Dual Cones

If one can understand what is happening in an electrical system, a build is more likely to be successful.
Some of this information is from Bashar, a well known channeler. Some is from current electrical physics.
Information from Walter Russell, Tesla, Hammel, and Wilbert Smith is also referenced.

Document date 1 / 30 / 2014
Notes have been added per experimental progress 6 / 17 / 2014


Polarity


[Added 6 / 17 / 14]


Coils 2

There are two polarity issues to consider in Dual cone construction, represented in the following chart.


Polarity Chart

Polarity Configuration One


Left side of the chart shows the first construction model I used. It has not been very responsive to "singing" electrically to my disappointment.
It has been more responsive for meditation, then for power production.

To clarify, it needed to be attempted solely for the "experimental proof."
The two cones fields repel at resonance. It is not prone to "self oscillation" that I can detect.

Both magnetic fields are in phase.
Both electric fields are in phase.

[Magnetic Repulsion and Electric Repulsion]
[As the Electric field expands, the Magnetic field also expands in space.]

Polarity Configuration Two

Right side of the chart shows both cones wound in the opposite wind direction.
The two cones will then combine to produce torsion field warps on each end.
This magnetic polarity is similar to a Rain Maker base, with one pole turned inwards, while the Electrical polarity remains at 90 degrees to it.
This is how Walter Russell laid out his polarities. This will be my next build.
Suffice to state, I can predict this configuration may effect the weather if pulsed with imbalance.
However having both ends of the system inverted should create a perfect balance contained within them at relative close range.

The magnetic fields are 180 degrees out of phase.
The electric fields are in phase.

[Magnetic Attraction and Electric Repulsion]
[As the Electric field expands, the magnetic field contracts in space.]



Cone Builder

Experimental data from Build One
VOP = 0.356

For the wire and bonding agent I used.
I have slowed light velocity to 35.6 percent of it's free space velocity.
My cone form came up approximately one coil loop short at the base to hit the 333000 Hz target.
I will have to extend the wood form at the base by at least 2 mm.



Download ConeBuilder.ods here:
Cone Coil Builder Spread Sheet
[OpenOfficeOrg .ods file]

Screen Shot of Cone Coil Builder

Cone Builder Screen Shot

The "Cone Coil Builder Spread Sheet" is all you should need for design of a dual cone system.
You must first know the wire diameter, it's velocity factor VOP, and the frequency you want the cones to oscillate at.
The wire is measured for diameter, with a caliper, outside the insulation, for cone building.

Enter these in the Input area [center 3 violet boxes]
The calculator will then output all the dimensions for wire length, and cone sizes.

This calculator is set up only for 33 degree cones, and all measurements are in meters.
Divide by 100 to get cm, or by 1000 to get mm.
Release  1B below also has conversion to feet, and a common wire chart.
 
Also note these are theoretical dipole models, and in a cone coil the lengths may be reduced by some factor due to capacitance between the two coils.
They are intended to get one into the ball park, and then shorten the coils as necessary to hit the exact frequency desired.

Use the data given above measured for the first build, if the same wire type will be used, and use the VOP found experimentally as well.
.

Design Aids

For .ods files use OpenOfficeOrg to run these spread sheet.
 
ConeBuilder_1B.ods
This spread sheet for designing a 33 deg conical coil system.
Added wire chart. Added conversion to Feet for wire in the US.

ConeBuilder_2A.ods
This cone builder adds a reverse calculator, to find a wire gauge that will fit
on a preexisting cone size, for a given frequency.

ConicalCoil_33_1.ods
The spread sheet for monitoring each turn of the coil as it builds and making comparisons.


PDF files can be downloaded or read directly

Velocity Factor pdf
Shows ranges of VOP for PVC wire insulations.

Transmission Line Characteristics pdf
Shows wire VOP can be calculated from the dielectric constant of the wire insulation also.
   


Wire Layout Calculations Section


Should the wires on one cone touch?

This is the first question many have asked. There is a technical answer, from the past knowledge base.
Capacitance is a function of the charge over the voltage. The capacitance between each turn will diminish with the charge differential, or the voltage between each turn.
 
In other words to have a problem from capacitance, there must be a voltage differential between two conductors which is large enough to cause a field leak across the dielectric of the wires insulation into the next wire loop.
As the dielectric will act like a capacitors, will this cause a problem on the coils between the turns on the same coil lowering its resonant frequency?

At 333000 Hz, with a dipole wavelength of ~ 694 feet , the voltage between each successive turn will be pretty low along the antenna system. This is because the wavelength is so very long compared to the wire loop diameter.

If we were working the 28 Mhz bands like say a 10 meter wavelength, now at 14.25" each coil loop is a sizable part of 1/4 wave, one may have to separate the turns up to 1 / 4" , as between successive turns of the coil, one may expect to see 100's or even 1000's of volts developing.

