I want to learn general relativity

In summary: Here are some books that might be helpful:-"General Relativity" by Robert P. Crease-"Einstein's Revolution" by Leonard Mlodinow-"Gravitation" by Kip Thorne-"Black Holes and Time Warps" by Lisa Randall-"The Theory of General Relativity" by David Rindler-"The General Theory of Relativity" by A. Einstein-"The Physical Universe" by George Ellis
  • #1
dumbperson
77
0
hello,

I would like to learn general relativity.

To understand general relativity, do I need to understand the math on a rigorous level? (the way mathematicians understand the math) . What math do I need?

Can you suggest me some math/general relativity books?

Thanks and sorry if my english is bad!
 
Physics news on Phys.org
  • #2
Yes, you will need to study at least several years worth of math, possibly more depending on where you are now. Others here who know more than I do will give you the details, but it has been posted here several times before so I suggest a forum search.
 
  • #3
It depends on what you mean when you say you want to "learn general relativity". If you want to learn it as a physicist would learn it, you need to learn quite a bit of math, including all the standard mathematics required for other physics topics such as algebra, geometry, single and multi-variable calculus, linear algebra, and differential equations (ordinary differential equations as well as partial differential equations). Beyond the basics, you will also have to have a good grasp of differential geometry, and it would be good to know a little bit of basic topology.

You could just learn what the theory of general relativity is, though, without understanding the math very much. You just wouldn't be able to do any calculations or understand the underlying mathematical structure. But you can learn about the phenomenology of general relativity (e.g. that it predicts black holes, or that it predicts gravitational time dilation) without need for so much math.
 
  • #4
Matterwave said:
[...]You could just learn what the theory of general relativity is, though, without understanding the math very much. You just wouldn't be able to do any calculations or understand the underlying mathematical structure. But you can learn about the phenomenology of general relativity (e.g. that it predicts black holes, or that it predicts gravitational time dilation) without need for so much math.

And for that the OP can simply read Dirac's <80 page booklet from 1975. :) Dirac, just as other quantum physicists such as Pauli, Weinberg and Feynman, wrote texts on GR without the emphasis on differential geometry.
 
  • #5
Matterwave said:
It depends on what you mean when you say you want to "learn general relativity". If you want to learn it as a physicist would learn it, you need to learn quite a bit of math, including all the standard mathematics required for other physics topics such as algebra, geometry, single and multi-variable calculus, linear algebra, and differential equations (ordinary differential equations as well as partial differential equations). Beyond the basics, you will also have to have a good grasp of differential geometry, and it would be good to know a little bit of basic topology.

You could just learn what the theory of general relativity is, though, without understanding the math very much. You just wouldn't be able to do any calculations or understand the underlying mathematical structure. But you can learn about the phenomenology of general relativity (e.g. that it predicts black holes, or that it predicts gravitational time dilation) without need for so much math.

I want to learn it as a (mathematical) physicist would learn it. I know all the math you mentioned except differential geometry and topology
 
  • #6
dumbperson said:
I want to learn it as a (mathematical) physicist would learn it. I know all the math you mentioned except differential geometry and topology

Oomph, if you want to learn it as a mathematical physicist, then you better get a good foundation in topology and differential geometry. A regular physicist would probably be able to get away with just learning these topics from a GR book, since most GR books will not presume a prior knowledge of such topics and go over them a little bit, but a mathematical physicist should learn these topics in some detail so as to better understand the geometrical nature of GR. I think Nakahara is a pretty standard reference for such an endeavor.
 
  • #7
dumbperson said:
hello,

I would like to learn general relativity.

To understand general relativity, do I need to understand the math on a rigorous level? (the way mathematicians understand the math) . What math do I need?

Can you suggest me some math/general relativity books?

Thanks and sorry if my english is bad!

You do need a practical understanding of the math and physics. Math through vector calculus, linear algebra, and differential equations and physics through mechanics and E & M.

This question also comes up rather often here, so you should do a search back through older threads like:

https://www.physicsforums.com/threads/recommended-books-on-relativity.770233
 

1. What is general relativity?

General relativity is a theory of gravity developed by Albert Einstein in the early 20th century. It describes gravity as the curvature of spacetime caused by the presence of matter and energy.

2. Why is it important to learn general relativity?

General relativity is a fundamental theory in physics that has been extensively tested and has many practical applications, such as in understanding the behavior of black holes and the expansion of the universe. It also helps to unify our understanding of gravity with the other fundamental forces of nature.

3. Do I need to have a strong background in math to learn general relativity?

Yes, a strong foundation in mathematics, particularly in calculus and linear algebra, is necessary to understand general relativity. It is a complex theory that involves advanced mathematical concepts, so it is important to have a solid understanding of these subjects before diving into general relativity.

4. How can I start learning general relativity?

There are many resources available for learning general relativity, including textbooks, online courses, and lectures. It is important to start with the basics and build a strong understanding of the mathematical concepts before delving into the more complex aspects of the theory.

5. Are there any real-world applications of general relativity?

Yes, general relativity has many real-world applications, such as in the Global Positioning System (GPS) and in the prediction and study of gravitational waves. It also plays a crucial role in our understanding of the behavior of objects in the universe, such as stars and galaxies.

Similar threads

Relativity Good Beginner's General Relativity Books?
    • Science and Math Textbooks
Replies
12
Views
2K
Relativity Introduction Math for General Relativity - Engineers
    • Science and Math Textbooks
Replies
16
Views
2K
Relativity I want to learn special relativity. More details below
    • Science and Math Textbooks
Replies
15
Views
2K
Relativity Lenny Susskind Has Done It Again - General Relativity
    • Science and Math Textbooks
Replies
14
Views
2K
Relativity Opinions on Rovelli's General Relativity: The Essentials?
    • Science and Math Textbooks
Replies
2
Views
1K
Foundations High school and undergraduate math textbooks for refreshing my skills
    • Science and Math Textbooks
Replies
18
Views
2K
Relativity Suggestions for graduate studies in General Relativity
    • Science and Math Textbooks
Replies
18
Views
2K
Intro Physics General introductory physics books compared to specific books on each topic
    • Science and Math Textbooks
Replies
12
Views
2K
Intro Math Plan to revise my learned math & start learning pure math
    • Science and Math Textbooks
Replies
4
Views
1K
Relativity Looking for a good introductory Tensor Analysis Textbook
    • Science and Math Textbooks
Replies
8
Views
1K

Hot Threads

Recent Insights

Back
Top