this post was submitted on 11 May 2025
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Remember: This could happen to us and there's nothing we could do about it
It's theoretically possible, sure, but the nice, pretty spiral arms that our Milky Way has indicates it probably hasn't crashed into any other big galaxies recently. So we probably don't have any rogue supermassives, just rogue normal ones which are much harder to detect.
That's reassuring!
You would think we'd see the gravitational influence long before one comes near, however.
You mean with an unexplained orbit of Neptune? The reason we can't find planet 9 may well be because it's actually a black hole
We just have to keep a look out for something totally black in the sky.
I choose to forget that, if it's all the same to you.
Do not threaten me with a good time.
Wouldn't time dilation essentially put us in a frame of reference that ffwds to the end of the universe?
Or would gravity waves tear us apart before we could experience that?
Gravity would shred everything way before you noticed any cool time dilation effects. If somehow you became invincible, you still wouldn't see a fast forward movie of the universe, the light falling into the black hole also experiences distortions and becomes so blueshifted that you could not "see" anything. Outside observers also could not see you or anything else slow down on approaching the event horizon. Any light emitted from an infalling object becomes so redshifted, the ability to observe an infalling object fades away extremely quickly and is not infinite.
https://math.ucr.edu/home/baez/physics/Relativity/BlackHoles/fall_in.html
Doesn't that depend on the size of the black hole? I think the event horizon grows faster than the radius (forgot the name) at which objects would be ripped apart from gravity. So you'd be relatively safe falling into a supermassive black hole. As long as nothing else is orbiting it.
I guess this depends on the mass, distance and speed. If it's far enough away & small enough, we could try to change its path by flinging stuff by really close.