Gravity line

Line of Gravity

The energetrons emitted by a body in the same direction form a line of gravity. Such energetrons emit mini-energetrons, which maintain the cohesion of this line. Such mini-energetrons, which link two consecutive energetrons, are the ones responsible for such cohesion.

Line of gravity between two massives standing still at a referential, having the speed V of expansion of the Universe

The speed of expansion of the Universe influences the line of gravity

Let A be the massive of the chair I’m sitting on at this moment and B a massive of the painting hanging on the wall in front of me. We are moving at the speed of expansion of the Universe V. Since the speed of expansion of the Universe is much higher than our rotational, translation movements or any other movement, we may consider in our calculations only this movement of Universe expansion.
At any referential in which I may find myself, I will think that I am standing and will not recognize any speed from this referential.
An observer standing at the absolute space referential would see an energetron leaving the massive at position A, at a speed c₂, where c₂ = c + V, arriving at massive B as if he were at position B_n, describing a trajectory AB_n with a length RA. This energetron, upon arriving at the massive B, on position B_n due to the speed V of B and the Aberration Effect, will change its speed c₂ to c, where c = c₂– V, as if it had arrived at position A_n. All the other energetrons which left A toward B, during the run AA_n, would have covered the trajectories A₁B_n+1, A₂B_n+2...A_nB _n, parallel to AB_n. These energetrons will always between the massive A and B. forming a line of gravity that grows with speed c toward B and is dragged by the speed V of massive A. This line of gravity will exert over B a force of gravity F₁, in the direction of A.

Two way line of gravity seen by an observer in the absolute space

At the same time in which the massive A emits one gravity line that will arrive at massive B, this massive B emits one gravity line that will reach massive A, at a speed c´₂, covering trajectory RB. These energetrons will always be between massive B and A, forming one line of gravity that grows at speed c, in the direction of A and is dragged by the speed V of massive B, exerting a force of gravity F₁ in the direction of A.

Two way gravity line as seen by an observer at the referential of the massives

R→ length of the trajectory between A and B;
RA →length of the trajectories of energetrons emitted by A;
RB → length of the trajectories of the energetrons emitted by B;
V → speed of expansion of the Universe;
c₂ →speed of the energetrons in the trajectory RA;
c`₂ → speed of the energetrons in the trajectory RB;
c → speed of the energetrons in the trajectory R, in both directions, c = 1;
d t →time space between emissions of energetrons;
F₁→ force of gravity that A exerts over B;
F₂→ force of gravity that B exerts over A.

For any observer, the line of gravity between two massives will always be straight and double. The line of gravity of energetrons emitted by massive A exerts a force of attraction F₁ over massive B.
The line of gravity of the energetrons emitted by massive B exerts a force of attraction F₂ over the massive A.
The observer at the referential of the massives thinks that he is standing still, does not know the Universe expansion speed V of the massives, nor the true trajectory of the energetrons, with speeds c₂ and c´₂. In his reality, the energetrons of the lines of gravity always have the same speed c, in the direction they were emitted.