Is the Radius of Curvature of the Universe Constant Over Time?

In summary, the radius of curvature of the universe model is slowly increasing, but is potentially infinite if Omega=1.0.
  • #1
Niles
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Hi all.

Is the radius of curvature of a Universe-model constant through-out the Universes' lifetime? Or does this have to be adjusted depending on the redshift we are looking at?
 
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  • #2
Niles maybe I can take a shot at that. If you take the universe as a balloon with galaxys on the skin and enlarge it the radius changes and varies with the distance the light has traveled. That is a 3D solution to a 4D problem. Now there is no radius as there is no center as such but you can say to the center of my brain the radius changes with the red shift. Please don't curse me as I do think simple thoughts.

milt
 
  • #3
Niles said:
Hi all.

Is the radius of curvature of a Universe-model constant through-out the Universes' lifetime?

We can only estimate the current radius of curvature based on the current measurement of the parameter Omega.

If the true value of Omega (at the present moment) is 1.01 then the average radius of curvature (using the standard cosmology model) is about 130 billion lightyears.

The radius of curvature, if it is finite, is increasing at the rate of 1/140 of a percent every million years. That is, very slowly.

A perfectly flat universe would have infinite radius of curvature. We cannot exclude this case. When Omega is measured, you get an error bar of uncertainty, around 1.01. If, for example, it turned out that Omega was exactly 1.0, then the universe would be spatially flat and have infinite radius of curvature. It's possible. The data is not good enough to rule that out.

But if you choose to imagine that the universe is NOT exactly spatially flat, and that it has a slight overall positive curvature (like with the balloon analog) then spatially it is the 3D analog of a 2D sphere surface. And then, with the kind of best estimate 1.01 figure for Omega the radius of curvature will turn out to be around 130 billion.

That means the circumference is about 800 billion. If you could instantaneously travel 800 billion lightyears then at this very moment you could go off in a straight line and end up back in the same place. In practice such a circuit would be impossible because the universe is all the while expanding and you can only travel finite velocity.
===================

In case you want to do the numbers. the presentday Hubble distance is c/H = 14 billion lightyears.
You start with the current Hubble parameter H and you calculate that c/H
Then you divide that by sqrt(Omega - 1)

Taking Omega to be 1.01, that is sqrt( 0.01) = 0.1

So you are dividing the Hubble distance by about 0.1. That should give 140 billion
but when I include a little more accuracy and do it more carefully, I get closer to 130 billion.
(the best fit Omega is more like 1.011, the presentday Hubble distance is not quite 14 billion etc etc)
 
Last edited:
  • Informative
Likes Peter Sterken
  • #4
Thanks all - very nice replies indeed!
 

FAQ: Is the Radius of Curvature of the Universe Constant Over Time?

What is the radius of curvature of the universe?

The radius of curvature of the universe is a measure of the curvature of the universe at a particular point. It is typically denoted as R and is used in the Friedmann-Lemaitre-Robertson-Walker (FLRW) metric, which describes the expanding universe.

How is the radius of curvature of the universe determined?

The radius of curvature of the universe is determined using the FLRW metric and observations of the cosmic microwave background radiation. This radiation is thought to have originated from the early stages of the universe and can provide insight into its overall curvature.

Is the radius of curvature of the universe constant?

No, the radius of curvature of the universe is not constant. It is dependent on the density of matter and energy in the universe, which can change over time. In fact, the current theory suggests that the universe is expanding at an accelerating rate, meaning that the radius of curvature is also changing.

What is the difference between a positive and negative radius of curvature?

A positive radius of curvature indicates a closed universe, meaning that if you were to travel in a straight line, you would eventually end up back at your starting point. A negative radius of curvature indicates an open universe, where a straight line would continue infinitely without ever looping back on itself. The value of the radius of curvature also affects the overall geometry of the universe.

How does the radius of curvature of the universe relate to the concept of infinity?

The radius of curvature is related to the concept of infinity in that it is a measure of the size and shape of the entire universe. A positive radius of curvature would suggest a finite universe, while a negative radius of curvature would suggest an infinite universe. However, the true size and shape of the universe are still unknown and continue to be a topic of scientific research and debate.

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