Diffeomorphism invariance of metric determinant

Pacopag
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Hi;
I am pretty sure that
sqrt(-g) is diffeomorphism-invariant.

I am wondering if all powers of this are diffeo-invariant too. For example, are
-g, g^2, etc. all invariants too?
 
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If you want to use less cumbersome terminology, you can just say "is a scalar" rather than "is diffeomorphism-invariant." That's what "scalar" means in GR.

The answer to your question is yes, because any function of a scalar is also a scalar.

[--D'oh -- that was incorrect -- sorry! --]
 
Last edited:
Thank you for your reply. This is good news for me. To be sure, a valid action may take the form
<br /> S = \int d^4x \sqrt{-g}\left(R+\sqrt{-g}\phi^2\right)<br />
where
<br /> \phi^2 <br />
is a scalar
Is this correct?
 
The metric determinant is not a scalar. Think of the volume elements associated with (say) spherical and Cartesian coordinates in flat space.
 
Yes. You are right. The second term in my action does not work.
 
D'oh, thanks for the correctoin, Stingray. I was obviously not awake this morning when I posted #2 :-)
 

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