Questions on General Relativity and Beyond

In summary, General Relativity is a theory that describes how geometry affects matter. String theory has geometry, but the geometry doesn't have a direct interpretation as spacetime, so spacetime geometry is not fundamental. In contrast, in LQG or Asymptotic Safety, the degrees of freedom up to arbitrarily high energies are spacetime geometry. We don't know which one is correct (if any).
  • #1
Drakkith
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To my understanding General Relativity is a theory of geometry. Is it mandatory that the next step beyond GR also be a theory of geometry, or is there/could there be something else that is believed to give the same results without using geometry?

I hope that makes sense.
 
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GR is a theory of spacetime geometry. String theory has geometry, but the geometry doesn't have a direct interpretation as spacetime, so spacetime geometry is not fundamental, but is instead emergent at low energies. In contrast in LQG or Asymptotic Safety, the degrees of freedom up to arbitrarily high energies are spacetime geometry. We don't know which one is correct (if any).
 
  • #3
Drakkith said:
To my understanding General Relativity is a theory of geometry. Is it mandatory that the next step beyond GR also be a theory of geometry, or is there/could there be something else that is believed to give the same results without using geometry?
...

If it gives the same results then people will probably call it geometry. And so it will be geometry.

Over time, language evolves, and mathematics (a kind of language) evolves. What geometry IS (the concepts, practices, definitions, proven theorems) has evolved. There is no fixed essence. The meaning of words is their accepted use. One has to allow people that mental freedom. The community of physicists and mathematicians will collectively decide what to call it, and therefore what it IS, when the time comes, as they always do. And they may call it geometry.

You say GR is a "theory of geometry", Dra. The main equation has geometry on the LHS and MATTER on the RHS and shows how they interact. But I see you do not all it a "theory of geometry-and-matter". I take that to be an omen or sign-of-the-times.
Maybe from now onward, we will talk like you, and when we say "geometry" we will tacitly include the thought that it is dynamic geometry interacting with matter that we really mean.

I would be in favor of that linguistic drift. It's nice to keep the number of syllables down so terms are easy to say, and for language to be concise.
 
  • #4
Awesome, thanks guys.
 

1. What is General Relativity?

General Relativity is a theory of gravity proposed by Albert Einstein in 1915. It describes gravity as the curvature of spacetime caused by the presence of matter and energy. It is one of the fundamental theories in physics and has been extensively tested and confirmed through various experiments and observations.

2. How does General Relativity differ from Newton's theory of gravity?

While Newton's theory of gravity describes gravity as a force acting between masses, General Relativity explains gravity as the curvature of spacetime. This means that in General Relativity, objects with mass do not directly attract each other, but instead, their presence causes spacetime to curve, which in turn affects the motion of objects.

3. What are some real-world applications of General Relativity?

General Relativity has many important applications in our daily lives, such as GPS technology, which relies on precise timing and the effects of time dilation predicted by General Relativity. It also helps us understand the behavior of black holes, the expansion of the universe, and the gravitational lensing of light by massive objects.

4. Are there any limitations or challenges to General Relativity?

While General Relativity has been incredibly successful in explaining the behavior of gravity on a large scale, it does not fully align with the principles of quantum mechanics, which govern the behavior of particles on a small scale. This has led to ongoing efforts to develop a theory that unifies General Relativity with quantum mechanics.

5. Is there anything beyond General Relativity?

While General Relativity is a very well-established theory, there are still many unanswered questions and mysteries in the universe that it cannot fully explain. These include the nature of dark matter and dark energy, the origin of the universe, and the behavior of gravity at very small scales. Thus, scientists continue to explore and develop new theories that go beyond General Relativity in order to further our understanding of the universe.

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