Below 500 Khz, it is not customary to have large spacing gaps between the turns on the long coils. If you did, the coils would end up being excessively long indeed.
Thus my own answer to this, a big Yes. It is not only ok to have the insulated wires touching on the same coil, but this becomes an excellent way to calculate the necessary cone size.


Surface Area of a Cone

The wire will completely cover the surface area of the cone. Thus both will share the same area footprint.
First there are two formulas we must comprehend. That of calculating the area which the wire will be covering.

Area Calculations

Area of a circle = pi * r^2    [pi times the radius squared]       If we double the radius of a circle, the area will be 4 times as large or 2 squared x.

Area of a cones surface =   pi * r * s     [s = side length]         If we double the radius r of a cone, the side length s will also double, and the surface area will become 4 times larger also.

Noteworthy that at the center of both coils 1/4 of the wire will lay inside and 3/4 outside for both coil types. 


Cone Coil Form Calculation

Given the wavelength or frequency of our cone system, we now desire to build a coil form to hold it on.

Wire area = Cone surface area            Area of a wire = dia * length
wd = wire diameter
wl = wire length
cr = cone radius
cs = cone side length
ch = cone height

Given a wire length and diameter, find the radius, height, and side length of a cone to wrap it on for construction of the coil form, at 33 degrees cone taper.

Wire area = Cone surface area                [Now substitute in the formulas for each]
wl * wd = pi * cr * cs                             [area of the wire = surface area of the cone, now divide both sides by pi]
wl * wd / p i =  cr * cs                            [cs = cr / sin(16.5 deg)]  for a 33 degree cone. Substitute this now for cs]
wl * wd / pi  =  cr * cr / sin (33 deg)       [multiply both sides by sin(33 deg)]
wl * wd * sin(33 deg) / pi = cr * cr         [take the sqrt of both sides]

cr = sqrt [ wl * wd * sin(16.5 deg) / pi]   [we now have the cones radius]
cs = cr / sin(16.5 deg)                             [we now have the cones side length]
ch = cs * cos(16.5 deg)                          [we now have the cone height]

This is the formula used in the Spreadsheet  ConeBuilder.ods

Formulas

Given the wire length and diameter now find the cones dimensions.

Cone Radius = square root of [ wire length * wire diameter * sin (16.5 deg) / pi ]

Cone Side Length = Cone Radius / sin(16.5 deg)

Cone Height  = Cone Side Length  * cos(16.5 deg)


For other cone angles, substitute in sin and cos for 1/2 the cones inner angle.   sin(1/2 cones angle deg)   cos(1/2 cones angle deg)


Dual Cone Powering System - General Expectations

Two insulated copper wire cone coils are constructed that pass through one another at the center. The small end is wired directly to the large end on the same side, so they are connected in parallel. Both coils are wound the same direction CW in build one. When pulsed with a short square wave, copper normally has a decaying ringing. If the proper ratios couple vibration, the ringing will sustain longer. If a self sustaining field bubble forms, the ringing will continue forever also powering a load. Note that when the coil is pulsed, the magnetic field poles will be the same on each end of each coil, causing a magnetic repulsion between the center and outer ring of each. This is for build number one anyway. As the coils ring with EM, the magnetic poles will flip back and forth becoming a generator at some resonance frequency.

Where the EM velocity delay of the coils wire length becomes equal to or harmonically coupled with 1/2 of the AC period, the two coils will begin to oscillate near the center where they cross. On the ends, there is only expected to be standing voltage nodes for an antenna. If the central capacitance is high enough, the unit will becomes an oscillator and the voltage on the ends will then begin to reverse.

On a dipole antenna at resonance one side will have a standing positive charge and the other side will have a standing negative charge. As the longitudinal wave bounces end to end, the voltage will self sustain and appear as static at every point on the wire.  In build one this was found not to be the case and the system acts more like an oscillator then an antenna.



Dual Cones Diagram

Drawing is to scale for a 33 degree cone system.
D = Diameter of the coils on the large end, and H is the height of the cone. The dual cones must be built in 3 or 4 pieces and put together so that they cross evenly at the 1/1 ratio point, [and also at the 90/1 ratio point, if a self sustaining field bubble is the goal.] The 90x ratio was discovered to be approximately three turn inwards of the outer ends.


Electrical Equivalent

At resonance 1/4 of the wire or 1/8 of the dipole resonant wavelength is on the small end of the cones, and 3/4 of the wire or 3/8 of the wavelength is on the large end of the cones.
One can then view the two sides as 1 to 3 ratio transformers, and the crossing point in the center as a capacitor.

Equivalent Circuit

You can see it is likely that multiple frequency waves may be standing or oscillating on the system related by some function or ratio.
In build one these frequencies of resonance were not linearly harmonic at all as expected for an antenna.

Both Cones in parallel
~340 Khz

Single Cone disconnected -
~ 222 KHz
 
Cones in parallel, super resonance peaks.

1.582 Mhz
2.2 Mhz

These create extreme over voltage waves that appear on the cones opposite tips. The frequency ratios are irrational or inharmonic.
They can also be injected as scalar canceling wave forms from the external blue center coil, and or from connecting only one wire to the coil.

