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A dialogue between Mr. Big BANG and Mr. Steady STATE



 
 
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  #1  
Old July 27th 03, 03:02 PM
Marcel Luttgens
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Default A dialogue between Mr. Big BANG and Mr. Steady STATE

A dialogue between Mr. Big Bang and Mr. Steady State
__________________________________________________ __

(Please read first the NASA press release and summary of results at the
end of the dialogue.)

Mr. Bang:

In an eternal, steady state universe there is no evolution. Galaxies would
be infinitely evolved, so would life. Big Bang or not we have abundant
observational evidence that the universe is changing over time, evolving
from chaos to structure. the build up of large scale structure of galaxy
superclusters, the origin of the heavier elements, the assembly of galaxies
are all consistent with direct observational evidence for this conclusion.

To prove otherwise one would have to throw out at lease three decades worth of
astronomical observations by the world's most powerful telescopes, and find
alternative interpretations for thousands of peer-reviewed scientific papers
on cosmology.

NASA's W-MAP satellite builds upon this robust and consistent evidence to
independently verify the universe is expanding and evolving from state where
it was once dense and hot. this does not "prove" there was a big bang, but
the expansion of space, and the evolution of galaxies is incontrovertible
and based on direct observations, not just theory.

This doesn't mean everything is absolutely right. And, if evidence comes up
that contradicts the big bang cosmology, astronomers will embrace it as an
exciting new intellectual challenge to theory.

Mr. State:

A great number of spiral galaxies should have halos with globular
clusters as old as M4 (12 to 13 billion years). A galaxy situated at,
for instance, 8 billion light-years from us is seen at it was 8 billion years
ago. Thus, stars from its halo are theoretically 20-21 billion years
old. How can this be compatible with an universe which is only
13.7 +/- 0.2 billion years old, according to the BB theory?

Doesn't the discrepancy between the age of an expanding universe and that
of stars it contains constitute an irrefutable evidence?
It is difficult to abandon a 80 year's old paradigm, but this should not
prevent the NASA specialists from analysing their wonderful findings
in terms of the expanding *and* the "static" universe theories.

Mr. Bang:

Globulars formed 13 GY ago and the galactic disk about 7 GY ago as part
of the hierchical growth of galaxies So? Also, oldest stars are measured
to be 13 GY old, no more.

There simply is no discrepency whasoever, everything is consistent chronologically.

Cosmic expansion aside, the universe looked fundamentally different
in the past than it does today. this cannot happen in a steady state cosmology.

Mr. State:

You are right about M4, which is very close to the Earth.
But if a galaxy is situated at, for instance, 8 billion light-years away, its
light takes about 8 GY to reach us. In other words, we see that galaxy as
it was 8 billion years ago.
Its globular clusters, if present, thus formed 8+13 = 21 GY ago.

Mr. Bang:

The age of the globular clusters in a 8 billion-year distant galaxy would be
13GY - 8GY = 5 GY.

Mr. State:

Imagine that you find to-day in your attic a photo of your grand grand
father, taken 40 years ago.
Iow, you see to-day, on the photo, your grand grand father as he was
40 years ago.
On the photo, he is 50 years old. Are you claiming that he was born
50Y - 40Y = 10Y ago?
Of course, he was born 50 + 40 = 90 years ago!
Now let's go back to the galaxy. You see it to-day as it was 8 GY ago.
You know that 8 GY ago, it was 13 GY old.
Thus, the galaxy was born 13GY + 8Gy = 21 GY ago.

Mr. Bang:

The information about how my grandfather looked at age 10, was delayed
by 40 years until I found the scrapbook. Information from the distant
universe is similarly delayed.
50y (grandfather age) - 40yr (information delay time) = 10yr (age in picture)

Distance has nothing to do with this. If M4 were halfway across
the universe it would still be the same age.

A globular cluster 13 billion years away would be seen as a newborn object.
The age of the universe is very solid. There are no paradoxes.
The local globular cluster are the age of the universe, and anyone
living in another galaxy would reach the same conclusion about their
own globular clusters.

