Terrific - but not easy:
As other reviewers have said, Taylor and Wheeler accomplish something marvelous (and by conventional wisdom impossible), making a non-trivial portion of general relativity accessible to physics undergraduates. But be warned that "accessible" does not mean easy! A good background in special relativity is essential, for example from the authors' earlier book Spacetime Physics. Beyond that, readers must be prepared for convoluted reasoning and heavy duty algebra in some parts of the book, covering the more esoteric optical effects of black holes and the effects of rotation. It was an effort for me to get through this book - but well worth it.
well worth it:
this is a nice book that allows one to approach general realtivity with somewhat rusty math. One should read the special relativty book by the same authors first though.
Just wonderful!:
This book is different from every other introduction to general relativity I know. And better. The eminent authors connect geometry directly to physics, bypassing tensors. Curvature in space is detected by very simple length measurements; curvature in time, by the lengthening of periods of oscillations. There are nuggets in almost every page. I loved the demonstration that you don't really need coordinates to describe geometry: the shape of a boat is reconstructed entirely in terms of distances. Their dynamical principle is the maximum proper time principle. The way they derive energy and momentum from this principle is sterling physics. You'll learn a lot of general relativity in this book. Not all of it. But, learning to love it, you'll learn the advanced topics that cannot be treated this way by yourself, in other books. Perhaps in the huge Misner, Thorne, Wheeler.
A Great Achievement.:
I have not yet finished reading this book but my excitement over its brilliance forces me to comment. This book is shear magic in its ability to explain very difficult and strange phenomena in an intuitive and simple way. I have read the authors' book SpaceTime Physics as well as GR by Schutz and can do the tensors and all that; yet I am in awe of the ability these authors have of succeding at the near impossible. Using the study of black holes as the motivation for GR study is perfect. I love the choice of the variational principle to cut to the heart of the math. I recommend this book to anyone for self-study who has a smattering of calculus (not much is really needed). I am looking forward to studying Kip Thorne's membrane paradign book next. Gentlemen, kudos in the highest!
A Great Achievement.:
I have not yet finished reading this book but my excitement over its brilliance forces me to comment. This book is shear magic in its ability to explain very difficult and strange phenomena in an intuitive and simple way. I have read the authors' book SpaceTime Physics as well as GR by Schutz and can do the tensors and all that; yet I am in awe of the ability these authors have of succeding at the near impossible -- an intuitive understanding. Using the study of black holes as the motivation for GR study is perfect. I love the choice of the variational principle to cut to the heart of the math. I recommend this book to anyone for self-study who has a smattering of calculus (not much is really needed). I am looking forward to studying Kip Thorne's membrane paradigm book next. Gentlemen, kudos in the highest!
| Author: | Edwin F. Taylor | | Author: | John Archibald Wheeler | | Binding: | Hardcover | | Dewey Decimal Number: | 530.11 | | EAN: | 9780201384239 | | ISBN: | 020138423X | | Number Of Pages: | 352 | | Publication Date: | 2000-07-22 |
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