After so much thinking i was thinking about the resonance meyer talks about ...
i came up with a circuit where if the cell could reduce the voltage drop it could be easy to apply thousands of amps to it..
however how would the cell reduce this voltage..
the water cell is a good capacitor for ac of high frequency and i believe that the resonance has to do with this requirement
when the resistance of a coil resistor circuit is reduced to zero the time of discharge of the coil become infinite this is an indication that a coil can be used to create a steady current from short pulses because of its ability to reverse its polarity (aka) double its frequency to keep the current flowing in the same direction...
so i was thinking a lot and i came to the conclusion that when resonance is reached the dc resistance of the cell will drop and the current will start to increase..
i made a simulation with using a 1uf capacitoras input capacitor and 50v as input ac thru a full wave bridge rectifier... a very small inductor and very small load like in the miliohms range and it resulted in a kiloampere range currents...
the thing is that if the coil has not time to discharge it will simply keep increasing the current for every pulse it receive
the circuit kiss i imagine only a 1uf capacitor and very small coil in series with a full wave bridge rectifier having a high amperage diode from the negative to the positive side and means to short the full wave bridge sinchronized with the pulsing ... the idea is that once the current rises to a very big value it will have a path with less resistance than the extra diode that takes 0.4v or more
i think really meyer fooled us but he also told some true some time
to find the water resonance we must consider what is going to resonate
in new zealand meyer says that the water will have resonant frequency in the audio range
he also said that it depends on the concentration of ions in it
in a patent he say is related to the movement of the ions
he also claim is independent of voltage
so i took the last two days to think about it and determine what would happen with this resonance
my idea is that when we find the resonant frequency of the ions the water cell will have a kind of ac behavior even if we apply just short pulses in one direction only this is what is going to reduce its resistance to the dc since the ions would move inside the water and this movement would require movement of current outside the water... as resonance is a phenomenon that energy is simply accumulated and is not consumed if no resistance is present if we get the resonant cavity to resonate it could generate electricity indeed..
but how do we find this resonance ?
i think we need to go for test circuits instead of vics etc...
see the behavior of water...
i think we should try applying 12v pulsed dc thru a 100kohm resistor and see the behavior of the cell in relation with the frequency
when we pulse a capacitor thru a full wave bridge rectifier and load it will be charged with the oposite voltage at the end of the pulse so every flip in polarity from the input source will result in a exponential decay voltage with double value from the input.. if there is inductance it will have a resonance frequency where the pulses at the output will look like stan with just the right half sinoid shape
honestly it appear to me that all that is required is to apply the than pulse to the water at the right frequency of the resonance and build the circuit to resonate at that specific frequency... simple as that...
to do it however is necessary to find the water resonant frequency.... or the ions movement resonance frequency ... this will create the short circuit we need
we could try to imagine
but i guess i already did something that was exactly the water resonance... i was using my single cell tube that is a little different from meyer cell in size ... smaller..
and i got it to resonate at 2,5khz once with lot of koh... it made a sound! but i was not measuring this and my circuit would not allow it to keep the current going because it was simply pulse on and off from the variac..
but i made this strange sound at this frequency and thats what i remember from it... i will try to find this resonance again but now monitoring the cell with the new tools i have like this digital oscilloscope and the isolated probe that will make easier to see the action..
meyer talk about current limited energy source
when we pulse a capacitor with frequency will increase the power applied... perhaps the idea of using a flyback system is to give a fair comparison of the applied voltage frequency to the output power .,..
in a flyback as the current increase linearly the power also is proportional only to the duty cycle not the frequency ... of course will change a little but will be more linear...
perhaps to find the resonance of water we need just a flyback arrangement applied to the water thru chokes and measure the dc current after the chokes... the chokes must have a diode connecting them right after the flyback to allow them to double the pulse
i predict this that the water will start to generate more gas and it will reduce the dc voltage across it at the same time since its becoming a short circuit to dc but at the same time it will become a great ac resitance or perhaps not too .. but its possible we are going to see some dumped ac oscilation at the pulses switching,.
thats why i think a capacitor could help giving a nice bang on water to make it visible...
once we have the frequency will be a piece of cake