Vector space, circuit
structure.
The interpretation of closed vector circuits, as quantitative volumes
of
vector space, oriented orthogonally in direction and sense, which mutually
isolate and compress, surprisingly clarifies the nature of electric and
magnetic circuits. Such circuits are those in the rotor of a three-phase
electric motor: the magnetic circuit is closed through the ferromagnetic
core, common with the electrical circuit closed through aluminum.
The rotating magnetic field in the stator closes the circuit through the
ferromagnetic core in the rotor and simultaneously induces the electrical
circuit through aluminum. The rotating magnetic field is strongly braked
by
the magnetic remanence in the rotor, which has become a mechanical
coupling. Note here the mutual isolation of the orthogonal circuits in
the
rotor. The vector space in the closed circuits, being mutually isolated
and
compressed, by their centripetal forces. Returning to the new interpretation
of orthogonally closed vector circuits, we observe that and macroscopic
vector structures, planets, stars and systems, have the interactions of
vector
properties in a limited volume of vector space. The analysis of the functioning
of a star with this interpretation becomes very interesting. The vector
space
contained and closed in a vector circuit, which constitutes one of the
orthogonally closed vector circuits, can be compared to the gas contained
in
a cylinder with a piston. The centripetal force of the circuit compresses
its
own vector space, just as the piston compresses its gas. The consequences
are similar, increasing pressure and density. In the vector circuit, density
is
the orientation of vector polarities in direction and sense. This interpretation
of density, in the electrical circuit is called intensity. But, in the
electrical circuit,
the polarities are of the atomic elements. Excessive increase in intensity,
I was saying that the interatomic vectorial bonds break, being oriented
in the
direction and sense of the circuit. This phenomenon also occurs in the
photosphere of the star, due to the increase in pressure, the intensity
of the
orthogonally closed vectorial circuits. The increase in the intensity
of the
vector circuits decomposes the hydrogen gas into vector oscillations,
the
light emitted radially. The oscillations emitted internally are laminated
in
the direction and sense of the increase in the intensity of the orthogonally
closed circuits and become potential energy. In this way, the electric
vector
circuit becomes potential energy, the core of the star, at zero K, being
compressed by the magnetic circuit. The functioning of the star
demonstrates that it is an electromagnetic compressor. The kinetic
state of the energy is compressed exponentially, in the potential state.
In the universe, there are electromagnetic compressors (not gravity).