The age of the universe is well-established and supported by numerous
lines of observational evidence.

Mr. State:

You don't see a newborn globular cluster, you take to-day the photo of
a galaxy, which is supposed to be surrounded by globular clusters.
If the galaxy is 8G light-years away from you, its light took 8 GY to reach you.
You know that its globular clusters are 13GY old. Hence, they were born
21 GY ago. This is not a paradox, it is simply logic.

I said that you found a photo, taken 40 years ago, of your grand grand
father who was 50 when the photo was taken. Iow, his age in picture is 50 yr,
not 10 yr.
The only valid conclusion is that he was born 90 years ago.
If you arrive at another conclusion, you don't think logically.

You should use a mental trick to determine when galaxies were born:
Instead of saying "This galaxy is e.g. 8 G light-years away", imagine
that its photo was taken 8 GY ago (without bothering about the redshift,
it could be due to some ageing of the picture).
If the galaxy looks on the photo as if it were likely to be surrounded
by a halo of globular clusters having an age of 13 GY, you should infer that
the galaxy was born 21 GY ago.


Mr. Bang:

The clusters in that galaxy would have an age of 5 GY, they co-evolve
with the galaxy. Very simple, no paradox.

This simply is not an issue in cosmology at all. the age of the universe
is well-established and suported by numerous lines of observational evidence.
If the universe were steady-state we would have no evidence for
the origin of structure, the periodic table, or the hierchical grown of
galaxies. the past would look exactly the same as the present, and that
would be true for the infinite future too.

Mr. State:

Don't you realize that a galaxy situated at 8 GLY is seen as it was
8 GY ago? Iow, 8 GY ago, such galaxy was already (supposedly) as old
as our own galaxy. Or you are claiming that its clusters would have
an age of only 5 GY. Iow, the galaxy would be older than its clusters,
in plain contradiction with what was rightly claimed in the NASA
press release of April 24, 2002:

"Globular clusters are the first pioneer settlers of the Milky Way.
Many coalesced to build the hub of our galaxy and formed billions
of years before the appearance of the Milky Way's magnificent pinwheel
disk (as further confirmed by Richer's observations)."

Since globular clusters are "the first pioneer settlers of our galaxy",
they should be the first settlers of all other comparable galaxies, and also
formed billion of years before their appearance.

Your position is really untenable. Simple arithmetic and logic should
tell you a galaxy already existing 8 GY ago was likely born (or rather
its clusters) 21 GY ago.

Mr. Bang:

Please read the press release. It explains why globular clusters set the age of
the universe at 13 GY, if the universe were infinitely old there would
be "black dwarf" stars. which simply don't exist.

Mr. State:

How do you know that "black", or rather very very faint, dwarf stars don't exist?

According to the press release,

"The ancient white dwarf stars, as seen by Hubble, turn out to be
12 to 13 billion years old.
As white dwarfs cool they grow fainter, and this required that Hubble
take many snapshots of the ancient globular star cluster M4. The observations
amounted to nearly eight days of exposure time over a 67-day period.
This allowed for even fainter dwarfs to become visible, until at last
the coolest and oldest dwarfs were seen. These stars are so feeble
(at 30th magnitude which is considerably fainter than originally anticipated
for any Hubble telescope imaging with the original cameras), they are less
than one-billionth the apparent brightness of the faintest stars that can be
seen by the naked eye."

Hubble could hopefully "see" dwarfs of magnitude greater than 30 by increasing
the observation period.

Anyhow, logic tells that a galaxy comparable to our spiral galaxy,
whose dwarf stars supposedly "formed 12 to 13 GY ago", should be older
that the BB universe, born 13.7 +/- 0.2 GY ago, if its distance from us were
greater than about 2 billion light-years.

******

A question to everybody:
_______________________

Who is likely to be right, Mr. Bang or Mr. State?

