by iampete » Sat Nov 24, 2007 11:03 am
I guess I wasn't clear what I was trying to get at (I'm not sure if I know what I'm trying to get at, either!!)
Are these galaxies all part of a "galactic group" or whatever the correct terminology is, i.e., with relatively small relative motion to one another, or are they just meeting at the same place at the same time just by happenstance? It would seem that in the former case, they'd eventually coalesce into one big galaxy, while in the latter case, they'd be likely to just eventually go their separate ways, after a lot of matter exchanges & deformations. If they're all part of a galactic group and will eventually merge, is this thought to be a "normal" process of galactic evolution, or do galaxies, once formed, pretty much remain separate?
If I understand correctly, the so-called "dark energy" manifests itself as a repulsive force. Since the matter exchanges and deformations of "colliding" galaxies are gravitation induced phenomena, it would seem that even at larger-than-galactic scales, the attractive forces are still stronger than the repulsive ones. In the theory that dark energy will eventually result in "infinite" expansion of the universe, at what scale does the repulsive force begin to overwhelm the gravitational force?
And yes, I'm aware that the time scales are too large for us to ever confirm the processes by observation, but I'm curious what the thinking on this is. >>> in layman's terms, please, if possible !!!!!
I guess I wasn't clear what I was trying to get at (I'm not sure if I know what I'm trying to get at, either!!)
Are these galaxies all part of a "galactic group" or whatever the correct terminology is, i.e., with relatively small relative motion to one another, or are they just meeting at the same place at the same time just by happenstance? It would seem that in the former case, they'd eventually coalesce into one big galaxy, while in the latter case, they'd be likely to just eventually go their separate ways, after a lot of matter exchanges & deformations. If they're all part of a galactic group and will eventually merge, is this thought to be a "normal" process of galactic evolution, or do galaxies, once formed, pretty much remain separate?
If I understand correctly, the so-called "dark energy" manifests itself as a repulsive force. Since the matter exchanges and deformations of "colliding" galaxies are gravitation induced phenomena, it would seem that even at larger-than-galactic scales, the attractive forces are still stronger than the repulsive ones. In the theory that dark energy will eventually result in "infinite" expansion of the universe, at what scale does the repulsive force begin to overwhelm the gravitational force?
And yes, I'm aware that the time scales are too large for us to ever confirm the processes by observation, but I'm curious what the thinking on this is. >>> in layman's terms, please, if possible !!!!!