what if (on colliding galaxies)

Did Big Moe run into a housewife with a BIG CAN OF RAID, BEERTbrain?
lmao!

A DEAD cockroach sounds OH SO GOOD!

Don't have any now, but I've killed my fair share! lmao!

Saul Levy


On Sun, 3 Aug 2008 09:17:46 -0400, (G=EMC^2
Glazier) wrote:

Brad My late pet Big Moe worked mostly on instinct. Like not moving
when he was aware that he has been seen. He did not however show much of
his id instincts to me once we got better acquainted and became friends.
He liked peppermint tooth paste and knew at 5pm he would get some. I
made a sand box for him on my back porch,and a small hole so he could go
out at night to find a mate. He was always back in the box at sun rise.
I often wondered how I looked to him. Reality is I made Big Moe the
most popular cockroach on the planet. His ancestors will take over when
humankind turns the earth into glass and steam Bert

On Aug 3, 4:09 pm, Scott Miller wrote:
G=EMC^2 Glazier wrote:
What if colliding galaxies need much more thinking? This What if came
out of Cactus Saul posting his answer that stars of a colliding galaxy
just pass each other by without even a hello. Not so fast Saul Im
looking as I type at the Cartwheel galaxy This galaxy has been hit
face on by another galaxy. It created great SHOCKWAVES that spread out
like ripples on a lake.to form a glowing ring of stars at the galaxy
edge. Now we must think what gravity is doing when twogalaxies
collide. Gravity pulls from each galaxy sheets of gas and stars creating
great interaction This is shown to us in these two galaXIES NGC 4038
AND NGC 4039 nEXT TO THE BREATH TAKING PICTURE OF THE cARTWHEEL
GALAXY is galaxy NGC 2207 It is an unbelievable picture. So best
you all see it for yourselves Especially Cactus Saul Bert

The string of commentary following your initial post is one of the
examples I would offer for not spending much time in this group. Very
little science discussion followed.

My comments on what you have posted would have been as follows:

I don't think "shockwave" would be the correct term here, unless you are
talking about shockwaves created from supernova explosions of massive
stars created as gas cloud interacted with gas cloud as the two galaxies
passed through each other.

Gravity obviously plays a role and could, among other things, jettison
stars and gas from either of the two interacting galaxies into the
intergalactic medium. In images of colliding galaxies such as the
Antenna, you can see this kind of thing happening. The Tadpole and the
Mice, pretty images from the HST, also show what can happen after the
galaxies have passed through each other. And computer simulations seem
to reinforce this understanding to the degree that they can result in
computer galaxies similar to the real thing seen by the HST and other
telescopes.

Star-star interactions are likely to be small in probability, but
definitely not zero. Star-star impacts though may be much closer to
zero in probability than the interactions would be, simply because the
interactions would take the form of gravity-gravity interaction of each
star, and not star hitting star.

At good velocity (say 100 km/s) and passing within say 100 AU, what
would the gravity or tidal radius of a pair of average stars do to one
another.

Same request for a pair of 10x solar mass stars passing 100 AU in the
night, sort of speak, say given the same velocity of roughly 100 km/s.

Now bring that passing radius down to 10 AU for each of the two what-
if passing of the average and the 10X stars.

How much mutual/collateral damage are we talking about?

~ Brad Guth Brad_Guth Brad.Guth BradGuth

In article
,
BradGuth wrote:

On Aug 3, 4:09 pm, Scott Miller wrote:
G=EMC^2 Glazier wrote:
What if colliding galaxies need much more thinking? This What if came
out of Cactus Saul posting his answer that stars of a colliding galaxy
just pass each other by without even a hello. Not so fast Saul Im
looking as I type at the Cartwheel galaxy This galaxy has been hit
face on by another galaxy. It created great SHOCKWAVES that spread out
like ripples on a lake.to form a glowing ring of stars at the galaxy
edge. Now we must think what gravity is doing when twogalaxies
collide. Gravity pulls from each galaxy sheets of gas and stars creating
great interaction This is shown to us in these two galaXIES NGC 4038
AND NGC 4039 nEXT TO THE BREATH TAKING PICTURE OF THE cARTWHEEL
GALAXY is galaxy NGC 2207 It is an unbelievable picture. So best
you all see it for yourselves Especially Cactus Saul Bert

The string of commentary following your initial post is one of the
examples I would offer for not spending much time in this group. Very
little science discussion followed.

