Starship Asterisk*

neufer wrote:

astrolabe wrote:Hello neufer,

A while back an image was posted that showed the red and blue shifting in the CMB indicating to me our movement in the Universe relative to it. The question that follows is this: Are we advancing toward Andromeda in relation to the CMB or is it the other way around?

Our whole local group of galaxies is moving at ~627 km/s in the direction
of galactic longitude l = 276°, b = 30° (vis-a-vis the CMB).

Now relative to our local group of galaxies the Andromeda Galaxy
is moving at ~150 km/s in more or less the same direction:
galactic longitude l = 301°, b = 22°.

So the Andromeda Galaxy is the faster [627+150 km/s] dog
chasing us (the slower [627-150 km/s] Milky Way cat)
as we all move in more or less the same direction vis-a-vis the CMB.

http://en.wikipedia.org/wiki/Dark_flow wrote:
<<Dark flow is a name given to a net motion of galaxy clusters with respect to the cosmic microwave background radiation which was found in a 2008 study. According to standard cosmological models, the motion of galaxy clusters with respect to the cosmic microwave background should be randomly distributed in all directions. However, analyzing the three-year WMAP data using the kinematic Sunyaev-Zel'dovich effect, the authors of the study found evidence of a common motion of at least 600 km/s toward a 20-degree patch of sky between the constellations of Centaurus and Vela [galactic longitude l = 285°, b = 9°].

The authors suggest that the motion may be a remnant of the influence of no-longer-visible regions of the universe prior to inflation. Telescopes cannot see events earlier than about 380,000 years after the Big Bang, when the universe became transparent; this corresponds to the particle horizon at a distance of about 46 billion light years. Since the matter causing the net motion in this proposal is outside this range, it would in a certain sense be outside our visible universe; however, it would still be in our past light cone.

The results appear in the October 20, 2008, issue of Astrophysical Journal Letters, which is available online. The authors state that they plan to extend their analysis to additional clusters and the recently released WMAP five-year data.

Astrophysicist Ned Wright posted an online response to the study arguing that its methods are flawed. The authors of the "dark flow" study released a statement in return, refuting three of Wright's five arguments and identifying the remaining two as a typo and a technicality, respectively, that, they say, do not affect the measurements and their interpretation.>>

• . Finnegans Wake p 404
  
  I heard at zero hour as 'twere the peal of vixen's laughter among
  midnight's chimes from out the belfry of the cute old speckled church
  tolling so faint a goodmantrue as nighthood's unseen violet
  rendered all animated greatbritish and Irish objects nonviewable
  to human watchers save 'twere perchance anon some
  glistery gleam darkling adown surface of affluvial flowandflow
  as again might seem garments of laundry reposing
  a leasward close at hand in full expectation.

mark swain wrote:When the main man found that no matter how fast you can go.. light is always at a constant speed. Was he thinking outside the box? Or was he looking for something that everybody already knew? Or just an answer to what everybody wanted to know.. Are there no more questions that need answers? I,m as interested as Noelc to know the answers..To find something nobody has ever Found , Don,t you have to think out side the box?
Mark

bystander wrote:" ... Perhaps it's time itself that is variable.

bystander wrote:Yes, I find it hard to give much credence to these theories because they require a variable speed of light and other inconstant physical constants (variable over time). Perhaps it's time itself that is variable. It's far easier for me to believe that there is something out there that we haven't been able to directly observe that is holding galaxies, clusters, and super-clusters together (dark matter) and something else causing the universe to fly apart (dark energy).

Chris Peterson wrote:In fact, there are a couple of a widely regarded theories that deal with questions along the lines of yours. They do work quite well, and don't depend on anything that is "invisible".

NoelC wrote:Let me toss this snide comment right back at you - your "working theory" doesn't model reality particularly well. Look at all the invisible crap that has had to be invented (dark this and that) to make it work. And from what I can see not everyone agrees on ONE working theory either, so there is no "we" as you'd like to imply. Try not to be so uppity. There is room for more than just your opinion here.

frankly, not very good philosophy

NoelC wrote:What if the universe is not expanding at all?

What if the passage of time isn't constant?

Maybe it's still the size of a pea.

From an observer inside if the passage of time changed it might seem that things are getting farther apart as photons would take longer to get from one place to another.

Very few folks (certainly not I) can get their heads around this kind of relativity.

astrolabe wrote:Approximately 46 billion ly. across now by some estimates and which has taken about 13.7 billion lyrs. for it to get to that diameter.

astrolabe wrote:Hello neufer,

A while back an image was posted that showed the red and blue shifting in the CMB indicating to me our movement in the Universe relative to it. The question that follows is this: Are we advancing toward Andromeda in relation to the CMB or is it the other way around?

