Why do people think red shift is caused by big bang?

In summary, the distant galaxies are red-shifted because the space that they are in is expanding. This is evidence for the Big Bang theory, which is based on General Relativity.
  • #1
n_kelthuzad
26
0
Question: as title says.
I'm not a physicist at all and I do not know much about how people obtained the big bang theory from red shift. So here is what I thought from red shift:

In a time period t1, a distant body emits a light wave with a certain amount of energy with n oscilations(I don't know what's it called!). In the big bang theory, it is caused by the increase of space so the wavelength increased. However in Einsteins... some relativity theory (special?), if an object moves faster its time relative to the space will increase; So if the time of observer increases to t2 but light wave with same energy reaches the observer, its wavelength will also increase. So could that be, that the space is not expanding but the observer, whether its the earth, solar system or the milky way's speed increasing?
t1 < t2
λ1 = t1/n
λ2 = t2/n
λ1 < λ2


Victor Lu, 16
BHS, CHCH, NZ
 
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  • #2
n_kelthuzad said:
Question: as title says.
I'm not a physicist at all and I do not know much about how people obtained the big bang theory from red shift. So here is what I thought from red shift:

In a time period t1, a distant body emits a light wave with a certain amount of energy with n oscilations(I don't know what's it called!). In the big bang theory, it is caused by the increase of space so the wavelength increased. However in Einsteins... some relativity theory (special?), if an object moves faster its time relative to the space will increase; So if the time of observer increases to t2 but light wave with same energy reaches the observer, its wavelength will also increase. So could that be, that the space is not expanding but the observer, whether its the earth, solar system or the milky way's speed increasing?
t1 < t2
λ1 = t1/n
λ2 = t2/n
λ1 < λ2


Victor Lu, 16
BHS, CHCH, NZ

If that was the case only half the universe would be red shifted, the half in the direction the Milky Way was moving would be blue shifted, which isn't seen. Every galaxy outside of our local supercluster is red shifted. So we conclude that the universe is expanding to explain why the red shift is in all directions.
 
  • #3
The standard theory of cosmology, aka the Big Bang theory, is underpinned by General Relativity. GR says that one of the ways that the universe can expand is by the geometry of space itself causing this expansion. What this does is increase the size of a volume of space over time. The development of the Big Bang theory and why we believe that it is the expansion of space that causes this redshift instead of normal doppler shift is enormously complex and there isn't much hope of explaining it very well unless you already understand some pretty complicated math that you wouldn't take until midway through college. But trust that the available evidence points towards the BBT as being the most accurate description of the Universe we currently have.
 
  • #4
I read a theory, that tryed to explain the red shift with gravity instead of speed, does it make some sense?
 
  • #5
GTOM said:
I read a theory, that tryed to explain the red shift with gravity instead of speed, does it make some sense?

Both can cause redshift.
 
  • #6
So, how can be so sure, that we see distant galaxies in red because of receeding, and not gravity?
/Well, i asked the maker of that theory, why gravity blueshift doesn't compensate for gravity redshift, i haven't understood his explanation very well. He spoke about the average density of space. Maybe the missing dark matter indicates that we have false assumptions about our galaxy's mass?/
 
  • #7
If it were gravity, we'd see blueshift instead. Further, there'd be no linear Hubble law.
 
  • #8
Ich said:
If it were gravity, we'd see blueshift instead. Further, there'd be no linear Hubble law.

If i imagine space like a giant orb, in the center, the gravity fields neutralize each other, while on the border, there is big gravity.
So if light comes from the border into the center, and i think those distant galaxies are on the border, then it comes from stronger gravity to lower gravity, and light is redshifted when leaving the gravity well.

Or where am i wrong?
 
  • #9
GTOM said:
If i imagine space like a giant orb, in the center, the gravity fields neutralize each other, while on the border, there is big gravity.
So if light comes from the border into the center, and i think those distant galaxies are on the border, then it comes from stronger gravity to lower gravity, and light is redshifted when leaving the gravity well.

Or where am i wrong?

That would require the local supercluster to be at the centre of the universe, which would be against the Copernican Principle, which if violated tends to lead towards philosophical/religious discussions and as such isn't really relevant to a discussion on cosmology. The universe also appears to be flat, or at least very close to it, so there's no reason to suppose it would necessarily be spherical.
 
  • #10
Vagn said:
The universe also appears to be flat, or at least very close to it, so there's no reason to suppose it would necessarily be spherical.

Very interesting, how was this figured out?
 
  • #11
GTOM said:
If i imagine space like a giant orb, in the center, the gravity fields neutralize each other, while on the border, there is big gravity.
So if light comes from the border into the center, and i think those distant galaxies are on the border, then it comes from stronger gravity to lower gravity, and light is redshifted when leaving the gravity well.

Or where am i wrong?

You're making a couple of very big assumptions.

A. That the Universe has a border.

B. That we are at or near the center of said universe.

In addition, a few of your ideas are not correct. First, light entering from such a border would be traveling through an area of homogenous matter and would experience no redshift, as the gravity from all sides will cancel out. There is no gravity well as long as you're inside the border. (On the large scale. Obviously small scale effects would cause red/blue shift, but over cosmological distances these cancel out.)

