Space Time Expansion: How Galaxies Formed

In summary, the conversation discusses the expansion of space and its effects on galaxies and redshift. It is concluded that while the expansion does create a redshift, it is not solely due to the Doppler effect and is instead caused by the increasing distance between the photon and the observer. This is evidence for an expanding universe, along with other observations.
  • #1
Brook
18
0
If space is expanding then how did the planets and stars come together to form galaxies?
Why are the galaxies themselves not expanding and the solar system not expanding?
 
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  • #2
Brook said:
If space is expanding then how did the planets and stars come together to form galaxies?
Why are the galaxies themselves not expanding and the solar system not expanding?
The expansion is an overall, average effect. However, different parts of the universe early-on were slightly more dense than other parts. The parts that were dense enough had enough self-gravity to stop expanding and collapse inward, even while the overall expansion continued.
 
  • #3
And the red shift seen in the distant galaxies...is this due to the expansion or to the doppler effect?
 
  • #4
Brook said:
And the red shift seen in the distant galaxies...is this due to the expansion or to the doppler effect?
Both, sort of.

There's a Doppler effect from the individual motion of each galaxy relative to the expansion. Some galaxies move as fast as 1000km/s with respect to the overall expansion. This amounts to a redshift/blueshift of roughly z=0.0003, depending upon the galaxy.

But for most galaxies, this local motion is minuscule compared to the expansion (we've measured galaxies with redshifts greater than z=6), and for many of these far-away galaxies, it just doesn't make sense to interpret their redshifts as due to the Doppler effect.
 
  • #5
so how does expansion create a red shift? what is the mechanism...
 
  • #6
Brook said:
so how does expansion create a red shift? what is the mechanism...

With the Doppler effect, what matters is the speed of the receding object at the time light is emitted. This alone determines the red shift. With metric expansion, however, the distance between the photon and us keeps getting bigger as the photon travels towards us, and this is what causes the red shift (which as Chalnoth pointed out, is for distant galaxies almost entirely due to this effect, NOT to the Doppler effect).

If one were to say that the entire red shift of distance galaxies was due to the Doppler effect, that would be equivalent to saying that the universe is not expanding.
 
  • #7
Brook said:
If space is expanding then how did the planets and stars come together to form galaxies?
Why are the galaxies themselves not expanding and the solar system not expanding?

Galaxies aren't expanding because they aren't homogeneous and they're too dense. Only homogeneous distributions of matter will allow space to expand.
 
  • #8
Brook said:
so how does expansion create a red shift? what is the mechanism...
Draw a curved line on a sheet of rubber, extend it, and you will see an increased wavelength. As the speed of light is constant, an increased wavelength corresponds to a reduced frequency.
 
  • #9
phinds said:
If one were to say that the entire red shift of distance galaxies was due to the Doppler effect, that would be equivalent to saying that the universe is not expanding.

can you explain this further. I know that the doppler effect can show which direction things are orbiting when viewed from earth.

Why can't the doppler effect explain the red shift seen for distant galaxies? why would this mean that the universe is not expanding?
 
  • #10
Brook said:
can you explain this further. I know that the doppler effect can show which direction things are orbiting when viewed from earth.

Why can't the doppler effect explain the red shift seen for distant galaxies? why would this mean that the universe is not expanding?

Reread post #4

EDIT: for that matter, reread post #6. I really don't know how else to say it.
 
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  • #11
phinds said:
Reread post #4

So let me see if I get this...
If the doppler effect was used to interpret the red shifts then it wouldn't make sense because the red shifts calculated would be too large to be explained by the velocity of the galaxies?

So instead of the red shift being due to the velocity of the galaxy it is due to the expansion of space itself and of the wavelength of the photon?

am i starting to get it right?
 
  • #12
Brook said:
So let me see if I get this...
If the doppler effect was used to interpret the red shifts then it wouldn't make sense because the red shifts calculated would be too large to be explained by the velocity of the galaxies?
Rather the inferred velocities don't make much sense.
 
  • #13
Chalnoth said:
Rather the inferred velocities don't make much sense.

right, so the velocities needed to explain the red shifts would be too great...were these assumed velocities approaching light speed?
 
  • #14
Brook said:
right, so the velocities needed to explain the red shifts would be too great...were these assumed velocities approaching light speed?
It's the other way around. Too small. These objects measured to be too far away to be explained by their inferred velocities by assuming the redshift is due to the Doppler shift. If we instead infer their velocities based upon their distances, the further away galaxies are and always have been receding at faster than the speed of light.
 
  • #15
Brook said:
So let me see if I get this...
If the doppler effect was used to interpret the red shifts then it wouldn't make sense because the red shifts calculated would be too large to be explained by the velocity of the galaxies?

So instead of the red shift being due to the velocity of the galaxy it is due to the expansion of space itself and of the wavelength of the photon?

am i starting to get it right?

Yes you are.

As Chalnoth said, the problem would be with the velocities. When the ACTUAL event occurred, the items emitting the light were moving at a slow pace relative to c, and then the photons were effectively slowed by the expansion, BUT if you use DOPPLER red shift, then the objects themselves would have had to be moving at 3c which is impossible.
 
