Conventional 2-Wire Closed Circuit Operation

Conventional 2-Wire Closed Circuit Operation
In the conventional 2-wire system a load is added to the source-antenna, allowing
circulation of electron current in a closed circuit through the load and then through the
ground return line back to and through the dipolar source-antenna. The only useful reasons
for this "closed circulation" of the electrons are (1) it is simple, easy, habitual, and
accepted, (2) all our components, instruments, and methodologies are developed in
accordance with this usage, (3) one uses the electrons as a working material fluid to
receive, transport, and discharge excess EM energy, and (4) forcing the electrons back
through the back emf reloads the spent electrons again with excess EM energy in the form
of little 's (excess trapped energy density) upon each recycled electron.
Some of the excess collected upon the electrons is expended in the load as useful work,
but one half of the total is expended in driving the spent (without excess Consequently
all conventional 2-wire circuits, which return all external electron-flow current loops back
through the source, are always underunity devices, as is shown in Figure 2. Eerily these
conventional sources are already free energy devices, which are unwittingly attached to
circuitry specifically designed to utilize part of their freely received energy to deplete or
destroy themselves, i.e., they are already open systems receiving free energy from the
vacuum, but they are hooked up and designed in a suicidal m nner so as to use at least half
of that freely extracted energy to re-close the system and shut off the influx of free energy.
Since at least some of the remaining half of the energy is lost in inefficiencies, frictional
losses, etc., less than half the total free energy goes to the load. So there is always less
useful work being done in the load than the destructive work being done inside the freeenergy
source-antenna to destroy it.
a
Operational Efficiency
We define operational efficiency Alpha as the average power expended in the load to
power it, divided by the average power expended inside the source to dissipate its
dipolarity. If Alpha < 1, one has to externally furnish energy to do restorative work upon
the source to replace or offset that amount of destruction being done inside the source, if
one wishes the source to continue to operate as an energy-receiving antenna. If Alpha > 1,
then if the additional losses are minimal, the device can conceivably run itself while
furnishing some energy to a load to produce useful work.