Wave Forms

[Density sphere supplement]

Study of the complex E vector crossing top, with two square waves clashing near one frequency in the scalar coil.

Setup Picture

Scalar coil on center of Density sphere.Driven by two function generators with reversed phasing near 1.618 Mhz. E vector potential tap at top and bottom of sphere is run into one set of coils along the bottom coil ring. First coil is magnetic canceling and E vector adding, second coil is E vector canceling and magnetic aiding, while both are Torsion splitting. This setup is capturing the voltage gradient at the top of the sphere and routing it to the lower coils that tend to isolate it by providing one side high impedance to a lower voltage driver coil stage.
The scope is displaying a complex pattern of the waveforms present as Copper Electron shells interact on the three coils. All waveforms originate on the sphere.

The composite waveform is around 1.618 Mhz moving two directions through the scalar coil. On the sphere these combine to produce several waves passing through one another, showing resultant lower frequency waves appearing. These resemble a phase modulation along the incident waves moving top to bottom of the screen.

Scope time base lowered to show more pulses, wave forms are sine wave interactions.

Scope time base is raised to show the signal is really one trace with altered motion along the single wave, with the other waves passing through it.

Here the lower coils are now being driven by the top spiral coil capacitor effect. The wave form begins to resemble the spiral coil itself in form. One lead is taken from the spiral coil and the other from the spheres surface along one side. This is all that is driving the lower coils.

The top coil is adding a non linear wave shape to the spheres natural sine waves, and distorting the E vector potential to one side. This appears to raise the speed of E vector climb on the leading side of the waves growth, and retard its decline. We also see that the background peaking waves are eliminated and the output voltage has been amplitude modulated by this effect. Using two clashing driver coils we have extracted a lower frequency component from the sphere as a variable amplitude wave form. Pretty good for having no diodes or transistors, and no electronic mixer stages.

Scope here is 5 volts per division showing a 30 volt peak envelope. All this being transferred from the Sphere above from only a spiral coil at the top, to the spheres surface at the center. This is definitely a capacitive E vector potential effect. It clearly shows that within the operation of a scalar canceling coil, the voltage is not canceled off the ends but becomes an over voltage tapping point.