Understanding the light dynamic

Observer on the A as a reference point.

On the light source A as a referential point, which has bodies B₁, B₂ e B₃ at a rest state, halfway from A, an observer on this reference point sees this source emitting light rays in all directions with velocity v. The rays emitted to those bodies direction will reach a time t, which photons will go through distance D, with velocity c.

Observer on the absolute space

The photon

This observer will see in a time t:

- A, B₁, B₂ e B₃ going to A´₁, B´₁, B´₂ e B´₃ with velocity V, going through distance E;

- photons emitted from A to B₁, B₂ e B₃ taking directions B´₁, B´₂ e B´₃ with its own velocities c₁, c₂ e c₃, due to influence of velocity V of A, going through length trajectories L₁, L₂ e L₃, in order to:

c₁ = V + c;
c₂ = V + c;
c₃ = V + c.

We can observer that, from the equalities above, velocities c₁, c₂ e c₃ will depend on directions the photons will take to arrive at B₁, B₂ e B₃, respectively.

- When the photons arrives at B´₁, B´₂ e B´₃, due to velocities V of B₁, B₂ e B₃ and aberration effect, will have their velocities modified:

from c₁ to c;

from c₂ to c;

from c₃ to c , as if they would have initiated from A´, where:

c = c₁ -V;

c = c₂ -V;

c = c₃ -V.

The light ray

During each time break DT, the source A will emit photons that will go through parallels trajectories to L₁, L₂ e L₃. When the first photons arrive at B´₁, B´₂ e B´₃, the others emitted from A, during its AA´ route they will be aligned with A´, B´₁ , B´₂ and B´₃, creating light rays between A’B₁’, A´B´₂ and A´B´₃.

The observer on the absolute space will see the light rays always propagate from A to B₁, B₂ e B₃ with velocity c, as an example in the figure above.

We can assure that:

-The viewpoint of an observer having A as a reference point and an observer on the absolute space as a reference both photons trajectory and their velocities are different.
An observer on A as a reference sees photons going from the source to B₁, B₂ e B₃ receiver describing a length trajectory D, with velocity c, while the observer on the absolute space sees these same photons going from position A of the absolute space to positions B´₁, B´₂ e B´₃ describing trajectories L₁, L₂ e L₃, with velocities c₁, c₂ e c₃.
- While the observer on A, he thinks he is stopped, sees a light ray increases to the direction of receivers, with velocity c, the observer on the absolute space, that knows the velocity v of the source A, sees the light ray been dragging, with velocity v through this source while it increases to the receivers´ direction with velocity v.