The Grand Design
The Grand Design book cover

The Grand Design

Hardcover – September 7, 2010

by
Price
$17.29
Format
Hardcover
Pages
208
Publisher
Bantam
Publication Date
ISBN-13
978-0553805376
Dimensions
6.27 x 0.81 x 9.29 inches
Weight
1.19 pounds

Description

Stephen Hawking on The Grand Design How can we understand the world in which we find ourselves? Over twenty years ago I wrote A Brief History of Time , to try to explain where the universe came from, and where it is going. But that book left some important questions unanswered. Why is there a universe--why is there something rather than nothing? Why do we exist? Why are the laws of nature what they are? Did the universe need a designer and creator? It was Einstein’s dream to discover the grand design of the universe, a single theory that explains everything. However, physicists in Einstein’s day hadn’t made enough progress in understanding the forces of nature for that to be a realistic goal. And by the time I had begun writing A Brief History of Time , there were still several key advances that had not yet been made that would prevent us from fulfilling Einstein’s dream. But in recent years the development of M-theory, the top-down approach to cosmology, and new observations such as those made by satellites like NASA’s COBE and WMAP, have brought us closer than ever to that single theory, and to being able to answer those deepest of questions. And so Leonard Mlodinow and I set out to write a sequel to A Brief History of Time to attempt to answer the Ultimate Question of Life, the Universe and Everything. The result is The Grand Design , the product of our four-year effort. In The Grand Design we explain why, according to quantum theory, the cosmos does not have just a single existence, or history, but rather that every possible history of the universe exists simultaneously. We question the conventional concept of reality, posing instead a "model-dependent" theory of reality. We discuss how the laws of our particular universe are extraordinarily finely tuned so as to allow for our existence, and show why quantum theory predicts the multiverse--the idea that ours is just one of many universes that appeared spontaneously out of nothing, each with different laws of nature. And we assess M-Theory, an explanation of the laws governing the multiverse, and the only viable candidate for a complete "theory of everything." As we promise in our opening chapter, unlike the answer to the Ultimate Question of Life given in the Hitchhiker’s Guide to the Galaxy , the answer we provide in The Grand Design is not, simply, "42." (Photo © Philip Waterson, LBIPP, LRPS) From Publishers Weekly Starred Review. The three central questions of philosophy and science: Why is there something rather than nothing? Why do we exist? Why this particular set of laws and not some other? No one can make a discussion of such matters as compulsively readable as the celebrated University of Cambridge cosmologist Hawking (A Brief History of Time). Along with Caltech physicist Mlodinow (The Drunkard's Walk), Hawking deftly mixes cutting-edge physics to answer those key questions. For instance, why do we exist? Earth occupies a "Goldilocks Zone" in space: just the perfect distance from a not-too-hot star, with just the right elements to allow life to evolve. On a larger scale, in order to explain the universe, the authors write, "we need to know not only how the universe behaves, but why." While no single theory exists yet, scientists are approaching that goal with what is called "M-theory," a collection of overlapping theories (including string theory) that fill in many (but not all) the blank spots in quantum physics; this collection is known as the "Grand Unified Field Theories." This may all finally explain the mystery of the universe's creation without recourse to a divine creator. This is an amazingly concise, clear, and intriguing overview of where we stand when it comes to divining the secrets of the universe. 41 color illus. throughout, 7 b&w cartoons. Copyright © Reed Business Information, a division of Reed Elsevier Inc. All rights reserved. From Bookmarks Magazine Whether or not critics bought into Hawking's and Mlodinow's mind-bending exploration of "the grand design" depended to some extent on each reviewer's familiarity with physics. The Spectator thought that the authors should have provided some answers instead of just introducing mathematical concepts with "such reckless abandon," while the New York Times Book Review called the book condescending and, more seriously, M-theory "somewhat disappointing... a patchwork quilt rather than a fine, seamless garment." Yet other critics felt that the authors did a fine job of clearly explaining why modern science may soon provide answers to large philosophical questions. As one critic, a professor of physics said, "Deep stuff, indeed. Maybe in the end the whole multiverse idea will actually turn out to be right!" ( Washington Post ). Or, as physicist Fred Bortz claims, possibly wrong. Only time may tell. From Booklist The idea of the multiverse—that the observable universe in which we live doesn’t exist independently, apart from anything else, but is one member of an enormous collection of physically real universes—has been propagated to nonscientists by such physicist-authors as Michio Kaku (Parallel Worlds, 2004) and Leonard Susskind (The Cosmic Landscape, 2006). However laudable their popular-science efforts, Stephen Hawking’s pitch of the multiverse concept likely will reach more readers—not solely due to his world-wide fame but also because of the efficiently precise, understandable, and lightly jesting prose of Hawking and coauthor Mlodinow (also a physicist and author). Posing simple, fundamental questions such as, Why do we exist? the authors employ word pictures, analogies to everyday experience, but (blessedly) no equations to convey the physics that are involved in the answer this book ultimately offers. Sympathetically noting that quantum mechanics and general relativity remain as counterintuitive to experts as to laypeople, Hawking and Mlodinow alight on the probabilistic nature of energy and matter, frames of reference, string theory, and the incredibly finely-tuned values of physical forces and masses that permit life to exist, combining their presentations into the propositions of “M-theory” about what initiated the big bang. Repetition of the multi-mega-copy sales of A Brief History of Time (1988) can be safely predicted; expect queues in stores and libraries for Hawking’s latest parting of the veil to far-out physics. --Gilbert Taylor “The authors bring together an anecdotal clarity that is something of a first for the genre. . . . Making science like this interesting is not all that hard; making it accessible is the real trick, one that The Grand Design pulls off.” —Time “Groundbreaking.” —The Washington Post “In this short and sprightly book . . . Hawking and Mlodinow take the reader through a whirlwind tour of fundamental physics and cosmology.” — The Wall Street Journal “Fascinating . . . a wealth of ideas [that] leave us with a clearer understanding of modern physics in all its invigorating complexity.” — Los Angeles Times “Provocative pop science, an exploration of the latest thinking about the origins of our universe.” — The New York Times “Introduces the reader to topics at the frontier of theoretical physics . . . more clearly for general readers than I have seen before.” —Steven Weinberg, The New York Review of Books “A provocative, mind-expanding