Out of this latent magnetism, both energy and matter could be
produced with the corresponding stimulation. The non-excited
electromagnetic field was viewed by Schappeller as simply latent
magnetism. Matter is a condensation out of bipolar ether.
Therefore, electromagnetism is a product of matter and is nothing
more than bipolar ether in a different condition. Latent
magnetism could be, then, excited into matter. Latent magnetism
could be influenced by either of the thermodynamic principles
discussed, the Second Law of Thermodynamics or by Reverse
Thermodynamics. This vast ether field, whose most notable
characteristic is the property of cold, latent and awaiting
stimulus, is the progenitor of both energy, as we know it, and of
matter.
Since primary cold, this vast reserve of negative entropy
potential, is responsible for both matter and energy and since
all energy eventually degenerates into heat, it follows that, as
navson puts it, again on page 83:
"Primary heat, as may now be understood, is composed of cold
energy".
This is seems like a surprising play on words, especially from a
man of science, but this statement follows perfectly from
Schappeller's reasoning nevertheless.
We turn now to Schappeller's concept of "stress". Both heat
stress and cold stress can be applied to an electromagnetic
field. Heat stress is the usual type of stress applied to
electromagnetic fields in secondary physics. Secondary physics
is the physics of our everyday world according to Schappeller.
Primary physics is the physics dealing with the cold force and
ether yielding matter and energy, which constitute the secondary
reactions and so Schappeller uses the term "secondary physics" to
describe our world as we know it.
An example of heat stressing of the electromagnetic field is the
condenser and the coil. A charged condenser results in an
electric field and a charged coil results in a magnetic field. A
charged condenser and coil, connected by a wire circuit
alternately charge and discharge each other, producing
electromagnetic radiation unit the heat caused by the resistance
of the wire degrades the whole process into heat. Heat stress on
the electromagnetism is +/-.
Cold stress on the electromagnetic field is something totally new
to our science and technology. It is also seen in terms of +/but the machines used to produce it are not known in our world.
Mr. Watson did not say this but if we return to our examples of
heat stressed machines, the condemnor and the coil, the
corresponding cold stressed machines might be the Schappeller
sphere and the Schappeller coil electret. The sphere collects
the charge through the magnets, holds and condenses it in its
glowing center corresponding to the electric field of the
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