Get Lorentzian Spherically Symmetric Metric to Sylvester Form

tut_einstein · Jun 26, 2011

Hi,

I'm trying to determine the exact transformation that brings a spherically symmetric spacetime metric in spherical coordinates to the Sylvester normal form (that is, with just 1 or -1 on its main diagonal, with all other elements equal to zero.) Assuming that the metric has Lorentzian signature, does anyone know how to determine the exact transformation that achieves this?

Thanks.

henry_m · Jul 5, 2011

This is essentially nothing more than the orthogonal diagonalisation of a symmetric matrix that you probably did loads of times when you first learned about matrices. The coordinate transformation can be calculated from the matrix of eigenvectors. This gives a diagonal matrix, which should have one negative and the rest positive entries. Then you just have to rescale the coordinates to make the entries -1 and +1.

George Jones · Jul 5, 2011

henry_m said:

Then you just have to rescale the coordinates to make the entries -1 and +1.

tut_einstein, this, in general, results in a non-holonomic basis. i.e., one that is not induced by any coordinate system. As a specific example, consider Schwarzschild spacetime,

https://www.physicsforums.com/showthread.php?t=102902

Get Lorentzian Spherically Symmetric Metric to Sylvester Form

Related to Get Lorentzian Spherically Symmetric Metric to Sylvester Form

1. What is the significance of transforming a Lorentzian spherically symmetric metric to Sylvester form?

2. How is the transformation from Lorentzian spherically symmetric metric to Sylvester form performed?

3. What are the advantages of using Sylvester form for Lorentzian spherically symmetric metrics?

4. Can any Lorentzian spherically symmetric metric be transformed to Sylvester form?

5. What are some applications of transforming a Lorentzian spherically symmetric metric to Sylvester form?

Similar threads

Hot Threads

Recent Insights