APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

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Expand view Topic review: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by neufer » Fri Nov 19, 2010 9:35 pm

OK, I got the official answer from an old Univ. of Maryland classmate
Prof. Eric Adelberger <eric@npl.washington.edu> who wrote:
    • Dear Art,
    thanks for your question. You are correct that the expected (and observed) tidal friction effect increases the scale of the moon's orbit at a rate that is surprisingly close to the Hubble rate. However, it has nothing to do with the Hubble expansion which does not produce a first-order effect on bound systems (the size of atoms or solar systems is not growing at the Hubble rate). It is an amusing coincidence that the two rates are very similar today-however, the rate at which the lunar orbit expands is not constant over astronomical times as the tidal effects fall off at least as fast as 1/r^3.
So Chris wins again. :evil:

Well, I have other ways of dealing with Chris :twisted:

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Thu Nov 18, 2010 12:13 am

neufer wrote:Like my confusion about galaxies & planets appearing brighter in large telescopes just because it seems logical and unresolved stars themselves must appear brighter, I think that in this case you have taken the correct knowledge that Hubble expansion is by and large negligible for dynamics on the scale of local clusters and smaller to mean that there is actually NO Hubble expansion at such a scale (when this cannot be so).
I may be misunderstanding this, but if so, that isn't the basis of my misunderstanding. As I learned this, the distorted space-time is not showing the same expansion that flat space-time shows. Gravity is very literally holding space-time together. I might be wrong, but it's not confusion over the scale of expansion.
neufer wrote:Everywhere one looks there are galaxy clusters. Do you think that they correct the z factor of distant galaxies that are gravitationally lensed to take into account the (different) low Hubble expansion rate they must have experienced? How would the recognize the different images of the same galaxy unless they had exactly the same z regardless of which path was taken?
They wouldn't need to, because the only photons that would be affected at all are those which actually pass through clusters, and that part of their passage would only represent a fraction of a percent of the total path. The effect of undergoing less wavelength stretching over such a short distance would be insignificant. There really aren't galaxy clusters everywhere. Take any linear path through the Universe for a cosmological distance, and odds are it won't pass through any cluster. For all practical purposes, the entire path will lie in very, very flat space.
neufer wrote:Only for the gas giants which have had all sorts of such movements over their lifetime.
These kinds of motion for Jupiter, or for asteroid belt objects, should have changed important resonances within the asteroid belt. But there's no evidence that they have changed over a few billion years. Granted, the evidence would be subtle, but not invisible, and is something that we might reasonably have seen in Earth's geologic record.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by neufer » Wed Nov 17, 2010 8:14 pm

Chris Peterson wrote:
neufer wrote:
What mechanism would cause local gravitational fields to cancel the Hubble rate?
My understanding is that this is intrinsic to the equations of GR. And while I think I have a better than average understanding of GR, I certainly don't have the mathematical skills to do the actual tensor calculus, or even to fully grok the equations at that level. So I'm left with my basic, far from comprehensive understanding of this from more general reading.
Like my confusion about galaxies & planets appearing brighter in large telescopes just because it seems logical and unresolved stars themselves must appear brighter, I think that in this case you have taken the correct knowledge that Hubble expansion is by and large negligible for dynamics on the scale of local clusters and smaller to mean that there is actually NO Hubble expansion at such a scale (when this cannot be so). Just because there is a scale for insects below which surface tension dominate gravitation does not mean that the gravitational force actually somehow disappears at such small scales; it just ceases to be very important.
Chris Peterson wrote:
neufer wrote:
Why would such a purported mechanism have no effect on the wavelength of photons.
I can't think of a case where photons arriving from cosmological distances would have any significant percentage of their path passing through strong gravitational fields. "Strong", as I understand it in this case, is the sort of fields encountered in galaxy clusters.
Everywhere one looks there are galaxy clusters. Do you think that they correct the z factor of distant galaxies that are gravitationally lensed to take into account the (different) low Hubble expansion rate they must have experienced? How would the recognize the different images of the same galaxy unless they had exactly the same z regardless of which path was taken?
Chris Peterson wrote:
From a purely observational standpoint, I think that if planetary orbits in the Solar System were actually increasing by tens or hundreds of meters per year as you suggest, this would show up in patterns of meteorite impacts as well as various long term models, as the positions of resonance radii in the asteroid belt shifted. These expansion rates translate to AUs per billion years.
Only for the gas giants which have had all sorts of such movements over their lifetime.
http://en.wikipedia.org/wiki/Big_Rip wrote:
<<The Big Rip is a cosmological hypothesis about the ultimate fate of the universe in which the matter of the universe, from stars and galaxies to atoms and subatomic particles, are progressively torn apart by the expansion of the universe at a certain time in the future. Theoretically, the scale factor of the universe becomes infinite at a finite time in the future. The hypothesis relies crucially on the type of dark energy in the universe. The key value is the equation of state parameter w, the ratio between the dark energy pressure and its energy density. At w < −1, the universe will eventually be pulled apart. Such energy is called phantom energy, an extreme form of quintessence.

