Stan Meyer EPG Gas to Power Electric Particle Generator 

  Now consider the work with magnetic liquids in California where a drop of magnetic liquid  moving through
      a coil

3 .questions      Are the magnetic droplets acting like the neodymium battery train    ( homopolar magnet)
                         and if the  copper coil is  made into a circular loop and pickup coils  placed around the
                         "track"    ( as in the multitier epg) is useful power obtained from the permanently magnetized droplets
   
comments?

it is our belief that Stans Work has been keep secret and being slowly handed out to universities to keep them showing something

I deleted my post regard ElectroStatic Pulsing over Magnetic Pulsing.
After reviewing the thread below...
/showthread.php?tid=400&pid=4658#pid4658

I understand now that using magnetics is the ideal mode of use of the EPG, but requires the Argon/Cobalt/Nickel, magnetically polarized gas matrix.

I also, reviewed the "House meeting in New Zealand" video where Stan talks about the EPG and the magnetized gas.

I thought for sure that Stan talks about water propulsion on some video...
Maybe I just mis-understood what he was talking about...
...

Just reviewed the 3rd video of the "House meeting in New Zealand", where he covers the fact that when using laser light within the EPG (He does this to increase the mass of the atomic gas matrix), then, you no-longer need to motivate the gas, because it's the shock wave of the light itself that causes the electrical field generation (which is then caught by the pickup coils), as the electrons move away from the atomic nucleus, which then results is a higher magnetic energy in the gas. Thus, powering all of New Zealand with a single EPG, and entering the relm of OU.

Fascinating...

Now, back to the Magnetic Gas Lattice...

Argon (Lubricator, Non Electric, Non Magnetic)
Cobalt Ions
Nickel Ions

Cobalt Ions
Co^2+, Co^3+
Generate using HV to a pure Cobalt wire.

Nickel Ions
Ni^2+, Ni^3+
Generate using HV to a pure Nickel wire.

Iron Ions
Fe^2+, Fe^3+
Generate using HV to a pure Nickel wire.

Generate Cobalt and Nickel Ions using HV within an Argon filled chamber.
- Pass Gas Mixture through VIC and expose to laser energy.
- This destabilizes the Atomic Structures of the main elements in the Gas. So that that we can extract some electrons from them.
- Use electron extraction circuit to remove extra electrons. Now our atoms will be will to take on covalent bonds that they would normally never take on.
- Allow Unstable Gas to stabilize into the new Gas Matrix by making new covalent bonds.

Pump gases into EPG.
Test EPG for appropriate Magnetic Qualities of the Gas Lattice.
- Does pulsing it result in some energy output from the pickup coils?

Damn! That boy was Brilliant!
- Not just theory, but applied science.
- Mechanics, Electronics, Chemistry, Nuclear Physics...
- Amazing stuff!

-Dogs

Stan-Meyer-EPG-Gas-to-Power-Electric-Particle-Generator

The Purpose of these pages is for your to quickly see learn and advance further on replicating Stan Meyers  to Assist us getting this open source to market 

As you experiment share your picture and video on you tube 

As a Team we advance fast 

the dates on this  aprox 2005 

and than 2012 there was alot of work done

than recently 2016 , Years are passing we need people working on this 

Not all of the early EPG models of Stanley Meyer's devices used mechanical pumps to move
magnetic slurry or gas within the copper spiral cores. One model used linear magnetic drive
pumps to circulate the slurry/gases. The other was the magnetic spin EPG. The  six tier multiple
tier EPG  (aka "gega series" or (6Tmaggasepg) designed for home power generation also had
similar pumps. The seven tier system is now thought to have had a bottom tier with electronics
for control of the flow of the magnetic gas but not pickup coils

