To its center of mass (the singularity)
A black hole. However, it does not have a surface but an event horizon.
The same as what affects the pull of other objects. The gravitational force between two objects depends on the mass of both objects, and on the distance between them.
Black holes draw in other matter due to the huge gravitational pull they exert. Because of this, even light cannot escape a black hole's pull.
The mass of a black hole can be measure by the effects of its gravity on surrounding objects.
Upon falling towards a black hole the "front" is pulled more than the "back" causing objects to stretch.
A black hole. However, it does not have a surface but an event horizon.
As the planet is approaching a black hole due to the immense gravitational pull on the objects surrounding it, the planet revolves around the black hole until it falls into the black hole.
The same as what affects the pull of other objects. The gravitational force between two objects depends on the mass of both objects, and on the distance between them.
Into the black hole.
A black hole is a collapsed star, like the sun, that is very small in size, but, the gravitation pull is so strong, that a person is ripped to shreds if they get near it. A black hole gets it's name from the fact that the gravitation pull is so strong not even light can be reflected from it. We can't see black holes, but, we can tell they are there by the effect they have on the objects near them. They are whirlpools in space, pulling objects into them. When we see a trail of objects being pulled into darkness, that's a black hole.
No; I am not in a black hole yet.A black hole, like any other object with mass, will attract objects that are near by.No; I am not in a black hole yet.A black hole, like any other object with mass, will attract objects that are near by.No; I am not in a black hole yet.A black hole, like any other object with mass, will attract objects that are near by.No; I am not in a black hole yet.A black hole, like any other object with mass, will attract objects that are near by.
Black holes draw in other matter due to the huge gravitational pull they exert. Because of this, even light cannot escape a black hole's pull.
black hole as they have a very powerful gravitational pull such that even light could not escape its gravity and fall into it
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.
Objects which approach a black hole will get sucked into it.
Objects which approach a black hole will get sucked into it.
Yes. Objects which get too close to a black hole can be drawn into it by its gravitational pull and thereby disappear. Even light can get "sucked in", which is why they are called black holes.