Consequently, the energy itself wasn’t transferred into our universe; only the “motion” (the resulting work) produced by the kinetic energy manifested itself as the universe. And, still today, our universe undergoes the constant “effect” of this kinetic energy, still standing behind Planck’s time, “inside” the Planck era.
This constant “action” is what produces the universe’s expansion. It is also the underlying background energy that exists in space throughout the entire Universe, that we call the “vacuum energy”. The proof is that this “vacuum energy” of quantum dynamic is “virtual”.
So let’s add right away this third “fact” that we observed:
3- Our universe is not composed of energy; its “dynamism” is simply resulting from the “action” of the underlying vacuum energy of Planck era.
So we’re now facing the Big-bang that made our universe appear at 10^-43 second after Time = zero.
This event is only half of the whole event we observed during the Planck era. It is exclusively the “projected” centrifugal motion produced by the accumulated total energy attained at 10^-43 second after time = zero.
The change that occurred at that moment is that, half of the former “rotating entity” was transformed in a full “forward expanding motion”.
Let’s compare drawings showing the slight difference:
The drawing on the left is a surface full of kinetic energy during Planck era, while the drawing on the right is the motion “resulting” in a volume (expansion), produced by the kinetic energy’s “action” of the Planck era, manifested at Planck time.
Now we’ve already seen that this “motion” was manifested at lightspeed; and we’ve also seen that lightspeed means traveling a distance of 10^-35 meter in 10^-43 second.
This means that the first volume of “space” ever to appear had a diameter of 10^-35 meter. This diameter could not be shorter, since its distance was defined by the already attained maximum speed of the moment; slower speed and shorter time didn’t exist at that precise moment.
This statement explains why the first expanding motion (the dispersion in lower middle picture) at the instant of the Big-bang is what was observed by the Planck satellite. Scientists called it the “radiance period”:
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