see attached 2 new images of the EPGs

1. Magnetic Spin EPG
2  Magnetic Drive EPG
3  Example Linear Mag Drive

Stanley A Meyer epg

INDEX TO WFC MEMO 418

COVER

COVER SHEET

PREFACE ELECTRICAL PARTICLE GENERATOR

VOLTAGE INTENSIFIER CIRCUIT AA …                                              … PAGE1

OPERATIONAL PARAMETERS ……                                                         PAGE 2

VARIABLE AMPLITUDE UNIPOLAR PULSE …                                    … PAGE 3

APPLIED VOLTAGE TO PLATES …                                                      … PAGE 4

LC VOLTAGE .…                                                                                      .. PAGE 5

VIC RESISTANCE DUAL-INLINE RLC NETWORK .                           ….. PAGE 6

VOLTAGE DYNAMIC .…                                                                        … PAGE 7

VOLTAGE CALCULATIONS …                                                             …. PAGE 8

ATOMIC INTERACTION TO VOLTAGE STIMULATION …                    … PAGE 9

VOLTAGE STIMULATION OF GAS ATOM …                                       .… PAGE 10

LASER INTERACTION ..…                                                                   … PAGE 11

GAS RESONANT CAVITY …                                                             …… PAGE 12

ELECTRON EXTRACTION PROCESS …                                          ……PAGE 13

ATOMIC BONDING OF UNLIKE ATOMS …                                       ……PAGE 14

MAGNETIC GAS LATTICE ……                                                            … PAGE 15

ELECTROMAGNETIC ENHANCEMENT ……                                       … PAGE 16

OPERATIONAL PARAMETERS ...…                                                      … PAGE 17

APPENDIX .

 

INDEX TO FIGURES FIGURE  1-1 VOLTAGE INTENSIFIER CIRCUIT (AA) PAGE 1 

FIGURE 1-2 LC CIRCUIT SCHEMATIC PAGE 2

FIGURE 9B VARIABLE AMPLITUDE UNIPOLAR PULSE VOLTAGE PAGE 3

VOLTAGE FREQUENCY SUPER IMPOSED ONTO A 50% DUTY CYCLE PULSE TRAIN

FIGURE 9BB. APPLIED VOLTAGE TO PLATES PAGE 4

 

FIGURE 1-3. VOLTAGE POTENTIAL DIFFERENCE PAGE 7

FIGURE 1-5. GAS DESTABILIZATION PROCESS PAGE 10

FIGURE 1-6. LED CLUSTER ARRAY PAGE 11

FIGURE 20 JX GAS RESONANT CAVITY PAGE 12

FIGURE 1-7. ELECTRON EXTRACTION CIRCUIT PAGE 13

FIGURE 1-8. COVALENT LINKUP OF UNLIKE ATOMS PAGE 14

FIGURE 1-9. MAGNETIZED GAS LATTICE PAGE 15

FIGURE 1-10. STIMULATING AN ELECTROMAGNETIC ATOM PAGE 16

FIGURE 1-11. ELECTRICAL PARTICLE GENERATOR PAGE 17 .

APPENDIX TO MEMO 418

 

LIST OF PHOTGRAPHS, FIGURES AND EXHIBITS

FIG. 26 EPG PRINCIPLE: ALLOWING A PERMANENTLY MAGNETIZED FLUID MEDIUM TO PASS THROUGH A PICKUP COIL FIG. 26 C: MULTI-TIER EPG ELECTRICAL GENERATOR

FIG. 27 EPG MECHANICAL DRIVE GAS ACCELERATOR

FIG. 28 EPG ELECTRICAL MAGNETIC GAS ACCELERATOR

FIG. 29 EPG PHOTON DRIVE GAS ACCELERATOR

FIG. 30 LINEAR GAS COIL ACCELERATOR

 

PHOTO EXHIBIT ZX: EPG MECHANICAL DRIVE ASSEMBLY

PHOTO EXHIBIT ZY: EPG ELECTROMAGNETIC PUMP ASSEMBLY

PHOTO EXHIBIT ZB: MAGNETIC SPIN GENERATOR

PHOTO EXHIBIT JX: GAS RESONANT CAVITY ASSEMBLY

 

MAKING MOLECULES*

POLAR MOLECULES*

METAL CONNECTIONS*

ELECTRONS: PARTICLES OF POWER*

ATTRACTION OF OPPOSITES*

 

NOTES: In the original document some pages were out of order and several figures inadvertently included twice.

