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What is the area beyond a black hole where black hole has stopped expanding and matter will no longer be pulled in?
There is no definite boundary for matter not being pulled toward a black hole. At large distances the effects of a black hole's gravity are not different from that of a different object of the same mass. How far out a black hole's gravity is dominant depends on that black hole's mass and its proximity to other massive objects.
Do all objects close to a black hole get sucked into it?
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.
What are objects from which light can not escape because of a gravitational pull at its surface?
A black hole. However, it does not have a surface but an event horizon.
Imagine the Earth is getting close to the event horizon of a very massive black hole What will happen to the Earth?
As the Earth approaches the event horizon of a massive black hole, tidal forces would become so strong that it would be stretched and ripped apart. The intense gravitational pull would cause the planet to disintegrate into a stream of particles before eventually being pulled into the black hole beyond the event horizon.
How does a black hole suck in large objects?
Black holes do not "suck in" large objects; black holes "suck in" only dust and plasma. This is because by the time a large object gets anywhere near the event horizon of a black hole, the tidal forces caused by the gravity of the black hole has already pulverized whatever mass the object had. The gravitational force of a black hole's singularity is almost impossible to comprehend. It may not be strong enough to tear apart the nuclear forces of an atom. but it is certainly powerful enough to rip any two atoms apart, no matter how tight the chemical bonds might be.
What is the area beyond a black hole where black hole has stopped expanding and matter will no longer be pulled in?
There is no definite boundary for matter not being pulled toward a black hole. At large distances the effects of a black hole's gravity are not different from that of a different object of the same mass. How far out a black hole's gravity is dominant depends on that black hole's mass and its proximity to other massive objects.
Do all objects close to a black hole get sucked into it?
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.
How does the photon sphere of a black hole compare to its event horizon?
The photon sphere of a black hole is a region where light can orbit the black hole before being pulled in, while the event horizon is the point of no return where nothing, not even light, can escape the black hole's gravitational pull. The photon sphere is closer to the black hole than the event horizon.
Dose a blackwhole suck in objects and matter from both sides?
Blackholes can affect objects near them strongly. The closer an object gets to the event horizon of a black hole, the more its orbit will be affected. Once an object is pulled in past the event horizon, it cannot escape and is sucked into the black hole. The pull of the singularity is so strong that even light can't escape.
What is the impact of a black hole's gravitational pull on nearby objects and light?
A black hole's gravitational pull is extremely strong, causing nearby objects and light to be pulled towards it with great force. This can result in objects being stretched and torn apart, and light being bent or absorbed by the black hole.
How many miles do you have to be to get pulled into a black hole?
To get pulled into a black hole, you must be within the black hole's event horizon, the point of no return. Otherwise, you will still be able to escape the black hole's gravity, if you traveled fast enough. Once you cross the event horizon, though, you will not be able to escape, no matter how fast you travel.
What is the area beyond a black hole where the black hole has stopping expanding and matter will no longer be pulled in?
The ergosphere is an oblate spheroid region outside of the event horizon, where objects cannot remain stationary. While objects and radiation can escape normally from the ergosphere, there is still gravitational frame dragging of matter which is orbiting a black hole. Note: Think of the black hole's ergosphere area being like the Earth's graviational influence area of Low Earth Orbit.
Is there any other black hole gravity apart from the event horizon?
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".
What are objects from which light can not escape because of a gravitational pull at its surface?
A black hole. However, it does not have a surface but an event horizon.
Imagine the Earth is getting close to the event horizon of a very massive black hole What will happen to the Earth?
As the Earth approaches the event horizon of a massive black hole, tidal forces would become so strong that it would be stretched and ripped apart. The intense gravitational pull would cause the planet to disintegrate into a stream of particles before eventually being pulled into the black hole beyond the event horizon.
Why is a black hole called a black hole and what makes it different from other celestial objects?
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.
When will you be pulled into the black hole?
I won't be - at least not within my own lifetime. But, theoretically speaking, you (or me or anything else that gets too close) would be pulled into the black hole if you get too close to it. If you end up reaching the event horizon, you'll never be able to escape.
