Temporal components in metric tensors

Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
2 replies · 2K views
space-time
Messages
218
Reaction score
4
As you may know, the metric tensor for 3D spherical coordinates is as follows:

g11= 1
g22= r2
g33= r2sin2(θ)

Now, the Minkowski metric tensor for spherical coordinates is this:
g00= -1
g11= 1
g22= r2
g33= r2sin2(θ)

In both of these metric tensors, all other elements are 0.

Now, the only obvious difference between the two metric tensors is the fact that the Minkowski version has a -1 in it and a temporal row and column. The first metric tensor represents just flat space, while the second one represents flat space time.

Now, in my recent studies of curvature, I was wondering if you could just add a -1 along with a temporal row and column to the metric tensor of the 3-sphere in order to make it represent a spherically curved 4 dimensional space time (just as adding a -1 and a temporal row/column to the 3D spherical coordinates metric tensor creates a 4D metric tensor that represents flat space-time).

Here is what I mean:

This is the metric tensor for the 3-sphere:

g11=r2sin2(ø)sin2(ψ)
g22=r2sin2(ψ)
g33=r2

The rest of the elements are 0.

As for my coordinate labels:

x1
x2
x3

And now, here is what I mean when I mention "adding a -1 and a temporal row/column to the metric tensor of the 3-sphere":

g00= -1
g11=r2sin2(ø)sin2(ψ)
g22=r2sin2(ψ)
g33=r2

The rest of the elements are 0.

As you can see here, I just added a -1 to the 3-sphere metric tensor just as the Minkowski metric tensor for spherical coordinates adds a -1 to the metric tensor of 3D spherical coordinates.

Will adding this -1 to the 3-sphere's metric tensor make this metric represent spherically curved space time as a result?
 
on Phys.org