The supermassive blackholes at the center of galaxies.
gravitational force
a black hole is not actually a hole...it is a super dence point whose gravity is so powerful it pulls everything into it
it pulls everything around it were not even light can escape.
Gravity is the only reason a black hole pulls things in. Nothing can escape a black hole, so gravity is its only way of affecting the outside world.
the gravity from a black hole is so strong, its pulls in everything, and not even light can escape
The largest black hole has the strongest gravitational field. We do not know where that would be, but it is most likely in the center of a galaxy somewhere in the universe.
A black hole doesn't "suck" things in. It pulls them in with it's immense gravity. In order to suck something in, there must be something to fill in empty space such as air.
A black hole is a region in space where gravity is so strong that nothing, not even light, can escape from it. A white hole, on the other hand, is a hypothetical region in space where matter and light can only escape from it and nothing can enter. In simple terms, a black hole pulls everything in, while a white hole pushes everything out.
it is said that there are black holes in space which we have discovered is true and how gravity realates to a black hole is well, a black hole is said to suck away other universes we have not discovered yet gravity pulls things to the ground and a black hole uses that same pull force to suck in universes
A black hole doesn't actually "suck" things towards it. Rather it's so massive it's gravity "pulls" things towards it. As to your question yes a person could be pulled into a black hole. They would go through a process known as Spaghettification.
The largest black hole has the strongest gravitational field. We do not know where that would be, but it is most likely in the center of a galaxy somewhere in the universe.
You could use a = V/t by substituting V for the speed of light, and then use t = the time it takes light to go through the event horizon from when it first crosses the Gravitational field.