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| View Larger Image | A Brief History of Time: From the Big Bang to Black Holes
by Stephen Hawking
| | List Price: | $14.95 |  | | 12 New starting at: | $3.45 | | 257 Used starting at: | $0.01 | | 9 Collectible starting at: | $14.95 | | | | | Sales Rank: | 584457 | | Studio: | Bantam | | | Binding: | Paperback | | Number Of Pages: | 208 | | Publication Date: | June 01, 1990 | | Publisher: | Bantam |
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EDITORIAL REVIEWS |
Product Description
Stephen Hawking has earned a reputation as the most brilliant theoretical physicist since Einstein. In this landmark volume, Professor Hawking shares his blazing intellect with nonscientists everywhere, guiding us expertly to confront the supreme questions of the nature of time and the universe. Was there a beginning of time? Will there be an end? Is the universe infinite or does it have boundaries? From Galileo and Newton to modern astrophysics, from the breathtakingly cast to the extraordinarily tiny, Professor Hawking leads us on an exhilarating journey to distant galaxies, black holes, alternate dimensions--as close as man has ever ventured to the mind of God. From the vantage point of the wheelchair from which he has spent more than twenty years trapped by Lou Gehrig's disease, Stephen Hawking has transformed our view of the universe. Cogently explained, passionately revealed, A Brief History of Time is the story of the ultimate quest for knowledge: the ongoing search for the tantalizing secrets at the heart of time and space. |
Amazon.com
Stephen Hawking, one of the most brilliant theoretical physicists in history, wrote the modern classic A Brief History of Time to help nonscientists understand the questions being asked by scientists today: Where did the universe come from? How and why did it begin? Will it come to an end, and if so, how? Hawking attempts to reveal these questions (and where we're looking for answers) using a minimum of technical jargon. Among the topics gracefully covered are gravity, black holes, the Big Bang, the nature of time, and physicists' search for a grand unifying theory. This is deep science; these concepts are so vast (or so tiny) as to cause vertigo while reading, and one can't help but marvel at Hawking's ability to synthesize this difficult subject for people not used to thinking about things like alternate dimensions. The journey is certainly worth taking, for, as Hawking says, the reward of understanding the universe may be a glimpse of "the mind of God." --Therese Littleton |
CUSTOMER REVIEWS (Average Customer Rating: 4.5 based on 346 reviews)
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Brilliant 
One review stated " It Will Change the Way You Look at the Universe!" I have found this to be true and at a young age, it definitely sparked my interest in conceptual physics. I own this book in hardback and have found that the illustrations go a long way in explaining the content. A Brief History of Time explains a range of subjects in cosmology, including the Big Bang, black holes, light cones and superstring theory, to the nonspecialist reader.
A great book for both young and adult readers.
August 14, 2008 | |
A nice, conceptual overview of the thought behind theoretical physics 
Reading this 10 years after the 10th edition was published, I find the science has advanced well beyond what is within the book, but at the same time the scope of the book remains relevant.
This should really be considered a history of philosophy of science, for indeed it is. There is only one equation in the entire book (E=MC squared), and there is no math done in here, so it should be accessible to really anyone.
I don't think the material gets dry so much as a little hard to follow at times. You can only explain so much of complex mathematical proofs in entirely conceptual terms. Prof. Hawking has sacrificed complexity for readibility, and overall he's done well.
You won't be a theoretical physicist after reading this book, but you may enjoy the field enough to pick up a slightly more in-depth tome.
July 30, 2008 | |
BUT TO KNOW - THE MIND OF GOD
Stephen W. Hawking is a theoretical physicist who has held the post at Cambridge University once held by Isaac Newton. Hawking writes of attending a conference on cosmology at the Vatican in 1981. At the end of the conference the pope cautioned that scientists should not examine the moment of the creation of the universe because that was the work of God. In his book Stephen Hawking has not heeded the pope's advice. One of his conclusions is that we now have a picture of developments "to about one second after the Big Bang" (p. 118). For Hawking, scientific inquiry has moved from "what" questions right on through to "how" and is at the point of answering "why." As soon as theorists succeed in incorporating the law of gravity into a properly developed and tested grand unification theory (GUT) we will then "know the mind of God" (p. 175).
