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But this mass was inside the BBBH which means that the age of the subatomic particles in the mass is much older than the age of our universe.
As the radius of a black hole increases, the density of the interior decreases. This means that the observable universe is inside its own event horizon. This in itself indicates that we do not understand black holes.
With this in mind, the universe could not have started inside a black hole, since it is technically still inside one.
Woow, I never heard before about such process before. But I'm not sure what you mean here...Are you talking about the increase if BH radius due to it's "consumption" of some other matter (like stars)? If yes then shouldn't it lead to the increasing self-gravity of that BH, leading to the increase of it's internal density and/or pressure?
Quote from: CrazyScientist on 29/05/2021 13:20:56Woow, I never heard before about such process before. But I'm not sure what you mean here...Are you talking about the increase if BH radius due to it's "consumption" of some other matter (like stars)? If yes then shouldn't it lead to the increasing self-gravity of that BH, leading to the increase of it's internal density and/or pressure?The event horizon is a mathematical concept. It is not a physical barrier. It is the surface that describes the point where nothing can escape the gravity of the gravitating mass. To escape would require a velocity with a magnitude greater than the speed of light. Every object that passes through the horizon adds to its mass and the mathematics tells us that this increase in mass will also increase the radius of the event horizon.
But there's also the BH as a solid and VERY dense (probably?) spherical object
since matter reaches there it's limit of compression.
Since you talked about "radius of a black hole", I had in mind the radius of it's solid surface
So you were talking about the radius of the event horizon and not the radius of black hole in the sense of it's solid surface?
Quote from: CrazyScientist on 29/05/2021 14:28:24But there's also the BH as a solid and VERY dense (probably?) spherical objectNo there is no evidence that there is a solid surface in a black hole. Quote from: CrazyScientist on 29/05/2021 14:28:24since matter reaches there it's limit of compression.This is not correct. There is no known force that can prevent the mass in a black hole from collapsing into a singularity. Do singularities actually exist? That is disputable, but like I said there is no known force that would prevent that from happening.Quote from: CrazyScientist on 29/05/2021 14:28:24Since you talked about "radius of a black hole", I had in mind the radius of it's solid surfaceWhen a physicist refers to the radius or diameter of a black hole they are always talking about the event horizon.
Quote from: CrazyScientist on 29/05/2021 14:28:24So you were talking about the radius of the event horizon and not the radius of black hole in the sense of it's solid surface?It is easy to waffle incoherently about areas of physics where science has no answers. This is the tactic of every attention seeking wannabe. Since any fairytale will do. You lack the integrity of an honest actor.
You do have a certain level of knowledge. You have learnt some science. This makes you worse than the general wannabe. When you try to promote a pet theory you tend to sound authoritative. So any nonsense you spout will appear to be trustworthy. You could be a valued member if you wanted to be.
As the radius of a black hole increases, the density of the interior decreases.
particles produced in the world's particle accelerators, these have a very short life expectancy outside their original confinement within atomic matter. The exception is the electron.
My theory was connected to time dilation
Your comment suggests that there are 4 types of black holes: A BH that produces a universe by...
WHAT IS THE AGE OF SUBATOMIC PARTICLES?
1. A BH that produces a universe by explosion2. A BH that produces a universe by evaporation3. A BH that produces a universe by evaporation and then explosion4. A BH that remains as is for everCan you please elaborate?
Your comment suggests that there are 4 types of black holes: