What you are asking is quite clear, but the wording is a little misleading. Every object containing any amount of mass, however great or small, has gravity. So the answer to your question will essentially be the answer for any massive body whether it is a planet or a Bowling ball. Gravity is a property of mass. Since every little bit of the planet earth is exerting its gravitational effect on you, then there must be a place within the earth that is the point where all the individual effects 'average out'. That point is the 'center of gravity'. If you mentally take any solid object that is irregularly shaped (but not too strangely shaped for a first go at this) then you can do the following. Suspend the object from a point on the surface and notice how the object settles. Imagine a perfectly straight line going down through the object from the point of suspension to the earth's center of gravity. Now choose any other suspension point for the object and do it again. The two 'lines' formed in the object will meet at one point. No matter how many times you suspend the object freely from a point on its surface, the lines going down through the object will all meet at one point-- the object's center of gravity. [With very irregularly shaped objects, this point might even be outside of the object itself!] If you could somehow suspend the object perfectly on a tiny ball bearing right at that point, the object would move and turn freely, without any part of the object tending to settle toward earth. The center of gravity would be a perfect balance point for the object. Because planets and moons are naturally formed, their materials are not perfectly smoothely distributed within them. So centers of gravity are usually not the very same point as the 'geometric center'. The same is true for a black hole. It may even be simpler for black holes. The singularity, the center of gravity and the 'geometric center', whatever that means for black holes, would probably always be the same point.
The center. just a theory its really hard to say things about a black hole because we know so little about them other than they are made from supernovas and have an intence gravitational pull and consume everything around it and its so dence not even light can escape it (thus the name black hole)
You bet they do! Black holes can have only three properties:mass - this creates the gravitational pull and is a property of every black holespin - this will likely be a property of any stellar black hole as all stars spincharge - this will be a rare property as it will attract opposite charge and soon be canceled
To its center of mass (the singularity)
If an anti-gravity field were to somehow counteract the gravitational pull of a black hole, it could potentially prevent objects from falling into the black hole. However, the intense gravitational forces of the black hole would likely overpower any anti-gravity effects, making it unlikely for anti-gravity to have a significant impact on a black hole.
A black hole is an object so massive that light cannot escape its gravity, due to the intense gravitational pull caused by its mass and density.
The strength of a black hole's gravity depends on the black hole's mass and how far your reference point is from the center of mass.
The center. just a theory its really hard to say things about a black hole because we know so little about them other than they are made from supernovas and have an intence gravitational pull and consume everything around it and its so dence not even light can escape it (thus the name black hole)
What do you mean? "Gravitational pull" and "gravity" is the same thing.
You bet they do! Black holes can have only three properties:mass - this creates the gravitational pull and is a property of every black holespin - this will likely be a property of any stellar black hole as all stars spincharge - this will be a rare property as it will attract opposite charge and soon be canceled
To its center of mass (the singularity)
A black hole doesn't literally suck. A black hole pulls things closer to it. And it does this the same way that we stay on the earth--- gravity. A singularity, a point with mass but no height, width or length is at the center of every black hole. This singularity is what has the gravitational strength to pull everything, even light, towards it. It does it all with an unfathomably strong gravitational pull.
the gavitational pull of the sun __________________________ What keeps the Galaxy in order is the gravity of the total mass of galaxy itself. This is predominantly the gravity of the supermassive black hole at the center of the Milky Way.
Not necessarily, the place you land depends on how far you jump into the hole. Gravity won't pull you to the center, gravity only pulls things down and not sideways.
Black hole is a location in space that possesses so much gravity, nothing can escape from its pull. Yes, Super massive black hole is the largest black hole.
The gravity of a black hole is stronger than Earth's gravity. Black holes have such a strong gravitational pull that not even light can escape from them.
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
When an object enters a black hole, it starts being stretched. As it moves closer and closer to the center of the black hole, the gravitational pull on the part of the object that is closer to the center becomes more powerful than the gravitation pull on the part of the object that is farther away from the center. The objects keeps on getting stretched until it reaches the center of the black hole. We don't yet know what happens at that point.