Measuring Capacitance Values of the Water Fuel Cell
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- čas přidán 23. 04. 2024
- SR11:
Measuring capacitance and resistance on a water capacitor is tricky. The water must be energized (utilizing polarized atomic alignment) in order to measure the values correctly. Water in its natural / neutral state does not have the same properties as when an electrical field is applied to it. Since the water molecules are polarized, the molecules align in a uniform pattern when voltage field is applied. This changes the properties of the water capacitor.
*Fun fact, did you know your microwave oven heats food using a similar principal? Electromagnetic energy "swings" the polarized water molecules (in your food) causing friction and therefore heat.
Here you see capacitance measurements in the pF range as the (series) capacitors are discharged to ~1.0v (~0.16v per tube). After this 1.0v threshold is reached, voltage tanks to less than 200mV, while capacitance measurements skyrocket to the uF range. That's pico Farads to Micro Farads... Quite a jump based on whether the cell is energized (voltage applied).
In a previous video I touch on this subject, but here in these tests I have successfully replicated my results, thereby proving my theory. This is a primary reason why many people can not create a "resonant" circuit with the Stanley Meyer WFC -- their capacitance values are off, because they are not measuring them while the cell(s) are energized.
Boom! 😶🌫 I've experienced exactly the same. In fact, try your Diode tester first, to build up that polarization threshold, then switch over to Resistance. You'll see ohms go from near-zero, to near infinity ;)
so your getting the "step charge" in the cell ?
"Step charge" is a function of the transformer action. Short answer - yes. My next videos finally have an oscilloscope so you can see this.