Top best answers to the question «How are gravity and black holes related»
- how is gravity related to black holes. Answer. Gravity is related to black holes because black holes are centers where gravity is extremely strong. So strong in fact that it also sucks light into it - hence also the name black hole.
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Black holes are the cause of gravity... Black holes are created when a supernova condenses, creating a black hole. It condenses because gravity has won the battle between the star's core. So basically, gravity fuels a Black hole.
What is the relation between black holes and gravity? Well black holes have an emmense gravitational pull which would be the main relation between the two infact black holes are so powerfuly...
Gravity is related to black holes because black holes are centers where gravity is extremely strong. So strong in fact that it also sucks light into it - hence also the name black hole. The gravity in these places is so strong that nothing can escape their pull, not even light!
In fact, a spherical black hole of mass M attracts exterior mass no more strongly than a star of mass M. Gravity (Gurutvakarshan) and Black Hole is an object of extreme mass density. If Sun somehow replaced tomorrow by a spherical black hole of the same mass, our climate would be significantly modified, but the orbit of the earth would be almost unchanged.
Nothing is darker than a black hole. A black hole is an area of such immense gravity that nothing—not even light—can escape from it. Black holes form at the end of some stars’ lives. The energy that held the star together disappears and it collapses in on itself producing a magnificent explosion.
Because nothing can go faster than the speed of light, a beam of light would be pulled back by gravity and would be unable to escape the black hole. Black holes are not visible from the Earth nor any other planet in our solar system, but Black holes have more gravity than any other object known to man. Your probably asking yourself how this can be?
A Black Hole (BH) is an object of General Relativity (GR), not of Newtonian physics, so the answer involves both. First Newton: As another answer notes, the acceleration due to gravity depends on the mass of the body divided by the square of the distance from it.
A black hole is an extremely dense object in space from which no light can escape. While black holes are mysterious and exotic, they are also a key consequence of how gravity works: When a lot of mass gets compressed into a small enough space, the resulting object rips the very fabric of space and time, becoming what is called a singularity.
A black hole is a region of spacetime where gravity is so strong that nothing—no particles or even electromagnetic radiation such as light —can escape from it. The theory of general relativity predicts that a sufficiently compact mass can deform spacetime to form a black hole. The boundary of no escape is called the event horizon.