Starship Asterisk*

Poddy wrote:I have often wondered if the (hubble) pictures are processed somehow to give real perspective (ie depth cueing as it is not in '3D') or if the perspective effect is a fantasy created by the 'false colour' processing?

mg wrote:So what would happen to an individual on a planet going through this evolution??

Don Lund wrote:
What's lost or destroyed in nuclear reactions is not what I'd call matter, but rather nuclear binding energy. Yes, there is a mass equivalent to this energy via E=mc^2, so I suppose it all boils down to how you look at it. Perhaps it just doesn't "matter"...

Fusion of deuterium with tritium creating helium-4,
freeing a neutron, and releasing 17.59 MeV of energy, =>
as an appropriate amount of mass converting to the kinetic
energy of the products, in agreement with E = Δmc²

Hamlet, Prince of Denmark Act 2, Scene 2 wrote:
QUEEN GERTRUDE: More matter, with less Art.

Don Lund wrote:How do you edit this stuff, anyway?

Chris Peterson wrote:

Don Lund wrote:

rstevenson wrote:"Matter can not be created nor destroyed." (Ignoring nuclear reactions of course.)

Matter is not destroyed in nuclear reactions, the same law applies.

While "matter" isn't strictly defined, I think most physicists are comfortable with the notion that matter may be destroyed in nuclear reactions. That is, "matter" as it is usually defined refers to atoms or subatomic particles that have mass. While matter is equivalent to energy, it is energy in a very specific form, and it can be converted to energy of a different form, essentially losing its "matter" quality. Energy is always conserved, but that doesn't mean matter can't cease to be matter (which is a pretty good definition of "destroyed").

Don Lund wrote:

rstevenson wrote:"Matter can not be created nor destroyed." (Ignoring nuclear reactions of course.)

Matter is not destroyed in nuclear reactions, the same law applies.

rstevenson wrote:"Matter can not be created nor destroyed." (Ignoring nuclear reactions of course.)

ems57fcva wrote:I will repeat my major concern about this photo, namely the large dusty bridge connecting the two galaxies: It is not predicted by any of the current galaxy collision models!

ems57fcva wrote:I will repeat my major concern about this photo, namely the large dusty bridge connecting the two galaxies: It is not predicted by any of the current galaxy collision models! ...

... A recent APOD (http://apod.nasa.gov/apod/ap100702.html) shows such a leftover bridge.

Ann wrote:I don't quite get what you mean by saying that the Milky Way itself is about the same brightness as these clusters. Obviously our galaxy itself is brighter than any one of the clusters in NGC 4038. Are you saying that any one of the clusters of NGC 4038 would look as faint and diffuse to anyone inside NGC 4038 as the band of the Milky Way looks to us? Are you saying that the brightest clusters of NGC 4038 would be comparable in apparent brightness to the globular clusters that we see in our own galaxy, so that they would at best be faint-looking objects at about fourth magnitude?

Ann wrote:

Chris Peterson wrote:

Ann wrote:Do we really have anything as bright in the Milky Way as the super star clusters of NGC 4038?

Yes, we do. The Milky Way itself is about the same brightness as these clusters, as are most of the globular clusters we see around our own galaxy. From those galaxies, the local globulars will look pretty much the same as our own. If you were very close to them, they would look big, but no brighter than more distant globulars.

I don't quite get what you mean by saying that the Milky Way itself is about the same brightness as these clusters. Obviously our galaxy itself is brighter than any one of the clusters in NGC 4038. Are you saying that any one of the clusters of NGC 4038 would look as faint and diffuse to anyone inside NGC 4038 as the band of the Milky Way looks to us? Are you saying that the brightest clusters of NGC 4038 would be comparable in apparent brightness to the globular clusters that we see in our own galaxy, so that they would at best be faint-looking objects at about fourth magnitude?

I'm not buying that. All our own globular clusters are made of old, relatively faint stars, and they are all very far from us here on Earth. The super clusters of NGC 4038 are not as rich as our globular clusters, but they are made of young stars, some of which are bound to be O-type stars or B-type supergiants, which are very bright and conspicuous. And there may well be some M-type supergiants in there to provide color contrast. If an observer in NGC 4038 was much closer to one of the young super clusters in that galaxy than we are to any of our globular clusters, surely that cluster would look bright and awesome. What if an observer was as close to any of that super clusters as we are to the stars in Orion's Belt? The observer would have a magnificent view indeed, provided, of course, that there was not a lot of dust between the observer and the cluster to obscure the view.

From Wikipedia:

_____________         Andromeda         NGC 4039        NGC 4038
---------------------------------------------------------------------
apparent size         190′ × 60′       3′.1 × 1′.6    5′.2 × 3′.1
apparent magnitude       3.44             11.1            11.2

Chris Peterson wrote:

Ann wrote:Do we really have anything as bright in the Milky Way as the super star clusters of NGC 4038?

Yes, we do. The Milky Way itself is about the same brightness as these clusters, as are most of the globular clusters we see around our own galaxy. From those galaxies, the local globulars will look pretty much the same as our own. If you were very close to them, they would look big, but no brighter than more distant globulars.

And there would be no color in the sky inside NGC 4038? Sure there would be! There is color in the sky that we can see in the Milky Way, and there would be no less color in NGC 4038.

I've never encountered anybody who reports seeing color in the Milky Way. It is far too dim to trigger photopic vision. Sure you can see color if you make a long exposure, just as you can in other galaxies. But no galaxy, including our own, shows any color (other than gray, of course) to the human eye.

Ann wrote:Do we really have anything as bright in the Milky Way as the super star clusters of NGC 4038?

And there would be no color in the sky inside NGC 4038? Sure there would be! There is color in the sky that we can see in the Milky Way, and there would be no less color in NGC 4038.

owlice wrote: If the night sky were different, people would still find patterns and visual relationships between stars, so there would still be asterisms and constellations. The heavens don't impose those on us; we create them out of our own need to find patterns and connect the dots.

I don't think so. There are still dust clouds that block the view in many directions. Nothing would be brighter than we see in our night sky (except maybe for some stars), and like our sky, almost everything except background structure would be fairly close. There would be no color, and little fine structural detail. Basically, I imagine the sky in a colliding galaxy pair to look something like ours

http://www.cita.utoronto.ca/~dubinski/antennae/antennae.html wrote:

Click to view full size image

<<NGC 4038/4039 are perhaps the most famous pair of nearby interacting galaxies known for their symmetrically placed tidal tails resembling insect antennae. N-body simulations of the formation of the Antennae's tidal tails allow us to set limits on the total amount of dark matter in the interacting galaxies. Shown below are two simulations using different amounts of dark matter in the galaxy models. The low mass model only contains 4 times as much mass in dark matter as stars while the high mass model contains 30 times as much dark matter. The low mass model easily produces long tidal tails like the real pair while the high mass model fails, producing only short, stubby features. Simulations using intermediate masses show that long tails only arise when the mass of dark matter is less than 10 times the mass of the stars. >>

Ann wrote:
if you live in either NGC 4038 (the topmost galaxy in today's APOD) or in NGC 4039 (the bottom one)...

JosephD wrote:... . simply because of Gravity and the two black holes passing through the Galaxies will destroy a third of all matter in each galaxie while other planets and there systems suffer catastrophy.

JosephD wrote:Far more distruction is caused then any can realize.

biddie67 wrote:But what might be the consequences if two stars did happen to collide?

Could comet activity increase as gravity tugged in a different direction?

Could a star pass through a center of gravity "net" because of momentum and then get pulled backwards into a point of balance?