Question regarding dark energy and accelerated expansion

In summary, the question asks if a decrease in gravitational force at large distances could explain the observed accelerated expansion of the universe, and if this would negate the need for a separate factor such as dark energy. However, this idea has already been considered and ruled out, as modified gravity does not fully explain the observations and dark energy is still a necessary factor.
  • #1
rrosenthal
16
0
Question regarding dark energy and accelerated expansion. If gravitational force were somehow diminished at large distances----ie lower gravitational constant at huge distances--might this explain the increase or accelerated expansion seen. If this were true, would it be necessary to evoke a completely separate factor--ie dark energy --to explain this. For this to be even considered , one would have to humbly admit that not all is known of gravity-----less of a leap than the same statement re dark energy----?

Randall Rosenthal
 
Astronomy news on Phys.org
  • #2
This is not a simplifying explanation. We already have MOND as an alternative theory of gravity that predicts it becomes stronger with distance.
 
  • #3
rrosenthal said:
Question regarding dark energy and accelerated expansion. If gravitational force were somehow diminished at large distances----ie lower gravitational constant at huge distances--might this explain the increase or accelerated expansion seen. If this were true, would it be necessary to evoke a completely separate factor--ie dark energy --to explain this. For this to be even considered , one would have to humbly admit that not all is known of gravity-----less of a leap than the same statement re dark energy----?

Yup... People have thought of that...

http://en.wikipedia.org/wiki/F(R)_gravity
http://arxiv.org/abs/1205.5266

The next step would be to come up with models of modified gravity (dozens of theorists doing pages and pages of math), figure out exactly what observations you should see with modified gravity (more theorists doing more pages and pages of math), and the punchline is that the observations look more like dark energy than modified gravity, but modified gravity isn't totally dead yet.
 
  • #4
As you already know that in general relativity, dark energy arises due to a comparitively large value of the cosmological constant, But the complete explanation of dark energy is beyond the direct scope of general relativity. When you say that-" If gravitational force were somehow diminished at large distances----ie lower gravitational constant at huge distances--might this explain the increase or accelerated expansion seen. If this were true, would it be necessary to evoke a completely separate factor--ie dark energy --to explain this?". If you consider gravity alone, then if G is small at large distances, it would only reduce the effect of gravity. But, this doesn't explain why the universe is accelerating. If we assume your point to be true then the universe should now be in a steady state. BUT IT IS NOT. Therefore, there must be a repulsive force responsible for the expansion. This gives rise to the WIMP theory,axion assumption(i.e nambu-goldstone theorem) etc.
 
  • #5
Er ... your point is not even wrong, but, is an unnecessarily confusing mix of unrelated ideas.
 

1. What is dark energy?

Dark energy is a hypothetical form of energy that is thought to make up about 70% of the total energy in the universe. It is believed to be responsible for the observed accelerated expansion of the universe.

2. How do we know dark energy exists?

Dark energy was first theorized to exist in the late 1990s when astronomers observed that the expansion of the universe was accelerating instead of slowing down as expected. This observation was confirmed by multiple independent studies and is now widely accepted in the scientific community.

3. What causes the accelerated expansion of the universe?

The leading theory is that dark energy is the cause of the accelerated expansion of the universe. It is thought to have a repulsive force that counteracts the gravitational pull of matter, causing the expansion to accelerate over time.

4. Can we see or detect dark energy?

No, dark energy cannot be seen or directly detected as it does not interact with light or matter in the same way that normal matter does. Its existence is inferred from its effects on the expansion of the universe.

5. Is dark energy related to dark matter?

No, dark energy and dark matter are two separate phenomena. Dark matter is a type of matter that does not emit or absorb light, while dark energy is a form of energy that is thought to permeate all of space and cause the accelerated expansion of the universe.

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