It gets bent toward the black hole's singularity.
Light is increasingly redshifted as it approaches a black hole due to the strong gravitational pull of the black hole. This gravitational pull causes the light waves to stretch out, which results in the light being shifted towards the red end of the spectrum.
In a black hole, gravity is so strong that nothing, not even light, can escape. This means that whatever goes into a black hole is trapped inside forever, making the saying "what happens in a black hole stays in a black hole" true.
It is sucked into the black hole to a point that is infinitely small.
Light that enters a black hole cannot escape due to the immense gravitational pull, resulting in the light being trapped within the event horizon and unable to be observed from the outside. It is thought to contribute to increasing the black hole's mass.
When light is traveling away from a black hole, its wavelength becomes longer. This is called blue-shifting. If it's going in, the wavelength becomes shorter, which is called red-shifting.
No. A black hole cannot "pop." putting more material into a black hole only makes it stronger. That said, if too much material approaches a black hole at once not all of it can enter. The excess gets ejected at the black hole's poles in jets at nearly the speed of light.
Nothing can be seen in a black hole because all the light particles are sucked into the depths of the hole, and then no one knows what happens....
The force of the impact will still be absorbed by the black hole. By definition, a black hole is a very dense mass where no form of radiation can escape - not even light. Since no explosion is faster than light, a black hole would absorb the blast, the impact, and all forms of light and radiation that would be emitted from the bomb. If you were to watch a black hole, you would see no changes from it.
I am not aware of light calculating anything in a black hole.
No, a black hole is not faster than light.
A black hole is an area where gravity is so strong that not even light can escape from it. This happens when a massive star collapses in on itself, creating a region of spacetime with an intense gravitational pull.
Probably nowhere. You may be confused with the idea of the "black hole", an object so massive that light cannot ESCAPE. But light - and any other matter - can certainly fall IN, and the radiation within the black hole is incalculable. The idea of the "black hole" simply means that our understanding of physics is inadequate to the task of describing what happens in an area of extreme mass. We DO NOT KNOW what happens there.