- #1
ocman
- 2
- 0
Please forgive me if I am posting in the wrong place, and also if this has been discussed before.
Gravity is so strong in a black hole not even light can escape, Can the light be accelerated past c once inside of the event horizon? I know the universal answer that nothing can exceed c, but don't the laws of physics start to break down in a singularity? If (theoretically) the light did exceed c, it's my understanding that it could go back in time. Having read the discussions I understand that there is no point of reference for a photon, but some suggest that time for the photon doesn't exist, which leads me to wonder if the photons are accelerated past the speed of light they would then travel backward through time and return to their point of origin, and this return is seen by us as quasars(white holes?) and even the big bang(the biggest white hole ever?). The number one problem I have with this is the chicken and the egg.
I hope this is clear enough to illustrate my thoughts.
Gravity is so strong in a black hole not even light can escape, Can the light be accelerated past c once inside of the event horizon? I know the universal answer that nothing can exceed c, but don't the laws of physics start to break down in a singularity? If (theoretically) the light did exceed c, it's my understanding that it could go back in time. Having read the discussions I understand that there is no point of reference for a photon, but some suggest that time for the photon doesn't exist, which leads me to wonder if the photons are accelerated past the speed of light they would then travel backward through time and return to their point of origin, and this return is seen by us as quasars(white holes?) and even the big bang(the biggest white hole ever?). The number one problem I have with this is the chicken and the egg.
I hope this is clear enough to illustrate my thoughts.