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We know from Stans work and others that the water molecule is a polar molecule.
That being so, the water molecule can be put in motion using positive and negative electrostatic forces. In a microwave these forces are used to cause the water molecules to move back and forth at microwave frequencies, creating kinetic energy (HEAT).
We know the Steam Resonator is made from two tubes, one inside the other (Coaxial)
Tech Brief page 11-4
"Constructed in such a way as to allow a smaller tube to be placed inside a much larger tube having space relationship to allow water to pass there between"
Stan Meyers definition of the Steam Resonator
Tech Brief page 11-4
"Defined as heating water by alternate pulsation of opposite voltage fields at different pulse time-on periods"
In an experiment I was easily able to charge water with a high electrostatic charge using an ignition coil. The water was not grounded, nor was the plastic container that held it. After removing the coil the water retained it's charge, and the plastic container also had a charge. The static electricity shocked you as soon as you touched either the water or the plastic container.
Tech Brief page 11-4
"Water bath takes on an electrical charge when the rotational spin of the water molecule occurs..."
In the Tech Brief Stan mentions many times that the water molecule uses either a positive or negative charge to cause the water molecule to move. This causes a pulling effect on the water molecule. He later discovered that by applying the same polarity to both voltage zones at the same time he could also have a pushing effect on the water molecule, therby increasing efficiency.
Tech Brief page 11-5
"Singularly places either a positive voltage potential across both voltage zones and/or a negative voltage potential across both voltage zones....In doing so, electrical repelling forces now exerts a "Pushing Effect" onto the allready deflecting water molecule"
Basically, the steam resonator is made from coaxial tubes in which a positive high voltage or a negative high voltage is applied to both tubes at the same time, and in which the polarity is switched at high speed.
The Pulse Width, Voltage Amplitude, & Switchover pulse rate determines the rate at which the water is heated. (Stated in the Tech Brief page 11-5)
Then we read about the VIC switchover circuit which is what was used to switch the polarity applied to the coaxial steam resonator tubes.
That being so, the water molecule can be put in motion using positive and negative electrostatic forces. In a microwave these forces are used to cause the water molecules to move back and forth at microwave frequencies, creating kinetic energy (HEAT).
We know the Steam Resonator is made from two tubes, one inside the other (Coaxial)
Tech Brief page 11-4
"Constructed in such a way as to allow a smaller tube to be placed inside a much larger tube having space relationship to allow water to pass there between"
Stan Meyers definition of the Steam Resonator
Tech Brief page 11-4
"Defined as heating water by alternate pulsation of opposite voltage fields at different pulse time-on periods"
In an experiment I was easily able to charge water with a high electrostatic charge using an ignition coil. The water was not grounded, nor was the plastic container that held it. After removing the coil the water retained it's charge, and the plastic container also had a charge. The static electricity shocked you as soon as you touched either the water or the plastic container.
Tech Brief page 11-4
"Water bath takes on an electrical charge when the rotational spin of the water molecule occurs..."
In the Tech Brief Stan mentions many times that the water molecule uses either a positive or negative charge to cause the water molecule to move. This causes a pulling effect on the water molecule. He later discovered that by applying the same polarity to both voltage zones at the same time he could also have a pushing effect on the water molecule, therby increasing efficiency.
Tech Brief page 11-5
"Singularly places either a positive voltage potential across both voltage zones and/or a negative voltage potential across both voltage zones....In doing so, electrical repelling forces now exerts a "Pushing Effect" onto the allready deflecting water molecule"
Basically, the steam resonator is made from coaxial tubes in which a positive high voltage or a negative high voltage is applied to both tubes at the same time, and in which the polarity is switched at high speed.
The Pulse Width, Voltage Amplitude, & Switchover pulse rate determines the rate at which the water is heated. (Stated in the Tech Brief page 11-5)
Then we read about the VIC switchover circuit which is what was used to switch the polarity applied to the coaxial steam resonator tubes.
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