book.” — The Plain Dealer Stephen Hawking was the Lucasian Professor of Mathematics at the University of Cambridge for thirty years and the recipient of numerous awards and honors including the presidential Medal of Freedom. His books for the general reader include My Brief History, the classic A Brief History of Time, the essay collection Black Holes and Baby Universes, The Universe in a Nutshell, and, with Leonard Mlodinow, A Briefer History of Time and The Grand Design . Stephen Hawking died in 2018. Leonard Mlodinow is a physicist at Caltech and the bestselling author of The Drunkard’s Walk: How Randomness Rules our Lives, Euclid’s Window: The Story of Geometry from Parallel Lines to Hyperspace, and Feynman’s Rainbow: A Search for Beauty in Physics and in Life. He also wrote for Star Trek: The Next Generation. He lives in South Pasadena, California. Excerpt. © Reprinted by permission. All rights reserved. Chapter 1We each exist for but a short time, and in that time explore but a small part of the whole universe. But humans are a curious species. We wonder, we seek answers. Living in this vast world that is by turns kind and cruel, and gazing at the immense heavens above, people have always asked a multitude of questions: How can we understand the world in which we find ourselves? How does the universe behave? What is the nature of reality? Where did all this come from? Did the universe need a creator? Most of us do not spend most of our time worrying about these questions, but almost all of us worry about them some of the time.Traditionally these are questions for philosophy, but philosophy is dead. Philosophy has not kept up with modern developments in science, particularly physics. Scientists have become the bearers of the torch of discovery in our quest for knowledge. The purpose of this book is to give the answers that are suggested by recent discoveries and theoretical advances. They lead us to a new picture of the universe and our place in it that is very different from the traditional one, and different even from the picture we might have painted just a decade or two ago. Still, the first sketches of the new concept can be traced back almost a century.According to the traditional conception of the universe, objects move on well-defined paths and have definite histories. We can specify their precise position at each moment in time. Although that account is successful enough for everyday purposes, it was found in the 1920s that this "classical" picture could not account for the seemingly bizarre behavior observed on the atomic and subatomic scales of existence. Instead it was necessary to adopt a different framework, called quantum physics. Quantum theories have turned out to be remarkably accurate at predicting events on those scales, while also reproducing the predictions of the old classical theories when applied to the macroscopic world of daily life. But quantum and classical physics are based on very different conceptions of physical reality.Quantum theories can be formulated in many different ways, but what is probably the most intuitive description was given by Richard (Dick) Feynman, a colorful character who worked at the California Institute of Technology and played the bongo drums at a strip joint down the road. According to Feynman, a system has not just one history but every possible history. As we seek our answers, we will explain Feynman's approach in detail, and employ it to explore the idea that the universe itself has no single history, nor even an independent existence. That seems like a radical idea, even to many physicists. Indeed, like many notions in today's science, it appears to violate common sense. But common sense is based upon everyday experience, not upon the universe as it is revealed through the marvels of technologies such as those that allow us to gaze deep into the atom or back to the early universe.Until the advent of modern physics it was generally thought that all knowledge of the world could be obtained through direct observation, that things are what they seem, as perceived through our senses. But the spectacular success of modern physics, which is based upon concepts such as Feynman's that clash with everyday experience, has shown that that is not the case. The naive view of reality therefore is not compatible with modern physics. To deal with such paradoxes we shall adopt an approach that we call model-dependent realism. It is based on the idea that our brains interpret the input from our sensory organs by making a model of the world. When such a model is successful at explaining events, we tend to attribute to it, and to the elements and concepts that constitute it, the quality of reality or absolute truth. But there may be different ways in which one could model the same physical situation, with each employing different fundamental elements and concepts. If two such physical theories or models accurately predict the same events, one cannot be said to be more real than the other; rather, we are free to use whichever model is most convenient.In the history of science we have discovered a sequence of better and better theories or models, from Plato to the classical theory of Newton to modern quantum theories. It is natural to ask: Will this sequence eventually reach an end point, an ultimate theory of the universe, that will include all forces and predict every observation we can make, or will we continue forever finding better theories, but never one that cannot be improved upon? We do not yet have a definitive answer to this question, but we now have a candidate for the ultimate theory of everything, if indeed one exists, called M- theory. M-theory is the only model that has all the properties we think the final theory ought to have, and it is the theory upon which much of our later discussion is based.M-theory is not a theory in the usual sense. It is a whole family of different theories, each of which is a good description of observations only in some range of physical situations. It is a bit like a map. As is well known, one cannot show the whole of the earth's surface on a single map. The usual Mercator projection used for maps of the world makes areas appear larger and larger in the far north and south and doesn't cover the North and South Poles. To faithfully map the entire earth, one has to use a collection ofmaps, each of which covers a limited region. The maps overlap each other, and where they do, they show the same landscape.M-theory is similar. The different theories in the M-theory family may look very different, but they can all be regarded as aspects of the same underlying theory. They are versions of the theory that are applicable only in limited ranges-for example, when certain quantities such as energy are small. Like the overlapping maps in a Mercator projection, where the ranges of different versions overlap, they predict the same phenomena. But just as there is no flat map that is a good representation of the earth's entire surface, there is no single theory that is a good representation of observations in all situations.We will describe how M-theory may offer answers to the question of creation. According to M-theory, ours is not the only universe. Instead, M-theory predicts that a great many universes were created out of nothing. Their creation does not require the intervention of some supernatural being or god. Rather, these multiple universes arise naturally from physical law. They are a prediction of science. Each universe has many possible histories and many possible states at later times, that is, at times like the present, long after their creation. Most of these states will be quite unlike the universe we observe and quite unsuitable for the existence of any form of life. Only a very few would allow creatures like us to exist. Thus our presence selects out from this vast array only those universes that are compatible with our existence. Although we are puny and insignificant on the scale of the cosmos, this makes us in a sense the lords of creation.To understand the universe at the deepest level, we need to know not only how the universe behaves, but why.Why is there something rather than nothing?Why do we exist?Why this particular set of laws and not some other?This is the Ultimate Question of Life, the Universe, and Everything. We shall attempt to answer it in this book. Unlike the answer given in The Hitchhiker's Guide to the Galaxy, ours won't be simply "42."2The Rule of LawSkoll the wolf who shall scare the MoonTill he flies to the Wood-of-Woe:Hati the wolf, Hridvitnir's kin,Who shall pursue the sun.