it's gravity is so strong not even light can escape
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.
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.
Into the black hole.
energy and other objects in it already
The mass of a black hole can be measured by observing the orbits of objects around it, such as stars or gas clouds. By studying the gravitational effects of the black hole on these objects, astronomers can calculate its mass. Another method is to measure the distortion of light from objects behind the black hole, known as gravitational lensing, which can provide information about the black hole's mass.
A black hole is called a black hole because it is a region in space where gravity is so strong that nothing, not even light, can escape from it. This makes it appear black or invisible. What makes black holes different from other celestial objects is their extreme density and gravitational pull, which can distort space and time around them. This creates unique properties such as an event horizon, where anything that crosses it is pulled into the black hole.
The density of a black hole is extremely high, as all its mass is concentrated in a very small space. This makes black holes one of the densest objects in the universe. Compared to other celestial objects like stars or planets, black holes have much higher density due to their immense gravitational pull.
Not all objects close to a black hole get sucked into it. The gravitational pull of a black hole depends on its mass, so objects need to get extremely close to be pulled in. Objects in stable orbits can continue to orbit the black hole without falling in.
Objects which approach a black hole will get sucked into it.
Objects which approach a black hole will get sucked into it.
Gravity is towards the center of the black hole. The event horizon is not what attracts objects - it is simply the "point of no return".
Objects cannot escape from a black hole because the gravitational pull is so strong that not even light can escape.