Organization of vector structures.

Organization of vector structures.
The primary Sequence:
Vectors value their orthogonal properties and organize themselves microscopically.
The vectors merge into closed circuit, electric current, simultaneous and orthogonal, and magnetic current.
The two orthogonal currents oscillate around an equilibrium value and emit a characteristic spectrum.
These are the vector oscillators (hydrogen atoms) that form nebulae.

The secondary sequence.
In nebulae, atoms unite their polarities in molecules and currents.
When the currents are sufficiently high, they produce the electric arc and the macroscopically organization. The electric arc initiates centripetal vector interaction, the centripetal electromagnetic force.
Effects of centripetal interaction
1) Mechanical: accelerates centripetal the gas, produced spherical pressure and rotation motion.
2) Electrically: the gas is ionized, polarized, produces radially electrical potential and plasma status.
3) The fusion and fission of the elements, through electric arc.
The electric potential fills the sphere with electrical discharges
and implicitly, with the plasma state (starts from center).
The electric potential is the essence of stellar activity.
These are formations of the secondary sequence - the stars.
The life of a star is the period between composition and decomposition,
when the motion parameters are preserved by the law of inertia.
When decomposing, the phenomena are reversed, the rotational speed enters the regression, the intensity of the centripetal interaction decreases, the formation dilates and scatters debris with atoms of heavy elements.
The tertiary sequence.
In this sequence, the nebula also contains structures with heavy elements,: the remains of the decomposed formations. The phenomenon of the secondary sequence repeats,; but the heavy inertial elements are engaged in orbits
and form planets that proportionally repeat the stellar phenomena.