My comments on what you have posted would have been as follows:

I don't think "shockwave" would be the correct term here, unless you are
talking about shockwaves created from supernova explosions of massive
stars created as gas cloud interacted with gas cloud as the two galaxies
passed through each other.

Gravity obviously plays a role and could, among other things, jettison
stars and gas from either of the two interacting galaxies into the
intergalactic medium. In images of colliding galaxies such as the
Antenna, you can see this kind of thing happening. The Tadpole and the
Mice, pretty images from the HST, also show what can happen after the
galaxies have passed through each other. And computer simulations seem
to reinforce this understanding to the degree that they can result in
computer galaxies similar to the real thing seen by the HST and other
telescopes.

Star-star interactions are likely to be small in probability, but
definitely not zero. Star-star impacts though may be much closer to
zero in probability than the interactions would be, simply because the
interactions would take the form of gravity-gravity interaction of each
star, and not star hitting star.

At good velocity (say 100 km/s) and passing within say 100 AU, what
would the gravity or tidal radius of a pair of average stars do to one
another.

That should be easy for you to figure out, for you're the world's only
reigning expert on this newsgroup for such questions, and anyone who
disagrees with you is part of some untrustworthy cabal.

Same request for a pair of 10x solar mass stars passing 100 AU in the
night, sort of speak, say given the same velocity of roughly 100 km/s.

Now bring that passing radius down to 10 AU for each of the two what-
if passing of the average and the 10X stars.

How much mutual/collateral damage are we talking about?

How far apart are stars on the average? Several light-years? The 100 AU
number is out of your ass, like most things you say.

--
Timberwoof me at timberwoof dot com http://www.timberwoof.com
"When you post sewage, don't blame others for
emptying chamber pots in your direction." ‹Chris L.

On Aug 3, 8:07 pm, Timberwoof
wrote:
In article
,



BradGuth wrote:
On Aug 3, 4:09 pm, Scott Miller wrote:
G=EMC^2 Glazier wrote:
What if colliding galaxies need much more thinking? This What if came
out of Cactus Saul posting his answer that stars of a colliding galaxy
just pass each other by without even a hello. Not so fast Saul Im
looking as I type at the Cartwheel galaxy This galaxy has been hit
face on by another galaxy. It created great SHOCKWAVES that spread out
like ripples on a lake.to form a glowing ring of stars at the galaxy
edge. Now we must think what gravity is doing when twogalaxies
collide. Gravity pulls from each galaxy sheets of gas and stars creating
great interaction This is shown to us in these two galaXIES NGC 4038
AND NGC 4039 nEXT TO THE BREATH TAKING PICTURE OF THE cARTWHEEL
GALAXY is galaxy NGC 2207 It is an unbelievable picture. So best
you all see it for yourselves Especially Cactus Saul Bert

The string of commentary following your initial post is one of the
examples I would offer for not spending much time in this group. Very
little science discussion followed.

My comments on what you have posted would have been as follows:

I don't think "shockwave" would be the correct term here, unless you are
talking about shockwaves created from supernova explosions of massive
stars created as gas cloud interacted with gas cloud as the two galaxies
passed through each other.

Gravity obviously plays a role and could, among other things, jettison
stars and gas from either of the two interacting galaxies into the
intergalactic medium. In images of colliding galaxies such as the
Antenna, you can see this kind of thing happening. The Tadpole and the
Mice, pretty images from the HST, also show what can happen after the
galaxies have passed through each other. And computer simulations seem
to reinforce this understanding to the degree that they can result in
computer galaxies similar to the real thing seen by the HST and other
telescopes.

Star-star interactions are likely to be small in probability, but
definitely not zero. Star-star impacts though may be much closer to
zero in probability than the interactions would be, simply because the
interactions would take the form of gravity-gravity interaction of each
star, and not star hitting star.

At good velocity (say 100 km/s) and passing within say 100 AU, what
would the gravity or tidal radius of a pair of average stars do to one
another.

That should be easy for you to figure out, for you're the world's only
reigning expert on this newsgroup for such questions, and anyone who
disagrees with you is part of some untrustworthy cabal.

That's pretty much what it seems to be, a cabal of evidence excluding
naysayers, rusemasters and DARPA brown-nosed minions doing their usual
mainstream damage-control.


