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Descriptions of rays of cosmic particles suggest that the particles arrive in collimated streams. Those streams are created about an electromagnetic field line spiralled conductor system, which is a double-helix. Any electric line has magnetic surrounds. When the electricity is emitted by a generator system that sends out pulsations of energy, one then has segments of magnetics along the spiraled conductor system.
In that segment would be photons that had received energy from an electron that had collided with the photon. Therefore, the photon has a slight negative charge. The magnetic segments, being a negative energy would hold captive any positive energy particle, such as the 87% proton content. Protons would magnetically adhere to the magnetic surrounds, thus disallowing any charged particle; such as the charged photons to escape from each forward moving segment. Until the electric conductor ran out of energy from its distanced generator system, the magnetic segments would hold captive its contained particles. Upon the collimated stream's forward segment becoming engaged with another magnetic system, the stream's forward segment would lose its captivating hold and release its particle load to the found magnetic system.
The collimated stream's neighbor streams would traverse around the found magnetic system and be forced to meld back towards each other and fill in the space formerly occupied by the stream that was temporarily releasing its captivated load of particles.
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In that segment would be photons that had received energy from an electron that had collided with the photon. Therefore, the photon has a slight negative charge. The magnetic segments, being a negative energy would hold captive any positive energy particle, such as the 87% proton content. Protons would magnetically adhere to the magnetic surrounds, thus disallowing any charged particle; such as the charged photons to escape from each forward moving segment. Until the electric conductor ran out of energy from its distanced generator system, the magnetic segments would hold captive its contained particles. Upon the collimated stream's forward segment becoming engaged with another magnetic system, the stream's forward segment would lose its captivating hold and release its particle load to the found magnetic system.
The collimated stream's neighbor streams would traverse around the found magnetic system and be forced to meld back towards each other and fill in the space formerly occupied by the stream that was temporarily releasing its captivated load of particles.
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