Thanks,

Marcel Luttgens

******


Hubble Uncovers Oldest "Clocks" in Space to Read Age of Universe

--------------------------------------------------------------------------------

Full press release text:


Pushing the limits of its powerful vision, NASA's Hubble Space Telescope
has uncovered the oldest burned-out stars in our Milky Way Galaxy.
These extremely old, dim "clockwork stars" provide a completely independent
reading on the age of the universe without relying on measurements of the
expansion of the universe.

The ancient white dwarf stars, as seen by Hubble, turn out to be 12 to 13 billion
years old. Because earlier Hubble observations show that the first stars
formed less than 1 billion years after the universe's birth in the big bang,
finding the oldest stars puts astronomers well within arm's reach of calculating
the absolute age of the universe.

Though previous Hubble research sets the age of the universe at 13 to 14 billion
years based on the rate of expansion of space, the universe's birthday is such
a fundamental and profound value that astronomers have long sought other
age-dating techniques to cross-check their conclusions. "This new observation
short-circuits getting to the age question, and offers a completely independent
way of pinning down that value," says Harvey Richer of the University of
British Columbia, Canada.

The new age-dating observations were done by Richer and colleagues by using
Hubble to go hunting for elusive ancient stars hidden inside a globular star
cluster located 5,600 light-years away in the constellation Scorpius.
The results are to be published in the Astrophysical Journal Letters.

Conceptually, the new age-dating observation is as elegantly simple as
estimating how long ago a campfire was burning by measuring the temperature
of the smoldering coals. For Hubble, the "coals" are white dwarf stars,
the burned out remnants of the earliest stars that formed in our galaxy.

Hot, dense spheres of carbon "ash" left behind by the long-dead star's
nuclear furnace, white dwarfs cool down at a predictable rate the older
the dwarf, the cooler it is, making it a perfect "clock" that has been
ticking for almost as long as the universe has existed.

This approach has been recognized as more reliable than age-dating the
oldest stars still burning by nuclear fusion, which relies on complex models
and calculations about how a star burns its nuclear fuel and ages.
White dwarfs are easier to age-date because they are simply cooling,
but the trick has always been finding the dimmest and hence longest-running
"clocks."

As white dwarfs cool they grow fainter, and this required that Hubble
take many snapshots of the ancient globular star cluster M4. The observations
amounted to nearly eight days of exposure time over a 67-day period.
This allowed for even fainter dwarfs to become visible, until at last
the coolest and oldest dwarfs were seen. These stars are so feeble
(at 30th magnitude which is considerably fainter than originally anticipated
for any Hubble telescope imaging with the original cameras), they are less
than one-billionth the apparent brightness of the faintest stars that can be
seen by the naked eye.

Globular clusters are the first pioneer settlers of the Milky Way.
Many coalesced to build the hub of our galaxy and formed billions of years
before the appearance of the Milky Way's magnificent pinwheel disk (as further
confirmed by Richer's observations). Today 150 globular clusters survive in the
galactic halo. The globular cluster M4 was selected because it is the nearest
to Earth, so the intrinsically feeblest white dwarfs are still apparently bright
enough to be picked out by Hubble.

In 1928, Edwin Hubble's measurements of galaxies made him realize that the
universe was uniformly expanding, which meant the universe had a finite age
that could be estimated by mathematically "running the expansion backward."
Edwin Hubble first estimated the universe was only 2 billion years old.
Uncertainties over the true expansion rate led to a spirited debate
in the late 1970s, with estimates ranging from 8 billion to 18 billion years.
Estimates of the ages of the oldest normal "main-sequence" stars were at odds
with the lower value, since stars could not be older than the universe itself.

In 1997 Hubble astronomers broke this impasse by triumphantly announcing
a reliable age for the universe, calculated from a very precise measurement
of the expansion rate. The picture soon got more complicated when astronomers
using Hubble and ground-based observatories discovered the universe was not
expanding at a constant rate, but accelerating due to an unknown repulsive
force termed "dark energy." When dark energy is factored into the universe's
expansion history, astronomers arrive at an age for the universe of
13-14 billion years. This age is now independently verified by the ages
of the "clockwork" white dwarfs measured by Hubble.