Same request for a pair of 10x solar mass stars passing 100 AU in the
night, sort of speak, say given the same velocity of roughly 100 km/s.

Now bring that passing radius down to 10 AU for each of the two what-
if passing of the average and the 10X stars.

How much mutual/collateral damage are we talking about?

How far apart are stars on the average? Several light-years? The 100 AU
number is out of your ass, like most things you say.

But that's not what I was specifically asking of Scott Miller, was it.

Why are you so afraid of gravity and the tidal radius of consequences
when things get near enough to matter?

~ Brad Guth Brad_Guth Brad.Guth BradGuth

And why don't you just **** OFF, BradBoi? lmfjao!

Saul Levy


On Sun, 3 Aug 2008 05:17:54 -0700 (PDT), BradGuth
wrote:

On Aug 3, 4:53 am, (G=EMC^2 Glazier) wrote:
Cactus saul Reality being man made I being a man can figure and can
come up with my own figures just as well as those that give their
figures to us to read in their books. Best to keep in mind all
measurements of time and distance let it be Planck lengths or LY are at
best approximations. Go figure bert

And you think a Zionist/Nazi like our Saul Levy gives a tinkers damn
about whatever you think, other than caring enough as to continually
topic/author stalk and bash with all the mainstream pretend-Atheism
that he can muster?

~ Brad Guth Brad_Guth Brad.Guth BradGuth

You wouldn't survive, BradBoi! lmfjao!

So what does that say about your intelligence?

DUMBER THAN A COCKROACH!

Saul Levy


On Sun, 3 Aug 2008 05:21:12 -0700 (PDT), BradGuth
wrote:

On Aug 2, 4:27 am, (G=EMC^2 Glazier) wrote:
Brad You brought into the pot an interesting point. The shock wave
created by galaxies colliding could wipe out planets that have
intelligent life. Here on Earth we have the same worry on being hit by
an asteroid. Well universe with galaxies with intelligent life has to
come under the uncertainty principle,and life is a gamble Bert

A relatively little asteroid encounter could seriously terminate most
of all life on Earth. Only the robust and obviously intelligent likes
of Moe would survive.

~ Brad Guth Brad_Guth Brad.Guth BradGuth

"Timberwoof" wrote...
in message
...

. . .
How far apart are stars on the average? Several light-years? The 100 AU
number is out of your ass, like most things you say.

1 AU = distance of Earth from Sun

100 AU = .00158128588 light years

100 AU = 9,295,588,762 miles

100 AU = 14,959,800,000 kilometers

happy days and...
starry starry nights!

--
Indelibly yours,
Paine Ellsworth

P.S.: Thank YOU for reading!

P.P.S.: http://painellsworth.net

Timberhead I use shockwaves here as a good energy force. Its my post
and you can tell me shockwaves are only used by our imperial thinkers
but again I use it in colliding galaxies and I say it fits Bert

As usual, ****WIT, you won't make those calculations yourself!
lmfjao!

You are totally helpless!

I guess all those well-known laws of physics you talk about all the
time are totally unknown to you?

Yep, the VILLAGE IDIOT!

Saul Levy


On Sun, 3 Aug 2008 16:46:45 -0700 (PDT), BradGuth
wrote:

At good velocity (say 100 km/s) and passing within say 100 AU, what
would the gravity or tidal radius of a pair of average stars do to one
another.

Same request for a pair of 10x solar mass stars passing 100 AU in the
night, sort of speak, say given the same velocity of roughly 100 km/s.

Now bring that passing radius down to 10 AU for each of the two what-
if passing of the average and the 10X stars.

How much mutual/collateral damage are we talking about?

~ Brad Guth Brad_Guth Brad.Guth BradGuth

It's not enough to know that you are doomed? You must also know precisely
when? I would tell you, but you wouldn't believe me because you give no
fornication. Blessed be the obscene, for they shall inherit the media.

BTW, what part of "Thou Shalt Not . . ." didn't you understand?

--
I Am

"Saul Levy" wrote in message
news
Are we still DOOMED in 2012, God?

I want to know. lmao! As if I give a ****!

Saul Levy


On Sat, 02 Aug 2008 09:12:22 GMT, "GOD" wrote:

D o n' t m a k e m e c o m e d o w n t h e r e !