There is no theoretical limit to the MASS of a black hole. The largest known black holes have a mass in excess of a billion solar masses... so far. In the distant future, you can expect them to continue growing.The DIAMETER or the RADIUS of a black hole is directly proportional to the black hole's mass; the radius would be about 3.0 kilometers for every solar mass. The diameter, of course, is twice as much. Thus, a black hole of 10 billion solar masses would have a radius of 30 billion kilometers... about 200 AU.
In terms of astronomical objects, most black holes are quite small. The event horizons of stellar mass black holes, the most common type, would range from about 10 to 100 miles in diameter, which works out to a volume of 500 to 500,000 cubic miles. Compacting such a large mass into a comparatively tiny volume is precisely why black holes have such strong gravity.
The center of a black hole, a locus of infinite density where matter is compressed into zero volume, is called a 'singularity.'
no, a neutron has a finite volume and thus a finite density, the singularity of a black hole has zero volume and thus infinite density.Infinity >>>>> any finite value
A black hole contains a large amount of matter, compressed in an incredibly small space.
A solid is a state of matter that has a definite shape and volume.
In terms of astronomical objects, most black holes are quite small. The event horizons of stellar mass black holes, the most common type, would range from about 10 to 100 miles in diameter, which works out to a volume of 500 to 500,000 cubic miles. Compacting such a large mass into a comparatively tiny volume is precisely why black holes have such strong gravity.
The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.
there is nothing inside a black hole...a black hole's density is very large...so large all of our planets and stars including the sun's density would not even be 0.1% that of a black hole...a black hole is so strong, not even light can escape it...nothing can.
I has infinite mass but zero volume.
supermassive
there is nothing inside a black hole...a black hole's density is very large...so large all of our planets and stars including the sun's density would not even be 0.1% that of a black hole...a black hole is so strong, not even light can escape it...nothing can.
A black hole is formed when a star or other large body collapses on itself.
A black hole is more dense. In principle, the black hole exists all at one point. So its volume is zero, and its density is infinite.
Black holes are the result of a large star that has collapsed.
The center of a black hole, a locus of infinite density where matter is compressed into zero volume, is called a 'singularity.'
No - The volume of the Milky Way galaxy is larger than the volume of its host black hole. The accumulated mass of the Milky Way galaxy is greater than the mass of its host black hole. The density of the Milky Way galaxy is much smaller than the density of its host black hole.
no, a neutron has a finite volume and thus a finite density, the singularity of a black hole has zero volume and thus infinite density.Infinity >>>>> any finite value