Gravity: An Introduction to Einstein's General Relativity

I'm working through it now...and it's very good. Very clear explanations that doesn't assume too much from you. I'm a physicist who is now working and I want to understand more about GR. This book covers all of the major aspects of GR and I guess would serve as a good introduction and a springboard for more advanced treatments. I have bought a couple of books that are a little too advanced or not advanced enough.This is the one for me...I demand clarity of explantion when I buy science textbooks. This ticks the box for me

I enjoyed very much reading this book and learned a lot from it. This is a very comprehensive (but still high leveled) introduction to the foundations and applications of Gerneral Relativity. It is written by one of the best experts in this field and can be used by students from the undergraduate level up (and also even by researchers). It is one of the rare books where physical and mathematical aspects are thoroughly presented in an understandable and easy to follow way.

The best book I have read on general theory of relativity. The author eases into cumbersome notation, by first considering simpler metrics. Black holes, pulsars and gravitational waves are included.

It is a nice overview of the fundamentals of general relativity. Hartle is a clear writer. Worth buying it. Good value for money

Not good for self study. Assumes you already very familiar with special relativity. The equations are stated , not derived. Hard to follow .I assumed this would be an introduction so would work out the math on how the equations are derived.

I tried this book after reading Callahan's rigorous mathematical treatment, to get a different perspective. And it seems to me that this book doesn't really explain much at all.

ok

É excelente para área de gravitation...

"This is an excellent introduction to general relativity with a hands-on approach that is based on physical situations of interest like black holes and the expanding universe. It fills a real gap in the literature for an undergraduate or graduate student course book" - Stephen Hawking Hartle's "Gravity" is a textbook for learning general relativity. On the back cover of the book, there are a lot of praises for the book from famous physicists including Stephen Hawking's. Overall, I enjoyed the book and the reading was beneficial. The book contains many topics with detailed explanations in more than 500 pages. Considering that, as the author says in the preface, the book aims at guiding undergraduate students to general relativity, its plentiful explanations are great merits. However, the book has some shortcomings. If you feel comfortable only with mathematics textbooks that are written logically and systematically, then the book can be uncomfortable for you. The book consists of three parts. The first part introduces the readers to the basics of relativity only with elementary mathematics. The second part is about applications of relativity. For example, the book explains how general relativity explains motions of solar system by showing that Newtonian mechanics is an approximation of general relativity that can explain things more accurately. In addition, light rays under gravitational field, gravitational waves, black holes, and cosmology are discussed under the relativistic point of view. But when we use general relativity in the first two parts to analyse real physical situations, that does not mean we solve problems directly from the Einstein equation. There is a special solution of the Einstein equation, called Schwarzschild metric. By applying this metric to situations like planets in solar system and black holes, we study those things. The third part introduces the Einstein equation and its related mathematics. However, even in this part, we don't solve the Einstein equation. Solving the Einstein equation explicitly seems to be a hard thing. As I mentioned, the book's explanation is confusing in many places. For example, it is when introducing new mathematical stuffs like scalar product in the first part, and Christoffel symbols and covariant derivatives in the third part. Before reading the book, I have read two relativity books, Peter Collier's, and Ellis and Williams's. In reading such parts, the experience of reading the two books were really helpful. In particular, Collier's book was good. For the third part, I just can give three or four stars. I think that the mathematics like covariant derivative and Riemann curvature tensor is neither easily explained nor dealt with in depth. I have a plan to read another relativity book like Foster and Nightingale's "A Short Course in General Relativity". But for the first two parts, although there are many confusing parts, I want to give them five stars. They contain many valuable topics. I want to give an example. Consider a non-rotating black hole. Then the geometry around the black hole is described by a global coordinate (t, r, theta, phi) with a metric called the Schwarzschild metric. The motion of a particle can be described by (t(time), r(time), theta(time), phi(time)). The particle has some energy and momentum. Suppose I am in a rocket moving around the black hole. My motion will be described by (t'(time), r'(time), theta'(time), phi'(time)). To me, the energy and momentum of the particle will not be the same with things under the black hole's point of view. The book teaches the readers how to calculate them. More than that, the explanation is conceptual and concrete. Reading the part was really enjoyable. Here are some other points. 1. When Hawking said "it fills a real gap in the literature for an undergraduate or graduate student course book.", I think that the gap is between freshmen physics textbooks containing special relativity and graduate textbooks like Wald's "General relativity". To read the book, you should know at least the basics in special relativity. 2. The book has nearly 600 pages. Most of the readers would not have enough time to read the whole book. The wise readers should choose what to read. There is an appendix entitled Pedagogical Strategy. It was helpful in planning my reading. I recommend the readers to use the appendix also. 3. There are some typos in the book. When you get stuck somewhere, it may be because the author is not so skillful in explaining the topic or because there is a typo. Assume the results, just skip, and move forward. 4. The variational principle for a free particle (with mass) says that the world line of a free particle between two timelike separated points extremizes the proper time between them. For a photon (that has no mass), we cannot say about proper time. Then, what is the principle for a photon that explains the world line of a photon? You may think that it is ds^2 = 0. But I think this is not enough. For energy and momentum to be conserved, there should be one more principle. Regarding this issue, the book doesn't seem to give the answer. 5. The good quality of the papers of the book saved a lot of my eye's fatigue. It doesn't reflect lights. I hope that other textbooks use this kind of papers.

No llegó el libro y no lo han reembolsado

I was looking for a book for a complete introduction to General Relativity and this is the one! Others start with difficult math, while this gradually introduces it and explains the physical facts first. Excellent book!