Acceleration of expansion velocity (Cosmologic Antigravity)

When the physics measured the frequency of light arrival, which came from supernova stars and also their distances through the intensity of their luminosity, they concluded that observational data do not confer with anticipated results by Hubble’s law, which deduced that the expansion of universe in its remote age were accelerated.
With an eye to explain the acceleration of expansion of universe, the physics made us believe on the existence of a dark energy that is capable to generate an antigravity in the cosmologic scales.
The physics could explain it accepting the influence of expansion velocities of supernovas over photons that were emitted by them and also to interpret the results according to such explanation.

Light of a supernova before exploding

If we capture the photons emitted by a supernova before its explosion, they would arrive at us at velocity c₁ = c – V_a, where V_a is the deviation velocity of supernova. Such velocity c₁ would be associated to a final frequency of redshift, which confers with the Hubble’s law.

Light of a supernova

In the explosion of supernova, a great quantity of matter is ejected in all directions of space at a velocity V_e. Such matter ejected in our direction emits photons at velocity c that arrive at us at velocity c´₁ = c + v_e – v_a and with a frequency bigger than that one that had reached us before the star’s explosion into a supernova providing a new redshift that does not generate the theoretical result expected by Hubble’s law. Such result misleads Science and causes that Science believes that Hubble’s law is not valid for big distances. Thus, they conclude that there was an acceleration in the remote era so that, galaxies did not obey the Hubble’s law (H₀ = V_a/D).