I guess what I'm asking is that similar to how the photon and weak force bosons exist currently under the present conditions of the universe, do the B, W1, W2, and W3 bosons "tangibly" exist at the temperatures/conditions that unify EM and weak force into the electroweak force?
Lets say...
This question is in regards to the electroweak force itself before its symmetry is broken into the weak and electromagnetic force. Let's say hypothetically that the ambient temperature of the universe or of a certain volume of space was hot enough to restore the electroweak symmetry like it was...
You're playing semantics. I'm sure you all knew what I meant however, yes, I should have articulated that better. I understand that "near infinity" has no meaning. More to the point, I guess what I'm truly trying to understand here is how a space extending to infinity emerged, as cosmologists...
Well we have a high level of confidence in the notion that the density of our universe increases as we extrapolate backwards in time. If we take into consideration a universe of infinite size, is it therefore correct to assume that at some point in the past the universe had a density equal to or...
A significant number of physicists today postulate that the universe we reside in is infinite in size. It's also thought that if we extrapolate back in time to the big bang that the universe was a singularity of infinite density. Singularities are commonly thought of as a dimensionless point...