Communities

Writing
Writing
Codidact Meta
Codidact Meta
The Great Outdoors
The Great Outdoors
Photography & Video
Photography & Video
Scientific Speculation
Scientific Speculation
Cooking
Cooking
Electrical Engineering
Electrical Engineering
Judaism
Judaism
Languages & Linguistics
Languages & Linguistics
Software Development
Software Development
Mathematics
Mathematics
Christianity
Christianity
Code Golf
Code Golf
Music
Music
Physics
Physics
Linux Systems
Linux Systems
Power Users
Power Users
Tabletop RPGs
Tabletop RPGs
Community Proposals
Community Proposals
tag:snake search within a tag
answers:0 unanswered questions
user:xxxx search by author id
score:0.5 posts with 0.5+ score
"snake oil" exact phrase
votes:4 posts with 4+ votes
created:<1w created < 1 week ago
post_type:xxxx type of post
Search help
Notifications
Mark all as read See all your notifications »
Q&A

Post History

66%
+2 −0
Q&A What would the sky view be like of a final stage massive merged galaxy?

Cox & Loeb 2008 performed one of the few simulations of the Milky Way/Andromeda collision of which I'm aware. It's not particularly easy to simulate a galactic merger, so the lack of detailed n...

posted 4y ago by HDE 226868‭

Answer
#1: Initial revision by user avatar HDE 226868‭ · 2020-06-02T19:21:34Z (over 4 years ago)
[Cox & Loeb 2008](https://ui.adsabs.harvard.edu/abs/2008MNRAS.386..461C/abstract) performed one of the few simulations of the Milky Way/Andromeda collision of which I'm aware. It's not particularly easy to simulate a galactic merger, so the lack of detailed numerical treatments shouldn't be that surprising. Nevertheless, they were able to determine certain properties of the remnant, which they showed would appear to be akin to an elliptical galaxy. We indeed would expect most mergers to result in elliptical galaxies, albeit with tidal features like tidal tails in the immediate aftermath of the merger.



Although there's no analytical expression for the remnant's density profile, the authors computed it numerically and plotted it as part of Figure 12:



[![Density profile of Milkomeda][1]][1]



Their simulations indicated that the Sun will likely end up $\sim$30 kiloparsecs from the center of the galaxy (compare this to our current distance of 8 kpc from the center of the Milky Way!), so let's try to grab numbers from the plot at that point. At 30 kpc, the stellar mass density is $\rho/\rho_{\text{crit}}\approx5000$, generously, with $\rho_{\text{crit}}=10^{-29}\text{ g cm}^{-3}$. If we assume that the average mass of a star is roughly $\bar{M}=0.5M_{\odot}$ (seems right to within a factor of two), then the stellar number density is $n=\rho/\bar{M}$ and the average distance to the nearest star is

$$l\approx n^{-1/3}=(\rho/\bar{M})^{-1/3}\approx29\text{ light-years}$$

At the moment, of course, the nearest star to the Sun is just over 4 light-years away.

Obviously, the situation will be different for each star; like all galaxies, the remnant varies in density - near the center, it looks like the mean inter-star distance is about 1 light-year. Plus, each merger will be different, although I think this scenario is fairly representative of two moderately-sized spiral galaxies. All that said, I would not be surprised if, for many stars in any merger, the night sky contains fewer stars and more blackness.



Now, at night on Earth, the Milky Way appears as a dark band in the sky. That's because the galaxy is - halo aside - essentially disk-shaped, and we lie in the disk. For an elliptical galaxy, it's a bit more complicated. There's no disk to speak of, so the stars and dust lanes would be spread more uniformly over the sky.





The Planetary Society has [an excellent post on this](https://www.planetary.org/blogs/emily-lakdawalla/2012/06041013.html), with a series of eight artist's impressions of how the sky might look before, during and after the collision. It looks like they match fairly well with our intuition. Enjoy!



[![Image of the night sky on a planet showing a galactic merger][2]][2]
<br>
<sup>Image credit: NASA, ESA, Z. Levay and R. van der Marel (STScI), T. Hallas, and A. Mellinger. [Public domain](https://hubblesite.org/copyright).</sup>





  [1]: https://i.stack.imgur.com/2kpFs.png

  [2]: https://i.stack.imgur.com/LExEW.jpg