Hawking writes carefully for the non-specialist. He has taken the trouble to provide a glossary with page references. He has avoided mathematical formulas and has worked hard to find analogies for the abstractions of twentieth-century physics. The universe looks the same from all directions, "rather like a balloon with a number of spots painted on it, being steadily blown up. As the balloon expands, the distance between any two spots increases, but there is no spot that can be said to be the center of the expansion" (p. 42).
Any careful reader can use Hawking's little book (198 pages including introduction, glossary, index, and three excursi on Einstein, Galileo, and Newton) to participate in ongoing discussions about a number of questions that are asked these days primarily by children and physicists. What is nature, and where did it come from? What is time? Is it possible to move backward in time? Is there a beginning or a boundary to the universe? Will the universe come to an end, and what kind of end will it be? What did God do in the beginning, and what role does God play now in the physical world?
The answers to such questions, Hawking believes, are to be found in the inquiries of theoretical physicists. For Hawking, the core of modern physics is quantum mechanics, the development of theories having to do with the movement and the components of energy, as distinguished from classical physics, the study of the properties of matter. Hawking states that quantum physics underlies nearly all of modern science and development, including nuclear power and micro technology and asserts that quantum physics will eventually not only explain the origin of every thing but also predict the future.
A number of ideas compressed into this small book warrant further examination. Hawking writes of a "survival advantage" (p. 12) scientific discovery has conveyed to humankind that can be canceled by further discoveries that "may destroy us all" (p. 12). Life in our sector of the galaxies developed because of disorder in matter that disrupted the generally smooth character of the universe. Hawking suggests that intelligent beings can exist only in an expanding universe. The idea here is that scientific laws are predictable in only one direction through time and that a collapsing universe would cause a reversal of the "arrows of time" (pp. 143 f.) and would thus invalidate human comprehensibility. Hawking speculates about a notion called "the anthropic principle" (p. 124), which appears to mean that the universe is as it is because, if it were not, we would not be around to observe it. But if the anthropic principle is the bottom line then scientific cosmology has become anthropology, and why waste any more time with telescopes or particle accelerators? Hawking suggests that the universe (time and space taken together) is "finite yet without boundary" (p. 136). This is the most arresting and, as yet unprovable of Stephen Hawking's proposals, but he is willing to wait for further observations that may move this idea to a higher degree of probability.
In the midst of all this theorizing Hawking conveys something of the playfulness of many who are engaged in the quantum physics quest. There is mention of a now-discarded theory known as LGM 1-4, LGM standing for "little green men." The explosion that is supposed to have kicked off our expanding universe is commonly known as the Big Bang. The smallest known particles are called quarks and come in flavors; the uniform nature of collapsing stars goes by the maxim "black holes have no hair." (p. 92)
Because theoretical physics has turned very precisely toward the whys of life, theology and ethics will have to pay closer attention. I will give two examples. When did time begin? Hawking offers the idea of a "singularity," a unique event in time at which the laws of science break down and predictability disappears. The Big Bang, therefore, is a singularity, and it may be said that time began with creation itself. From this it follows that time will come to an end when the universe ceases its expansion, collapses into itself, and perhaps sets off another Big Bang. The singularity idea has many implications for the theological dimensions of eschatology as well as for cosmology.
An example of the importance of quantum physics for ethics might be the "uncertainty principle" of Werner Heisenberg (1926), which Hawking refers to as "a fundamental, inescapable property of the world" (p. 55). Briefly, the uncertainty principle asserts that the position and velocity of particles cannot be precisely predicted. Rather, particles exist in a quantum state, which is a combination of position and velocity and which suggests a range of possible locations where particles are likely to be found. This means that we do not live in a deterministic universe where definite results can be expected. This also suggests there is a limit to our capacity to know what is going on.
If results in science are subject to randomness, ought not this principle of uncertainty be recognized when we speak of "good" and "bad" behavior? Isn't it less pretentious and more helpful to think in terms of quantum ethics, which would allow for a range of appropriate actions? I think this kind of approach is in harmony with Jesus' comments about ethical behavior. When asked about the greatest of God's commands he cited the Shemah (Deut. 6:4) and added that "you shall love your neighbor as yourself" (Mark 12:29-30). This admonition finds parallels in many traditions and leaves much room for intelligent, responsible reflection-action.
