Usually most of us consider water to have three phases... Ice, liquid, and vapor. In this writing, I will offer another option that many will not consider but should be better understood for reasons pertaining to the writings of Stanley Meyer and possibly how he came up with the equations and terms he documented in his works. There is a fourth state of water that has very different properties than the usual three phases we are so used to seeing and interacting with in day to day life. Water droplets act much more differently in certain environments where the other three phases of water are not affected in the same manner. Consider the following...
By simply pouring water from any common container, we can see how water will tend to self ionize, take on a charge, and as a result break up into droplets. This is a well known phenomena that has been documented for quite some time. A popular experiment called the "Kelvin water dropper" shows how these droplets take on a charge as they pass through ambient air. We also can see these effects in nature in the form of thunderclouds. These clouds are made up of trillions of droplets that in mass, not only take on a charge but also form huge "Charge Separations" resulting in massive potentials often producing lightning. And as most of you know all to well from your personal experiments, lightning is a discharge much like an arc between two plates as a voltage differential builds between the them.
The reason I consider water droplets to be a fourth phase is to the fact that ice, liquid, nor vapor can take on a charge as tremendously as water droplets. No where in nature or in the lab can we see the same properties as droplets have with charging and discharging. You will have to come to your own conclusions as to why this is, for, I have not the time to explain it in full detail. I have tried several times in the not so distant past with failure. I just plain suck at writing stuff like this. Hopefully I can relay the information well enough for at least one of you reading this to make the connections as I did.
It is also well known that a Van de Graaff device cannot achieve high static potentials in a relatively humid environment. The reason for this is that vapor is most often directly in contact with earth ground allowing the charge to be quickly discharged to the ground plane. The same is with water as lightning does not pass through liquid bulk water as if it was the ground plane itself. Simple water electrolysis exhibits this same effect. We cannot acheive high positive potentials because the conductivity of liquid water allows the charge to dissapate to ground whether it is earth or virtual. Droplets do not posses this conductivity as the ambient air surrounding the droplets adds to the resistance and dielectric properties allowing a much higher potential to develop without any or very little discharge.
That's all I can write for now. I hope to add to this writing and maybe discuss if any choose to. Later, I will try to tackle other topics such as hydrogen bonds under voltage, resonant cavities, and resonant action within the cavity.
All criticism and comments are welcomed! Thank you!
Bubz (short for Bubbles, taken from the character in"Trailer Park Boys")
P.S. I guess that means I need to change my stage name to Dropz(short for Droplets?)