the event horizon is where gravity is strong enough to suck light back into the hole.
that means just outside, the light is in orbit around the hole.
as time goes by, more light accumulates at this layer. (any photon foolish enough to approach the black hole at just the right angle and distance from it s center gets captured)
this light will never be absorbed because nothing else is in this layer.
particles traverse this layer much less frequently than photons because there are many more photons than particles in our universe. so there is a net increase in orbiting photons over time. Black holes should increase in energy.
And more energetic light (higher frequency) should have a higher orbit than redder light.
So, if you could travel through the event horizon, you would see a rainbow. but since you can't, you have to look for light that is deflected out of its orbit by a particle crashing into a black hole.
why isnt this seen?
that means just outside, the light is in orbit around the hole.
as time goes by, more light accumulates at this layer. (any photon foolish enough to approach the black hole at just the right angle and distance from it s center gets captured)
this light will never be absorbed because nothing else is in this layer.
particles traverse this layer much less frequently than photons because there are many more photons than particles in our universe. so there is a net increase in orbiting photons over time. Black holes should increase in energy.
And more energetic light (higher frequency) should have a higher orbit than redder light.
So, if you could travel through the event horizon, you would see a rainbow. but since you can't, you have to look for light that is deflected out of its orbit by a particle crashing into a black hole.
why isnt this seen?