  • #16
hmmm...
so where does the energy go when the photon wavelength expands?
and is this red shift the only evidence that we have of an expanding universe?
 
  • #17
Brook said:
hmmm...
so where does the energy go when the photon wavelength expands?
and is this red shift the only evidence that we have of an expanding universe?

No. We have a ridiculous amount of evidence for an expanding universe. See 'Observational Evidence' here to see a potion:

http://en.wikipedia.org/wiki/Big_Bang#Observational_evidence

Also, see our FAQ:

https://www.physicsforums.com/showthread.php?t=506993

The redshift is usually the first mentioned in cosmology because it was the first evidence of an expanding universe.

In terms if the photons, the conservation of energy isn't exact in cosmology. We also have a FAQ on this:

https://www.physicsforums.com/showthread.php?t=506985

Finally, we have a FAQ for your questions about redshift and why it is cosmological. See here:

https://www.physicsforums.com/showthread.php?t=506994 [Broken]
 
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  • #18
If space is expanding then how did the planets and stars come together to form galaxies?

A point not mentioned so far is that in the distant past, the universe was 'matter dominated'...that is, when stuff was close enough together for gravity to be relatively strong between matter. So it was easy for cosmic 'dust' to coalesce into planets, stars,etc
As space expands, that attraction weakens as distances between, say galaxies, increases...
As space expands galaxies and planet and star formation will slow down, then eventually stop forming...it will be cold,dark, 'empty'...

a brief explanation is here:
http://en.wikipedia.org/wiki/Matter-dominated_era

You can also see a little more via 'radiation dominated era' in Wiki.
 
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  • #19
Naty1 said:
A point not mentioned so far is that in the distant past, the universe was 'matter dominated'...that is, stuff was close enough together for gravity to be relatively strong between matter.
That's not what that means. The era of matter domination was the era where matter (normal matter + dark matter) made up most of the energy density in the universe.
 
  • #20
ok let me read some of this stuff and get back...thanks thus far...
 
  • #21
phinds said:
With the Doppler effect, what matters is the speed of the receding object at the time light is emitted. This alone determines the red shift. With metric expansion, however, the distance between the photon and us keeps getting bigger as the photon travels towards us, and this is what causes the red shift (which as Chalnoth pointed out, is for distant galaxies almost entirely due to this effect, NOT to the Doppler effect).
It depends how we want to define the Doppler effect as to whether cosmological redshift is a Doppler effect. If we define it as something that exists only when the observer and observed are in the same Lorentz frame then by definition the redshift of distant galaxies cannot be Doppler because any frame incorporating both us and them has too much curvature to be Lorentz.
However, if we define Doppler as a spectral shift arising from relative motion, or that can be described by the sqrt((1+V)/(1-V)) formula then all spectral shifts - local Doppler, gravitational and cosmological - can be regarded as Doppler. This is worked through in Narlikar's paper:
http://repository.ias.ac.in/41261/
One small caveat is that some of Narlikar's reasoning appears to be invalid. See posts #29 and #30 of this thread. I am fairly confident that the conclusion can be rescued, but have not managed to do so yet.
 
  • #22
andrewkirk said:
It depends how we want to define the Doppler effect as to whether cosmological redshift is a Doppler effect. If we define it as something that exists only when the observer and observed are in the same Lorentz frame then by definition the redshift of distant galaxies cannot be Doppler because any frame incorporating both us and them has too much curvature to be Lorentz.
However, if we define Doppler as a spectral shift arising from relative motion, or that can be described by the sqrt((1+V)/(1-V)) formula then all spectral shifts - local Doppler, gravitational and cosmological - can be regarded as Doppler.

Yes, I agree but I think it is fairly standard to USE that definition (same frame of reference), which certainly is what I was doing.
 

1. What is space time expansion?

Space time expansion is the phenomenon in which the space between galaxies is continuously expanding, causing the distance between galaxies to increase over time.

2. How do galaxies form?

Galaxies form through the process of gravitational collapse, in which vast clouds of gas and dust are pulled together by their own gravity. As the gas and dust collapse, they begin to spin and flatten into a disk, eventually forming a galaxy.

3. What is the role of dark matter in galaxy formation?

Dark matter plays a crucial role in galaxy formation, as it provides the gravitational pull necessary to clump together the gas and dust clouds that eventually form galaxies. Without dark matter, galaxies would not have enough mass to hold together and would not be able to form.

4. How does the expansion of space time impact galaxy formation?

The expansion of space time has a significant impact on galaxy formation. As space expands, the distance between galaxies increases, making it more difficult for gas and dust clouds to come together and form new galaxies. This means that the rate of galaxy formation is much slower in an expanding universe compared to a static one.

5. Can the expansion of space time be observed?

Yes, the expansion of space time can be observed through various techniques such as measuring the redshift of distant galaxies or observing the cosmic microwave background radiation. These observations provide evidence of the continuous expansion of our universe.

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