In a phantom-energy dominated universe, the universe expands at an ever-increasing rate. However, this implies that the size of the observable universe is continually shrinking; the distance to the edge of the observable universe which is moving away at the speed of light from any point gets ever closer. When the size of the observable universe is smaller than any particular structure, then no interaction between the farthest parts of the structure can occur, neither gravitational nor electromagnetic (nor weak or strong), and when they can no longer interact with each other in any way they will be "ripped apart". The model implies that after a finite time there will be a final singularity, called the "Big Rip", in which all distances diverge to infinite values.>>

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Wed Nov 17, 2010 7:10 pm

neufer wrote:What mechanism would cause local gravitational fields to cancel the Hubble rate?
My understanding is that this is intrinsic to the equations of GR. And while I think I have a better than average understanding of GR, I certainly don't have the mathematical skills to do the actual tensor calculus, or even to fully grok the equations at that level. So I'm left with my basic, far from comprehensive understanding of this from more general reading.
Why would such a purported mechanism have no effect on the wavelength of photons.
I can't think of a case where photons arriving from cosmological distances would have any significant percentage of their path passing through strong gravitational fields. "Strong", as I understand it in this case, is the sort of fields encountered in galaxy clusters.

From a purely observational standpoint, I think that if planetary orbits in the Solar System were actually increasing by tens or hundreds of meters per year as you suggest, this would show up in patterns of meteorite impacts as well as various long term models, as the positions of resonance radii in the asteroid belt shifted. These expansion rates translate to AUs per billion years.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by neufer » Wed Nov 17, 2010 6:50 pm

Chris Peterson wrote:
neufer wrote:
The Andromeda Galaxy is receding from us by 55 km/sec thanks to Hubble expansion...
Sorry, I don't buy any of it.
Don't be sorry. This is what makes science interesting. (And it helps me to learn the fastest.)
Chris Peterson wrote:
If the Earth were expanding at the rate predicted by Hubble's law, it would be readily detectable by laboratory interferometry. The amount would be well inside the sensitivity of LIGO, but I've never seen that LIGO has plans to make this measurement, nor is correction for cosmological expansion listed in the (long!) list of factors that LIGO has to compensate for. This is also true for LISA, the proposed space-based gravity wave detector.
LIGO isn't sensitive to low frequencies.
In any event, the expansion of the Earth is the part that I am least confident about.

I would bet the farm, however, on the Moon receding due to Hubble expansion.

Assuming that a R-6 quadrupole-quadrupole interaction for the
feedback tidal force the moon's distance would be tidally growing as R ~ t1/7.

This motion would be catastrophic for the Moon about 2 billion years ago
if the current tidal expansion rate was the full 38 mm/yr.

Having the current tidal expansion rate at just 10 mm/yr
makes for a much more contented lunar past.
Chris Peterson wrote:
Everything I know about GR makes me believe that gravitational fields overcome cosmological expansion, and that space-time itself is expanding at less than the Hubble rate where gravitational fields are strong. I might be completely wrong about that, but I haven't seen anything to convince me otherwise, yet.
What mechanism would cause local gravitational fields to cancel the Hubble rate?