The appropriate corrections were made in this edition with duplicate pages deleted and pages placed in the proper order.

 

*Also found in other Stan Meyer publications.

Stanley A Meyer EPG.jpg
Stanley A Meyer epg 1.jpg

Above is a photo of one of Stanley's EPG system.  

The EPG system or Electrical Particle Generator is basically a particle accelerator.

The EPG system is something that Stan was working on along with the Water Fuel Cell technology. It is suppose to be able to amplify the incoming signal/power to a much greater amperage / voltage. 

 

It seems that not many people know that Stan was even working on this system. I have been doing extensive research and development on this system.

 

Some Important Notes from alot of study 

 After Studying Searl Magnetic SEG 2 things seam very apparent and possible with Stand machines 

I call these Introvert (Stans Way)  and extrovert.( electrons from our side tube) 

Introvert

1a

The Stan Meyer Invert Method his stated method  of having a magnetic gas move through tube, 

could in fact be improved by have sensitive fer rite pickup inside the tube to make the voltage spikes, further enhancing stand magnetic stimulation of coils on outside of tube.  Some of this was thought of as Searl Using the Gathering and Damming of electron using ferit in his system.

1b

 it could also extract elections from gas inside tube which is not necessary;y same as Stan methods

similar to a Magnetic Flow Meter which would increase sensitivity of a could pickup or magnetic movement of a pick up coil, ( as there seam to be some debate about the copper preventing the magnetic gas making flux in pick up coils coil.

Extrovert

It seams pulsing gas with LED Laser will cause lithium oxygen and h2 to cool and become magnetic. 

Also  of Large Turbine use pure h2 to cool the machines ,gas flows through and cool the steel 

some run the gas through the stators. 

it is total possible that h2 or Magnetic gas compose could impart more electrons into the stator by attracting electron from air.

 

And Such the Epg Stans Unit will get vert cold when gas flowing as a rate of speed through it 

it will in fact attract electron from air these could be harvested just like searl did. As the Ionising and air will flow to centre of egp.  

Further pulsing with laser  will increase the effect 

Reference 

Scientists Create First Ever Magnetic Gas

By Stuart Fox September 18, 2009

https://www.popsci.com/scitech/article/2009-09/scientists-create-first-ever-magnetic-gas

Article Clipping 

For decades, scientists have debated whether or not gasses could display the same magnetic properties

as solids.  Now, thanks to some MIT scientists, they know the answer is a freezing cold yes.


MIT researchers have observed magnetism in an atomic gas of lithium cooled down to 150 millionths 
of a degree above absolute zero. This experiment represents a point of unification between condensed 
matter research and the field of atomic science and lasers, and could influence areas such as data storage 
and medical diagnostics.

 
To get the lithium gas so cold, the researchers trained an infrared laser beam on the gaseous cloud. 
Laser cooling is the primary method physicists use to lower gas temperatures to near absolute zero. 
The laser essentially stun the atoms, slowing them down, and thus lowering the temperature.
After initially growing, the cloud began to shrink. That shrinkage, combined with the speed of 
expansion after the laser turned off, indicated that the lithium atoms had become magnetic.
"It's very important from an overall theoretical point of view because it gives us an understanding 
of magnetism at its smallest possible scale," Scott Pritchard, an MIT professor, and one of 
the experiment leaders, told us.

Improving magnetic gas directions or coil sensitivity 
Stan-Meyer-EPG-Gas-to-Power-Electric-Particle-Generator
Backup of Video 
Stan-Meyer-EPG-Gas-to-Power-Electric-Particle-Generator

This is my Copper EPG i will be using for testing. The wire will be installed next, at a bare minimum there will be close to 2 miles of AWG22 magnet wire on this EPG.   

