Does a black hole suck or pull

www.adult › ~marel › black_holes › encyc_mod3_q9. All objects exert a gravitational pull on one another, but for the most part, this force is pretty weak. In the case of black holes, the pull is. It is strong because when a star collapses into a black hole, it does not change its mass. The reason black holes suck objects is because the force of gravity.

Answer (1 of 4): Forces PUSH; they don’t pull. Historically, this is something that troubled Newton when it came to gravity; it is something that Einstein was able to address far better than Newton. Spacetime curvature (it’s a misuse of the terminology; but, at this level, it’s fine, I guess) PU.  · Black holes are great at sucking up matter. So great, in fact, that not even light can escape their grasp (hence the name). But given their talent for consumption, why don't black holes just keep expanding and expanding and simply swallow the Universe? Now, one of the world's top physicists has come up with a new www.adultted Reading Time: 5 mins.  · We have heard adages like nothing can escape the gravitational pull of a black hole, and we often think of black holes as cosmic vacuum cleaners that can suck up entire galaxies and anything else that has mass. We also think of light as being composed of massless photons, and as the fastest-moving thing in the universe – moving at roughly , km/second.

Black holes do not suck things in like a vacuum cleaner. They just have a strong gravitational field in a small region of space. Bodies such as other stars can be in orbit around them. Gravity causes objects to feel a force that pulls them together. Fortunately, this has never happened to anyone — black holes are too far away to pull in any matter from our solar system. But scientists have observed black holes ripping stars apart, a process that releases a tremendous amount of energy. The fact of the matter is that black holes aren't sucking anything in; there's no force that a black hole exerts that a normal object (like a moon, planet, or star) doesn't exert. In the end, it's.

This artist concept illustrates a supermassive black hole with millions to billions times the mass of our Sun. Supermassive black holes are enormously dense objects buried at the hearts of galaxies. 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's gravity is so powerful that it will be able to pull in nearby material and "eat" it.