Visible and real Universe

Visible Universe

Our visible universe is a big sphere of ray R = 13,7 billion light years with Earth in its center. All galaxies and quasars deviate from us at speeds Va, which values are known by Science through Doppler effect, and their there are also known by Astromers through Hubble constant.
There is na uniform distribution of quasares and galaxies in our visible universe. When we observe such galaxies, we are actually seeing them in the past. Such galaxies located on the frontier of visible universe deviate from us at speeds very close to light’s. The photons emitted by them in time that the universe was around 3000.000 years arrive at us in the frequency of microwaves nowadays. Such photons are denominated by Science as Deep radiation. The visible universe is a small part of the real universe

Real universe

We will have a visible universe in any place of the universe and we will always be on its center. Its ray is given by R = c x T = 1 x 13,8 billion light years.
The center of real universe is the Big Bang. All galaxies and quasars deviate from the center at uniform speed that varies proportionally to their distanced toward the center.
Unfortunately, we are not able to determine its ray and probably we will never be able to measure its height and nor the expansion speeds of its galaxies, which probably is at speeds much bigger that light’s; because the real universe can be recognize just for an observe in absolute space.
All galaxies of real universe deviate among themselves at speeds Va that are proportional to distances between them. We are also not able to know the limit of such deviation speeds. Each observer – each one placed on one of those galaxies - will have his visible universe. The visible universes seen by such observers have always the same characteristics, it means, with the same ray, the same density and with the same frequency for deep radiation.

The limit of such visible universes is determined by the spheric surface composed of galaxies that deviate from the center of observation at speed c, where the galaxy that was considered is; because, as photons are influenced by the speed of their sources, so those photons that are emitted from galaxies that deviate at speeds Va bigger than c will never reach the observer placed on the center of visible universe, so that such photons will approach from observer at speeds c1 = c - Va.. If Va is bigger than c, c1 will be negative. It means that photons are deviating from the center of visible universe that was considered.