closed orthogonal vector circuits. The
vector forces of attraction of the vector
space oriented in orthogonally closed circuits tend towards a null vector
and
become centripetal forces. The centripetal forces, reducing the diameter
of
the circuits, exponentially compress and mutually amplify the density
of the
space oriented in orthogonally closed circuits. The closed circuits being
orthogonal cannot cross each other, the centripetal forces compress
and mutually maintain the orientation density of the vector space,
up to a limit, composing a solid vector structure, hydrogen. That limit
is the solid state of the compressed vector space, the potential energy
of the hydrogen nucleus, an enigma for the materialist conception.
The centripetal forces transformed their kinetic energy
into the potential energy of the hydrogen structure at zero K.
The transformation can be reversible (stimulated by external oscillations),
the hydrogen structure circuits entering into oscillations through resonance,
the potential energy partially becoming kinetic energy, revealed in the
line
spectrum. The phenomenon is characteristic of the macroscopic vector
structures of stars. Stars have asymmetric structures, one of the closed
circuits, magnetic, orthogonally surrounds the other circuit, called the
electrical
core of the structure. The Sun has such a structure, orthogonally closed
vector circuits with their centripetal forces. Towards the center, centripetal
forces exponentially compress the density of the oriented vector space
in the
orthogonally closed circuits. In the nucleus and near the nucleus, the
density
of the oriented vector space becomes potential (dark) energy, in which
oscillations are impossible. The central area of the orthogonally closed
circuits constitutes the essence of the solar system's energy, with the
centripetal forces that maintain it. The centripetal vectorial forces
produce
solar activity by converting kinetic energy from the surface into potential
energy at the center, in the core. The pressure, the density of kinetic
energy
in the chromosphere, generates new hydrogen structures, continuously
transmitted to the photosphere. In the photosphere, the density of kinetic
energy, the temperature, reaches a maximum and the potential energy of
hydrogen is decomposed into the frequency spectrum. The propagation
of kinetic energy in vector space in the form of oscillations are vector
interactions. The energy of the vector polarities of the oscillations
is
transmitted from close to close, polarities of the vector space, in the
form
of the orientation direction. The propagation is exclusively of energy,
of the
orientation interaction and occurs at the speed of light. The vectorial
interactions of hydrogen with the kinetic energy of the oscillations are
vectorial composing, where the kinetic energy of the oscillation is
transmitted to the potential energy (absorbed), in the form of oscillations.
The phenomenon called resonance transforms the structure of hydrogen into
a relay, the potential energy partially becoming kinetic energy and emitting
its own oscillations. The resonance is mistakenly considered reflection.
The transformation is possible when the energies are comparable.
The photosphere emits omnidirectional oscillations of the frequency
spectrum, kinetic energy. In the external vector space, the energy of
the
oscillations propagates in the form of light, characteristic of stars.
In the internal vector space, the energy of the oscillations is composed
vectorially, with the potential energy of orthogonally closed vector circuits.
Obviously, the composing consists exclusively in the transformation of
oscillations into the potential energy of orthogonally closed circuits.
In conclusion, the photosphere transforms the potential energy of hydrogen
into kinetic energy dissipated in vector space and inside, accumulated
in the potential energy of orthogonally closed vector circuits. The
photosphere continuously amplifies the immense potential energy of the
sun.