Light Travel After Big Bang: Baseball Universe Impact

In summary, the conversation discusses the hypothetical scenario of the universe remaining the size of a baseball and the effect it would have on light's travel time. There is disagreement over the question's premise and a clarification is suggested. It is also noted that spacetime does not have a density and the concept of "stopping" the expansion is discussed. Finally, the relationship between energy density and light travel time is explained.
  • #1
Pjpic
235
1
If the universe had stayed the size of a baseball, would it have taken light 13.5 billion years to travel across it?
 
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  • #2
What is your thought about it?
 
  • #3
Pjpic said:
If the universe had stayed the size of a baseball, would it have taken light 13.5 billion years to travel across it?
The universe has never been "the size of a baseball" so I'm not clear why you are asking what would have happened if it has "stayed" that size.
 
  • #4
student07 said:
What is your thought about it?
I don't know, maybe something about how the density(?) of spacetime effects light.
 
  • #5
Pjpic said:
I don't know, maybe something about how the density(?) of spacetime effects light.
This posits an incorrect assumption that spacetime is an "ether". It is not.
 
  • #6
Pjpic said:
If the universe had stayed the size of a baseball

The universe, as best we can tell, is spatially infinite, so, as phinds said, it has never been "the size of a baseball".

Pjpic said:
something about how the density(?) of spacetime effects light.

Spacetime doesn't have a density. The matter and energy present in spacetime does, but spacetime itself doesn't.
 
  • #7
PeterDonis said:
The universe, as best we can tell, is spatially infinite, so, as phinds said, it has never been "the size of a baseball".



Spacetime doesn't have a density. The matter and energy present in spacetime does, but spacetime itself doesn't.


Maybe the question s/h/b stated as: If the currently visible universe had stopped expanding at an earlier time, would the greater energy density cause light to take the same 13.5 b.l.y. to traverse the radius?
 
  • #8
Pjpic said:
If the currently visible universe had stopped expanding at an earlier time

The only way this could have happened would be if the universe were closed and that earlier time was the moment of maximum expansion. So the universe would currently be contracting.

Pjpic said:
would the greater energy density cause light to take the same 13.5 b.l.y. to traverse the radius?

First of all, it's years, not light-years, since you're talking about time.

The time it takes light to cover a given distance in the universe is not affected by the energy density, except in so far as the energy density determines how the expansion proceeds. All you need to know to figure out light paths is the expansion profile.
 

Related to Light Travel After Big Bang: Baseball Universe Impact

1. How fast does light travel after the Big Bang?

Light travels at a constant speed of 299,792,458 meters per second in a vacuum, which is the same speed as it travels after the Big Bang.

2. Is the speed of light affected by the expansion of the universe?

No, the speed of light is not affected by the expansion of the universe. It remains constant regardless of the size or age of the universe.

3. How does the expansion of the universe impact the travel of light?

The expansion of the universe causes the wavelengths of light to stretch, which is known as cosmological redshift. This means that the light from distant objects will appear more redshifted, indicating that they are moving away from us due to the expansion of the universe.

4. Can light travel through all parts of the universe?

Yes, light can travel through all parts of the observable universe. However, due to the expansion of the universe, some light may never reach us as it becomes too stretched to be detectable.

5. How does the Big Bang impact the formation of the Baseball Universe?

The Big Bang is responsible for the creation of the universe, including all of its components such as galaxies, stars, and planets. Therefore, the Baseball Universe would not exist without the Big Bang. The expansion of the universe also plays a role in the formation and movement of galaxies, which could potentially impact the trajectory of objects like baseballs within the universe.

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