Einstein's General Relativity w/o Cosmological Constant

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Start date Dec 14, 2022
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Constant Cosmological Cosmological constant Term

In summary, Einstein's General Relativity without a cosmological constant is a theory of gravity that describes how objects interact with spacetime to produce the force of gravity. It differs from Newton's theory in that it is a geometric theory and predicts the effects of gravity on light. Spacetime is a four-dimensional fabric that is curved by mass and energy, creating the force of gravity. This theory has many implications, including the prediction of black holes and the understanding of the expansion of the universe. It has been tested and proven through various experiments and observations, such as the bending of starlight and the gravitational redshift of light.

Dec 14, 2022

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I mean, what's "general relativity but without the cosmological constant term" (##G_{\mu \nu}=\kappa T_{\mu \nu}##) called?

Last edited: Dec 14, 2022

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Dec 14, 2022

Ibix

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The Einstein Field Equation. All you've done is set ##\Lambda=0## or subsume the term into the stress-energy tensor.

1. What is Einstein's General Relativity?

Einstein's General Relativity is a theory of gravity proposed by Albert Einstein in 1915. It states that gravity is not a force between masses, but rather a curvature of space and time caused by the presence of mass and energy.

2. What is the difference between Einstein's General Relativity and his Special Relativity?

Einstein's Special Relativity, proposed in 1905, deals with the laws of physics in inertial frames of reference, while General Relativity extends these laws to non-inertial frames, such as those experiencing acceleration.

3. What is the role of the Cosmological Constant in Einstein's General Relativity?

The Cosmological Constant, also known as Lambda, was originally introduced by Einstein to achieve a static universe. However, it was later discarded as unnecessary and is not included in the current formulation of General Relativity.

4. How has Einstein's General Relativity been tested and confirmed?

Einstein's General Relativity has been tested and confirmed through various experiments and observations, including the bending of light by massive objects, the precession of Mercury's orbit, and the gravitational redshift of light.

5. Are there any limitations or flaws in Einstein's General Relativity?

While Einstein's General Relativity has been incredibly successful in explaining and predicting many phenomena, it does have limitations. It does not account for quantum mechanics and cannot be used to describe the behavior of particles on a very small scale. Additionally, it does not account for the accelerating expansion of the universe, which has led to the development of theories such as dark energy and modified gravity.