Saturday, February 25, 2017

Simulating Barbosa and Leal, version 4

Referencing Schematic



Moving right along...
Here's another version of my attempt to simulate B&L using only grounding rods, but also using the above schematic to move the neon bulb yet again – this time, closer to the Captor Loop's ground rods (what would have been the 56 rods in Clarence's case):



And here's the exact same configuration except that Eric Dollard's analog computer in Longitudinal Magneto-Dielectric mode (not optimized for resonance) is substituting for the two ground rods in the example, above:



Notice anything peculiar when comparing the output of these two simulations?

The ground rod version manages to put out what appears to be a slight overunity by virtue of the wattage and amperage of the power sources sometimes going negative indicating a feedback of sorts undermining their expense of energy?

The light bulb's voltage is steady at 120 volts.

But its temperature, as measured by the simulator in Kelvins, never reaches beyond 1,800°, while the lamp of the LMD simulation easily gets white hot at over 2,400°.

The LMD version is more variable data measuring the lamp's output, but the evidence of overunity of the two power sources – especially the right-hand source – is much more promising.

No doubt, a longer LMD daisy chain, or an optimized LMD, or both, is the next step!

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