45 of 46 people found the following review helpful:
5.0 out of 5 stars
Another excellent book for non-experts, December 8, 2008
I am not a hard scientist, but I like to have some idea of what is going on in those fields. Books like this one are ideal for people such as me. This book tackles the fascinating field of Chaos Theory. It turns out that certain patterns recur over and over in many diverse areas of the universe, whether it is the patterning of galaxies in clusters or the price of cotton.
Specialists working in many fields independently discovered curious patterns, and eventually, starting mainly in the 1970's, they became aware of each others' work. This book takes physics as the field on which it focuses, but it mentions many others. Since some of these fields involve conscious human decision making (especially economics), I have begun to wonder whether I can find comparable patterns in languages, my own specialty.
There are many reviews of a previous printing of this book:
Chaos: Making a New Science, so you can go there to check them out. Other books useful to non-specialists interested in the history of and current research in the hard sciences are
The Fabric of the Cosmos: Space, Time, and the Texture of Reality,
A Briefer History of Time and
Electric Universe: How Electricity Switched on the Modern World.
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33 of 34 people found the following review helpful:
4.0 out of 5 stars
Gleick's Chaos remains well worth reading - the ebook enhancements add a little, but not much, April 10, 2011
(This review is based on the iBook version of Chaos: The Enhanced Edition, which I am assuming is identical to the Kindle edition)
In 1987 I got my Bachelors of Science in physics, Prozac was launched in the US, and James Gleick published Chaos. I don't think the middle one has any bearing on the other two. But the first and last are tentatively linked because, despite being completely jazzed on physics, I didn't read it.
Being a young physicist with a new-found appreciation of the universe and just how complex it is, I quickly found there was nothing thing quite so irritating as a popular science book. Just imagine, after three years of sweat and tears you begin to get a feel for the basics of your chosen subject, when some smart alec arts student comes along authoritatively sprouting stuff that you think you should understand, but don't - and all because they've read the latest best seller in the science charts.
Humiliating? Not even close!
But time and maturity help to break down the fragile arrogance of youth, so when I was asked to review the just-released enhanced e-edition of James Gleick's best-seller Chaos, I willingly agreed. And I'm glad I did.
For those who were too young, too disinterested or, like me, too arrogant to read the book when it first appeared, this is the story of how a group of scientists and mathematicians from very different backgrounds found a new way to describe the world. Traditionally, scientists had tried to understand natural phenomenon and systems as stable or almost-stable systems. And it was assumed that complex systems needed even more complex models and webs of equations in order to fully appreciate them. Yet to traditional science, an understanding of even the simplest of natural systems - clouds, air movements, the patterns made by ink drops in water, remained elusive. Little by little though, researchers from different backgrounds began to realize that complexity could stem from very simple equations, that complex and apparently chaotic systems showed "regular" behavior, and that utterly different systems - noise on telephone wires, dripping taps, heartbeats and many, many others - demonstrated remarkable similarities. No longer did it seem necessary to develop ever-more complex science to understand complex natural systems.
This represented a profound change in understanding in the science community - and one that wasn't necessarily welcomed with open arms.
I can't say I was over the moon about reading Chaos as an ebook rather than a conventional book. But reading on the iPad was OK (the audiovisual elements aren't available on the Kindle). Reading non-fiction, the experience becomes less important than the assimilation of knowledge to me, so the iPad served its purpose. And I must admit, the iBook interface on the iPad is pretty slick.
Of course, the supposed beauty of ebooks - and this one in particular - is the stuff that you just cannot do with a conventional book.
Chaos: The Enhanced Edition includes seven embedded videos that illustrate different aspects of chaotoc systems. And they start with an interview with James Gleick. These are interesting. It's kind of cute to click on them and see the mathematics being visualized. And Gleick's introduction is worth watching. But to be honest, I found they really didn't add to my experience in reading the book. I didn't want to take a 1 - 2 minute break to watch an animation in the middle of reading I discovered. And compared to reading, the rate of information transfer from a video seems glacial!
For me, the videos were an unnecessary distraction. But of course, to others, they may not be - and to give them credit, they were short, unobtrusive, and well done.
Overall, the Chaos ebook is well worth reading. The enhancements I can take or leave - others may appreciate them though. But the text still has the power to make you think, and force you to see the world another way, whether it's observing clouds, listening to a tap drip, or idly watching the way the bubbles swirl in your just-poured glass of beer.
(Reproduced from the review: James Gleick's Chaos - the enhanced edition, on [...])
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21 of 22 people found the following review helpful:
4.0 out of 5 stars
Order from Chaos, September 29, 2007
We all know things that are not predictable. These can be everyday occurrences like the weather, or more specialised events (whether the stock market will go up or down). The unpredictable plays a large part in "normal life". Yet for some of these matters, there is a nagging feeling that if sufficient information were known, the unpredictable would indeed be able to be forecast with as much certainty as whether the sun will rise tomorrow. Thus James Gleick introduces the topic of `chaos' - there can be a "sensitive dependence on initial conditions". If we were to know the initial conditions in all their details, predictability would be brought within our grasp. Thus the flapping of the wings of a butterfly in China could result in rainfall in Indianapolis.
At times I was lost in the small detail, but the strength of this book is that it paints a big picture. The mathematics (and physics, and chemistry, and biology, and .....) is sometimes beyond me, but the overall story is that there is `chaos' all around. Some of the chaos is linked into classic Newtonian mechanics, but strangely enough, chaos almost has in itself an order and `predictability' about it.
The three of the most significant scientific theories of the 20th century are reckoned to be Einstein's General Relativity, Quantum Mechanics, and ...... Chaos Theory. Before opening this very historical account of the last mentioned, I knew nothing about the theory of chaos. Now I have an awareness of the subject, and how experimentation can play a part in mathematics. Experimentation and mathematics are not normally uttered in the same sentence.
Look for the big picture, and do not get lost in the people and places, which can be bewildering. If you read this book, please ensure that it has colour photographs within it - the pictures are both staggering, and help to bring home the message. Some areas of chaos have their roots in self similarity, and the pictures from Mendelbrot sets are both staggering and fascinating. Self similarity can be best summed up by the classic (and anonymous) ditty: "Big fleas have on their backs small fleas to bite them, small flees have smaller fleas and so ad infinitum"
Gleick is strong on the history and roots of chaos, and how the ideas were received when initially tabled. There was shock and disbelief that others from external communities could have something to say that would have relevance to (say) population growth models, from totally different scientific disciplines. There was also reluctance initially to publish some of the ground-braking ideas.
Chaos is about non-linear dynamics, fractals, fractal boundary basins and much more. As `chaos' as a concept (and almost as a discipline) spread, rather than bringing order when chaos had existed before (and this could be described as one of the main purposes of `science'), evidence of more chaos emerges.
From study, it could be that there is more evidence of chaos than we thought hitherto. There could be chaos in space, and the onset of cardiac arrhythmias (heart attacks) seems chaotic. Gleick speculates that `evolution' is chaos with feedback. He has made me more aware of randomness. Classic determinism generates randomness. Perhaps, just perhaps, chaos is a way to reconcile free will and determinism. All in all, unlike the pure scientists of old, I now find myself positively looking for chaos.
Perhaps that is a mark of a well presented book.
[...].
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