Second, the gravity from such a border would not be more than the gravity near the center.
 
  • #12
Drakkith said:
, as the gravity from all sides will cancel out

Interesting, are you sure about this?

I asked my physics professor a couple weeks ago this very question and he was quite adamant that gravity does not cancel out with systems containing multiple point masses; unlike the behavior of other forces such as electromagnetism.
 
  • #13
mesa said:
Interesting, are you sure about this?

I asked my physics professor a couple weeks ago this very question and he was quite adamant that gravity does not cancel out with systems containing multiple point masses; unlike the behavior of other forces such as electromagnetism.

Let's be clear. The NET force from gravity will cancel out. However the curvature caused by mass will not. Adding more mass to an area of space will cause more curvature.
Now that I think about it, I am actually not certain how light would be affected if it was emitted at the boundary of a large homogenous area of space. I want to say that it wouldn't be blueshifted on the way to the center, but I'm not 100% sure on that.
 
  • #14
Drakkith said:
Let's be clear. The NET force from gravity will cancel out. However the curvature caused by mass will not. Adding more mass to an area of space will cause more curvature.

So gravity between two independent systems can cancel but a conglomeration of mass will not? Am I getting this right? That just seems a little odd because wouldn't the individual atoms in the mass also cancel? Or am I just looking at this completely wrong lol?

If so, where would be a good area to go to get more information on how this works so I don't clog up this thread any more than I already have?
 
  • #15
There are some misconceptions.
If we were at the center of a homogeneous massive sphere, everything, including light, would accelerate towards us. That definitely means blueshift.
The funny thing is: you don't need a finite sphere. It works the same way if the universe is infinite, as the gravitation of the matter outside the sphere cancels out (shperical symmetry assumed).
Further, the blueshift grows - to first relevant order - quadratically with distance, not linearly. Even if we had "repulsive gravity" like Dark Energy producing redshift instead (which it in fact does on larger scales), it would never produce the observed Hubble's law.
 
  • #16
I thought there would be no blueshift, can you elaborate?
 
  • #17
If you drilled a hole through the Earth and stepped over it, you'd certainly fall down. Same thing with light, it gets blueshifted in that direction (it can't accelerate). That means the potential is lowest at the center, and infalling things have there the highest energy. See fig. 8 here.

Gravity cancels at the center in the sense that you'd be weightless there (and only there). Still, having fallen through regions where you were not weightless, you have gained significant energy. Blueshift - and kinetic energy - are defined by the difference in potential, not acceleration.
 
  • #18
Ich said:
Gravity cancels at the center in the sense that you'd be weightless there (and only there).

I understand. So gravity really isn't "cancelled out" it would just feel that way from that perspective since you would be pulled by gravity in all directions at the same time.

Drakkith, I am guessing this is what you were so patiently trying to explain to me lol?
 
  • #19
mesa said:
I understand. So gravity really isn't "cancelled out" it would just feel that way from that perspective since you would be pulled by gravity in all directions at the same time.

Drakkith, I am guessing this is what you were so patiently trying to explain to me lol?

No, I was apparently mistaken. I thought that upon entering a solid uniform sphere, you cease to accelerate further.
 
  • #20
Ich said:
Gravity cancels at the center in the sense that you'd be weightless there (and only there).

Interesting, but if you were 'moved' from the center and even though you would be further from the opposite side (with respect to the one you are headed to) wouldn't there be more mass to compensate for the distance meaning possibly still no gravitational effects?

Drakkith said:
No, I was apparently mistaken. I thought that upon entering a solid uniform sphere, you cease to accelerate further.

Ah okay,
 
  • #21
Ok I see.
 

1. Why is red shift considered evidence for the Big Bang theory?

Red shift is considered evidence for the Big Bang theory because it is a phenomenon observed in the light emitted from distant galaxies. The farther away a galaxy is, the more its light is shifted towards the red end of the spectrum. This is known as red shift and it is attributed to the expansion of the universe, which is a key component of the Big Bang theory.

2. Can red shift be caused by anything other than the Big Bang?

While red shift is primarily associated with the Big Bang, it can also be caused by other factors such as the Doppler effect, which occurs when an object is moving away from the observer. However, the expansion of the universe is the most widely accepted explanation for red shift and is consistent with the predictions of the Big Bang theory.

3. How does red shift provide evidence for the age of the universe?

By studying the amount of red shift in the light from distant galaxies, scientists can calculate how fast the universe is expanding. This, in turn, provides an estimate for the age of the universe. The observed red shift is consistent with the age of the universe predicted by the Big Bang theory.

4. Does the amount of red shift vary in different parts of the universe?

Yes, the amount of red shift can vary in different parts of the universe. This is because the expansion of the universe is not uniform and can be affected by the presence of large structures such as galaxy clusters. However, overall, the trend of red shift increasing with distance is still observed, supporting the Big Bang theory.

5. Are there any other pieces of evidence that support the Big Bang theory besides red shift?

Yes, there are various other pieces of evidence that support the Big Bang theory. These include the cosmic microwave background radiation, the abundance of light elements, and the large-scale structure of the universe. Together, these pieces of evidence provide a strong case for the Big Bang theory as the most plausible explanation for the origin and evolution of the universe.

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