Why would such a purported mechanism have no effect on the wavelength of photons.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Wed Nov 17, 2010 3:28 pm

neufer wrote:The Andromeda Galaxy is receding from us by 55 km/sec thanks to Hubble expansion...
Sorry, I don't buy any of it. If the Earth were expanding at the rate predicted by Hubble's law, it would be readily detectable by laboratory interferometry. The amount would be well inside the sensitivity of LIGO, but I've never seen that LIGO has plans to make this measurement, nor is correction for cosmological expansion listed in the (long!) list of factors that LIGO has to compensate for. This is also true for LISA, the proposed space-based gravity wave detector.

Everything I know about GR makes me believe that gravitational fields overcome cosmological expansion, and that space-time itself is expanding at less than the Hubble rate where gravitational fields are strong. I might be completely wrong about that, but I haven't seen anything to convince me otherwise, yet.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by neufer » Wed Nov 17, 2010 7:14 am

Chris Peterson wrote:
neufer wrote:
But that does not mean that Hubble expansion doesn't exist on the scale
of even photons (as it must to explain the non-Doppler Hubble redshift).
The issue isn't whether time-space expands on very small scales. It certainly does. The issue is whether it expands in regions with strong gravitational fields, and my understanding is that it does not. Galaxies in clusters are not receding from each other. Planets around stars aren't getting larger orbits.
The Andromeda Galaxy is receding from us by 55 km/sec thanks to Hubble expansion.

But the relative (random?) velocity of the Andromeda Galaxy is hundreds of kilometers per second
such that the 55 km/sec Hubble expansion is obscured...BUT IT STILL EXISTS NONETHELESS :!:

Just because Hubble expansion gets lost in the noise of overall general dynamics
inside of 1 Mpc does not imply that it is being canceled out somehow.

Likewise, planets around stars are getting larger orbits by 10.8 (m/yr)/AU
and planetary sidereal periods are getting longer by 1 part in 9.2 billion (i.e., 0.07 mas per orbit2).
...but it is very difficult to measure such things (even for the earth).
Chris Peterson wrote:
neufer wrote:
The generally held assumption is that tidal effects are totally responsible for
the increase in both the Moon's orbital radius & the length of the Earth's day.

But Hubble expansion should also affect both the Moon's orbital radius & the length of the Earth's day.
The generally held assumption about tidal effects is held because the calculation of the effect is consistent with the observed magnitude.
To what accuracy? A factor of two? Can you site a reference?
Chris Peterson wrote:
The fact that the calculation for increasing separation from Hubble's law is similar to the observed value does not convince me that there is any cosmological expansion between the Earth and Moon. Have you applied this method to the other planets of the Solar System? Are they receding from the Sun by the expected amounts? Uranus should be receding at 324 m/y, which sounds like a lot, a detectable amount. That's a couple of AU per billion years- something I haven't seen accounted for in Solar System evolution models.
Uranus in opposition is receding from the earth at 197 m/y, which may sounds like a lot but...
none of the gas giants have any hard surface off of which to bounce radar waves.

(A multi-year stationary transponder on the surface of Mars would certainly be a help.)

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Wed Nov 17, 2010 5:53 am

neufer wrote:But that does not mean that Hubble expansion doesn't exist on the scale
of even photons (as it must to explain the non-Doppler Hubble redshift).
The issue isn't whether time-space expands on very small scales. It certainly does. The issue is whether it expands in regions with strong gravitational fields, and my understanding is that it does not. Galaxies in clusters are not receding from each other. Planets around stars aren't getting larger orbits.
The generally held assumption is that tidal effects are totally responsible for
the increase in both the Moon's orbital radius & the length of the Earth's day.

But Hubble expansion should also affect both the Moon's orbital radius & the length of the Earth's day.
The generally held assumption about tidal effects is held because the calculation of the effect is consistent with the observed magnitude. The fact that the calculation for increasing separation from Hubble's law is similar to the observed value does not convince me that there is any cosmological expansion between the Earth and Moon. Have you applied this method to the other planets of the Solar System? Are they receding from the Sun by the expected amounts? Uranus should be receding at 324 m/y, which sounds like a lot, a detectable amount. That's a couple of AU per billion years- something I haven't seen accounted for in Solar System evolution models.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by neufer » Wed Nov 17, 2010 5:14 am

Chris Peterson wrote:
neufer wrote:
Then, pray tell, what causes Hubble redshift
if it is not the fundamental increase of the photon's wavelength?
Yes. What does that have to do with the fact that gravity overcomes cosmological expansion on a local scale?
Hubble expansion is generally insignificant over distances & times
that are small compared with the size & age of the universe.

