AC vs DC Barbosa and Leal

Differences in surface area epitomizes the two sets of grounding rods' most important feature: their polarization. Diodes epitomize the Captor Loop of Barbosa and Leal, because the direction of their arrow is their most important feature: their polarization. Within the context of B&L, the former represents voltage polarization while the latter represents amperage polarization. The beauty of B&L is the segregation of these two distinct principles operating simultaneously side-by-side in one device.

Eric Dollard likes to say how voltage and amperage are fictional creations of the minds of electrical engineers whose sole basis in reality is flawed theory dependent on measuring devices to make up for their lack of accurate understanding. This skews perspective. Einstein was right in one sense: relativity is predicated on perspective. But perspective is a creation of mind born of circumstance. For example...

Voltage is phenomena born of perceiving electrical activity from outside its domain while amperage is the same phenomena viewed from inside that same domain. Nothing has changed; only our viewpoint has shifted.

The ground rods emphasize voltage accumulation among the greater of the two sets of rods. And an AC oriented B&L requires periodic emphasis – and accumulation – of voltage among the lesser quantity of rods for every half cycle of an AC's full cycle. So, both sets of grounding rods are made of steel – a ferromagnetizable material. And the lesser quantity of ground rods are fed by the AC neutral to de-emphasize their relevant importance to store voltage. A B&L fed by DC power would have similar requirements although only the larger of the two sets of rods need accumulate voltage. And both versions of B&L, AC and DC, could have their grounding rods replaced by a single strand of wire centered within a very wide diameter iron tube filled with: clay, quartzite, and silica gel.

Voltage polarization satisfies the inlet of electrical energy into B&L, but does not satisfy the polarization of its motion. For that, a neon bulb is necessary – in the case of AC B&L's – connected in parallel with the Captor Loop's two leads. For DC B&L's, a diode replaces the neon bulb used for AC implementation and points its cathode towards the Captor Loop's Ground Rod Return to emphasize the need for this one section of wire in B&L's circuit to embody voltage without amperage – charge without motion. Thus, it is a two step process to first get voltage to enter into B&L's circuit from the Earth through its ground rods – but in particular through its larger set of ground rods. And the second step is to get that voltage to move across the Captor Loop's coil winding surrounding the Electric Keeper in a direction away from the ground rods in the form of amperage.

I'm using Aaron Murakami's definition of a diode, here, quoted from his essay entitled: “Ignition Secrets”, which can be found online for a modest price at – http://ignitionsecrets.com/. In that power point discussion, he discusses how voltage travels in the direction of the arrow marked on diodes with a stripe (usually colored black) while, at the same time, amperage flows in the opposite direction. Recently, I have recently found myself beginning to say something remarkably similar using different wording: electrons flow against the diode's arrow while electron holes flow in the direction of its arrow.

With the use of a neon bulb placed in parallel across the leads of a Captor Loop in an AC oriented B&L, the voltage spikes at the beginning of every AC half cycle constitute the equivalent of what a diode manages to sustain in a DC circuit all the time: get voltage to move over to one side of a wire and stay there. Since the frequency of AC is fast enough to offset whatever voltage bleed off occurs over the remaining period of every AC half cycle with another voltage spike at the start of the next AC half cycle, the problem of voltage bleed off is not a big issue. But for DC it is a problem, for the voltage spike at the start of powering ON a DC device (of any sort) only lasts so long and then you're left with a mild cruising speed – so to speak – of moderate voltage over the course of operating that device until it is finally shut OFF. Hence, there is a very real need for replacing the neon bulb – in any DC implementation of B&L – with a diode pointing towards the Ground Rod Return of the Captor Loop.