This is totally unexpected, as a dipole should be resonant on all odd harmonics, 3x 5x 7x etc...
and a cancelled magnetic field should not produce a secondary voltage through a transformer, by conventional expectation.


33 Degrees

Cone Jig Photo

After feeling a wooden cone construction of 33 degree, I revisited this section to look more deeply, for a solution to what I was feeling from the cone.

33 Degrees is an infinite division of 12x sub octaves of the circle. Each smaller octave is added to the last as a 111.... fractal.

See  111 Fractals  for a detailed explanation. At the bottom you will find the 1.09090909 ...  derived from the 12x octave system as a 1 + 1/12 + 1/144 .... summing fractal relationship.

12 x octaves are the Aetheric Mediums fractal propagation pattern.
This was shown to be the case in fractal testing of the distance from earth to moon. Many fractal divisions were tested, only 1 / 12 x octaves resulted in noticeable power effects.
See   Gravity Rods  for a description of the experiment, to prove this to yourself.

Summary

In alternating current, electro magnetic fields, the circle represents a cycle, or a full rotation, of the electro magnetic field in an Alternating Current wave. You can think of this as "time" for a field. Wilbert Smith refers to it as the Tempic field.

The circle is cut up into successive powers of  1 / 12  then one from each magnitude is added together to create a higher frequency fractal resonance on the entire mass. A 13x at every layer.
When you add 1 / 144 to 1 / 12   it equals  13 / 144.  The prime number [13 segment wavelength counts] cannot down shift.
It will then vibrate up 13 segments at the 1 / 144 wavelength,  it will not down shift to the 1 / 12  wavelength. All the mass will vibrate faster, and that is only the first octave of getting smaller by powers of 12.
The 33 degree cone keeps doing this to infinity, to make the whole field vibrate at increasingly smaller wavelengths by steps of 1 / 12 x.

Weight into Speed
The 13x fractal is "sensed" to make matter feel lighter, as it accelerates the velocity of vibration through the whole mass of the tuned element. The field around the matter will become more dense.

The derivation formula:
(360 / 12   +   360 / 144  +  360 /  1728   +   360 /  20736   ........ to infinity ) =  33

360 / 33 = 10.90909090909090909090 ...  to infinity

Using this fractal division on a circle represents a [time division] of a cycle, growing infinitely shorter, yet still coupling energy into our system by the 12 x harmonic octave structure of Space Time.
The two cones then represent infinity pushing on infinity in opposite direction.

Field Alignments Diagram

The voltage will be operating on the two coils, at 90 degrees to the magnetic field that is rotating under it as the current reverses on the dipole. The angle of the wire wraps along the 33 degree incline to the EM fields, will allow ~infinitely small vibration wavelengths to pass between the coils loops, to the degree of accuracy we can manage construction of the angle. On each rotation of the electric field on the coil, it will meet the magnetic field of the wrap next to it in rotation 33 degrees sooner then field coherence as a pole, at 90 degrees to it's loop plane, as it would on a normal coil.

This energy that couples between the coil wraps, in a harmonic tempic or velocity fracture of infinitely small chunks of time, will propagate the cones angles. It is believed this will increase the density of  space / time along the wire of the coil, and thus boost the magnetic and electric fields as well. Since only the magnetic field is in motion on a resonating dipole, it will be most effected by the time dilation or acceleration.

33 degrees allows us to deal with infinity as a whole number.

The uniqueness of a 13x grid is that the segments can flip polarity as the resonant element is moved through space.
In our case it is the magnetic field in rotation that is flipping as the current on the dipole reverses.
See   13x Earth Grid Ruler    to test this for yourself.

I cannot imagine how Walter Russell could have known any of this at that time in our history, early sixties, and I do not see any hints of the angle he used on his cones either.

Refraction

Refraction

This is more what Walter Russell gave us. If you picture the inner cones above filled with water, or even glass, what we have is a prism effect, first splitting the light beam into various colors inside it, and then causing them to cross one another up the center line of the cones. There will be a very intense crossing of the energy up this center area.

If we follow down from the inner tips, we see there is a reversal side to side of the image above, and as well a turning the inside out and the outside in, as well a reversal of the rainbow colors.
It is at this center line Russell shows the elements of matter forming, although he does not show it as a refraction, it gives similar result.

Refractive Index = 1 / VOP Index
The two are reciprocals.
Refractive Index changes with frequency, causing the rainbow effect.

The VOP index of water for RF electromagnetic energy is .11 c
The electromagnetic refractive index of water is then  9.090909090909......

For visible light the Refractive Index of water is 1.33
The VOP index is then .75 c


Center Coils

In document  Dipole   it was shown that  the RMS points of the 2 dipole coils would intersect at the center of the two cones. This is likely the best point for power to be extracted from the coil system.