Release Date: 1:00PM (EDT) April 24, 2002
Release Number: STScI-2002-10

Find more Releases at http://hubblesite.org/newscenter/archive/2002/10/
About Star Cluster Globular
About Star White Dwarf
About Cosmology Universe: Age/Size


Summary of results:
__________________

The universe is dominated by dark energy (73%). The dark matter is most of
the rest (22.4%), and the ordinary stuff we know (all the elements on the
periodic table) comprises only 4.4%.

About 96% of the universe is unknown stuff.

Also, the results indicate an epoch of ionizing radiation around redshift 20
(about 180 million years after the big bang). This ionizing radiation
presumably comes from the first stars in the universe, which previously were
thought to come from about 800 million years after the big bang. So star
formation is earlier than expected, Hubble will not be able to see it (too
far into the infrared), and NGST has a new observational motivation.

A new map of the cosmic microwave background covering the entire sky
confirms COBE results and provides 30 times more resolution.

And provides detailed power spectrum of fluctuations in CMB in five different
wavelengths.

The power spectrum of the CMB fluctutations combined with
other results yields a precise 'best fit' cosmology.

Age of universe = 13.7 +/- 0.2 billion years

Hubble parameter = 71 +/- 4 km/s/Mpc

Total mass-energy density parameter, Omega_total = 1.02 +/- 0.02

Dark energy density parameter, Omega_lambda = 0.73 +/- 0.04

Dark matter density parameter, Omega_dark = 0.224 +/- 0.009

Baryon density parameter, Omega_baryon = 0.044 +/- 0.004

Redshift at decoupling (CMB release) = 1089 +/- 1

Age of universe at decoupling = 379,000 +/- 8000 years

******
  #2  
Old July 27th 03, 05:25 PM
J. Scott Miller
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Default A dialogue between Mr. Big BANG and Mr. Steady STATE

I am not sure if it is a language thing or what, but during your "dialogue" you
seemed to switch gears, especially during the discussion of the image of the
great grand father (grand grand father in your discussion) - suddenly a picture
of a 50 year old man taken 40 years ago implied the man was 10 in the
photograph, the photograph of a 50 year-old man. But, my initial response to
Mr. Steady State in regards to his misinterpretation of images made of distant
galaxies and their surrounding clusters would be that if the object was 8
billion lightyears away, then the light we gather is of that galaxy 8 billion
years ago. Today, it, along with the rest of the universe might be 13.5 to 13.7
billion years, but we are looking into the past the father we look away so the
light we gather is that emitted in the past, not today.

The same is true of the photograph. It is a photograph of a 50 year old man. I
find it 40 years later. If the old man is still alive, he would be 90 today.
That photograph, just like the light we receive from a distant galaxy, preserves
the impression of the time it came into existence. It can only tell us the
conditions of that time, not the present. So, just like the photograph tells us
the condition of the old man back 40 years ago, the light we receive tells us
the conditions of that galaxy as it was 8 billion years ago. It, and the
universe, have aged and changed in that succeeding time, but we won't know how
that change effects appearance of that galaxy for another 8 billion years when
the light emitted today has the time to finally reach us (actually, in an
expanding, and even potentially accelerating, expanding universe, it might take
a bit longer, but the point is the same).

  #3  
Old July 27th 03, 11:48 PM
OG
external usenet poster
 
Posts: n/a
Default A dialogue between Mr. Big BANG and Mr. Steady STATE


"Marcel Luttgens" wrote in message
om...
A dialogue between Mr. Big Bang and Mr. Steady State
__________________________________________________ __

(Please read first the NASA press release and summary of results at the
end of the dialogue.)

