The structure of a
star.
The structure of a star is extremely simple, for those who understand
the
interactions of vector properties. I will read “step by step”,
the interactions
of vector properties, from the vector space oriented in orthogonal closed
circuits: The cause of the interaction of vector properties are
the vector
forces of attraction and repulsion. The parallel orientation in direction
and
sense of the vector space in closed circuits, determines repulsive
interactions towards infinity, keeping the vector circuit closed.
The attractive forces, the module of the circuit, tend towards
a null vector,
towards zero – centripetal forces. In this way, the modules, the
centripetal
forces, orient and compress each other, the repulsive forces, increasing
the
orientation density of the space in the orthogonal circuit. Macroscopic
circuits are asymmetric, one of the circuits being completely surrounded
by
the orthogonal circuit. The repulsive forces, the orientation density
of the
completely surrounded circuit is compressed by both the module of the
surrounding circuit and its own module, reaching a density, maximum
possible. This circuit constitutes the core of the structure, of the star,
a solid
toroid, with immense potential energy, constituted by the internal repulsive
forces. The mode of the nucleus, in turn, compresses, the repulsive forces,
the density of the space oriented in the orthogonal circuit, only the
segment
surrounded by the nucleus. Beyond this segment, called the vector axis,
the
repulsive forces dilate the volume of the orientation density of the space
around the vector axis, up to a limit, with a lenticular shape. In the
case of
the sun, the limit is 1-2 light years. The limit being the difference
between
the forces of attraction and repulsion, which establish the equilibrium
of the
density of the vector space orientation, the gradient of the stellar structure.
Towards the vector axis, the lenticular curvature of the circuits tends
towards the spherical shape, and the density of the vector space orientation
tends towards an exponential increase. This is the vector structure of
a star,
from which we have intentionally excluded the photospheric layer.
The stellar photosphere.
The vast extension of the stellar gradient, represents the density spectrum
of
oriented vector space, potential energy, conserved by the balance of vector
forces of attraction and repulsion. In the gradient there is a layer,
with the
density of the oriented vector space, suitable for the formation of hydrogen
vector structures. In the case of the sun, the layer begins at a radius
of
700,000 km from the center and is called the photosphere. The thickness
of
the layer, between the outer and inner surfaces, is conditioned by the
density
of the gradient, obviously greater towards the inside. At the outer surface,
the hydrogem structures increase their density from the core and are moved
downwards to the appropriate density. The hydrogen reaches the potential
density of the inner surface, but with an orientation that is not in line
with
the direction and sense of the gradient vector space orientation.
Here the hydrogen interacts, generating the "line spectrum",
a spectrum of
oscillations, of light. The oscillations and structure of the hydrogen,
with
lower density, are moved upwards. The gradient layer, continuously moves
the hydrogen up/down, reminiscent of the "water circulation in nature"
- the
photosphere of the stellar structure. Beyond the inner surface of the
photosphere it is impossible for hydrogen structures, the cause being
the
exponential increase of the density of the oriented vector space.
The dark sphere, as I have called it, is covered by the photosphere, therefore
invisible, it is not plasma, it is the continuation of the exponential
increase
of the density of the oriented vector space, potential energy, without
oscillations. The extremely large volume of this sphere is simply the
gradient of the density of the vector space oriented, exponentially increasing
towards the solid core. In the gradient, only the photosphere is kinetic
energy, the fruit of the stellar structure, whose "seeds" reproduce
macroscopic vector structures, stellar and galactic systems.