-"Grimnismal," The Elder Eddan Viking mythology, Skoll and Hati chase the sun and the moon. When the wolves catch either one, there is an eclipse. When this happens, the people on earth rush to rescue the sun or moon by making as much noise as they can in hopes of scaring off the wolves. There are similar myths in other cultures. But after a time people must have noticed that the sun and moon soon emerged from the eclipse regardless of whether they ran around screaming and banging on things. After a time they must also have noticed that the eclipses didn't just happen at random: They occurred in regular patterns that repeated themselves. These patterns were most obvious for eclipses of the moon and enabled the ancient Babylonians to predict lunar eclipses fairly accurately even though they didn't realize that they were caused by the earth blocking the light of the sun. Eclipses of the sun were more difficult to predict because they are visible only in a corridor on the earth about 30 miles wide. Still, once grasped, the patterns made it clear the eclipses were not dependent on the arbitrary whims of supernatural beings, but rather governed by laws.Despite some early success predicting the motion of celestial bodies, most events in nature appeared to our ancestors to be impossible to predict. Volcanoes, earthquakes, storms, pestilences, and ingrown toenails all seemed to occur without obvious cause or pattern. In ancient times it was natural to ascribe the violent acts of nature to a pantheon of mischievous or malevolent deities. Calamities were often taken as a sign that we had somehow offended the gods. For example, in about 4800 bc the Mount Mazama volcano in Oregon erupted, raining rock and burning ash for years, and leading to the many years of rainfall that eventually filled the volcanic crater today called Crater Lake. The Klamath Indians of Oregon have a legend that faithfully matches every geologic detail of the event but adds a bit of drama by portraying a human as the cause of the catastrophe. The human capacity for guilt is such that people can always find ways to blame themselves. As the legend goes, Llao, the chief of the Below World, falls in love with the beautiful human daughter of a Klamath chief. She spurns him, and in revenge Llao tries to destroy the Klamath with fire. Luckily, according to the legend, Skell, the chief of the Above World, pities the humans and does battle with his underworld counterpart. Eventually Llao, injured, falls back inside Mount Mazama, leaving a huge hole, the crater that eventually filled with water.Ignorance of nature's ways led people in ancient times to invent gods to lord it over every aspect of human life. There were gods of love and war; of the sun, earth, and sky; of the oceans and rivers; of rain and thunderstorms; even of earthquakes and volcanoes. When the gods were pleased, mankind was treated to good weather, peace, and freedom from natural disaster and disease. When they were displeased, there came drought, war, pestilence, and epidemics. Since the connection of cause and effect in nature was invisible to their eyes, these gods appeared inscrutable, and people at their mercy. But with Thales of Miletus (ca. 624 bc-ca. 546 bc) about 2,600 years ago, that began to change. The idea arose that nature follows consistent principles that could be deciphered. And so began the long process of replacing the notion of the reign of gods with the concept of a universe that is governed by laws of nature, and created according to a blueprint we could someday learn to read.Viewed on the timeline of human history, scientific inquiry is a very new endeavor. Our species, Homo sapiens, originated in sub-Saharan Africa around 200,000 bc. Written language dates back only to about 7000 bc, the product of societies centered around the cultivation of grain. (Some of the oldest written inscriptions concern the daily ration of beer allowed to each citizen.) The earliest written records from the great civilization of ancient Greece date back to the ninth century bc, but the height of that civilization, the "classical period," came several hundred years later, beginning a little before 500 bc. According to Aristotle (384 bc-322 bc), it was around that time that Thales first developed the idea that the world can be understood, that the complex happenings around us could be reduced to simpler principles and explained without resorting to mythical or theological explanations.Thales is credited with the first prediction of a solar eclipse in 585 bc, though the great precision of his prediction was probably a lucky guess. He was a shadowy figure who left behind no writings of his own. His home was one of the intellectual centers in a region called Ionia, which was colonized by the Greeks and exerted an influence that eventually reached from Turkey as far west as Italy. Ionian science was an endeavor marked by a strong interest in uncovering fundamental laws to explain natural phenomena, a tremendous milestone in the history of human ideas. Their approach was rational and in many cases led to conclusions surprisingly similar to what our more sophisticated methods have led us to believe today. It represented a grand beginning. But over the centuries much of Ionian science would be forgotten-only to be rediscovered or reinvented, sometimes more than once.According to legend, the first mathematical formulation of what we might today call a law of nature dates back to an Ionian named Pythagoras (ca. 580 bc-ca. 490 bc), famous for the theorem named after him: that the square of the hypotenuse (longest side) of a right triangle equals the sum of the squares of the other two sides. Pythagoras is said to have discovered the numerical relationship between the length of the strings used in musical instruments and the harmonic combinations of the sounds. In today's language we would describe that relationship by saying that the frequency-the number of vibrations per second-of a string vibrating under fixed tension is inversely proportional to the length of the string. From the practical point of view, this explains why shorter guitar strings produce a higher pitch than longer ones. Pythagoras probably did not really discover this-he also did not discover the theorem that bears his name- but there is evidence that some relation between string length and pitch was known in his day. If so, one could call that simple mathematical formula the first instance of what we now know as theoretical physics. Read more

