Good day, folks! Today, I would like to demonstrate the PEG cell's ability to self-oscillate and its instantaneous polarity flipping, resulting in potential amplification by a factor of over 100 times. In my setup, I simulate a series cell using a 250-volt AC inverter connected to a full-bridge DC filtering rectifier.When the PEG cell is connected in series with opposite polarities (plus and minus), the polarity flips. Conversely, when the PEG cell is in series with the same polarity (plus and plus), its electrostatic potential increases in its native polarity. Introducing a nonlinear element, such as an LED, to close the loop reveals some interesting effects.
If I add a transformer in line with the LED. I can measure a real high voltage AC sine wave oscillation on the secondary. It looks like slow speed AC. I called it a Spike" quickly speaking however it's pure AC. It can be rectified and recycled. Or charge an external device. Despite the LED closing the electrical path, an electrostatic path is still established, moving the PEG cell regardless of the closed electrical loop. I will take the time to demonstrate these effects.
If I was to take a guess at what is going on, I would say that the LED blinks when it detects a moment of a closed loop, once the LED connects even if its not electrically closed the electrostatic does its thing, once the polarity flips and the PEG cell re-gauges, For a moment the path "beeps" one way as the PEG cell goes from infinite continuity to near zero resistance the LED blink re-balances the system for a short moment, resets the peg cell for the next cycle and on and on it goes. :)
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