Theoretical physics awaits and accepts the judgment of the future, whose discoveries and experiments either prove, or dismiss earlier claims. The author cites many instances of this: even the supernovas of physics, Newton and Einstein, admitted earlier mistakes or had their ideas corrected by others. Most theological reflection, on the other hand, lacks any sort of empirical reference. In other words, theological speculations, disconnected as they are from a close reading of "secular" history, normally make predictions that do not have to agree with observation.
In the last ten years or so theoretical physics has turned cosmology into a subject for scientific discussion and discovery. Can theological speculation accept the challenge of quantum physics and adapt to the conceptual limits that are laid down? Are seminaries prepared to train pastors and teachers to pay attention to the quanta discussions? How might theocentric statements be tested and then sustained or discarded? These are a few of the questions that quantum physics has placed on the theological agenda.
This review has been published in a collection of reviews and articles, That's What I'm Talking About (Nativa 2008). THAT'S WHAT I'M TALKING ABOUT
May 31, 2008 | |
BUT TO KNOW THE MIND OF GOD
Stephen W. Hawking is a theoretical physicist who has held the post at Cambridge University once held by Isaac Newton. Hawking writes of attending a conference on cosmology at the Vatican in 1981. At the end of the conference the pope cautioned that scientists should not examine the moment of the creation of the universe because that was the work of God. In his book Stephen Hawking has not heeded the pope's advice. One of his conclusions is that we now have a picture of developments "to about one second after the Big Bang" (p. 118). For Hawking, scientific inquiry has moved from "what" questions right on through to "how" and is at the point of answering "why." As soon as theorists succeed in incorporating the law of gravity into a properly developed and tested grand unification theory (GUT) we will then "know the mind of God" (p. 175).
Hawking writes carefully for the non-specialist. He has taken the trouble to provide a glossary with page references. He has avoided mathematical formulas and has worked hard to find analogies for the abstractions of twentieth-century physics. The universe looks the same from all directions, "rather like a balloon with a number of spots painted on it, being steadily blown up. As the balloon expands, the distance between any two spots increases, but there is no spot that can be said to be the center of the expansion" (p. 42).
Any careful reader can use Hawking's little book (198 pages including introduction, glossary, index, and three excursi on Einstein, Galileo, and Newton) to participate in ongoing discussions about a number of questions that are asked these days primarily by children and physicists. What is nature, and where did it come from? What is time? Is it possible to move backward in time? Is there a beginning or a boundary to the universe? Will the universe come to an end, and what kind of end will it be? What did God do in the beginning, and what role does God play now in the physical world?
The answers to such questions, Hawking believes, are to be found in the inquiries of theoretical physicists. For Hawking, the core of modern physics is quantum mechanics, the development of theories having to do with the movement and the components of energy, as distinguished from classical physics, the study of the properties of matter. Hawking states that quantum physics underlies nearly all of modern science and development, including nuclear power and micro technology and asserts that quantum physics will eventually not only explain the origin of every thing but also predict the future.
A number of ideas compressed into this small book warrant further examination. Hawking writes of a "survival advantage" (p. 12) scientific discovery has conveyed to humankind that can be canceled by further discoveries that "may destroy us all" (p. 12). Life in our sector of the galaxies developed because of disorder in matter that disrupted the generally smooth character of the universe. Hawking suggests that intelligent beings can exist only in an expanding universe. The idea here is that scientific laws are predictable in only one direction through time and that a collapsing universe would cause a reversal of the "arrows of time" (pp. 143 f.) and would thus invalidate human comprehensibility. Hawking speculates about a notion called "the anthropic principle" (p. 124), which appears to mean that the universe is as it is because, if it were not, we would not be around to observe it. But if the anthropic principle is the bottom line then scientific cosmology has become anthropology, and why waste any more time with telescopes or particle accelerators? Hawking suggests that the universe (time and space taken together) is "finite yet without boundary" (p. 136). This is the most arresting and, as yet unprovable of Stephen Hawking's proposals, but he is willing to wait for further observations that may move this idea to a higher degree of probability.
