From special to general relativity: why?

In summary, the conversation discusses the search for resources on the physical and mathematical considerations behind the generalization from special to general relativity. Special relativity deals with spacetime without gravity, while general relativity includes gravity through the use of the Riemann tensor. Some suggested resources for further reading include Einstein's paper on the foundation of general relativity, Martin Gardner's "Relativity Simply Explained," and Taylor and Wheeler's "Exploring Black Holes." The Nordstrom theory of gravity is also mentioned as a potential topic to research.
  • #1
Goldbeetle
210
1
Dear all,
where can I find a good discussion (books, online etc) of the physical and mathematical consideration that motivate the generalisation from special to general relativity?

Thanks,
Goldbeetle
 
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  • #2
Since no suggestions have been made, consider this.

Special relativity deals with spacetime with no gravity. The trajectories of bodies moving uniformly when plotted on a spacetime diagram are straight in the euclidean sense.
Einstein realized that objects falling freely in a gravitational field also experienced force-free motion even though accelerating, so their trajectories were also in a sense straight lines although in the euclidean sense they would appear curved. This requires that the SR line element ds2= dt2 - dx2 - dy2 - dz2 must become [itex]ds^2 = \sum g_{ab}dx^adx^b[/itex] where the metric coefficients gab can change from place to place, or even with time. The signature of Minkowski space is preserved.

If two masses are interacting through gravity their worldlines ( geodesics) will approach. The rate of approach turns out to given completely by the Riemann tensor.Thus the effect of gravity can be encapsulated in this tensor.

So, in short the motivation is to include gravity in SR while still maintaining SR in some sense.
 
  • #3
Thanks, any good reference?
 
  • #4
The introduction to Einstein's paper "The foundation of the general theory of relativity" is actually very readable. It's public domain, and you can find it online.

Martin Gardner's Relativity Simply Explained is the first book I always point people to if they're interested in relativity. (Some parts of the book are out of date.)

Exploring Black Holes: Introduction to General Relativity, by Taylor and Wheeler, is also in my opinion a great book for people making the transition from SR to GR. They avoid introducing all the techniques of tensors and index gymnastics, concentrating on one specific topic in GR -- black holes. What this allows them to do is to develop lots of good conceptual stuff without getting bogged down in mathematics.
 
  • #5
No, it's not covered well in any of my books. I think it's assumed to be obvious.
[edit] posted at the same time as bcrowell.
 
  • #6
Try Googling "nordstrom theory of gravity".
 

1. How does special relativity differ from general relativity?

Special relativity deals with the laws of motion and the behavior of objects in the absence of a gravitational field, while general relativity incorporates the effects of gravity and describes the curvature of spacetime.

2. What is the significance of Einstein's theory of relativity?

Einstein's theory of relativity revolutionized our understanding of space, time, and gravity. It provided a new framework for understanding the laws of physics and has been confirmed by numerous experiments.

3. How does general relativity explain the motion of objects in the universe?

General relativity explains the motion of objects in the universe by describing how they move through the curved spacetime created by the presence of massive objects. This explains phenomena such as the orbit of planets around the sun and the bending of starlight near massive objects.

4. Can you provide an example of how special relativity is used in everyday life?

Special relativity plays a crucial role in GPS technology. The satellites in the GPS system need to take into account the differences in time due to their high speeds in orbit and the effects of gravity on their atomic clocks in order to accurately calculate a user's location on Earth.

5. What are some current areas of research related to general relativity?

Current research in general relativity includes studying the properties of black holes, the nature of dark matter and dark energy, and the search for a unified theory that can reconcile general relativity with quantum mechanics.

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