I have put the construction of WFC itself on hold for now because I do not believe it is a necessary part any more. I believe it has been out dated by the ultrasonic transducer used in fountain foggers. I'm putting more faith in reading Stanley's descriptions and function of each part of his tech. Then fundings example of things like Lenz Law Columbs Law and many more text book examples to figure it out.
Ultrasonic power supply (generator) converts DC voltage to high
frequency 25 kHz (25,000 cylces per second) electrical energy. This electrical energy is
transmitted to the transducer within the handpiece, where it is changed to mechanical
vibrations. The vibrations from the transducer are intensified by the probe (horn),
creating pressure waves in the liquid. This action forms millions of microscopic bubbles
(cavities) which expand during the negative pressure excursion, and implode violently
during the positive excursion. It is this phenomenon, referred to as cavitation, which
produces the powerful shearing action at the probe tip, and causes the molecules in the
liquid to become intensely agitated.
FREQUENCY AND AMPLITUDE
The radiating-wave frequencies most commonly used in ultrasonic cleaning, 18-120 kHz,
lie just above the audible frequency range. In any sonic system,the harmonics of the
fundamental frequency, together with vibrations originating at the container walls and
liquid surface, produce audible sound. Thus, an operating system that is fundamentally
ultrasonic will nonetheless by audible, and low frequency (20-kHz) systems will
generally be noisier than higher-frequency (40-kHz) systems.
Moreover, ultrasonic intensity is an integral function of the frequency and amplitude of a
radiating wave; therefore, a 20-kHz radiating wave will be approximately twice the
intensity of a 40-kHz wave for any given average power output, and consequently the
cavitation intensity resulting from a 20-kHz wave will be proportionately greater than that
resulting from a 40-kHz wave.
The cavitation phenomenon will, of course, occur less frequently at 20 kHz, but this is
not thought to have a significant bearing on effectiveness. However, the longer
wavelengths of low-frequency ultrasonic systems result in substantially different
standing-wave patters throughout the liquid medium.
Directly copied from Stan Meyer WFC Brief
Particle Oscillation As An Energy Generator
All energy in our physical universe (The third dimension) comes from a singular source ... the atom.
There are four basic forces that make up and effect the atomic structure: electrical force, electromagnetic force,
weak and strong nuclear forces, and gravity. By either attenuating either one or more of these atomic forces,
energy can be release from the atom to perform work in a variety of ways: such as, emitting photon,
electromagnetic, or even radiant heat energy; Exposing the water molecule atom (s) to an external electrical
attraction force (SS '/RR') separately or combining the external electrical attraction force with an external
electrical repelling force (SS'-TT'/RR'-WW') can cause the bipolar electrical charged water molecule atom (s)
to release thermal heat energy when physical impact (physical force) is achieved as a result of particle (s)
colliding together under electrical stress which becomes and is the physical mover ... causing electron bounce
to oscillate the energy aperture of each atom of the water molecule.
Voltage Flexing Process
Particle oscillation as a "Energy Generator" by way of "physical impact" caused by a
singular unipolar voltage pulse wave-form alternately polarity triggered is yet another method
beyond the prior art to flex the water molecule to release thermal energy (Kinetic Energy) from
the water molecule atom (s) without the need of gas combustion brought about by gas separation
from water, as so illustrated in (1050) of Figure (11-5).
This continued and repeated oscillation of the bipolar water molecule (1004/1006) in
opposite direction of linear travel (back and forth motion) produces kinetic energy (165) when the
moving and deflected bipolar water molecule (1004/1006) or any other bipolar molecule of water
interlocking with ever changing electrical attraction forces (S-S' /R-R') collides with neighboring
water molecules present in the same water bath (68).
Not only does the alternate first gated voltage pulse (B+/O - B-/O) and then the second
gated voltage pulse (OIB+ - OIB-) oscillates the bipolar water molecule (s) back and forth in rapid
succession to produce heated water at a predetermined temperature level on demand; but, also,
deflects the oscillating bipolar water molecule in an upward direction since the reforming voltage
pulse waves are always in a state of progressive movement of linear displacement ... performing
the same function as a water pump ... a water pump, however, not having any mechanical moving
parts to wear out.
The ionized atoms along with free floating negative charged electrons are, now, deflected (pulsing electrical voltage fields of opposite polarity) through the Electrical Polarization Process ...imparting or superimposing a second physical-force (particle-impact) unto the electrically charged water bath. Oscillation (back and forth movement) of electrically charged particles by way of voltage deflection is hereinafter called "Resonant Action", as illustrated in Figure (1-10). Attenuating and adjusting the "pulse-voltage-amplitude" with respect to the "pulse voltage frequency", now, produces hydrogen gas on demand while restricting amp flow.
