Hello guys I was trying to work over Meyer theories and tried to address the fact that he tells that he uses energy and uses potential energy too
Well I know the electric field ouside a capacitor is essentially zero although as Meyer said it consumed energy is started to wonder what if we charge the capacitor but discharge it at a small rate just to let the electric field get transmitted just like iron transmit a magnetic field:
I found from that reasoning that a resistor will always try to zero the potential in a circuit loop balancing with a current flow... but basically there is always going to be a loss so the capacitor is always discharging thru a resistor for keeping the force directed to the water.
Meyers says the secret suppose to be restrict the amps and allow the voltage to make work in a dead short condition
Well the higher is the capacitance and higher the voltage the greater will be the electric force a capacitor will have
So The idea is two capacitors connected in series between them being in parallel with the water cell so each can be charged with high voltage
The cell must have a dielectric barrier to allow the electrodes to charge to high voltage and each electrode must be in a different chemical environment the positive at the basic side and negative at the acid side... the dielectric and the electrode must be stable on both environments
The higher is the dielectric strength and constant the greater will be charge involved and therefore reaction products
The main idea consists in exceeding the covalent force of water such that the molecule will be rearranged accordingly with current flow on resonance and since the resonance is betweeen charged capacitors the voltage on the capacitors oscillate 180 dregrees apart so it should not consume power in a conventional manner
The system must be charged tô enough high voltage and the resonance must develop enough current to get reaction products
Water capacitance and the input capacitors must be balanced to maximize resonance
