on 18 January 2005
This is a truelly amazing book it has to be said. Anyone interested in space and time travel etc must buy this book. It's not one of those books you buy and then never read, you'll be hooked in no time. Before you know it you will be understanding how space really works. Explained with amazing clarity by the true master of space. A must buy for anyone.
on 12 October 2004
I started out with low expectations, i thought i was going to be overwhelmed by incomprehensible facts and figures. I would be lying if i said its an easy book to read, its not, you have to give it maximum attention or else you will miss bits, but for such a complex topic Hawking does an excellent job of making it manageable for those of us who aren't geniuses yet are mildly interested in the subject, and the illustrations make it even more so.
on 18 November 2003
For anyone looking for a great, comprehensible explanation of the current state of the theories driving today's physics, this is it. Hawking has taken everything from the early history of thinking about the universe, its laws and composition, to the latest developments on black holes and string theory and placed it in a remarkably lucid set of explanations that detail the concepts behind all the mathematics that is so intimidating to most. This book is written without a single equation or a single statement on the order of "From the above, it is obvious that..." Instead, we proceed from the (comparatively) simple concepts about the everyday observable world of gravity, planets, and stars, travel carefully along the historical path of scientific observations as they modify and enhance the simple theories till we reach the world of quantum mechanics, the big bang, wormholes, and Grand Unified Field Theories. Each concept is fully explained, and with this expanded second edition, many of the concepts are beautifully illustrated with drawings and photographs.
And, possibly surprising to some people, as we enter the rarified air of today's theories, we see that the line between physics and philosophy is a very thin one, and ruminations about the origin of the Universe lead to discussions about God and fate. Here we see why Hawking is one of the premier physicists of today, as he obviously thinks in same kind of conceptual language that this book is written in, capable of looking at the meaning behind the mathematics and how it relates to us as humans.
Physics students and engineers may not find very much new here, but even they may benefit from the clear thought lines presented here, forcing a look at the meaning behind all the esoteric symbols that are their everyday working fare.
About the only quibble I had with this was Hawking's insistence on writing out very large/small numbers as million-million-million... While this was fine the first couple of times it becomes a little irritating in place of the standard 1,000,000... representation, or even better to use standard scientific notation.
A great elucidation of some of the most complex theories of the day, theories seemingly unrelated to your everyday life, but which are in fact the bedrock upon which today's technological marvels are based, and with implications that catch the nether regions of religion and the questions we all have about the meaning of life and the universe.
--- Reviewed by Patrick Shepherd (hyperpat)
The mark of a true educator, which Stephen Hawking certainly is, is that he would take time (very valuable time, in his case) away from research and contemplation of the great mysteries of the universe to write a piece that would serve to help explain to the greater number of less-scientifically-adept persons the fruits and implications of modern scientific research from the cutting edge of physics. Hawking is ranked in popular and scientific thinking on a par with Einstein, and has motor neuron disability that severely restricts his ability to move, even to type or write, so, when he takes time to write something for general consumption, it is probably going to be worthwhile. And indeed, this is.
'Someone told me that each equation I included in the book would halve sales. I therefore resolved not to have any equations at all. In the end, however, I did put in one equation, Einstein's famous equation. I hope that this will not scare off half of my potential readers.'
Hawking begins by exploring the large scale structure of the universe (time being part of the `fabric' of the universe, in spacetime), the connections of space and time as a relatively new concept in thinking of the universe, and the way the universe `acts' (cosmological dynamics). From there, he explores the universe at a very basic level, as elementary particles and forces of nature, introducing quarks.
'There are a number of different varieties of quarks: there are thought to be at least six "flavours", which we call up, down, strange, charmed, bottom and top. Each flavour comes in three "colours", red, green and blue. ...We now know that neither the atoms nor the protons and neutrons within them are indivisible. So the question is: What are the truly elementary particles, the basic building blocks from which everything is made?'
From this discussion Hawking proceeds to black holes (and the fact that they aren't so black and permanent as popular belief holds them to be), which circles back around to the origin and destiny of the universe (which relates back to the large-scale structure), which ultimately brings us to time. This is where things begin to get interesting.
