... into multiple forces in which at least one force need not interact with anything other than another force - but not with the inertia of matter. Thus, these multiple forces can specialize themselves : one force can specialize on harboring the speed of amperage while another force can specialize on harboring the pressure of voltage. Thus, the "speedster's" job (positioned near the power source) will be to resist any attempt made by the power source to spend any amperage when it contributes voltage to the circuit by engulfing (smothering) the power source with a tremendous surge of its own accumulated amperage. The "torquester's" job will be to resist any attempt made by the load to lose any voltage to the circuit by engulfing (smothering) the load with a tremendous surge of its own accumulated voltage. These two separate tasks are created (subdivided) by the central whirlpool of electricity circulating within the confines of the Electric Keeper. This Electric Keeper is the analog computer in longitudinal magneto-dielectric mode of Eric Dollard composed of two toroidal transformers facing each other with two capacitors situated between them. By orienting the transformer's primary and secondary windings in such a way as to induce a step up of voltage away from the power source towards the load, the load is prevented from expending any voltage while the power source is prevented from expending any amperage. Thus, there's no appearance of any wattage at the source despite the pervasive presence of amperage throughout the circuit soliciting the appearance of wattage at the load. It's much easier to fight voltage than it is to fight amperage - in this special case, because the load is not contributing any voltage of its own. The load must merely conserve its voltage by transferring it away from the circuit - not towards it.
Editor's note - this last statement reads confused. And my video keeps repeating the notion that I need to pulse a dc source. I have learned a lot since two days ago when I taped this. Pulses are not needed. The initial kick off turning off the power is sufficient to initiate oscillations. And oscillations are sufficient to maintain themselves under the right circumstances. And the kinetic frequency of the filament within a glowing light bulb is sufficient to drive an overunity device to infinity and self-destruction from meltdown or explosion.
Editor's note - this last statement reads confused. And my video keeps repeating the notion that I need to pulse a dc source. I have learned a lot since two days ago when I taped this. Pulses are not needed. The initial kick off turning off the power is sufficient to initiate oscillations. And oscillations are sufficient to maintain themselves under the right circumstances. And the kinetic frequency of the filament within a glowing light bulb is sufficient to drive an overunity device to infinity and self-destruction from meltdown or explosion.
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