black hole 123 said:how can the mediating photon escape the gravity?
bcrowell said:An explanation I've seen is that the Coulomb force is transmitted by virtual photons, which don't have to travel at c.
PeterDonis said:Also, as the article notes, virtual photons are a quantum concept, and it should be possible to have a classical explanation of what's going on (which the article provides).
bcrowell said:The OP's question was explicitly quantum-mechanical.
bcrowell said:I don't see why there would be any mystery classically.
A black hole is an area of space with such a strong gravitational pull that nothing, including light, can escape from it. It is formed when a massive star dies and collapses under its own gravity.
Gravity affects photons near a black hole by bending their path and slowing them down. As they get closer to the black hole, their speed decreases and their wavelength increases, causing them to appear redder to an observer.
Photons can escape from a black hole if they are emitted at a certain angle and with enough energy to overcome the gravitational pull. This is known as the critical angle and is dependent on the mass and spin of the black hole.
According to current scientific understanding, nothing can escape from a black hole once it has crossed the event horizon. This is known as the point of no return, where the gravitational pull is too strong for anything to escape.
Black holes play a significant role in the force of gravity as their immense mass and gravitational pull can affect the movement of objects and even distort space-time. They are also believed to play a crucial role in the formation and evolution of galaxies.