Stanley A. Meyer
A little bit about Ultrasonics now...
Ultrasonic power supply (generator) converts DC voltage to high frequency 25 kHz (25,000 cylces per second) electrical energy. This electrical energy is transmitted to the transducer within the handpiece, where it is changed to mechanical vibrations. The vibrations from the transducer are intensified by the probe (horn), creating pressure waves in the liquid. This action forms millions of microscopic bubbles (cavities) which expand during the negative pressure excursion, and implode violently during the positive excursion. It is this phenomenon, referred to as cavitation, which produces the powerful shearing action at the probe tip, and causes the molecules in the liquid to become intensely agitated. Energy in water has been increased by physically slamming water molecule together shearing outer covalent electrons off water molecule increasing the energy potential of water because moving the electrons out of orbit via particle oscillation or particle impact.
http://www.youtube.com/watch?v=YkY8f07IonEMaybe this is Stan's True secret of the LC Series Circuit?Huh?
Example
If we measure the ac voltages across L and C, we find vL = 43v and vC = 33v. Yet our source voltage is still just 10v. What's going on here? How can we get 76v across two components in series across a 10v source?
The Vectors
The vectors in a series LC circuit.
The answer is clear when we look at the voltage vectors in this circuit. They are shown to the right.
Since this is a series circuit, the current is the same throughout the circuit. With no circuit resistance, there is no resistive voltage, so we simply show the current vector in red, at the reference phase angle of 0°.
We know that voltage leads current in an inductance, so we show vL at a phase angle of +90°. We also know that voltage lags current in a capacitance, so we show vC at -90°. And this gives us our first clue as to what is happening in this circuit and how we can get both vL and vC to be higher than the source voltage: they oppose each other, and at least partially cancel each other out. It is the difference between these two voltages that must match the source voltage, and sure enough, 43v - 33v = 10v.
RE: Hydrogen Fracturing Process Memo WFC 420
_________________________________________________
____________________________
Stanley A. Meyer 1 - 3
LC Voltage
The voltage across the inductor (C) or capacitor (ER) is greater than the applied voltage (H). At
frequency close to resonance, the voltage across the individual components is higher than the applied
voltage (H), and, at resonant frequency, the voltage VT across both the inductor and the c:apacitor are
theoretically infinite. However, physical constraints of components and circuit interaction prevents the
voltage from reaching infinity.
Modify message
Yes, voltage step-up only helps if the water molecule disassociation happened by electrostatic force, which would be making use of reactive power. With normal electrolysis even a parallel resonant circuit wouldn't help (normally steps-up current) because in a plate capacitor with water in between the current-leakage through the water can be modeled as a ohmic resistor in parallel.
ExactlyENERGIZING WATER MOLECULE COMPOSITION
www.hydrodrive.co.in Hydrogen bonding of water molecules provides unique solvent with properties essential to many physical, chemical, and biological processes. Hydrogen bond, the faint force between hydrogen and the more electronegative oxygen, is known to have vibrational phases that may be excited by numerous forms of energy transfer.
http://www.hydrodrive.co.in/ENERGISING%20WATER%20MOLECULAR%20COMPOSITIONS.htmModify message
Here is the next best piece of info I just found I think everyone will like.
Here are a few words from it.
CHARGING MECHANISMS 43
a back-emf is built up that cancels the original field of the contact
potential across the plates, at which point the flow of ions ceases. A
potential equal to the contact potential will now appear across the
switch and a situation such as shown in Fig. 21b will be reached.
The presence of ions between two electrodes of dissimilar materials
and their ability to generate a steady current is nothing less than a
galvanic cell. The primary source of energy is the ionization agency
which might be radioactivity or cosmic rays as in the case of our
ionized atmosphere. Ions are also produced in liquids where one or
both electrode materials might slowly go into solution in the form of
ions. The dissolved ions supply the energy that drives galvanic
currents through circuits and usually at the cost of the lower work
function material itself. A typical example is the flashlight battery or
dry cell. Most charging processes involving ions are electrochemical
Electron Extraction Circuit
http://peswiki.com/index.php/OS:Radiant_...nna_System This looks to be a good electron extraction circuit... Something tells me Stans Drawings aren't always right , but close enough to see how it works.
