ZPEnergy.com - Longitudinal Electroscalar Radiation (LES)

Interesting exchange of ideas and experimental results on LES (from Sweet-VTA Yahoo list):

Dear Mr. Vlaenderen,
I have finished my experiment about divergent current as LES wave source. It seems that LES waves is truly exist, it can be detected by using a bifilar coil. There is one additional requirement, which is the divergent current must be in "standing wave" condition. Only in this "standing wave" condition the bifilar coil can pick the signal up. This makes a question about VTA magnet conditioning : how could the magnet conditioned to make such "standing wave" ?
Wicaksono

> Dear Wicaksono,
>
> I congratulate you with your results.
>
> Needless to say that I am very curious about
> your experiment setup, and the tests you have done.
> Maybe you are willing to describe how you make a standing wave
> of divergent/convergent currents?

Yes of course, this is a very easy to do process. In electrical
engineering courses it is known that improperly terminated electric
conductor will make electric standing wave if it is connected to
voltage source. To create divergent currents standing wave you only
need a circular shaped sheet conductor, with one electrode in the
center and one electrode in the edge. This configuration will make
divergent current, but to create divergent current standing wave you
have to use voltage source with half wavelength frequency equal to
sheet conductor radius. For example, if the conductor radius is 1
meter then the voltage source wavelength should be 2 meter, which
translate to 150 MHz frequency.

> My idea how Sweet conditioned his magnets:
> the magnet to be conditioned should rotate in an alternating
> conditioning B field. The rotation axis should be parallel
> to the B field direction.
> The combination of a rotation with velocity v, and conditioning field B,
> creates a "motional" electric field E = vxB, exactly according to
> Sweet´s theoretical outlines (just ignore the theories of others such as
> Bearden and Cat).
> This motional E field also induces polarization currents that flow
> into the direction of the rotation axis (convergent polarization current),
> or into the opposite direction (divergent polarization current).
> Therefore (in theory) also a scalar field is induced.

Alternative to rotating the magnet, is it theoretically possible to
substitute E field from magnet rotation with a radial E field (center
to edge) from DC voltage source ?

> The cooling effect in conducting wires or other materials could be
> a scalar field effect. A scalar field that acts on a charged particle
> is a longitudinal force. This means that the charge is accelerated
> or decelerated into its original direction of movement.
> This is in sharp contrast with the effect of a magnetic field on a charge;
> the force of a magnetic field on a charge is directed perpendicular to
> the original motion of the charge, therefore a magnetic field can not
> accelerate or decelerate the charge and only the direction of motion is
> changed. Therefore the scalar field can have a cooling effect (deceleration of
> charges) and induce also charge density waves of the conduction electrons,
> which is a 'novel' type of power transport.
> Charge density waves are subject of very modern research projects.
>
> In Tesla´s magnifying transformer (the Tesla coil) I suppose
> in the ball shaped condensor, that is attached to the secondary coil,
> a standing divergent current wave can be induced, depending on its
> geometrical shape.

Yes I agree with you, the ball electrode is similar to circular sheet
conductor, I hope Tesla put the wire connection in center of ball to
maximize the standing wave.

> Also, a small initial signal in a bifilar bucking coil can be
> amplified by a scalar field, and not by a magnetic field.

This is new for me, I have to make an experiment with this.

> Wicaksono, are you sure that a scalar field signal is picked up by the bifilar coil,
> and not an electric field signal?
> A capacitive coupling between bifilar coil and your standing-current-wave-device
> can also be an explanation for the signal in bifilar coil.

Actually I used an isolated transmitter - receiver setup, so electric
field coupling is negligible. But you are right, this must be
verified. I will verivy this with another bifilar coil which have
different wire length. If the signal comes from LES, different wire
length should make different result. If it comes from E field
coupling, the result should be the same for different coils.

> Regards,
> Koen

Wicaksono