Voltage Nodes


If desired, an exciter coil can be used with this resonator system, with it's diameter adjusted to be much larger then the ends of the cones, in order to decouple it's field from any energy coming back out of the system towards it, to fully eliminate back EMF spikes. It can be driven with semiconductors in this case. A start up tickler coil system, which can be powered with batteries. It must be located at the planar center of the dual coil system so as not to disturb the resonant frequency of the coils.

An output coil can then be set very near where the cones cross through one another, the RMS point, to capture all of the field being output from the cones and set to any voltage desired by adjusting the turns accordingly. A volts per turn can be measured and then a calculation done to set up any voltage output desired, as a last step of the project. In theory this coil would have to be very thin to maintain balance of the Dipole coils, however practice will show us how wide we can make it.

The system should generate it's own feedback, as a dipole in space, resonating with the background Aetheric field at 333 khz. and "sinking" into the Aetheric medium, as it's power source.

If you want the voltage to oscillate instead of only the magnetic field, supposedly a Joe Cell geometry "capacitor" can be connected between the two outer ends of the coil system. This is untested at present and only theoretical.



Calculating Wire loop Diameter Increase per Turn

Calculate the wire length on a cone coil per turn.
 
Wire Diameter Incline Drawing

At a 33 degree conical taper, what is the difference in wire loop diameter and circumference between each loop given

WDx = Wire Diameter [including insulation]
CD1 = Coil diameter of the first loop
CD2 = Coil diameter of the second loop

CD2 = CD1 + ( 2 * Wdx * sin (16.5 Deg))
Coil circumference = CDx * Pi  [for each loop of wire]


A Spread Sheet to List Each Turn

For theoretical consideration, it may be handy to have a spread sheet that shows exactly where each turn will land, with all the dimensions up to that point on the coil.
For our spread sheet , we will see how many turns, and how much wire we need to build a 90x coil, to achieve a self sustaining [A field] loop on each end of it.
I will first select some wire that is 2 mm in diameter with the insulation on it and lets see where the numbers take us. You can download the spread sheet from here, and save it to you computer, then open the file using OpenOfficeOrg.

ConicalCoil_33_1   [OpenOfficeOrg file]

The clip below is from an older version of the file above, so it will look a little different, missing some of the other parameters.
3 clips are shown from the spread sheet, which has some 472 lines of data down the left. Each one calculates the coil diameter, the Circumference, and the running total of wire length used, then compares it to the 90x Coil diameter I was shooting for.

1 - The top clip shows the starting point using 2 mm wire diameter, and the first wrap will make a diameter of 6 mm center to center of the wires.
2 - The middle clip shows the 1/2 way point or 1/2 the total turns to hit this target diameter of 90 x 6 mm = 540 mm or .54 meters.
3 - The bottom clip shows the end point where we reached a 90x tempic field "loop around" and the final dimensions of our large end of the cone at .54 meters diameter.

The stepping formula is given above at the beginning of the calculation section. CD2 = CD1 + ( 2 * Wdx * sin (16.5 Deg))

Spread Sheet Clips

Important thing to notice here is that, at 1/2 the turns, the wire length is 1/4 of the total wire length.
1/4 of the Dipole wave will be on the small half of the coil. 3/4 of the Dipole wave will be on the large half of the coil.



Wave Phasing Section


Phasing Diagram

Nodes Drawing
Voltage can be placed on each side, +V on one side and -V on the other side to start the oscillation.



Phasing Spreadsheets

Phase.ods

Here is a spreadsheet showing Voltage, Current, and Power distribution, for a basic Dipole at resonance, for every 5 degrees of rotation.
It has the forwards wave on the left side, and the reflected wave on the right side, which will come across the same wire 180 degrees later in the opposite direction to complete the cycle.
Note: Voltage is positive on the top of the spreadsheet and negative on the bottom. Current however runs positive through the first 180 degrees, left side of sheet, and then at 180 degrees it reverses, right side.
This is the same distribution you will find on a Dipole antenna. I have set up 100 Vac at 100 Amps, to show more clearly the phase relationships.

Phasing Clip 1

See the bottom two lines I have pulled out, and note what is happening with the voltage at 135 degrees compared to 45 degrees. This is at the center of the dual coil system, where the cones cross.
It is also the point of RMS, or maximum power. These two points are at the center of the dual coil system, and now see that the static voltage from each side of the dipole is also present there.


Phase per Turn Spreadsheet


ConicalCoil_33_3.ods

On this spread sheet I laid out two coils to actual size for 333 Khz resonance. The diameter of one is getting larger while the other is getting smaller.
Way off  to the right side I show the Voltage, Current, and Power of each wind, at resonance. I am only showing the first 180 degrees of the wave. The other half would be similar to the last spread sheet.
You can now compare what happens as the coils pass through one another, and how each will effect the other, at each turn.

The wire length on the cones must be carefully measured for a resonance, and cut or pruned until perfect. As much as one turn off, can cause the small end of the cone to flip voltage polarity prematurely, in real time.

I had to prune the last turn in order to get the small end of the cone polarized correctly. This extra length can be used to cross over to the other cone, so the two are exactly in phase on the reflected wave.


