Okay I have questions from two people let me copy and paste the questions as I try to answer them as best I can.
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Is it the Ionized Oxygen (GP), the VIC that could be used to Ionize Oxygen (VIC running GP) or the gas moving through a specific shape of the surface area of the injector or alternate fuel distribution system (How can voltage preform work? How can a magnet preform work? How can an atom preform work?) that is the "Magic" behind your theory?
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There is not magic, the definition of how voltage preforms work, I learned from MIT. Ask yourself why does voltage break downs mostly occur on points or sharp edges when the break down voltage is reached of a medium? Voltage is fourced to preform work when the area of the charged surface is decreasing. Cone shapes, corners, edges, sharp points all have one thing in common, the area is decreasing the closer you get to the edge. Water can share this area decreasing effect through evaporation. Being that water is a dielectric liquid it has the ability to pick up an image charge when past between a capacitor. The relaxation time of water determins how long it will hold on to that charge and the rate at which the charge leaks off with the passage of time. If you set the water up to evaporate faster than the image charge placed on it can leak off voltage has to, by definition, preform work on the water molecule. It first splits the water molecules into smaller droplets when a sort of critical mass is reached. This is where the two theories come into play:
One is the water molecules self destruct as the water molecules decrease in size due to the evaporation time is less than the relaxation time of waters ability to leak off the image charge pick up by passing through the high voltage zone. Due to waters polar nature they form micro-capacitors that will short out as the area becomes close to zero.
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This creates hydronium ions ( H3O+) and these ions can't exist in waters' evaporate state thus releasing one or more ( H9O4+) mono atomic hydrogen atom(s) per water droplet when the droplet size reaches a critical mass of not being able to support any hydronium ions. And the image charge picked up will not allow the hydronium ions to dissapate it's charge, and/or normalize turning back into H2O.
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Oxygen, and water for that mater reflect blue light so I would surmise that a red LED would be a good place to start. What do you think? White is almost certainly what Stan used. Wouldn't using white be a safe way to go? It would rule out the LEDs as the source for the entire system failing.
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This is where I am unable to tell what wavelengths of light will effect the oxygen atom the best for it is imposible to tell from the chart found here which wavelengths are from ionized atoms or normal atoms:
Spectra of Gas Discharges My best guess is something I don't want to post due to I know everyone will just copy it and if it doesn't work blaim me for it not doing so. This time everyone has to do there own research but I will tell you that atomic oxygen has a wavelength of 777.194 nm if that is a good wavelength to use I am unsure, so it is best everyone do their own homework/research on this one.
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So would one GP be able to supply all injectors?
And would I need two Vic's? One for the ionizing step and one for the injector zone? Or can one supply power for both?
These pictures of "The gas resonant cavity" are the actual Gas processor right?
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Yes, one gas processor will be able to run the show. In looking at Stanley Meyer's work I would say each injector will need it's own VIC transformer for in looking at his WFC each tube set seems to have had it's own VIC transformer as shown here:
Here you can see 11 VIC circuits and the count might be nine for the WFC and one the Gas Processor and one for the Steam Resonator. But that again is a best guess as too what I think is shown here.
I know I didn't answer all the questions but I hope what I did answer was helpfull in some way,
h2opower.