Exact Solutions to General Relativity & Einstein's Field Eqns.

In summary, the discussion is about the exact solution to General Relativity or Einstein's field equation. This refers to an explicit solution where the components of the metric can be written down in terms of well known functions in some coordinates. However, in general, the functions involved in the metric will not have names such as polynomials or exponentials. It is always possible to write down the metric in coordinates, but it requires solving the Einstein Field Equation for specific conditions. Sometimes these equations are too complex and numeric methods are used instead. It is also noted that the solution can be expressed in different coordinate systems through a coordinate transformation.
  • #1
shounakbhatta
288
1
Hello,

Can anybody tell me what is meant by exact solution to General Relativity or exact solution to Einstein's field equation.

-- Shounak
 
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  • #2
It means explicit solution i.e. the components of the metric can be written down explicitly in terms of well known functions in some coordinates.
 
  • #3
The rumored exact solutions...
 
  • #4
Thanks for the reply. But in general is it that the metric cannot be written down in co-ordinates? Is it a special case?
 
  • #5
shounakbhatta said:
Thanks for the reply. But in general is it that the metric cannot be written down in co-ordinates? Is it a special case?

There are local coordinates and the metric will have its components in terms of the coordinates, but in general the functions involved will not be the ones that have names say polynomials, exponentials...
 
  • #6
shounakbhatta said:
Thanks for the reply. But in general is it that the metric cannot be written down in co-ordinates? Is it a special case?

No, it is always possible to to write the metric down "in coordinates". But doing this requires solving the Einstein Field Equation for the specified conditions... And sometimes those equations are so hairy that no one has found a solution and we're forced to use numeric methods instead.

Note that I said "specified conditions", not "specified coordinates". If you can solve the EFE for a given situation using one coordinate system, a coordinate transformation will get you the same solution expressed in another coordinate system.
 

Related to Exact Solutions to General Relativity & Einstein's Field Eqns.

1. What are exact solutions to General Relativity?

Exact solutions to General Relativity are mathematical solutions that fully describe the behavior of space-time in accordance with Einstein's field equations. They provide a complete understanding of the curvature of space-time and how it is affected by matter and energy.

2. Why are exact solutions to General Relativity important?

Exact solutions to General Relativity are important because they allow us to make accurate predictions about how matter and energy interact with space-time. They also help us to better understand the fundamental principles of gravity and the structure of the universe.

3. How are exact solutions to General Relativity derived?

Exact solutions to General Relativity are derived using mathematical techniques such as differential geometry and tensor calculus. These techniques allow us to solve Einstein's field equations, which are a set of 10 interrelated equations that describe the behavior of space-time.

4. What are some examples of exact solutions to General Relativity?

Some examples of exact solutions to General Relativity include the Schwarzschild solution, which describes the gravitational field outside a spherical mass, and the Friedmann-Lemaître-Robertson-Walker solution, which describes the expanding universe. Other examples include the Kerr solution for rotating black holes and the Reissner-Nordström solution for charged black holes.

5. Are exact solutions to General Relativity applicable in real-world scenarios?

Yes, exact solutions to General Relativity are applicable in real-world scenarios. They have been used to make accurate predictions in the fields of astrophysics and cosmology, and have been confirmed through numerous experiments and observations. However, in some cases, approximate solutions may be used due to the complexity of the equations involved.

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