Mr. Bang:

In an eternal, steady state universe there is no evolution. Galaxies would
be infinitely evolved, so would life. Big Bang or not we have abundant
observational evidence that the universe is changing over time, evolving
from chaos to structure. the build up of large scale structure of galaxy
superclusters, the origin of the heavier elements, the assembly of

galaxies
are all consistent with direct observational evidence for this conclusion.

To prove otherwise one would have to throw out at lease three decades

worth of
astronomical observations by the world's most powerful telescopes, and

find
alternative interpretations for thousands of peer-reviewed scientific

papers
on cosmology.

NASA's W-MAP satellite builds upon this robust and consistent evidence to
independently verify the universe is expanding and evolving from state

where
it was once dense and hot. this does not "prove" there was a big bang, but
the expansion of space, and the evolution of galaxies is incontrovertible
and based on direct observations, not just theory.

This doesn't mean everything is absolutely right. And, if evidence comes

up
that contradicts the big bang cosmology, astronomers will embrace it as

an
exciting new intellectual challenge to theory.

Mr. State:

A great number of spiral galaxies should have halos with globular
clusters as old as M4 (12 to 13 billion years). A galaxy situated at,
for instance, 8 billion light-years from us is seen at it was 8 billion

years
ago. Thus, stars from its halo are theoretically 20-21 billion years
old. How can this be compatible with an universe which is only
13.7 +/- 0.2 billion years old, according to the BB theory?


Are you saying that globlar clusters around the most distant galaxies are
seen as identical to M4?

Alternatively, are you saying that globular clusters don't evolve?


  #4  
Old July 28th 03, 03:39 PM
Marcel Luttgens
external usenet poster
 
Posts: n/a
Default A dialogue between Mr. Big BANG and Mr. Steady STATE

"OG" wrote in message ...
"Marcel Luttgens" wrote in message
om...


You wrote:

Are you saying that globlar clusters around the most distant galaxies are

seen as identical to M4?

Mr. State claimed that a distant galaxy, whose light was emitted 8 GY ago,
is seen by us as it was 8 GY ago. If the image of that galaxy looks like
that of a spiral galaxy analogous to ours, he inferred that the distant
galaxy, 8 GY ago, should also have in its halo stars which are 13 GY old.
Hence, the distant galaxy (or rather its halo) was already 13 GY old
8 GY ago, so the stars of its halo were born 21 GY ago.

Alternatively, are you saying that globular clusters don't evolve?


No, Mr. State didn't make such claim, on the contrary.
But, according to Mr. Bang, "A globular cluster 13 billion years away
would be seen as a newborn object."

Thanks,

Marcel Luttgens
  #5  
Old July 29th 03, 01:21 AM
BF11
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Posts: n/a
Default A dialogue between Mr. Big BANG and Mr. Steady STATE

No big bang, all plasma, here;

http://www.holoscience.com/news/bigbang.htm

=DF=83--=B9=B9

  #6  
Old July 30th 03, 04:56 AM
young earth creationist
external usenet poster
 
Posts: n/a
Default A dialogue between Mr. Big BANG and Mr. Steady STATE

Read the press release:

The new age-dating observations were done by Richer and
colleagues by using Hubble to go hunting for elusive ancient
stars hidden inside a globular star cluster
located 5,600 light-years away in the constellation Scorpius.



Mr. Bang:

Sir, you are an illiterate bounder, or else a simpering troll.

I have the answer to your questions, thus.

(unholsters a 9mm pistol and plants a slug between Mr. State's eyes)

Seeing you have no further replies, I bid you good day.
  #7  
Old July 30th 03, 06:41 PM
Marcel Luttgens
external usenet poster
 
Posts: n/a
Default A dialogue between Mr. Big BANG and Mr. Steady STATE

"OG" wrote in message ...
"Marcel Luttgens" wrote in message


Mr. State's reasoning could be called a thought experiment.


But Mr State is claiming that the dwarf stars seen 8GY ago appear to be 13GY
old - even though we can't see them.