But that does not mean that Hubble expansion doesn't exist on the scale
of even photons (as it must to explain the non-Doppler Hubble redshift).

Hubble expansion on the scale of the Earth Moon dynamic system (over decades) seems to be just measurable.
Chris Peterson wrote:
neufer wrote:
And why is my calculation of the Hubble relative effect on the observed increase in the moon's orbit [2.8/3.8 ~ 73%]
so close to my calculation of the Hubble relative effect on the observed increase in the earth's day [5/6.9 ~ 73%] :?:
[Hence, only about 27% is due to tidal coupling.]

I.e., where am I going wrong?
I'd say you're going wrong by making the assumption that any of the separation is related to cosmological expansion. The guys who play with the dimensions of the Pyramids can provide all sorts of amazing correlations, too! And why do you assume a linear relationship between the Moon's orbital radius and the length of the Earth's day?
The generally held assumption is that tidal effects are totally responsible for
the increase in both the Moon's orbital radius & the length of the Earth's day.

But Hubble expansion should also affect both the Moon's orbital radius & the length of the Earth's day.

My back of the envelope calculations seem to indicate that Hubble expansion dominates both
while being qualitatively indistinguishable from tidal effects (over decadal time periods).
......................................................................................................
Note that the increased tidal effects of the past would have placed
the moon very close to the Earth just two billion years ago.

The fact that current tidal force amounts to only 10 mm/yr expansion rather than 38 mm/yr expansion
would help explain why the moon was not so uncomfortably close to the Earth just two billion years ago.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Wed Nov 17, 2010 4:46 am

neufer wrote:Then, pray tell, what causes Hubble redshift
if it is not the fundamental increase of the photon's wavelength?
Yes. What does that have to do with the fact that gravity overcomes cosmological expansion on a local scale?
And why is my calculation of the Hubble relative effect on the observed increase in the moon's orbit [2.8/3.8 ~ 73%]
so close to my calculation of the Hubble relative effect on the observed increase in the earth's day [5/6.9 ~ 73%] :?:
[Hence, only about 27% is due to tidal coupling.]

I.e., where am I going wrong?
I'd say you're going wrong by making the assumption that any of the separation is related to cosmological expansion. The guys who play with the dimensions of the Pyramids can provide all sorts of amazing correlations, too! And why do you assume a linear relationship between the Moon's orbital radius and the length of the Earth's day?

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by neufer » Wed Nov 17, 2010 2:11 am

Chris Peterson wrote:
neufer wrote:
You had previously agreed that the expansion of space takes place at all dimensions
and is thereby responsible for Hubble redshift (wavelength increase) itself.
I don't recall making any such statement.
What I said was that local gravity fields limit the expansion of space-time.
That has an insignificant impact on cosmological redshift.

I do not believe that the expansion of space is the same everywhere.
Then, pray tell, what causes Hubble redshift
if it is not the fundamental increase of the photon's wavelength?

And why is my calculation of the Hubble relative effect on the observed increase in the moon's orbit [2.8/3.8 ~ 73%]
so close to my calculation of the Hubble relative effect on the observed increase in the earth's day [5/6.9 ~ 73%] :?:
[Hence, only about 27% is due to tidal coupling.]

I.e., where am I going wrong?

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Wed Nov 17, 2010 1:02 am

neufer wrote:You had previously agreed that the expansion of space takes place at all dimensions
and is thereby responsible for Hubble redshift (wavelength increase) itself.
I don't recall making any such statement. What I said was that local gravity fields limit the expansion of space-time. That has an insignificant impact on cosmological redshift.

I do not believe that the expansion of space is the same everywhere.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by neufer » Wed Nov 17, 2010 12:55 am

Chris Peterson wrote:
neufer wrote:Laser reflectors on the moon indicate that the Moon is spiraling away from Earth at a rate of 38 mm per year.
Perhaps 28 mm per year is due to Hubble expansion and only 10 mm per year is due to tidal forcing.
I believe that the measured 38mm per year is very consistent with our understanding of momentum transfer and does not require any assumption about the expansion of space. I also believe that assuming the expansion of space to be happening between the Earth and Moon breaks GR, which seems to me a very unlikely thing.
You had previously agreed that the expansion of space takes place at all dimensions
and is thereby responsible for Hubble redshift (wavelength increase) itself.

