Author Topic: The scalar possibility ?  (Read 2455 times)

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The scalar possibility ?
« on: October 19, 2008, 00:31:28 am »
This is a quote from Tom Bearden in the 6th paragrah right under Scalar  Electromagnetics
and Weather Control

http://www.rumormillnews.com/cgi-bin/archive.cgi?read=38963


First, take two scalar potential beam transmitters, separated on the necessary baseline to form a beam interferometer. Let them interfere at a distance. Now in that distant interference zone (IZ), there is an ambient vacuum potential (spacetime potential, or spacetime stress). If the electrical circuit grounds of the interferometer transmitters are biased ABOVE the ambient potential in the IZ, then scattering EM energy (heating) emerges in the IZ. This is the exothermic mode of operation. If the electrical circuit grounds of the interferometer are biased negatively below the ambient potential in the IZ, then convergent EM energy (cooling) emerges in the IZ. This is the endothermic mode of operation.


After that , open your SMTB and look at figure 8-6 or actual page 8-13

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Re: The scalar possibility ?
« Reply #1 on: October 19, 2008, 02:47:06 am »
Lol wtf  is that liquid being pulled by the positive side ?

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Re: The scalar possibility ?
« Reply #2 on: October 19, 2008, 03:39:26 am »
In that example it's being pulled by both sides for they are using AC , but you get the same effect when using pulsed DC. Meyer used this design to capitalize on the capcitive/magnative field intesity that are inversly perpotional to each other. At the bottom of the cone the capactance is at it's highest, and at the top the capacitance is at it's weakest, and it's just the opposit for the magnetic field intensity. The magnetic field intensity is always  perpendicular to the surface of the capacitor overlaping surfaces so as it the cones surface shrinks the magnetic field gets more and more intense and the same amount of filed lines have to share a smaller suface area. This practically pulls the water apart as it is fourced to go through it. For when the water first enters it is hit with a very high capacitance and picks up a lot of extra charge, and as it goes up the surounding capacitance decreases and it is fourced to carry more charge than it wants to, at the same time it is being pulled on greater and greater by the increasing magnetic field intensity. End result water seperation with a lot less power put into the system, Meyer calls it greater fource yeild than heat yeild.

That would go to suport what kensisefilms found out on the effects of light in the WFC (Meyer's injectors) it will add photonic energy and increase the hho production, but the light has to be a coherent light source for a diffused light source seems to have little too no effect.

h2opower.

Ok i think i get it , great explanation h20.

Hey have you seen figure 8-9 ? there is a taper njector with a laser in it .