Features & Highlights

  • The first major work in nearly a decade by one of the world's great thinkers—a marvelously concise book with new answers to the ultimate questions of life: When and how did the universe begin? Why are we here? Why is there something rather than nothing? What is the nature of reality? Why are the laws of nature so finely tuned as to allow for the existence of beings like ourselves? And, finally, is the apparent “grand design” of our universe evidence of a benevolent creator who set things in motion—or does science offer another explanation? The most fundamental questions about the origins of the universe and of life itself, once the province of philosophy, now occupy the territory where scientists, philosophers, and theologians meet—if only to disagree. In their new book, Stephen Hawking and Leonard Mlodinow present the most recent scientific thinking about the mysteries of the universe, in nontechnical language marked by both brilliance and simplicity. In
  • The Grand Design
  • , they explain that according to quantum theory, the cosmos does not have just a single existence or history, but rather that every possible history of the universe exists simultaneously. When applied to the universe as a whole, this idea calls into question the very notion of cause and effect. But the “top-down” approach to cosmology that Hawking and Mlodinow describe would say that the fact that the past takes no definite form means that we create history by observing it, rather than that history creates us. The authors further explain that we ourselves are the product of quantum fluctuations in the very early universe, and show how quantum theory predicts the “multiverse”—the idea that ours is just one of many universes that appeared spontaneously out of nothing, each with different laws of nature.Along the way Hawking and Mlodinow question the conventional concept of reality, posing a “model-dependent” theory of reality as the best we can hope to find. And they conclude with a riveting assessment of M-theory, an explanation of the laws governing us and our universe that is currently the only viable candidate for a complete “theory of everything.” If confirmed, they write, it will be the unified theory that Einstein was looking for, and the ultimate triumph of human reason.A succinct, startling, and lavishly illustrated guide to discoveries that are altering our understanding and threatening some of our most cherished belief systems,
  • The Grand Design
  • is a book that will inform—and provoke—like no other.

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Most Helpful Reviews

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Very Disapponting to a Fan of Hawking and Mlodinow

This is one of the prettiest books that has come across my desk in a long time: well-bound, slick paper, gorgeous pictures. All in all, it is an excellent example of the book-maker's art. Unfortunately, the actual text is so slight that I was disappointed from cover to index.

