Black Holes don't have any kind of atmosphere but in pressure wise, Black Holes have infinite pressure because nothing, including light could get of the gravitation force of an black hole.
Yes, black holes are an example of negative pressure. This is because they exert gravitational force so strong that nothing, not even light, can escape from them, creating a region of extreme gravitational pressure.
A black hole forms only when the star is large enough that the gravitational pressure exceeds the quantum degeneracy pressure.
We do not know of any planets that have been destroyed by a black hole, but it probably has happened. Because of the vast distances in space and the fact that neither planets nor black holes emit light, both are hard to detect.
As you approach a black hole, the gravitational pull becomes incredibly strong, causing immense compression of the surrounding atmosphere. This increase in pressure would lead to extreme heating and chaos in the surrounding environment, potentially causing the atmosphere to be stripped away or undergo significant changes before reaching the black hole's event horizon.
No, the biggest quasar is not capable of destroying the biggest supermassive black hole. Quasars are powered by the accretion of material onto supermassive black holes, so they are closely related. The interaction between a quasar and its host black hole is complex but does not result in the destruction of the black hole.
no because it would destroy the space if it went in to a black hole
The term black hole is a misnomer that implies the notion of a hole; there is no hole, so there is no end (or exit). A black hole is a spherical volume of immense density. Somewhat like the Earth, everything within its gravitational field is attracted to its essense. And just as pressure increases towards the center of Earth, the pressure increases on a more more dramatic scale towards the center of a black hole. However since the subsistence of a black hole is unknown, it might be said that the black hole ends in energy transformation.
Yes, black holes are an example of negative pressure. This is because they exert gravitational force so strong that nothing, not even light, can escape from them, creating a region of extreme gravitational pressure.
A black hole forms only when the star is large enough that the gravitational pressure exceeds the quantum degeneracy pressure.
We do not know of any planets that have been destroyed by a black hole, but it probably has happened. Because of the vast distances in space and the fact that neither planets nor black holes emit light, both are hard to detect.
"Black hole", not "black whole". The reason massive stars turn into a black hole is because, once they run out of fuel (and no longer have the radiation pressure to keep them blown up), there is no force that can stop the gravitational collapse.
A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.
When the star stops producing energy, there is no more radiation pressure to offset the gravitation. In this case (if the remaining mass of the star is big enough), it will collapse to a black hole.
When the star stops producing energy, there is no more radiation pressure to offset the gravitation. In this case (if the remaining mass of the star is big enough), it will collapse to a black hole.
A black hole originated as a star, that is, the star converted to a black hole.
As you approach a black hole, the gravitational pull becomes incredibly strong, causing immense compression of the surrounding atmosphere. This increase in pressure would lead to extreme heating and chaos in the surrounding environment, potentially causing the atmosphere to be stripped away or undergo significant changes before reaching the black hole's event horizon.
If you fall into a black hole, you'll go into the black hole and nowhere else.