- #1
danriley
- 7
- 0
I'd like to examine the experimental side for a moment, not the theoretical. Would the non-differential (after very long distances and time, and taking into account the different production mechanisms) in the arrival of light and neutrinos from supernova 1987a constitute strong experimental evidence of the de facto constancy of the speed of light, and that Dirac particle pairs offer no impediment whatsoever to the propagation of light?
In other words, since light and neutrinos have different interactions (EM and weak force), it would be strange that light would be impeded/slowed down by any purported changes in free-space energy in exact lock-step with particles slowed by another force.
Any comments?
In other words, since light and neutrinos have different interactions (EM and weak force), it would be strange that light would be impeded/slowed down by any purported changes in free-space energy in exact lock-step with particles slowed by another force.
Any comments?