Stanley Meyer > Stan meyers resonance

What did Stan meyer really said.......

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Steve:
Stanley Meyers:

The Hydrogen Fracturing Process dissociates the water molecule
by way of voltage stimulation, ionizes the combustible gases by
electron ejection and, then, prevents the formation of the water
molecule during thermal gas ignition ... releasing thermal
explosive energy beyond "normal" gas burning levels under
control state ... and the atomic energy process is environmentally
safe.

br
Steve

Steve:
Water now becomes part of the Voltage Intensifier Circuit in the form of "resistance" between electrical ground and pulsefrequency
positive-potential ... helping to prevent electron flow within the pulsing circuit

br
steve

hydro:

--- Quote from: stevie1001 on July 10, 2008, 11:04:13 am ---Stanley Meyers:

The Hydrogen Fracturing Process dissociates the water molecule
by way of voltage stimulation
--- End quote ---

A fancy word for electrolysis, Stan Bettered the electrolysis process with his tuned cell, but in no way did he produce 7 liters a min but around 700 cc's per min.


--- Quote from: stevie1001 on July 10, 2008, 11:04:13 am ---, ionizes the combustible gases by
electron ejection
--- End quote ---

Another Fancy way to say he ionized the gas, he uses hundreds of expressions, cant believe resonance isn't in there.


--- Quote from: stevie1001 on July 10, 2008, 11:04:13 am ---and, then, prevents the formation of the water
molecule during thermal gas ignition
--- End quote ---

Thermal means very HOT, laser heated to ignite gas, no fire no water formation.


--- Quote from: stevie1001 on July 10, 2008, 11:04:13 am ---... releasing thermal
explosive energy beyond "normal" gas burning levels under
control state ... and the atomic energy process is environmentally
safe.
--- End quote ---

"(Laser Ignition,thermal")  and ("Laser photon injection,Change of energy state") Prevents reformation of water and controls the "(2H protons energy level,2h contains neutrons")  via electronic photon injection. 

Steve:
The established resonant frequency is most generally in the audio range from 1 Khz up to and beyond 10 KIlz; and is dependent upon the amount of contaminants in natural water. Oscillating and superimposing electrical charged particles unto the Electrical Polarization process at a given pulse-frequency is, now, herein called "Resonant Action", as illustrated in (240) of Figure (3-25).
To reach maximum gas-yield (88) resonant cavity (170) of Figure (3-25) is shaped into a tubular structure (typically 0.50 inch diameter tube inserted into 0.75 inch diameter tube having a .0625 concentric air-gap 3 inches long) which functions as a longitudinal wave-guide to enhance particle movement in a lateral or angular displacement to applied voltage fields (66/67). Insulatedhousing (72) prevents voltage coupling to water bath (68) which allows applied voltage amplitude (xxxVn) to remain constant across water molecules...

My explanation: when you use the Stan Meyer circuit, use frequencys between 1khz till 10khz
Use a bifilair coil of 100 wraps for each coil (totall 200)
Use a tubes of 3 inch high T304 0.5 inner and 0.75 outer tube with gap of 0.0625
Insulate the outer tube with delrin or similair
Insulate the inside of the innertube.
Use a nice pulsing circuit.

I can confirm to you that you can get a step-up charging effect with this.

br
steve

Steve:
about  a longitudinal wave-guide:

1.
sound waves are called longitudinal waves. They need a medium through which they are propagated.
This can be proved by enclosing an electric bell into a glass jar. When air is present in the glass jar, the sound of the bell ringing could be heard but when air is pumped out of it the sound of the bell ringing is no longer heard although one can still see the bell being struck by the hammer. Note that since sound needs a medium through which it can be transmitted, then the denser the medium, the better the transmission of sound.

One notes that longitudinal waves consist of successive compressions and rarefactions in the spacing of the medium which is carrying the wave. Therefore now it should make more sense as to why the denser the medium is, the better it becomes at transmitting longitudinal waves.

The speed of sound in air is about 330m/s at 00C and increases at higher temperatures. In denser mediums than air, for example steel, the speed of sound can be as large as 6000m/s.

go read on part 2

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