resonance frequency

Thanks Guys for your replies.
Stan refers to his cells many times with the term "resonance cavity" without further specifying the type of resonance, the frequency or the dimensions of the cavities.
I know that many inventors use confusing terminology just to confuse the competitors and this makes reproducing their inventions very difficult.
So I wasn't quite sure if the frequency applied makes any difference, Stan doesn't mention the relation frequency - gas production or shows any graph on this.

Yesterday I came across the findings of a guy in Sri-Lanka
( see http://www.byronwine.com/files/MEYER%20PAGE.pdf[/URL] ) he says:
Now I am not sure which one he means with "the former", I assume it would be the 43.430 KHz one as this is the 3rd harmonic of the first one.
Anyways, I feel it's a good indication that the splitting process has a frequency dependency.
I was quite surprised by the fact that it is in de KHz range, as most moleculair resonances are in the MHz or GHz range.

If anybody has made or can make a frequency - gas production graph, this would be most helpful.

Thanks,
Ben

Good to watch - https://www.youtube.com/watch?v=bUrqiFqwhQo

I watched almost everything I could find on u-tube. Lots of video's on the subject, especially from IRONDMAX. He seems to be a real dedicated follower of Stan's idea's.
What I couldn't find was a structured approach towards finding Stan's secret / confirming his claims while using his method of high voltage resonant electrolysis.

High increase in HHO production is claimed when moving from DC to 'Pulsed DC', however almost all add something to the water to turn it into an electrolyte. Which is totally in contradiction with Stan's approach as he used clear tapwater with a high resistance and high voltages.
Stan also talks about resonance without mentioning the resonance frequency. This frequency one needs to find the right values of the inductors to match the capacitance of the WFC.

I didn't find any u-tube video showing the relation between HHO produced (liters/min) and watts consumed, using Stan WFC and system. In most of the videos the experimenters are talking about 'large amounts' or in similar terms.
But not actually measures the input and output.

I will keep searching.
best regards,
Ben

On at least one of his designs, on the voltage intensifier circuit, he had a feedback coil to tune in the frequency automatically up to 15khz. There wasn't a definitive frequency as differences in water and other factors changed it and each cell was tuning individually. You can run through frequency's easy enough. With Stans work the voltage intensifier circuit itself comes across as a very important factor.

I haven't successfully replicated stans work and I am only trying out flat plates at the moment. I'm using frequency modulation and I am only using tap water, and as you have said this is an important part of the process of stans design. I have been able to make hho but not efficiently.

You would think by now there would be definitive knowledge how to go about it. I've learned alot about Stans work but not enough yet.
If you haven't seen it yet, I would advise you to look up -
"stanley meyer original data from estate"
There's quite a bit of information in it.

Regards
netica

could'nt find this video earlier, as many of my post happen this way can't remember the meyer's application
that a voltage only HV on preconditioned charged water may work.
The idea of having an inline on demand charged water supply might answer how why amps restricted?
why dielectrics like delrin was used ? possibly why Stan machined plastics were important part ?

Video on basic concept of charging water shown using van der graff
Has anyone tryed this? I have'nt tested this myself ?

https://www.youtube.com/watch?v=L5F5JDMAmqg