Thursday, November 13, 2014

Article Number: 9915


| From : KeelyNet BBS | DataLine : (214) 324-3501 |

| Sysop : Jerry W. Decker | Voice : (214) 324-8741 |

| File Name : CADUFAZE.ASC | Online Date : 05/22/94 |

| Contributed by : Joel McClain | Dir Category : ENERGY |



MAY 11, 1994


In looking at the presumed design of the Sweet VTA, (presumed as a result

of the lack of detailed information available) I have coined the term

"alternate depletion" to describe its method of attaining ZP energy.

We know from conventional transformer theory that a transformer will

reverse the phase of the primary signal in the secondary winding. This is

caused by the inverse relationship of EMF and CEMF in the core of the

transformer. Typically, the core is made of iron laminates, or some other

ferrous material. The Sweet VTA uses this principle in a manner which uses

the phase reversal to cause a cascase of energies.

The dual caduceus coils are seen as next to each other, which permits

inductive coupling, and within the field of opposing magnetic fields, which

creates a stress within the cores of the caduceus coils. At the crossover

points of each coil, the flux collapse is "assisted" by the stress field of

the core. The stress field, similar to a conventional electric generator,

oscillates the lattice structure of the copper wire, causing movement of


Energy "stored" in the stress field is added to the energy of the original

flux collapse, because it is "pushed" in by the opposing energy of the

other caduceus coil. That is the effect of reversed phasing, as mentioned

earlier. While one crossover field is collapsing, the corresponding coil

is expanding, which adds more stress field energy than that which was

originally "displaced".

This continues to occur at each crossover point. The displacement caused

by the "push" results in am imbalance in the stress field. As the process

reverses, and the alternate coil's field collapses, it is aided by the

"push" from the expanding field of the first coil. The current induced in

the second coil is greater than the current in the first coil, because the

"push" of the first coil is composed of its original energy, plus the

"push" of the first coil.

This continues to increase the energy at each crossover point, yielding far

greater energy at the output of the coils than that which was used to begin

the process. The energy is amplified through each winding in a cascade


Core saturation, normally undesirable in a power transformer, is required

in the Sweet VTA design. The power attained will depend upon the strength

of the cores. Power will increase until the core is saturated, and no

longer able to expand energy into the magnetic field.

Why does the field collapse at each winding? This is at the heart of every

caduceus coil. When wires are laid over each other, a capacitance is

formed, and the capacitance cancels the inductance of the windings before

the crossover point. This causes field collapse into the core, and then

into the next winding.

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A Tesla coil uses the same principle, in that a frequency is applied which

is resonant at the value of LC, causing the series impedance to consist of

wire resistance only.

From this, we can see that the current which is used to excite a caduceus

coil must also be resonant relative to the length of the windings and the

amount of crossover capacitance. To determine the appropriate frequency,

the volume of the core as well as a resonating chamber must also be taken

into account. The core is essentially a resonant cavity, and you need to

apply a frequency which will cause it to resonate.

Think of the core as a hollow cylinder, to which you will apply a musical

note until it resonates. The core density is irrelevant to resonance, and

applies only when considering saturation. Try using an ordinary "tin can",

opened on one end, and apply acoustic energy until you reach resonance, and

hear the energy "ringing" back at you.

Having determined the resonant frequency of the core, then add the windings

as if they were the holes in a flute, with a crossover at each "hole". In

other words, even spacing is not going to work. Each crossover needs to be

preceded by a length of wire which is calculated based upon the PHI

relationship to resonance.

The caduceus coil has to attain aggregate resonance before it can produce

an over-unity effect, so each of the seven crossovers is a whole note on

the diatonic scale. In other words, use alternate cube and square roots of

PHI (1.618) times the length of the previous winding to determine the

length of the next winding.

In this way, every winding is both a note as well as a harmonic of another


Both coils of the Sweet VTA must be wound identically, placed side by side,

and centered in the magnetic stress field. The primary for each coil

should apply a low level signal at the resonant frequency, and the

primaries should be 180 degrees out of phase with each other to aid in the

expansion and collapse of the flux fields.

Much has been speculated about the necessity of "tuning" the magnets, using

variuos methods which have been known to cause the magnets to explode. I

don't think that this is relevant to the design. The stress field is

merely reactive to the electromagnetic energy of the coils. However, the

size of the magnets and their strength is important.

The size is necessary so as to keep the flux fields contained within the

stress field, and the strength is a factor of the power which is to be

derived from the coils.

Think of the magnetically created stress field as if it were a guitar

string, first plucked, and then tightened to the next higher note. A

strong enough "string" will be able to "play" the entire octave without


Given these design parameters, the alternate depletion mode can be more

easily visualized. The primary coil applies the first note at the resonant

frequency of the core. This is picked up by the tuned windings as primary

and harmonic frequencies.

The flux field expands into the alternate coil as well as into the stress

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field. The phase reversal of the second coil "pushes" energy from the

stress field into the core and windings of the first coil, whose flux

collapse "pulls" out the field of the alternate coil as it is being

energized by its primary.

Each cycle of primary current will increase the potential of energy at the

outputs of the coils. As one caduceus "inhales" the other "exhales", with

the addition of stress field energy from the opposing magnetic fields.

This will only happen at resonance, which follows strict mathematical

rules. The input signal at the primary must be kept small to avoid

overdriving the VTA, which if the core density and magnetic strength are

adequate, will cause the circuit to lose dimensional stability.

Gravity IS time IN OUR universe, and as the VTA energies cancel the

quadrupole effects of particle spin energy in the electromagnetic field,

the VTA will begin to lose relative "weight".

It becomes caught in its own "warp field", and will start to rise. Further

power applied at the primary may cause the VTA to "leave" our subjective

temporal reality, and seem to disappear.

Although it is "lost", it continues to create temporal distortions which

are detrimental to the dimensional stability and therefore to the

biological health of persons who are within the distortion field.

With only a rudimentary understanding of the principles of electricity and

music, virtually anyone can create a "time machine" or "anti-g" device in

this manner, but the costs can be high if the machine loses stability. The

universe, for its immense and vast amounts of matter and energy, is in a

delicate balanced state.

One VTA lost in hyperspace can set up a chain reaction of events which will

cause the vortical "waves of creation" to become unbalanced, resulting in

the destruction of a galaxy. Locally, we would begin to see this

manifesting itself in polar instability, as the magnetic energy of the

earth itself begins to "feed" the VTA.

To avoid creating this chain reaction of events, the primary signal must

NOT be a function of secondary output power. The amplitude of the primary

excitation current must be fixed in such a manner as to avoid overdriving

the VTA.


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