They don't appear to be 13 GY old. Mr. State claimed that the remote galaxy
looks like our galaxy, whose dwarf stars are known to be 13 GY old. So,
he inferred that the dwarf stars composing the halo of the remote galaxy
are also 13 GY old, and concluded that, as the light of the remote galaxy
was emitted 8 GY ago, its dwarfs were born 21 GY ago.

His 8 G light-years distance was of course not realistic.
But at the end of the dialogue, he concluded:

"Anyhow, *logic* tells that a galaxy comparable to our spiral galaxy,
whose dwarf stars supposedly "formed 12 to 13 GY ago", should be older
that the BB universe, born 13.7 +/- 0.2 GY ago, if its distance from us
were greater than about 2 billion light-years."

This doesn't mean that globular clusters can be practically detected
at distances of 2 billion light-years or more.


So why discuss what they look like.


The discussion is about the time they were born.

Imagine that you find to-day in your attic a photo of your grand

grandfather, taken 40 years ago.
Iow, you see to-day, on the photo, your grand grand father as he was

40years ago.
On the photo, he is 50 years old. Are you claiming that he was born

50Y -40Y = 10Y ago?
Of course, he was born 50 + 40 = 90 years ago!
Now let's go back to the galaxy. You see it to-day as it was 8 GY ago.
You know that 8 GY ago, it was 13 GY old.

Mr Bang says - Can you repeat this please ?
You know that 8 GY ago, it was 13 GY old.


Mr Bang says, I know nothing of this - sounds rubbish to me.


No, Mr. Bang said:

"The information about how my grandfather looked at age 10, was delayed
by 40 years until I found the scrapbook. Information from the distant
universe is similarly delayed.
50y (grandfather age) - 40yr (information delay time) = 10yr (age in

picture)"
and also,
"The age of the globular clusters in a 8 billion-year distant galaxy would

be
13GY - 8GY = 5 GY."


We've got a problem here, because in _your_ example gf was age 10 when the
photo was taken, whereas in my example he was age 50 .


Mr. Bang is the one who has a problem, because in Mr. State's scenario,
the grandfather is 50 years old on the photo taken 40 years ago,
not 10 years old. Nevertheless, Mr. Bang claimed that the grandfater's age
in picture was 10 years.

His thesis is that no massive object in the universe can be older that 13 GY.
Hence, the globular clusters of a spiral galaxy situated at 8 G light-years
cannot not be older that 5 GY when the image of the galaxy was received.

Mr. State's thesis is that the clusters in all spiral galaxies comparable to
our own galaxy have the same age as the clusters of our galaxy, i.e. 13 GY.
If the light emitted by such a spiral galaxy took 8 GY to reach us, he considers
that to-day, the remote galaxy should be 21 GY old, thus older than the
universe of the BBT.



In fact, my Grandfather in the photo is 50 years old. I look at the

photo
and I look across at him today sitting in his chair, and I can see how

the
ageing process has worked. In the photo he's standing on his porch, in

the
house he still lives in. The house was built by his father in the year

my
Grandfather was born so in the photo it is 50 years old. Strangely the

house
has changed very little in the last 40 years, but nothing in the photo

makes
me think it is older than my Grandfather.


The grandfather could be dead to-day.
Let's imagine that he was born the same year the house was built.
His photo was taken in 1963, when he -and the house- were both 50 years

old.
To-day, in 2003, you find the photo of your grand-father, and you rightly
infer that your grand-father was born 90 years ago, thus in 1913, and also
that the house is 90 years old. Why should you think that the house is

older
than your grand-father?


I don't, but Mr Steady says "the house looks the same then as it does now.
Therefore in the photo the house must already be 90 years old (looks the
same as now), therefore the house must be 90 + 40 Years old. Next year the
house will look more or less the same so it will then be 91 + 41 years old."
Mr Steady needs to lie down in a dark room.