First a clip from the top left side of the spreadsheet. Note the circumference grows much faster for cone 2 on the right, the large ended coil.
Also note the phase is already different due to the wire loop length being longer.

Clip 1 Phase Per Turn



Now a clip from the bottom left side showing both coils come back to 180 degrees phased perfectly. I have to add a short turn at the bottom, turn 344 is not a full turn.

Clip 2 Phase Per Turn


A clip from the top right side of the spreadsheet, showing the forwards 180 degrees of the wave down both coils.
Current, Voltage, and Power are calculated for each turn.
Note the power jumps on coil 2 [large end] much faster then on coil 1 [small end].

Clip 3 Phase Per Turn



Clip is from the center right of the spreadsheet, 45 degrees rotation for coil 1 and 135 degrees for coil 2. Note this is peak power for both coils.
Note the current is positive for both coils, but the standing voltage has flipped polarity. This is where the two coils meet at the center. This will create a capacitive coupling between the two coils.

Clip 4 Phase Per Turn


The last clip is from the bottom right of the spreadsheet, showing how the two waves come back into phase perfectly.
Note the power is now much higher in  coil 1 [Large End].
Current is still positive on both coils, but voltage comes back into phase negative on both coils.

Clip 5 Phase Per Turn


The next set would show the current reversing, for phase angles 180 to 360 degrees, and a similar thing happening, in reverse direction between the two cones.

I learned from playing with this spread sheet that if you are only one coil wrap over the correct resonance on the large end of the coil, nearly 1/4 of the small tip can flip voltage polarity on you.
This means that during the build, you must have a way to measure the coils resonance frequency accurately, and then slowly prune to actual resonance, or on the first reflection of the wave, you will start to get off on the voltage nodes.


Conclusion

We have taken one half cycle wave, split it into two parts, and brought it together at the center to operate on itself at 90 degrees out of phase. I believe this may correct the power factor, under load, without using any capacitors!
Capacitance is built into the insulated wire, as the dielectric constant of the insulation, and the charge across it. We must also know the correct velocity factor of the wire in order to even start, so we can obtain reasonable cone dimensions.

Resonance with a load, is quite amazing to me. I hope it works that way in reality.



Power Factor Considerations

We pulse the coil system with positive voltage on one end and negative voltage on the other end. This is right on the voltage nodes for the Dipole, and if it generates a resonance they will then maintain that charge permanently.
The coil system oscillates at resonance, with a load across it also, via a coil around the center, where the RMS balance point is presented.

With an inductive load on the coils, the current will lag the voltage by 90 degrees phase angle and alter the power factor.
The voltage waves start to move towards the center via the two coils in parallel. The one traversing the small end arrives at the center in 1/8 of a cycle.
The one traversing the large end arrives at center in 3/8 of a cycle. They arrive 90 degrees out of phase, each having voltage and current also 90 degrees lagging and out of phase of themselves, creating 4 waves that will interact.

Power Factor 1 Diagram


Self Powering Loop

The drawing shows clearly, that as the waves continue to oscillate, two of the fields on opposite coils will scalar cancel and two will resonate between the 4 waves converging.
The two waves that scalar cancel will drive the vibration wavelengths of matter shorter, energizing the higher frequency components of the 33 degree cones. Aetheric medium shoots up in field density [creating tension], at the center.

The other two that resonate between the coils, will increase even more from the tempic field increase, and power a load, now in phase resonance, and with power factor much closer corrected!

As an inductive load is applied from the center of the system [not tunned to resonate], it will cause the current to lag the voltage on both the coils. Because at the center these two waves are originating in opposite sides of the coils the phasing will pull out of resonance in a direction to compensate, and tend to correct the power factor draw, keeping it much closer to resonance.

Because both voltage polarities are present from the two dipoles at the center, there will be twice the magnetic flux as in a normal dipole.


Comparing Pancake and Cone Coils and Inter penetration


Wire Lineup Diagram

It becomes obvious, we can now add 3.5209 more turns on the cones surface, then on the pancake coil at the same radius.
Ratio is 2 / 7.

Inter penetration

This means also that at the center of our dual cone system where the wires must cross through one another, there will be a space of at least 3.5 wraps where the two coils cannot share the same space.
At this point we must wrap along the same diameter, and cross over the wires at a center point.

Crossover

Here I am testing two methods of winding crossover points with my 2 mm wire.

Crossover Photo

For ease of viewing, Red is underneath on the right and on top on the left in each coil above.
The upper method shows better capacitance coupling between the wires.


Bashar Design

"The smallest workable size for the dual cones."

Bashar Design

This is the most accurate drawing of Bashars descriptions I have located. Thanks to <donsmac@gmail.com>.


Now using the bottom section of spreadsheet ConeBuilder_2A I solve for a wire size to fit this cone.

At the bottom left, I added an inch to meter conversion for the Diameter of the cone in the above drawing.
Next I set the cone diameter input equal to it and the wire diameter appears on the 3rd line over near the bottom.