In the midst of all this theorizing Hawking conveys something of the playfulness of many who are engaged in the quantum physics quest. There is mention of a now-discarded theory known as LGM 1-4, LGM standing for "little green men." The explosion that is supposed to have kicked off our expanding universe is commonly known as the Big Bang. The smallest known particles are called quarks and come in flavors; the uniform nature of collapsing stars goes by the maxim "black holes have no hair." (p. 92)
Because theoretical physics has turned very precisely toward the whys of life, theology and ethics will have to pay closer attention. I will give two examples. When did time begin? Hawking offers the idea of a "singularity," a unique event in time at which the laws of science break down and predictability disappears. The Big Bang, therefore, is a singularity, and it may be said that time began with creation itself. From this it follows that time will come to an end when the universe ceases its expansion, collapses into itself, and perhaps sets off another Big Bang. The singularity idea has many implications for the theological dimensions of eschatology as well as for cosmology.
An example of the importance of quantum physics for ethics might be the "uncertainty principle" of Werner Heisenberg (1926), which Hawking refers to as "a fundamental, inescapable property of the world" (p. 55). Briefly, the uncertainty principle asserts that the position and velocity of particles cannot be precisely predicted. Rather, particles exist in a quantum state, which is a combination of position and velocity and which suggests a range of possible locations where particles are likely to be found. This means that we do not live in a deterministic universe where definite results can be expected. This also suggests there is a limit to our capacity to know what is going on.
If results in science are subject to randomness, ought not this principle of uncertainty be recognized when we speak of "good" and "bad" behavior? Isn't it less pretentious and more helpful to think in terms of quantum ethics, which would allow for a range of appropriate actions? I think this kind of approach is in harmony with Jesus' comments about ethical behavior. When asked about the greatest of God's commands he cited the Shemah (Deut. 6:4) and added that "you shall love your neighbor as yourself" (Mark 12:29-30). This admonition finds parallels in many traditions and leaves much room for intelligent, responsible reflection-action.
Theoretical physics awaits and accepts the judgment of the future, whose discoveries and experiments either prove, or dismiss earlier claims. The author cites many instances of this: even the supernovas of physics, Newton and Einstein, admitted earlier mistakes or had their ideas corrected by others. Most theological reflection, on the other hand, lacks any sort of empirical reference. In other words, theological speculations, disconnected as they are from a close reading of "secular" history, normally make predictions that do not have to agree with observation.
In the last ten years or so theoretical physics has turned cosmology into a subject for scientific discussion and discovery. Can theological speculation accept the challenge of quantum physics and adapt to the conceptual limits that are laid down? Are seminaries prepared to train pastors and teachers to pay attention to the quanta discussions? How might theocentric statements be tested and then sustained or discarded? These are a few of the questions that quantum physics has placed on the theological agenda.
This review was first published in 1989 and has been republished in a collection of reviews and articles, That's What I'm Talking About (Nativa 2008). THAT'S WHAT I'M TALKING ABOUT
May 31, 2008 | |
Complex subject matter spelled out for the layman
Hawking does a commendable job presenting some very detailed and complicated topics while simultaneously exhibiting them in a manner permitting the layman to fully comprehend the material. He accomplished both the simplification of complicated content as well as the presentation of subject matters that might normally be tedious yet are found to be quite appealing as a result of his demeanor and writing style.
Hawking's use of analogies only makes the visualization of space and time all the more accessible to simpler minds such as myself. Frequently taking subjects that require intense imagination and focus and explaining them with everyday analogies perhaps speaks to Hawking's brilliance as much as his research. Never before have I been so easily able to comprehend the expansion of the universe until it was so eloquently equated with the spots on a balloon. This only represents a sampling of the useful correlations one will find in this work, as he scatters them throughout each chapter.
For those seeking to explore the mindset of the most prominent men of science and to discover the questions they are asking in their quest for answers, this book will not disappoint. If you have even a basic interest in astronomy or physics, this book should be an essential part of your library.
May 30, 2008 | |
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