The house where the grandfather was born doesn't appear in Mr. State's scenario.
You came up with it. As, according to you, the photo of the grandfather at 50
was taken 40 years ago in the very house where he was born, a house that was built
by his father in the very year the old man was born, both the grandfather, if he
is still living, and the house, which is still there according to you, would be
to-day 90 years old. Next year, both would be 91 years old.


Now let's go back to the galaxy:

In 2003, you find a photo of a woman, that was taken 40 years ago.
On the photo, the woman looks 50 years old, so you infer that she was born
90 years ago.

Replace "woman" by "galaxy", 40 years by 8 GY, the time taken by the
galactic light to reach you, and 50 years by 13 GY, the assumed age of
the galaxy according to its photo, and calculate how long ago the
galaxy was born.


But the galaxy/woman is so blurry that you can't tell how old she is.


Mr. State said that the woman looks 50 years old, and that the remote
galaxy looks like our galaxy, whose halo was born 13 GY ago. He would
probably agree that the galaxy is blurry, but recognizable.


Of course, you find 8 + 13 = 21 GY.
But you run into a snag if you are a BB supporter: How could the galaxy
be born before the universe?


You seem to insist that the distant galaxy appears to be 13 GY old. Why?
where's your evidence?


It is not an evidence, but an inference.

Btw, the NASA press release of April 24, 2002, gives an interesting, but
somewhat incomplete info:

"Globular clusters are the first pioneer settlers of the Milky Way.
Many coalesced to build the hub of our galaxy and formed billions
of years before the appearance of the Milky Way's magnificent pinwheel
disk (as further confirmed by Richer's observations)."

How many billions of years, we can only guess.

Let's say that the clusters formed x GY before the appearance of the
disk of our galaxy. Also according to NASA, the universe is now 13.7 GY old,
and its age at decoupling was about 0.4 GY old, implying that our
galaxy cannot be older that about 13.3 GY.
Hence, if spiral galaxies can be observed at a distance of 8 G light-years,
they should be only 13.3 - 8 = 5.3 GY old on their photo.
If their clusters formed for instance x = 5 GY before their appearance,
one should conclude that those remote spirals didn't need more than .3 GY
to form their "magnificent pinwheel disk" !


Owen


Marcel Luttgens
  #8  
Old July 31st 03, 12:01 AM
OG
external usenet poster
 
Posts: n/a
Default A dialogue between Mr. Big BANG and Mr. Steady STATE


"Marcel Luttgens" wrote in message Mr. State's
reasoning could be called a thought experiment.

OG said
But Mr State is claiming that the dwarf stars seen 8GY ago appear to be

13GY
old - even though we can't see them.

Marcel wrote
They don't appear to be 13 GY old. Mr. State claimed that the remote

galaxy
looks like our galaxy, whose dwarf stars are known to be 13 GY old.

A very thin premise:- "it looks like our galaxy so it MUST be the same age
as ours"

Mr. State's thesis is that the clusters in all spiral galaxies comparable

to
our own galaxy have the same age as the clusters of our galaxy, i.e. 13

GY.
If the light emitted by such a spiral galaxy took 8 GY to reach us, he

considers
that to-day, the remote galaxy should be 21 GY old, thus older than the
universe of the BBT.


Let us suppose that Mr Steady is right. In this case he has an interesting
cosmology.
Our Spiral Galaxy is 13GY old (and no older)
Spiral Galaxies 1 Giga-light years away are 13+1 GY old (and no older)
Spiral Galaxies 2 Giga-light years away are 13+2 GY old (and no older)
Spiral Galaxies 3 Giga-light years away are 13+3 GY old (and no older)
Spiral Galaxies 8 Giga-light years away are 13 +8 GY old (and no older)
etc etc
I keep saying "and no older" because he has already asserted (or inferred)
that all Spiral galaxies looking like ours must be 13GY old.
So he sees the Universe getting progressively older the further from us he
looks. So much for the Universe being uniform in time and space - which I
always understod to be a basic tenet of "Steady State" cosmologies.