Bashar Design

Note the wire comes out smaller then 26 gauge on a cone this small!
It may be workable, however I have no idea where to obtain 28 gauge copper wire with PVC insulation.
Wire any bigger may not fit on a cone that size and resonate at 333Khz.

[Wire testing results showed these calculations can be off as far as 50 percent, so obtaining the wire and testing it for VOP seems a necessary step.]



Section - Powering from the Aetheric Medium



Vibration Feed Back Looping

Opposing Scalar pressures at the center of the Antenna, will start an upwards run of the mass fields vibration frequency on the cones by octaves of the powers of 12x.
Where the "two elephants butt heads" the energy is not lost, it merely goes upwards in frequency on all the matter in the pressure zone, becoming radiant outwards.
The 33 deg angle of the cones will reclaim this energy delivering it back into the magnetic field in rotation, using platonic form vibration around the coils loops off the polar ends of the magnetic field.
Only a vibrational feedback loop can become self sustaining. Both electric and magnetic fields have too much loss in our technology to self sustain on their own.


VOP

Velocity of propagation [VOP] is a main concern in designing a system to take energy from the time or tempic field in a space time antenna.
The velocity of the EM wave end to end of the antenna system will be varying with distance from center. It is our goal to have this come out at 333000 Hz.

The VOP is a ratio of the [wave velocity / light speed] in free space. Light velocity = C or c in Einsteins equations.
Bare copper wire has a VOP of .97. A wave traveling down it, with no material near the wire for 1 / 4 wave around it, will move slower then light velocity by that product. [97 percent of C]
Thus a copper wire resonating dipole antenna will have to be cut a little shorter by .03 percent if bare copper wire is used.
PVC insulated wire ranges between .33 and .58 and in a thick coil can run down as low as .19. It must be measured to know it's actual VOP as few manufacturers will list it because it is not intended for antenna work.

The velocity of a wave oscillating on the dual cone system will be changing from end to end of the cones, as the distributed inductance along the wires will change with the distance between the two coils at each turn by the square of the radius.
VOP will be lowest at the center of the two cones where the wires are touching and out of phase, between the cones, and it will be highest on the ends of the cones where the wires are separated by greater distance and in phase.
The oscillations will spend a little more time at the center of the cones then on the ends. There will be a tempic field gradient along the coils. The outer ends of the coil will pick up the Radiant energy, and it will be delivered to the center where the field is moving much slower, and is more dense.


Capacitance and Inductance

At each turn outwards the capacitance will vary between the two coils, as will the inductance per foot.
The inductance is directly proportional to the cross sectional area of the coil (A = pi*r^2).
The capacitance is the charge between the two coils wraps / voltage.
Also the impedance along the line will change by the natural log of the ratio between the diameters of the loops.

Capacitance = Charge / Voltage. We noted at the center of the coil system at resonance, due to a phase shift, the two voltages will be opposing and the charge between the coils will be maximum. On the ends of the coils the charge will be equal between the two coils as they are directly shorted together and both in phase. With capacitance the voltage will tend to lag the current more, at the center of the coil system.

Inductance is proportional to the area inside the wire loop. Inductance will be equal where the two coils have the same diameter, and will increase in the larger coil as it decreases in the smaller coil ends by the square of the radius * pi. With inductance the current will tend to lag the voltage on the large outer ends of the coil system, where there is little or no current flowing.

Spiral Cone Inductance Formula


"A Field" and Vibration Fractals

Relationships

This URL is a little background on how the self sustaining vibrational field on concentric Stainless Steel tubes was discovered, and finally recorded.
Without using a lot of hocus pocus, or meditation, yet will result in the same types of energy the "cell people" are playing with, some of which have managed to run engines of over a hundred horsepower, without any conventional fuels.


Machines of Mass Vibration Science

Here is another brief demonstration of setting up a "self sustaining vibration field" you will likely be able to feel, for a large area around it, and will continue until the tubes are separated.
How to use a caliper is also located in that group of introductory documents, if you would like to work on actually feeling the vibrations yourself.     .


Quadrature Concept and EM

Wilbert Smith on the Quadrature Concept and the Field Forces

This URL for study of the field forces, including the New Science of Tempic field concept, and showing it is already inside the EM field as what we now call the vector of motion. Motion as a field force, when vibration or spin is added to it.

To Summarize:

A voltage or electric field, is based on a force that involves a planar surface, or an area. This is opposed to a field that occupies a volume of space or a magnetic field. You can call it the electrostatic field if you like. The cone surface is covered with a wire coil and then energized with a voltage end to end.

The cone project sets up the surface area of two cones to cross one another at the center so the distance between the two surfaces or areas is changing by an angle of 33 degrees. The main field force in operation, with enough field reach to operate between the two cones, is the E field, [electric field] or the voltage, operating like a warped capacitor. This field does not stay inside the wire, it is radiant around the wire falling off as the distance squared law.