'When one tried to unify gravity with quantum mechanics, one had to introduce the idea of "imaginary" time. Imaginary time is indistinguishable from directions in space. If one can go north, one can turn around and head south; equally, if one can go forward in imaginary time, one ought to be able to turn around and go backward.'
Hawking explains variations of the thermodynamic, psychological and cosmological laws that regulate the direction of time's arrow, which, despite the theoretical flexibility of time with regard to scientific principles, always apparently goes in one direction.
Finally, Hawking explores the most current topic in theoretical physics: unification theories, which may or may not be a wild goose on the loose. Hawking also explores what such a grand unified theory (also called sometimes the `theory of everything') would mean, and what it wouldn't mean. But Hawking assures us that the quest for understanding is worthwhile even it won't be the final word on everything.
on 16 September 2005
This is a truly excellent book. Why? Because it covers a wide range of cutting edge physics and makes it more or less understandable to everyone.
I notice that one reviewer has called this book "A Con Job" and goes on to ask "If he [Hawking] is such a great genius why do we never come across his name in the history of science? What major breakthroughs has he made? ... One reviewer admitted that he [Hawking] did not understand more than 60% of the book. I certainly didn't understand more than 10%". Well let's answer the first part shall we? Stephen Hawking provided a mathmatical proof for the big-bang theory and has done extensive research into the workings of black-holes. Are these not major breakthroughs? I certainally think so. The fact that the reviwer understood less than 10% of the content perhaps says more about his intelligence that the quality of the book.
The book is fairly short (240 pages) and this is to its credit - it is long enough to introduce and explain difficult concepts, but short enough not to bore you.
All in all, this is an great book - give it a try!
on 17 March 2014
Despite being armed with a physics degree from Imperial College, I had to admit defeat about two thirds in and just accept that I wasn't going to get much out of the latter stages of the book due to the increasing level of complexity of what is being described. However, this is in no way a reflection on the book itself which was excellent up to that point.
Almost any regular reader will get something out of this book, irrespective of whether they finish it or not.
on 30 November 2003
Like so many, I have always said I'd read Brief History. So i bit the bullet and delved in...
Now I'm not a mathematician, or a physisist. Not since GSCE's have i pondered over the equations that were set down over the last few hundred years. Luckily Stephen Hawking knew this when he wrote A Brief History of Time. In fact that was his driving force.
It proved to be, from the start, an enjoyable read. Doesn't really say much does it? "An enjoyable read", sort of reaction you'd have to a Spot the Dog book. Well that's how it starts. But I got through that to discover mind blowing theories and genuine enjoyment in reading Hawkings.
Yes there are a lot of things to get your head round, things that are complicated and at times uncomprehensible. But this is said in terms of altering your view on our world and universe, not in terms of being far too complicated and above us.
It's not for everyone, but if it's for you its an enthralling read. Not one to be left on the coffee table.
on 26 August 2015
This is not an entry into physics. This book does require a good amount of prior knowledge on much of the subject matter. This book is not a casual read. That said, I rather enjoyed waltzing through (it took me about 9 months to finish). I read this book on and off because you need to be fully engaged whilst reading it, you can read it on the train of course, but it's best read when you have at least a good 20 minutes to forget everything and think purely about the physics in the book. I am also a slow reader and had to read a few things twice or more - adding to the reading time.
Just because there's a lot of science does not mean it's clinical and boring. Hawking makes effort to and succeeds at making humour with silly analogies and amusing titles, such as his likening of going through a black hole to becoming like spaghetti and the chapter title "Black holes ain't so black". Surprisingly, almost all of the information included in this book is still relevant and even the stuff that has been advanced since this book's first writing, is still accurate.
If you're a student studying physics, most of what he covers is useful, but this isn't a text book. This is about expanding your horizons and learning for the fun of it. If you have good interest in physics, engineering or maths I'd highly recommend this. If you're still interested in physics but have limited knowledge of it, I recommend you start by reading something like Karl Kuhn's "Basic Physics: A Self-Teaching Guide" and then progress onto this.