Importance of Separation of Charges

Importance of Separation of Charges
We Must Not Dispel the Separation of Charges In Our Source: The difference in our coalfired
train analogy and our electrical circuit is that, in the coal train, the coal in the coal car is not
automatically and continually replenished. Also, the coal in the coal car has already been
collected by the mass of the coal car, so it is not infinite. In the electrical circuit, the potential
gradient in the primary source is continually replenished, automatically, and it is infinite (though
it has a finite energy density). The reason is simple. EM potential (in the normal sense) is
actually a virtual photon flux exchange between the vacuum (the entire vacuum, all over the
universe) and a charged particle or collection of charged particles.24 Thus the potential
(gradient) is a powerful energy flux, pumped by the vacuum and the entire universe, that
continues automatically, so long as we do not allow the collected charges in our bipolarity
source to be dissipated. In terms of a battery, we achieved separation of charges inside the
battery by chemical action, and we paid for that initially. Once separated, the charges
essentially stay separated (because of the chemistry) unless we foolishly do something to
dissipate them, such as upsetting the chemistry, so they are no longer separated positive from
negative. So if we don't do anything to these separated charges, they continue to be driven by
their fierce exchange of virtual photon flux with the vacuum/universe. If we then simply extract
some of that flux exchange, without moving the charges, we are directly "gating" trapped EM
energy from the vacuum/charged particle VPF exchange.25
The Potential Is Infinite And So Is Its Energy Content
You Can't Dip The Ocean Dry With a Spoon: Let's say that another way. The charged
particles in our potential source are in a constant, seething, equilibrium exchange of trapped EM
energy with the entire universe. That energy exchange is so enormous that, if we gate some of
it out to collect on some other "temporarily frozen" charges and potentialize/activate them, the
vacuum flux doesn't even miss it. It's like dipping a spoonful of water out of the restless ocean.
The hole is instantly filled, and the water replenished. We can dip with that spoon as much as
we wish, and the ocean will never run dry, but will simply continue to furnish us water, spoonful
by spoonful.
The same is true in our electric circuits. We can have all the potential (trapped EM energy
density) we wish, for free, from a single source, so long as we do not allow work to be done
inside the source to close off our "gate" and kill our primary source.