The velocity of light as it enters the wire will be slowed first by the insulation materials VOP, and next by the distributed capacitance and inductance operating between the two cones.
The velocity of the wave will thus change, getting slower at the center of the cone where the capacitance coupling is higher for each turn. It will become faster at the wide ends of the cones where the capacitance is less and the distance is greater between the two cone surfaces.

There will be a light velocity gradient as the energy oscillates end to end of the device. The electric field at the crossing point will be the most dense. Approximately 0.2 VOP , if all the center wires converge closely.
What is the distributed capacitance between each turn of the coil system with the turn inside it, and what is the light velocity of propagation [VOP] at each turn? A spread sheet can be made to calculate this for each turn of the dual coil system if desired.

Suffice to state it is not an easy task to determine the resonant frequency of the cones where the VOP  is varying down the wires. We can easily calculate the outer range of this frequency by comparing with a standard multiple layered coil against an open wire antenna. VOP of a coil of wire 500 feet long, on one reel is 0.1669. VOP of an open wire antenna is the VOP of the wires insulation used.
Thus we know the range will fall between ~.1669 and ~.58 for PVC insulated wire.
This is too large a range to design with, and may change the wire length by a factor of 0.4 .
It may be easier to simply measure it after the first build.

If we add  loading coils at the center of the system, to extract power, they will again lower the VOP in that area as the field crosses through them from the increases of wire and insulation present in the waves path.


Ratio and the "A field"

My current theory, is that the "A field" of the quadrature electromagnetic field, should interact with itself in a similar way that Resonant Fractals operate.
There are now several known ways to set up a self sustaining vibration on "concentric tubes" in VCT work, in the above examples.
Once programmed into the stainless steel tubes, these vibrations will continue until the tubes are taken apart and can no longer feed one another.

Cells with 1/4 inch spacing can fracture water with far less electrical energy, as a standing vibration, based on  Pi / 2 ratio, adds a tremendous amount of energy to the water, as a vibration, or a "vibration field".

Thus a new spread sheet to show the ratios of "A field" distance between the two coils and compare where the self sustaining vibrations may occur between the two cones. If the added vibration from these locations supports the "A field" of the EM wave, it should add power to the electromagnetic field as well. The ratio between the diameter of the two coils should be directly related to the "A field" energy of each one, and where it crosses certain ratios it should tend to create self sustaining vibration bubbles or gravity warps in the space time medium, as it does in VCT work.

ConicalCoil_33_4.ods

Top Right View


A Field Top

Note all we are doing here is noting the ratio between the two coils diameters.
I have highlighted some of the known locations in pink, where energy will be exchanged between the two fields and will couple as a vibration to join or link them together.

The 90x fractal connection was discovered in the Hendershot builds, using large spread sheets, in attempt to understand why the coils seem to amplify voltage.
Hendershot built this coil around the fractal we now call the Ra fractal or very near 150 mm diameter.
After extending the gravity fractal data out to 24x triad steps of the earths field, I discovered that if I placed a small wire of 1 / 90x diameter vertical at the center, it brought up a strong self sustaining vibration field on the coils.
The Hendershot coils were built per his dimensions, and wire today is nothing like back then, none of them have produced much to date for us.
When I noted this same ratio would be present at the tips of the dual coil system, I realized the importance of accuracy at those locations, and not to leave them out of the build.

Consider now we were not aware of the "velocity factor" of wire being such an important parameter. Hams, who make long Antennas with insulated wire, are very aware of this.
Locate the chart in this pdf showing the various wire insulations and the velocity factors for each kind.

PIC_TA@_Velocity_Factor.pdf

The wire insulations we have today are nothing like in Hendershots time, with velocity factors running as low as .35 or so for our newer, very common, PVC insulation.

Middle View


A Field Middle View

The area between ratio 1 and 2 contains some really powerful vibrational feedback locations, that we refer to as the "orbital ratios."
The gravity system of the earth seems to be using this pattern at the core, but with many more layers.
The square root of two is related to electrical fields I believe, although it is not in itself a self sustaining pattern for vibration on tubes, it is an extraction point for EM.

Electronics formulas, are filled with references Pi, 4Pi, Pi / 2 etc. as it is a very basic part of a circular wave using two or more dimensions to rotate through, and each time return to the exact location it moved through last time around.
Phi on the other hand causes a constant force, attempting to pull something out of round, or out of orbit into a disintegrating spiral.  With the gravity vibration it pulls all into the center of mass of the earth.
Using both together causes an orbital motion, both stable as a circle and powered with a motion, similar to the earth around the sun, with a stable Pi / 2 outwards push, to maintain a fixed distance from center.
The orbital path is the result of a vibrational system [Gravity], which bends space and time to set up paths of motion, that never stop or wind down.
It is a prime example of a self powering system using the Aetheric medium as it source of power.

This is the area of ratio, I believe that will encase the center of the coil system with some sort of field bubble in the Aetheric medium. There is one like this on both sides of center.
At center of course there is a 1 to 1 ratio as they cross at the point of RMS value of the EM wave, where the power is greatest in both coils, at 45 degrees of the EM fields rotation.

