Wave Theory and Photons
As depicted in the next picture, the two loops found in a
wave have different properties or forces that derive from
the same matter. This gives rise to different forces (currents)
within the wave that act in all directions. These forces enable
the wave to come in contact with other waves and defend its
space and existence (Pauli exclusion principle).
The picture to follow depicts the behavior of energy in magnetic
and energetic loops.
The proceeding illustration shows the properties of small
low-energy waves and high-energy waves.
Every wave has its own energetic level (capacity), space
and time (wave quant). Waves are held in position by their
two-loop structure; the circulation of energetic matter in
different directions acts like propellers. A wave’s
position also depends on its relationship with other wave
constellations (Einstein’s idea of the net universe),
and relationships with same-phase formations are stronger.
Loops in photons do not fall on each other. When separated,
they easily reunite with their partners or similar loops.
Both loops have the same energy level, which is necessary
in order to maintain the appropriate rotation pattern and
link between the rings.
Dr. Chaim Tejman, Copyright©
2001. All rights reserved.
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