My first disappointment was right on the cover. I understand that Stephen Hawking is a world famous scientist (and one whom I admire) but was he the primary writer of the text? I hope so, because why else does Leonard Mlodinow have his name in one-third the font size? Mlodinow's book on geometry (Euclid's Window) is a truly great book while Hawking's books, though interesting, are not nearly as well written. I understand that this likely has much to do with marketing but I'm always put off by "ghostwriting."

Then there's the fact that we're being fooled into thinking this is a full-sized hardcover when, in fact, at normal font size and spacing, this book would be a third of its size. Essentially, it is nothing more than a longish essay. As a teacher, I couldn't help but be reminded of students who play around with font size, spacing, and picture inserts to try to appear to reach the required length of an assignment. Disappointing.

Most importantly, however, is the fact that the argument these two highly intelligent men are trying to make is simply unconvincing. Joining the ranks of scientists out to convince everyone that there is no need for god, they are arguing that "M-theory is the only candidate for a complete theory of the universe" which means (among other things) that there are multiple universes that can spontaneously generate from nothing. Beyond that fact that I'm always cautious when any scientist proclaims absolutes and predicts the end of science, as this has happened as often as pastors predicting the end of the world with the same result, there's not enough depth to their development here to make their sweeping conclusions plausible.

In fact, I couldn't help feeling that this was something of an exercise in ego. That Hawking, in particular, is relying on the power of his fame to be convincing rather than the power of his argument. This book simply isn't detailed enough to be a fully-formed argument. I have a degree in physics, know its history, am familiar with Feynman's work, and understand the basics of string theory, but I couldn't see how someone without this kind of background would be able to follow much of this. I don't feel I came away with a clear view of what they were trying to say.

Still, they deserve credit for promoting their atheism without being strident or condescending to believers, and there are some interesting things here. I like some of the history, particularly in the early parts of the book. I like the hints at the difference between model-independent and model-dependent theories, though I thought they could have made more of this. I like the description of the "Game of Life" and what it might mean for the development of a "universe" based on a set of simple rules, though this seems to contradict the main assertion of the book, that an entire sequence of complicated theories is necessary to describe the universe.

In the end, however, it suffers from the same problem as many books of this type. In its most important conclusions, it is all speculation masquerading as certainty. I don't mind speculation, and Hawking and Mlodinow may turn out to be perfectly correct in many or all of their conclusions. But I think the door is a long way from being closed on the debate here, and this book didn't bring me any closer to being convinced.
435 people found this helpful
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Don't Waste Your Time

The only good thing I can say about this book is that it is beatifully illustrated. It is very rare that I give a popular physics book such a poor rating. In fact, this is the first time I think I have ever told people not to read one!

As a professional physicist, I think it is very important to understand the basis for all claims in science, proceed with metaphysical statements only when the scientist is fully cognizant of the limitations of such statements, and to keep in perspective the importance of philosophy in the sciences, as well as its role. It is then no wonder why I hated one of the first statements made in the book, namely, that philosophy is dead and has no role in science. Of course it does! Every act of interpreting data is a philosophical act. The formal act of developing a theory is itself an act of philosophy. The only thing I found more mind-boggling than this statement was that Hawking went on to spend the rest of the book talking about realism and anti-realism, which is a central debate in the philosophy of science. Hawking says nothing new about this debate, and I am not entirely sure what final point he was driving at because, as far as I can tell, the conclusion that would most support his position was undermined by numerous statements he made earlier on. His closing statements about working toward a final theory were undermined by the fact that he says that phenomena may have multiple theories attached to it and that no single theory is more correct than the other; it is simply a matter of which is more useful. This is strictly an anti-realist statement, yet it seems that Hawking believes a final theory is, somehow (although he doesn't state "how" this somehow could be, still possible.

I think that this book can only be the result of one of two things: 1) Apathy toward the topic, in which case I don't know why he wrote or 2) This book repesents the waning and utterly diminished mind of a once brilliant theorist. I would hope it is the former.

My biggest complaint about the book is that Hawking refuses to accept that the world is governed by cause and effect. He cites Feynman's idea of sum over histories, but this is taking a theoretical tool and proposing that this is the way the universe is, in-itself. There has been a huge push in the 20th century toward randomness in physics. I think the reason for this is that physicists are despairing over Hume's problem of "What constitutes a necessary causal connection?" Moreover, physicists are also despairing over a question formally posed in the 19th century "What constitutes a necessary statistical inference?" The lack of progress on these two questions have, in my opinion, induced despair and, consequently, indolence. Rather than try to proceed on the natural assumption of physical science, that all physical phenomena are induced by prior physical phenomena, they are simply saying that there is no cause and effect, only randomness that is loosely governed by laws of physics. This a position that Hawking holds to in his book, which is an ironically philosophical one for someone who thinks that philosophy is dead.