Derivation of the 90x steps of the Vedic

Complex Layered Fractals

Showing how vibration in a self sustaining field bubble loops around to couple with itself again from inside to outside to inside.
Inner and outer layers of a spherical field bubble system "feed one another" to create a self sustaining form.


Wire Testing

Wire Tested

Vendor: Dell City pn 1120501
500' 1120501 Red Primary Wire, 20 Ga (500 ft. MIN)       $0.04620   $23.10
500' 1120506 Yellow Primary Wire, 20 Ga (500 ft. MIN)   $0.04620    $23.10
Stranded 20 ga wire.
Insulation rated for 12 volts. [24 v per turn on our coil max]

Reels f0

Full wave readings voltage nodes.

153.0843 Khz  = 50 vpp   [Resonance]
105.236 Khz    = 8  vpp    [Out of band]

Both reels measured identical, from the ends, with HI impedance O-Scope.

Each coil at resonance         6.5 us       153.843 Khz    50 vpp
Both in series resonance      8.2 us       121.951 Khz    
Both in parallel resonance    6.1 us       163.934 Khz    25 vpp

500 feet in 3.05 us     for 1/2 wave propagation with both coils in parallel
1000 feet in 6.1 us     peak to peak voltage timing 1 cycle


Parallel Configuration


Parallel Configuration Of Coils

[Primary coil not shown, see above photo for driver circuit and F gen setup.]

[Forwards + Reflected]

dipole wave velocity =  1000 ft / 6.1 us  = 163,934,426.2295082 feet/sec =  31,048.1867858917 miles /sec
31048.19 / 186000 =  0.1669257354080199 VOP
That is a slow down of light to 16.69 percent of c.

It would seem that winding the wire into a coil adds a lot of capacitance and pulls the wave velocity down quite a bit over a long wire antenna.
Expected frequency minimum ~ 324 Khz
Actual frequency                    = 163 Khz
Approximately 1/2 the frequency expected for wire VOP of .33[minimum] on PVC insulation.


Conclusions on Wire Length

It will take one experimental build of the dual cones, to cypher the exact frequency to expect for one type of wire.
With the numbers from that build, we can then design to specific frequency, for that wire type.
Since there is a serious drop in VOP, about double the expected value, when the wire is wound into a multi layered coil, then in the proximity of another coil in dual cone format, I do not have a mathematical solution at present for resonance.
We can only get in the ball park, on the first shot.

Here is what we could expect on an open wire antenna, elevated at least 1/4 wave off the earth ground.

Spreadsheet:
500FtResonance.ods

Clip  -------

Spreadsheet photo

On the right side is the complete chart. The left shows larger steps of VOP.
This chart then is not accurate for coils at ground level, but it would represent an absolute highest frequency we could ever see on that length of wire.


Other Wire Types

Here is another PVC wire vendor choice that has diameter specs listed and may be more accurate on velocity factor.
300 volt insulation, solid core wire that is tinned.
www.bulkwire.com


Accuracy

On building the cone form, and viewing a protractor, one wonders just what is the difference in angle between 30 degrees and 33 degrees and can we even work that accurately?

The difference on the 24 inch high cone, with base of 14.25 inches diameter, is 2 inches in height. If you make the cone approximately 26 inches high with the same hole size at the top you will have a 30 degree cone taper.

While 3 degrees may not seem like a lot, 2 inches of height at the top is a very sizable distance and represents a lot of wire length on a coil. This shows it is well within our capacity to be accurate to 3 degrees of incline if we are working from the outer measurements of the finished cone, and get all our cone surfaces straight.



Wooden Coil Winding Jig

3/10/2014

Cone Jig Assembly Photo Series


A wooden cone was constructed for the group effort by Ron Pugh of Canada, using lath accuracy. Thank you Ron for the excellent work. 
I mounted the unit on a lazy Susan bearing with a turns counter attached to a lower plywood piece and a steel pin to flip the counter. The videos below show the basic layout.
The URL above shows up close assembly of the winding jig.

Videos

33 Degree Coil Winding Jig

33 Degree Cone Energy Points


I ran a test with a first wind using the 2mm diameter 20 gauge wire from the experiment above to see how viable this method is for making the large cone coils. It is a very excellent system. The angles are very straight along the sides of the coil, and the wire has good friction to hold the turns in place with very little pressure from the feeder coil.

Trial Winding Photo

I can feel the vibration energy in the copper already with only a few winds. Next I will be waxing the wood with a release agent, in preparation for the resin layer that will go on the outside of the wires to create the finished cone.

References

Walter Russell Images

Dipole Resonance

Cone Construction Part 1

Cone Construction Part 2


Back to PCC menu

Back To ResonantFractals.org




The goal is comprehension and understanding.

[Document date 1 / 30 / 2014    Dave L]
Section added 6 / 17 / 14 Dave L]