How the gravity becomes the strong force responsible for the cohesion between the subatomic particles.

Observer on the AB motion referential

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When two particles A and B with the same mass orbit around the center of gravity created between them, in a circumference of diameter R, an observer located in one of them, on the A particle as an example, thinks that he is stopped and he sees the other particle, the B particle, moving in its gravitational field, with velocity v, tangent to the circumference.

The force of gravity on a B body, with velocity v, on the B1 position, will be due to the line of gravity of the magnetic field of A, when it occupies the A₀ position. An energétron of this line of gravity will go through the A₀B₁ trajectory, with velocity c, in a time t, that when it arrives at B₁ position it finds the body B, exerting on it a F_v force in direction of A₀. While an energétron goes from A₀ position to B₁, the A body goes from A₀ position to A₁ position and the B body, which was on B₀ position, opposite diametrally to the A₀ position, goes to B₁ position, in circular orbits, with the tangential velocity v.

We consider the formula of the relativity of gravity,

e

tang a = .

Where Fv is the relation of the force of gravity that acts between two bodies, when it exists a relative motion v between them and when it does not exist any motion.
Thus, we consider v = 0, the B body is stopped on the B₁ position, while the A body is stopped on the position diametrally opposed A₁ and the F₀ force will be:

As R is Constant when both particles are in a dynamic balance, R = c x t₀, t₀ is also constant.
The dynamic balance between two particles that move around the same gravity center is determined when the radial component of the force of gravity equalize to the centrifuge force F_c that appeared in this motion. The tangential component of the gravity force is responsible for keeping the particles in this motion.
Thus, in the relativity of gravity, F_v varies according to the velocity of the particle B.

When v→c is looking for the point of dynamic balance,
t →0,
R→0,
Fv→ ∞;
and Fc → ∞ .

This effect of gravity was designated by me as Antônio Cacique effect, to honor my father who was my hero. This effect explains how the gravity force between the subatomic particles becomes the strong gravity force responsible for the cohesion between them.
The balance of the particles happens when the radial projection F_v1 of F_v equilibrates with the centrifuge force, due to the circular motion of the particle B.
We must remember that the tangential projection F_v2 of F_v is responsible for the motion of the particle B. If the particles reach the velocity c before they find a balance point, they are emitted as radiations in opposed directions with velocity c. It happens in case of photons.We apply this same reasoning in the force of gravity that the particle B exerts on the particle A.

Camila Effect