The Hubble constant of 10.8 (m/yr)/AU = 10.8 (m/yr)/[149,600,000,000 m]
~ 1 part in 13.8 billion per year (consistent with the age of the universe).

Assuming the earth itself expands at 1 part in 13.8 billion per year
then the earth's moment of inertia increases at 1 part in 6.9 billion per year;
hence, the earth's rotation period increases at 1 part in 6.9 billion per year.

The measured length of a day is increasing by
0.0017 seconds per century which is about 1 part in 5 billion per year.

So the measured increase in the length of a day (by 1 part in 5 billion per year)
is also primary due to Hubble expansion rather than tidal forces
:!:

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by ZenGrouch » Tue Nov 16, 2010 11:11 pm

Chris Peterson wrote:Keep in mind that redshift is not caused by the Doppler effect. It occurs because the space through which the light is traveling has expanded between the time the photon was emitted, and the time it is observed. That stretching of space increases the wavelength of the light.
Looks like I've learned a biggie today... I'd always worked under the assumption that the red shift was caused by the Doppler effect.

Time to hit the library.

Thanks for your help!

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Tue Nov 16, 2010 10:31 pm

ZenGrouch wrote:OK, makes sense, but in my naive thinking, I would think the small scale of our slice of the pie, would make the measurements impossible with our current technology. *I don't know... just thinking out loud, so to speak.*
Well, if the size of our scale was changing, and we needed to rely on something like redshift, you're probably correct. But as Neufer calculated, the sort of growth rate we'd expect within this part of the Solar System is measured in millimeters, which is well within our ability to measure, assuming that our reference isn't changing along with everything else.
One more question, regarding time/space and expansion. What are the popular beliefs about this? Is it believed that time/space expand, and if so, at what speed, relative to the matter of the universe.
Space-time is the fabric of the Universe, and as it expands it carries matter along with it. So neither is moving with respect to the other. We measure expansion by looking at recession velocity versus distance, relative to us. The rate is given by Hubble's law, and is not in units of velocity, but of velocity divided by distance.
I'd think if they were expanding at the same speed, there would be no observable red shift.
Keep in mind that redshift is not caused by the Doppler effect. It occurs because the space through which the light is traveling has expanded between the time the photon was emitted, and the time it is observed. That stretching of space increases the wavelength of the light.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by ZenGrouch » Tue Nov 16, 2010 9:55 pm

Chris Peterson wrote:The expansion of the Universe as we recognize it is, in fact, an observable phenomenon, so I don't see why we wouldn't observe it locally if it were occurring.
OK, makes sense, but in my naive thinking, I would think the small scale of our slice of the pie, would make the measurements impossible with our current technology. *I don't know... just thinking out loud, so to speak.*

One more question, regarding time/space and expansion. What are the popular beliefs about this? Is it believed that time/space expand, and if so, at what speed, relative to the matter of the universe. I'd think if they were expanding at the same speed, there would be no observable red shift. And if time/space are expanding at the same, or near, rates,<edit>sorry, meant to say differing rates<end edit> is it possible the expansion could be much greater or smaller than thought, since it would be a matter of relativity.

Sorry if these are thoughts are beyond ignorant...

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Tue Nov 16, 2010 9:51 pm

neufer wrote:Laser reflectors on the moon indicate that the Moon is spiraling away from Earth at a rate of 38 mm per year.
Perhaps 28 mm per year is due to Hubble expansion and only 10 mm per year is due to tidal forcing.
I believe that the measured 38mm per year is very consistent with our understanding of momentum transfer and does not require any assumption about the expansion of space. I also believe that assuming the expansion of space to be happening between the Earth and Moon breaks GR, which seems to me a very unlikely thing.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by neufer » Tue Nov 16, 2010 9:41 pm

ZenGrouch wrote:
Chris Peterson wrote:
The force of gravity is stronger than the "force" of expanding space. Galaxies in clusters have enough gravity to hold space together locally, so the region doesn't expand. It is orbital dynamics, as governed by gravity, that hold galaxy clusters together. For the same reason, dense bodies like stars and planets aren't expanding with the Universe, and we aren't getting farther from the Sun.
Thanks for the explanation.