If you decide to read this book, be sure to ask at every turn "Is this statement a testable one?" This will provide you with a test to decide whether a statement is a scientific one or a philosophical one.
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A very big disappointment

I bought this book with an expectation to see some new ideas and new insights into the understanding of modern physics and creation of the universe. Every single idea in the book is old and have been covered before. The book simply restates those ideas without giving any new insights. If you already know "sum over histories" understanding of quantum, model dependent reality, anthropic principal, and multiple universes (multiverse) hypothesis you already know everything in the book. All these subjects have been covered in many other popular science books.
On the last two pages the authors state that individual matter can not exist by itself but the whole universe can exist. This is the claim they should be spending time on to explain; however they merely cover it in one and a half pages without giving adequate explanation why that is. They simply state that gravity has negative energy therefore "done". I expected a more detailed explanation about why the universe can exist without any external energy.
I am wondering if I can claim my money back from Amazon.
111 people found this helpful
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Hawking at his Snarky Best

As I see it, [[ASIN:0553805371 The Grand Design]] was written with two purposes.

The first, less controversial reason for its existence is to repackage the author's previous works - an Even Briefer History of Time, perhaps? - into a volume that could be subtitled "what we now know". Hawking and collaborator Leonard Mlodinow condense millennia of scientific advancement into just a few short chapters, then make their case that M-theory (a unification of the various string theories) is the best candidate for a complete model of our universe, the best method to reach a complete understanding of it. The supporting evidence for this view is laid out clearly and systematically, making cosmology accessible to the layman - not an easy task!

The second purpose of this book was to deliver a message to Religion, that message being "your services are no longer needed. Science has either answered the great questions of life or rendered them meaningless. This we do not ask you to accept on faith - we can prove it with mathematics and computer models, if you are smart enough to comprehend them".

Many will be offended by [[ASIN:0553805371 The Grand Design]], and a great deal more will reject it... regardless, it is hard not to view its message as Professor Hawking's parting gift to the world.
90 people found this helpful
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A Worthy Successor to A Brief History of Time

Widely called The Most Purchased, Least Read Book in American Publishing History, Stephen Hawking's treatise on black holes and space-time was a classic amongst science writing, as well it ought to be. It managed to take extremely abstract and difficult to understand material and make it approachable for thirteen-year-olds. (I was one of said teenagers.)

That said, the material in that book was, to my mind, simpler and more intuitive than what was in this book. Somehow, though, Stephen Hawking and Leonard Mlodinow managed to take even trickier material (and far, far more counterintuitive science) and make it approachable for lay folk.

Inside, we are taught a brief history of science, from Thales to Feynman, and many of the thinkers in between. We learn of the intuitive theories of Newton and the bizarre realm of quantum realities. As a person who was familiar with wave-particle duality exhibited by subatomic and elementary particles, there was an amazing moment where experiments done with fullerene (a particle roughly 40 times as massive as water) exhibited the same phenomenon. Literally, there were a half-dozen world-view changing moments in this book for me.

As at least one news website has (woefully!) spoiled for all of us, Hawking's beliefs on the creation of the universe are here, and he doesn't make us wait for his point of view (it's on page 9). That said, there is no polemic, no screeching rant against creationism or even intelligent design. He merely seems to take the position of Laplace. He is far more offensive, actually, with other statements, particularly about philosophy. Yes, much like memoiai, I cringed at the speculation that "philosophy is dead", merely because "philosophers have not kept up with science". Certainly, by the time the book closes, he makes the case that philosophers generally will have to do some catching up if they are to remain the metaphysicians and epistomologists amongst us (but other realms of philosophy, thankfully, remain intact).

Despite a few such grandiose claims (the claim that all biology is a result of the electromagnetic force leaps to mind), this is by no means a belligerent or offensive tract. Rather, it shines through in the entirety of the book, and on virtually every page, that both scientists have the single goal of enlightening and perhaps, dare I say it, entertaining.

It is rare (alas!) to find a book so accurate, so detailed, so educational, and so darned fun to read. This is certainly one that I will read again, and I have already started recommending it to others. (Usually, I start with the mischievous statement, "Want to break your brain?").

It's great. It really is. Things like this are why he deserves a Medal of Freedom, and perhaps a Nobel Prize in Peace as well.

Harkius
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This book fails

I have read this book (hereafter simply `Hawking') three or four times and referred back to it several more times. My verdict is, that the book fails.

In the subtitle the authors declare their aim to be to give `New Answers to the Ultimate Questions of life.'
On page 10 (repeated on p. 171 in the last chapter of the book) they declare the questions they shall be answering (I add the numbering):
"(1) Why is there something rather than nothing?
(2) Why do we exist?
(3) Why this particular set of laws and not some other?"

They continue immediately (p. 10): "This is the Ultimate Question of Life, the Universe and Everything. We shall attempt to answer it in this book."

But surprisingly, on page 171 Hawking tells us: "The laws of nature tell us `how' [italics in text] the universe behaves, but they don't answer the `why?' [italics in text] questions that we posed at the start of this book."

Is there not an essential contradiction (and failure) here?
Also, I would like to rub a little salt into this wound in the book. If science cannot provide the ultimate answers, and if `philosophy is dead', what other discipline does Hawking know of, which will be able to do this explaining?

