The key to the Meyer process is resonance, and without resonance the
system produces no gas. At 12watts you see why no gas is produced
without resonance. This is a standard LC resonant circuit in which you
MUST (!) match Capacitive reactance with Inductive reactance. This
then creates an LC resonant circuit in which the two legs of the power
supply match in frequency exactly. A Ham calc make the calculation of
resonance easy once you know the capacitance of the cell and the
frequency you are driving it at. Once you have your inductance
calculated you then buy the proper chokes 07/24/2005 12:18 AMYahoo!
Groups : energy2000 Messages : Message 20771 of 25951 Page 4 of
6http://groups.yahoo.com/group/energy2000/message/20771 that fall
within the inductance range needed. The adjustable one needs
(obviously) to be tunable within a small range, so that when the cell
temperature changes and causes the capacitance of the cell to change,
then the inductance can also be changed to keep the cell in resonance.
If you cell has the ability to vary distance between conductors, then
you simply change the distance and thus change the capacitance of the
cell rather than changing the inductance. You must vary one of the
other though. I have found since then that the capacitance of the cell
can be changed and works just as well as the inductors being adjusted.
You don't use ANY electrolyte, you don't want ANY amperage at all,
only voltage @ resonance. REPEAT, YOU DON'T NEED ANY CURRENT FLOW,
ONLY VOLTAGE!