Unfortunately, your answer raised another 'rookie' question in my mind...

"For the same reason, dense bodies like stars and planets aren't expanding with the Universe, and we aren't getting farther from the Sun."

For argument's sake, if this weren't true, and space/time were expanding in our little piece of space, would we even be aware of it, or be able to measure it?
Well, for argument's sake, this isn't true,
and space/time is indeed expanding in our little piece of space,

and perhaps we are even able to measure it :!:

[list]Hubble expansion H0 = 70.6 (km/sec)/Mpc

H0 = 2,228,000,000,000 (m/yr) / [206,265,000,000 AU]

H0 = 10.8 (m/yr)/AU

H0 = 27.6 (mm/yr)/(mean lunar distance)[/list][/color]
Laser reflectors on the moon indicate that the Moon is spiraling away from Earth at a rate of 38 mm per year.
Perhaps 28 mm per year is due to Hubble expansion and only 10 mm per year is due to tidal forcing.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Tue Nov 16, 2010 9:19 pm

ZenGrouch wrote:For argument's sake, if this weren't true, and space/time were expanding in our little piece of space, would we even be aware of it, or be able to measure it?
Well, you could imagine a sort of change in the size of the Universe, as measured against some sort of hyper-universe, where the scale of everything changed. That sort of size would be meaningless from inside the Universe, though.

The expansion of the Universe as we recognize it is, in fact, an observable phenomenon, so I don't see why we wouldn't observe it locally if it were occurring. You don't need a ruler (which might also be expanding). We observe the expansion of the Universe by looking at redshifts and standard luminosities, observations that don't depend on a requirement that the local Universe around the observer be non-expanding. If we were getting farther from the Sun, we should observe that by redshift (assuming good enough instruments) even if our rulers were expanding along with everything else.

Indirectly, the local cohesion of space-time by gravity is predicted by General Relativity, and eliminating that component of the theory would alter or invalidate other parts- parts that are extremely well supported by varied observations. That's why most physicists have a high degree of confidence in anything predicted by GR, even where the specific element may have little observational evidence.

Let the chips fall where they may.

by neufer » Tue Nov 16, 2010 9:06 pm

strangerbarry wrote:
I believe you're on the right track. There are "local" movements of nearby galaxies in different directions. As well gravitational attraction among local groups of galaxies can create localized areas where gravity acts to overcome cosmic expansion. The expansion applies on cosmic spatial scales with local areas of contraction. Think of a large chocolate chip cookie being baked in an oven where the cookie expands but the chips don't.
Of course, unlike leavened bread, cookie dough expands in only two dimensions
while contracting in the third (much like Misner's Mixmaster Universe).
http://en.wikipedia.org/wiki/Toll_House_cookies wrote: <<The chocolate chip cookie was accidentally developed by Ruth Wakefield in 1930. She owned the Toll House Inn, in Whitman, Massachusetts, a very popular restaurant that featured home cooking in the 1930s. Wakefield is said to have been making chocolate cookies and on running out of regular baker's chocolate, substituted broken pieces of semi-sweet chocolate from Nestlé thinking that it would melt and mix into the batter. It clearly did not and the chocolate chip cookie was born. A different history of the cookie derives from George Boucher, who was at one time head chef at the Toll House Inn. Boucher said that the vibrations from a large Hobart electric mixer dislodged bars of Nestlé's chocolate stored on the shelf above the mixer so they fell into the sugar cookie dough it was mixing, then broke them up and mixed the pieces into it. Boucher claimed to have overcome Wakefield's impulse to discard the dough as too badly ruined to waste effort baking them, leading to the discovery of the popular combination.>>
http://en.wikipedia.org/wiki/Mixmaster_universe wrote:
<<Misner's Mixmaster Universe is a solution to Einstein's field equations of general relativity studied by Charles Misner in an effort to better understand the dynamics of the early universe. He hoped to solve the horizon problem in a natural way by showing that the early universe underwent an oscillatory, chaotic epoch.