[I point out that the British edition of this book, 'The Grand Design', has a dustcover with the crucially important subtitle: 'New Answers to the Ultimate Questions of Life'. But the American edition, the one displayed here on amazon.com, has a different dustcover, which omits this subtitle. Is it because the American publishers realized that Hawking's book fails totally to answer any of 'the ultimate questions of life', and that therefore the British subtitle is a complete nonsense?]

In addition to this fundamental admission that his book will not (indeed, cannot) deliver what it had said it would deliver, there are at least three other fundamental failures in Hawking's book.

(1) Something from nothing? Hawking repeats several times that there is a `spontaneous quantum creation of the universe' (see his index, under `Creation'). I quote (p.8): "M-theory predicts that a great many universes were created out of nothing. Their creation does not require the intervention of some supernatural being or god. Rather these multiple universes arise naturally from physical law. They are a prediction of science." I ask: where does this physical law come from, and the `science' that predicts it, seeing that these universes are to emerge from nothing? On page 136: "On this view [Feynman, no-boundary condition, etc.] the universe appeared spontaneously, starting in every possible way." Page 137, the caption to an illustration: "Multiverse Quantum fluctuations lead to the creation of tiny universes out of nothing." Page 180: "Because there is a law like gravity, the universe can and will create itself from nothing in the manner described in chapter 6 [Choosing Our Universe]. Spontaneous creation is the reason there is something rather than nothing, why the universe exists, why we exist. It is not necessary to invoke God to light the blue touch paper and set the universe going." For me, Hawking has said absolutely nothing that proves that "the universe can and will create itself from nothing". Where did this `blue touch paper' come from?

(2) Who and what and why are we? Hawking eliminates from serious consideration what must be the central feature of any Grand Design: explaining the self-conscious, rational, scientific, logical, philosophizing, theologizing, artistic, musical, literary, remembering, planning, loving, hating, altruistic, selfish, moral, immoral, peak-of-creation human being. With a wave of the hand, he dismisses any possibility that mankind is "More than Matter" (to use the title of a 2010 book by Keith Ward). On page 181, in the last paragraph of the book, Hawking says: "We human beings ... are ourselves mere collections of fundamental particles of nature." This is a totally unfounded declaration of faith in materialism which, like `self-creation out of nothing', Hawking cannot support by any proof. On this point, Hawking is simply totally dismissive. For him, `we' (I must assume that he means humankind) are of no real importance. What matters for him are multiverses and quarks, not human beings. See my next point.

(3) What of free will? For Hawking, human beings have no free will. Having declared on page 5 that `philosophy is dead', Hawking in fact uses it all the time. Apart from using logic as a constant tool, on pages 32/33 (repeated on page 178) he makes the astonishing claim that human beings have no free will. Hawking says: "It is hard to imagine how free will can operate if our behaviour is determined by physical law, so it seems that we are no more than biological machines and that free will is just an illusion" (p. 32). But has Hawking proved that our behaviour is determined by physical law? Unbelievably, he hasn't even attempted to do so. He simply says that it is. For Hawking, the only reason why humans seem to have free will is that, to be able to predict every single tiniest human action according to these `laws of nature' by which, for Hawking, humans are inescapably governed, "we would need a knowledge of the initial state of each of the thousand trillion trillion [is that 10 to the power of 27?] molecules in the human body and to solve something like that number of [mathematical] equations. That would take a few billion years ... [but] because it is so impractical to use the underlying physical laws to predict human behaviour, we adopt what is called an effective theory, based on the notion of free will plus the assumption that people evaluate their possible alternative courses of action and choose the best." For Hawking, `free will' is not really a `fundamental feature, but [merely] an effective theory, an admission of our inability to do the calculations that would enable us to predict human actions'. Has Hawking been pre-programmed inescapably from the Big Bang to write his books on cosmology? And have I been genetically programmed, inescapably, from the Big Bang, by the laws of nature, in 10 to the power of 27 tiny steps, to make the judgment that Hawking's view here is utter nonsense? And why does my judgment differ from Hawking's? Again, is every prisoner in jail the victim of tyranny, because he could not help committing his crimes?

CONCLUSION
Hawking says (p. 5, his first page of text) that people have always asked "How can we understand the world in which we find ourselves? How does the universe behave? What is the nature of reality? Where did all this come from? Did the universe need a creator?" He goes on immediately: "Traditionally these are questions for philosophy, BUT PHILOSOPHY IS DEAD (my emphasis). Philosophy has not kept up with modern developments in science, particularly physics". But on the contrary, Keith Ward says: People really want to know if the natural sciences are the only ways of finding out the truth, and if there is any way of reasonably resolving the ethical dilemmas that modern medicine puts before us" (p. 188). As Ward frequently points out, eminent philosophers (and I add, eminent scientists like Hawking) who deny that they have any philosophy, or even deny that there is such a thing as philosophy, are really holding that view because that is their considered philosophical view - philosophy is inescapable for rational humankind.