That said, I now withdraw from the debate (reserving the right to re-enter
at a later date)

Owen


  #9  
Old July 31st 03, 09:18 AM
Marcel Luttgens
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Default A dialogue between Mr. Big BANG and Mr. Steady STATE

"OG" wrote in message ...
"Marcel Luttgens" wrote in message Mr. State's
reasoning could be called a thought experiment.

OG said
But Mr State is claiming that the dwarf stars seen 8GY ago appear to be

13GY
old - even though we can't see them.

Marcel wrote
They don't appear to be 13 GY old. Mr. State claimed that the remote

galaxy
looks like our galaxy, whose dwarf stars are known to be 13 GY old.

A very thin premise:- "it looks like our galaxy so it MUST be the same age
as ours"

Mr. State's thesis is that the clusters in all spiral galaxies comparable

to
our own galaxy have the same age as the clusters of our galaxy, i.e. 13

GY.
If the light emitted by such a spiral galaxy took 8 GY to reach us, he

considers
that to-day, the remote galaxy should be 21 GY old, thus older than the
universe of the BBT.


Let us suppose that Mr Steady is right. In this case he has an interesting
cosmology.
Our Spiral Galaxy is 13GY old (and no older)
Spiral Galaxies 1 Giga-light years away are 13+1 GY old (and no older)
Spiral Galaxies 2 Giga-light years away are 13+2 GY old (and no older)
Spiral Galaxies 3 Giga-light years away are 13+3 GY old (and no older)
Spiral Galaxies 8 Giga-light years away are 13 +8 GY old (and no older)
etc etc
I keep saying "and no older" because he has already asserted (or inferred)
that all Spiral galaxies looking like ours must be 13GY old.
So he sees the Universe getting progressively older the further from us he
looks. So much for the Universe being uniform in time and space - which I
always understod to be a basic tenet of "Steady State" cosmologies.


You are right, Mr. Steady State inferred that spirals *looking like ours*
on their photo are to-day 13 GY + x GY (x = their distance) old.
He considered that such galaxies, if x = for instance 8 GY, should be older
than the universe of the BBT.
Of course, other spirals can be younger or older.

The BB cosmology is even more interesting, according to the NASA press
release of April 24, 2002:

"Globular clusters are the first pioneer settlers of the Milky Way.
Many coalesced to build the hub of our galaxy and formed billions
of years before the appearance of the Milky Way's magnificent pinwheel
disk (as further confirmed by Richer's observations)."

How many billions of years, we can only guess.

Let's say that the clusters formed x GY before the appearance of the
disk of our galaxy. Also according to NASA, the universe is now 13.7 GY old,
and its age at decoupling was about 0.4 GY old, implying that our
galaxy cannot be older that about 13.3 GY.
Hence, if spiral galaxies can be observed at a distance of 8 G light-years,
they should be only 13.3 - 8 = 5.3 GY old on their photo.
If their clusters formed for instance x = 5 GY before their appearance,
one should conclude that those remote spirals didn't need more than .3 GY
to form their "magnificent pinwheel disk" !


That said, I now withdraw from the debate (reserving the right to re-enter
at a later date)

Owen


Marcel Luttgens
  #10  
Old July 31st 03, 11:03 AM
O'Brother
external usenet poster
 
Posts: n/a
Default A dialogue between Mr. Big BANG and Mr. Steady STATE


"Marcel Luttgens" wrote in message
om...
"OG" wrote in message

...
[snip]

How many billions of years, we can only guess.


Given a concentrated mass represented by the pre BB universe, is it fair to
assume that time and space were very bent during that epoch?

Why is there an assumption of linear time flow? Especially during the time
in which the proto universe begins its expansion and massive clumps of
matter are streaming away from their brethren.

Can anyone predict the state of affairs existed then and then make
comparisons to a steady state model? I'd say it isn't a fair assumption
that the two were the same.

O'

[snip]

Marcel Luttgens



 




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