The model is similar to the closed Friedmann-Lemaitre-Robertson-Walker universe, in that spatial slices are positively curved and are topologically three-spheres S3. However, in the FRW universe, the S3 can only expand or contract: the only dynamical parameter is overall size of the S3, parameterized by the scale factor a(t). In the Mixmaster universe, the S3 can expand or contract, but also distort anisotropically. Values of three shape parameters describe distortions of the S3 that preserve its volume and also maintain a constant Ricci curvature scalar. Therefore, as the three parameters assume different values, homogeneity but not isotropy is preserved.

Misner showed that the physical universe would expand in some directions and contract in others, with the directions of expansion and contraction changing repeatedly. Because the potential is roughly triangular, Misner suggested that the evolution is chaotic. Misner hoped that the chaos would churn up and smooth out the early universe. Since the directions of expansion and contraction varied, presumably given enough time the horizon problem would get solved in every direction.

While an interesting example of gravitational chaos, it is widely recognized that the cosmological problems the Mixmaster universe attempts to solve are more elegantly tackled by cosmic inflation. The metric Misner studied is also known as the Bianchi type IX metric.>>

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by ZenGrouch » Tue Nov 16, 2010 9:05 pm

Chris Peterson wrote:
ZenGrouch wrote:This is probably a stupid rookie question, but I have to wonder how galaxies manage to collide, when the universe is expanding? Were they propelled in different directions, allowing this interaction, prior to the time they were formed, as the hydrogen atoms were drawn together?
It's a rookie question, but it isn't a stupid one <g>.

The force of gravity is stronger than the "force" of expanding space. Galaxies in clusters have enough gravity to hold space together locally, so the region doesn't expand. It is orbital dynamics, as governed by gravity, that hold galaxy clusters together. For the same reason, dense bodies like stars and planets aren't expanding with the Universe, and we aren't getting farther from the Sun.

Presumably, the member galaxies in a cluster all formed together, or nearly so, from material local to their region of the Universe, and have remained bound (sometimes loosely) since.
Thanks for the explanation.

Unfortunately, your answer raised another 'rookie' question in my mind...

"For the same reason, dense bodies like stars and planets aren't expanding with the Universe, and we aren't getting farther from the Sun."

For argument's sake, if this weren't true, and space/time were expanding in our little piece of space, would we even be aware of it, or be able to measure it?

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by owlice » Tue Nov 16, 2010 8:34 pm

strangerbarry wrote:[snip] where the cookie expands but the chips don't.
Darn it!!

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by strangerbarry » Tue Nov 16, 2010 8:30 pm

I believe you're on the right track. There are "local" movements of nearby galaxies in different directions. As well gravitational attraction among local groups of galaxies can create localized areas where gravity acts to overcome cosmic expansion. The expansion applies on cosmic spatial scales with local areas of contraction. Think of a large chocolate chip cookie being baked in an oven where the cookie expands but the chips don't.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by Chris Peterson » Tue Nov 16, 2010 8:28 pm

ZenGrouch wrote:This is probably a stupid rookie question, but I have to wonder how galaxies manage to collide, when the universe is expanding? Were they propelled in different directions, allowing this interaction, prior to the time they were formed, as the hydrogen atoms were drawn together?
It's a rookie question, but it isn't a stupid one <g>.

The force of gravity is stronger than the "force" of expanding space. Galaxies in clusters have enough gravity to hold space together locally, so the region doesn't expand. It is orbital dynamics, as governed by gravity, that hold galaxy clusters together. For the same reason, dense bodies like stars and planets aren't expanding with the Universe, and we aren't getting farther from the Sun.

Presumably, the member galaxies in a cluster all formed together, or nearly so, from material local to their region of the Universe, and have remained bound (sometimes loosely) since.

Re: APOD: Atoms for Peace Galaxy Collision (2010 Nov 16)

by ZenGrouch » Tue Nov 16, 2010 7:37 pm

This is probably a stupid rookie question, but I have to wonder how galaxies manage to collide, when the universe is expanding? Were they propelled in different directions, allowing this interaction, prior to the time they were formed, as the hydrogen atoms were drawn together?

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