For reasons of space, I must short-circuit Hawking's discussion of the origin of the laws of nature. He hypothesizes about Feynman's diagrams, multiverses with their 10 to the power of 500 possibilities (actualities?), String Theory, the Game of Life, and M-theory, in order to explain why there is this particular set of laws and not some other. I do not know to what extent Hawking carries the cosmological establishment with him on this question.

Essentially, Hawking has written a book of cosmology, while throwing in, at intervals, totally misconceived philosophical considerations. For me, this book marks a watershed in the science/religion/philosophy debate. The case Hawking makes out, once he steps outside the realms of `pure' science, is as bad as I believe it can get.

What is certain is that his Grand Design, by omitting any serious discussion of rational mankind, is Hamlet without the Prince of Denmark - the central and supremely important character in the 'play' of The Universe is missing!
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Not Hawking's best

While there is beginning to be a build up of negative reviews for this book, I want to preface my review by saying that Dr. Hawking is still one of the top players in his field and that his views hold considerable weight given his track record. That being said, I found this book to mirror what most of the reviews have already noted. Nothing new is presented here that wasn't already said in Hawking's earlier book A Brief History of Time. Hawking begins the book by saying that philosophy is dead and that scientists must answer the tough questions about life....then launches into philosophy for a good part of the book. While Hawking has done much work with quantum mechanics, there are reasons to be skeptical of his conclusions given what other prominent people in his field have to say and the current state of knowns and unknowns about quantum mechanics. The best I can say is that the book is interesting at times but highly speculative and the conclusions drawn are questionable. I would suggest reading Roger Penrose's review of the book to get an idea of what his colleagues (Penrose is certainly of the same stature as Hawking, just not as much of a name outside of the scientific field) had to say. Hawking so far as I know, has not really responded to some of the challenges from those within his community.

Conclusion: Don't buy the book unless you're a really big Hawking fan or are doing research on the subject and want Hawking's thoughts on quantum mechanics and scientific determinism. The book is rather short and can be read in just a few days. Perhaps there was a letdown because people expected more from a Stephen Hawking book ( I may be guilty of this )but it feels like Hawking is going over familiar territory and did not do enough to substantiate his position on the subject. Regardless of your feelings about Hawking's atheistic conclusions I would say that theists, agnostics, and atheists alike will not find the challenging, cutting edge book that many had hope for or expected.
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Written in hurry!

I am under the impression that the book has been written in hurry. Especially, the last - and the most important chapter of the book - the chapter discussing the concept of the Grand Design of the universe. In fact, this was the main reason I have purchased this book - to understand the latest thoughts of Stephen Hawking on science, God, the universe, and on other important questions.

I had enjoyed the beginning of the book, which talked about the history and the evolution of science. I was very disappointed with the ending and with the overall level of logic and reasoning used towards the end of the book. "Sloppy" - is the right word for it.
Anyway, the book doesn't really offer the answer or anything reasonably believable in terms of the idea of the Grand Design. It focuses much more on the old and known and spends relatively little time on the very subject of the book. It turns philosophical at times, but most of the arguments it offers are superfluous and incomplete.

And, I am not even going to comment on the quality of humor used. This is just one example: "Ten dimensions might sound exciting, but they would cause real problems if you forgot where you parked your car".

Funny?
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mind-boggling, profound and ... physics

I came to The Grand Design having never taken a physics class and I had never opened a book by either of the authors and I left amazed by the profound philosophical implications of ... physics. This surprisingly short book has chapters covering ancient philosophies of the universe (with many snippets from non-western thought throughout), the modern philosophy of science, the parts making up the universe, quantum physics, the concept that there are many true histories leading up to any moment, attempts to come up with a single physics to explain everything, the physical structure of the universe, the seemingly impossible set of coincidences needed to create a universe where humans can live, and the role of God in creation. Somehow, the authors cram that into less than 200 pages and the book is readable.

The art and diagrams are great and make it possible for a complete novice, like me, to follow along with really abstract complicated theories. There are a few spots where the material is not adequately explained but overall the concepts are brilliantly laid out. I am giving the book only 4 starts because of a couple spots where it was too difficult to follow the logic or inadequate explanations were given in a couple places (like the Feynman diagrams).

Overall this book is easy to read and it is going to be the fodder for endless religious and philosophical debates. Get it early so you can weigh in.
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Hawking joins the ranks of carnival psychics and teleevangelists

Stephen Hawking will most certainly, and deservedly so, lose his reputation as the most important physicist since Einstein with the release of this book.

In short, he joins the ranks of carnival physicists, tele-evangelists, and Scientologists, with regards to the origins of the universe.

Somehow (I'm still not sure how), he comes to the conclusion that gravity is responsible for the formation of not just this universe, but many other universes. He doesn't really detail this line of thinking, only that it has something loosely to do with m-theory or string theory (two theories, by the way, with more holes in them than a good hunk of Swiss cheese).

He seems like an exceedingly arrogant man who is simply trying to shock the masses into buying this book and trying to prove his profound and diligent opinion that God does not exist.

He proves absolutely nothing, other than this book is a waste of time and money.
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