. Next he takes us step-by-step through Einstein's general theory of relativity (which concerns the extraordinarily vast) and then moves on to the other great theory of our century, quantum mechanics (which concerns the extraordinarily tiny). And last, he explores the worldwide effort to combine the two into a single quantum theory of gravity, the unified theory, which should resolve all the mysteries left unsolved - and he tells why he believes that momentous discovery is not far off. Professor Hawking also travels into the exotic realms of deep space, distant galaxies, black holes, quarks, GUTs, particles with "flavors" and "spin," antimatter, the "arrows of time" - and intrigues us with their unexpected implications. He reveals the unsettling possibilities of time running backward when an expanding universe collapses, a universe with as many as eleven dimensions, a theory of a "no boundary" universe that may replace the big bang theory and a God who may be increasingly fenced in by new discoveries - who may be the prime mover in the creation of it all. A BRIEF HISTORY OF TIME is a landmark book written for those of us who prefer words to equations. Told by an extraordinary contributor to the ideas of humankind, this is the story of the ultimate quest for knowledge, the ongoing search for the secrets at the heart of time and space." -- |
Dentro del libro
Resultados 1-3 de 19
Página 108
... temperature of only one ten millionth of a degree above absolute zero . This is much less than the temperature of the micro- wave radiation that fills the universe ( about 2.7 ° ) above absolute zero ) , so such black holes would emit ...
... temperature of only one ten millionth of a degree above absolute zero . This is much less than the temperature of the micro- wave radiation that fills the universe ( about 2.7 ° ) above absolute zero ) , so such black holes would emit ...
Página 117
... temperature of the radiation decreased . One second after the big bang , it would have fallen to about ten thousand million degrees . This is about a thousand times the temperature at the center of the sun , but temperatures as high as ...
... temperature of the radiation decreased . One second after the big bang , it would have fallen to about ten thousand million degrees . This is about a thousand times the temperature at the center of the sun , but temperatures as high as ...
Página 130
... temperature just below the critical temperature for symmetry between the forces . The universe would then go on to expand and cool just like the hot big bang model , but there would now be an explanation of why the universe was ...
... temperature just below the critical temperature for symmetry between the forces . The universe would then go on to expand and cool just like the hot big bang model , but there would now be an explanation of why the universe was ...
Contenido
The Unification of Physics | 155 |
Conclusion | 171 |
Albert Einstein | 177 |
Derechos de autor | |
Otras 2 secciones no mostradas
Otras ediciones - Ver todas
A Brief History of Time: From the Big Bang to Black Holes Stephen Hawking,Carl Sagan Vista de fragmentos - 1990 |
A Brief History of Time: From the Big Bang to Black Holes Stephen Hawking,Carl Sagan Vista de fragmentos - 1988 |
Términos y frases comunes
anthropic principle antiparticles antiquarks astronaut atoms big bang big bang singularity body boundary condition called collide complete unified theory cosmological density describe dimensions direction disorder distance early universe earth Einstein electrons emitted entropy event horizon exist fact finite Friedmann galaxies Galileo gamma ray grand unification energy gravitational attraction gravitational field gravitational force happen idea imaginary increase infinite initial large number laws of science light cone light rays mass mathematical matter particles measure million million million moving Newton nucleus observe orbits partial theories particles of spin paths physicist planets position possible predictions primordial black holes protons and neutrons quantum mechanics quantum theory quarks radiation recollapse regions Roger Penrose rotating scientist space space-time speed of light string theory sum over histories symmetry temperature theorem theory of gravity theory of relativity thermodynamic arrow thousand million tions uncertainty principle universe expands velocity wavelength weak force zero