Reproduction by budding.
The first form of microscopic budding is the interactions of vector
properties, energy, orthogonally closed vector circuits, hydrogen.
Hydrogen composes functional macroscopic structures, existing,
beings that reproduce, evolution being pulsations limited in time.
So, vectorial structures are beings with selective evolution towards
the complex. Reproduction by budding is known in lower microscopic
animals, which develop identical structures on their bodies, which feed
themselves and detach from the parent body, becoming independent.
Less well known is the reproduction by budding of macroscopic structures,
of stars. Stars are orthogonally closed vector circuits (electromagnetic),
through the vector polarities of hydrogen, with the shape of a sphere.
The star is a living vector structure, which produces its own energy
necessary for its functioning, generating hydrogen in the photosphere,
caused by the continuous conversion of potential/kinetic energy, between
the magnetic poles and the equator. The vector polarities at each pole
repel
each other, curvilinearly polarizing the vector space, until they close
at the
periphery of the system, producing centripetal force. The activity of
the star,
in the abundance of hydrogen gas at the equator, close macroscopic vector
circuits, a new star, identical to the parent star. The new star, also
radially
electrostatically polarized, is repelled into orbit. Stars reproduced
by budding
are like microscopic structures, but the reproduced structures remain
dependent
on the parent star, forming a family called a galactic, stellar or planetary
system.
Obviously, the stars in the system, in turn, reproduce families, systems.