Chris Peterson wrote:I think your assessment is correct, or nearly so. The fields found between the bound members of galaxy clusters aren't strong enough to completely counter expansion. Eventually most galaxy clusters will come apart (except where some of their components first merge).

neufer wrote:Perhaps...but let us take the case of the Andromeda Galaxy whose Doppler shift
(for some bizarre reason) IS only capable of being measured to a few kilometers per second:

• The Andromeda Galaxy is observed to be advancing at 301 ± 1 km/s.
  
  The Andromeda Galaxy is located about 0.778 Mpc away.
  
  Hubble expansion constant ~ 74.2 (km/s)/Mpc.

Now I would argue that the Andromeda Galaxy is retreating by about 58 km/s (= 74.2 x 0.778) due to universal expansion but it is actually observed to be advancing at 301 ± 1 km/s thanks to a combination of a strong initial velocity and (to a much lesser extent) by its attraction to the Milky Way.

I'm assuming that you would argue that there IS no expansion within the Local (Galactic) Group because the gravitational field of the Local (Galactic) Group is too strong to allow the local space to expand. Is that your argument? (At what point is universal expansion finally allowed?).

Chris Peterson wrote:

neufer wrote:Well, if it really is universal expansion (i.e., the expansion of space time itself) then it ought to take place within galaxies as well, although not nearly enough (a few kilometers per second) that one would notice it compared to other galactic motions.

What you calculated from the Hubble constant was the expansion of the Universe. But we don't see that expansion within the galaxy (and we are easily capable of measuring a few kilometers per second using Doppler shift) because the gravitational field of the galaxy is much too strong to allow the local space to expand.

• The Andromeda Galaxy is observed to be advancing at 301 ± 1 km/s.
  
  The Andromeda Galaxy is located about 0.778 Mpc away.
  
  Hubble expansion constant ~ 74.2 (km/s)/Mpc.

Chris Peterson wrote:

neufer wrote:However, if what we are talking about is simply the recoil of galaxies from an initial explosion (with slowing due to matter and expansion due to dark energy) then I agree that that is a somewhat different matter. But if that is the case, I don't understand why it has taken so long for photons from the cosmic microwave background to reach us. (But, then, there are a lot of things that I don't understand.)

The photons from the edge of the observable Universe have been reaching us for 13.7 billion years (or so). In the beginning, they were much more energetic. Over the billions of years, as space expanded, they have had their wavelength stretched more and more by expanding space. What we're seeing now was emitted 13.7 billion years ago, but is only now reaching us because the space between the emitting material and us has expanded so far (47+ billion light years). In another 13.7 billion years we'll still see the photon background, but it will be even colder.

neufer wrote:Well, if it really is universal expansion (i.e., the expansion of space time itself) then it ought to take place within galaxies as well, although not nearly enough (a few kilometers per second) that one would notice it compared to other galactic motions.

However, if what we are talking about is simply the recoil of galaxies from an initial explosion (with slowing due to matter and expansion due to dark energy) then I agree that that is a somewhat different matter. But if that is the case, I don't understand why it has taken so long for photons from the cosmic microwave background to reach us. (But, then, there are a lot of things that I don't understand.)

Chris Peterson wrote:

neufer wrote:The Galactic Center is located about .0076 Mpc away.

Hubble expansion constant = 74.2 ± 3.6 (km/s)/Mpc.

Galactic Center is retreating by 1261 miles per hour due to galactic expansion.

I'm a little confused. Galactic expansion? What's that? I'm guessing (since the calculation works) that you mean Universal expansion. However, the Milky Way is gravitationally bound, and is not itself getting any larger due to the expansion of the Universe. We don't see the galactic center retreating.

neufer wrote:The Galactic Center is located about .0076 Mpc away.

Hubble expansion constant = 74.2 ± 3.6 (km/s)/Mpc.

Galactic Center is retreating by 1261 miles per hour due to galactic expansion.

DavidLeodis wrote:Yes NoelC, it is a wonderful view. It must be amazing to be able to see such a clear sky view.

Realising that the image seemed very famiIiar I've just done a search of the APOD archive and found the APOD of June 23 2006 http://antwrp.gsfc.nasa.gov/apod/ap060623.html. That the image in the two APODs is so very similar should not perhaps be a surprise, but I still think it's awesome that there is no really obvious change despite that the Universe is said to be expanding rapidly. 8)