|
|
|
|
|
|
by dumpsterdiver
918 days ago
|
|
|
> A black hole doesn't work like an ordinary object. Black holes are ordinary objects, if they are anything at all. Take any normal object and give it the mass of a black hole, and what do you have? To claim that a black hole “doesn’t work like normal matter” seems to ignore that these entities have come to exist “normally”, or rather, through a natural course of events. It’s not that the black hole “doesn’t work like normal matter”, but rather that you refuse to accept that normal matter with the mass of a black hole (and hence, the observable properties we associate with black holes) are still “normal objects”. When objects of a certain class display certain properties, it’s not accurate to say “that’s not normal.” Instead, it would be accurate to say, “that is the normal behavior of objects once they reach this class or state.” |
|
|
No, they aren't. Their spacetime geometries are very, very different from those of ordinary objects.
> Take any normal object and give it the mass of a black hole
There is no such thing as "the mass of a black hole". What distinguishes a black hole from other objects is not its mass, but its spacetime geometry. That's particularly true for the holes studied by this paper, which are far smaller than the ones we actually see with our astronomical observations.
The rest of your post is simply wrong. A black hole is not made of normal matter; it's vacuum. I'm sorry, but you simply don't understand the physics of black holes. A good free online reference is Sean Carroll's lecture notes on GR:
https://arxiv.org/abs/gr-qc/9712019
It has an entire chapter on black holes.