 

You can see my first attempt at the EPG using plastic at the end of this page.

Here is some of the progress i have made. The divider plates are installed, next i start the wire winding.

 

I'm building a wire winder (the wood in the background ) to help wind the 2+ miles of wire... thanks to YouTube user hawk491000 for the idea on the winder!

 

Update Photo Here: as of 2-8-12

 

Stan-Meyer-EPG-Gas-to-Power-Electric-Particle-Generator
Stan-Meyer-EPG-Gas-to-Power-Electric-Particle-Generator
Stanley A Meyer Mechanical Pump EPG coil parameters

 

LENGTH

Method 1.
   
The diameter of the outermost EPG channel or loop can be estimated.at  about 17 inches
Therefore the outer circumference can be estimated at  17 x Pi inches
By dividing the circumference by the observed number of coils an estimated length of each coil can be made.

A further refinement in precision can be made by subtraction of  the total length  L occupied by coil spacers.
So in the case where you count, let's say as way of example, 59 coils and 60 coil end spacers, each winding is
1/59th of the circumference of 53.4 inches or calculated at about 0.905 inches long.

Method 2.
Because of  the high resolution photographs available, estimates of  a coil can be made directly.
Using a known measurement such as the outside diameter of tubing  ie.  0.500 inches
in conjunction with a screen distance tool in Photoshop(r) or another program such as
Screen Caliper(r) the length of the coil can be made.

THICKNESS
Since the outside diameter of the core channel is known,  an estimate of the thickness of depth of winding
may be obtained by using  photogrammetry to estimate the  thickness of the winding.
The total thickness or height of the wound coil is first measured. Then the core diameter is then subtracted.
the resulting  figure is then divided by two. This is the height or thickness of the winding around the core

So now we have what is call a winding window with height H and length L.
H TIMES L = A   the area of the winding window. Think of it a a cross-sectional view of
the coil windings with the ends of each wire being viewed.
Something like this:

IIOOOOOOOOOOOOII
IIOOOOOOOOOOOOII
IIOOOOOOOOOOOOII
representing 3 layers of wire with 12 wraps (the II symbolizing the  coil dividers)
3 layers of wire by 12 wires wide or 36 turns or wraps of wire around a bobbin

IIooooooooooooooooooII 
IIooooooooooooooooooII
HooooooooooooooooooII

In this exsmple, a thinner wire could be wound 18 times on the same length of bobbin.

NUMBER OF WINDS
Since the gauge of  the wire can be estimated with a good amount of precision
,the use of circle packing theory (see wiki) theory can be used to determine the
number of turns that can fit through this winding window( Area equals Height
times length.

One factor that helps, is that wires come in standard  thicknesses or diameters
For convenience the AWG  (American Wire Gauge) is used in electrical
and electronic work, Electrical wiring in the U.S. is often 10,12  or 14AWG
Electronic work is often  uses 18,22, or 30  AWG gauge wire
Whatever the reason the smaller the AWG number, the thicker or larger
the diameter of wire!!

The reason this helps in photogrammetry, is that the gauges are discrete values
Look at this table:

AWG      Diameter in inches           AWG     Diameter in Inches
10           .1019                                 20           .0320
12           .0808                                 22           .0253
14           .0641                                 24           .0201
16           .0508                                 26           .0159
18           .0403                                 28           .0126
                                                         30           .0101

The 16 gauge wire is about 25% thicker than 18 gauge
The 22 gauge wire is about 25% thicker than 24 gauge

Not to get too technical, but this is a logarithmic scale,  but the important  concept
is the PERCENTAGE OF DIFFERENCE BETWEEN GAUGES IS LARGE
in relation to the precision achievable in photogrammetry

This means for a given photogrammetric distance is it easier to pick out the exact
gauge of wire used because the precision of the that method is often less than 2 to 5%.

PACKING FRACTION

There is a branch of mathematics which describes how many circles of uniform
size can be drawn in a given area. It goes by several names but let's just call it
Circle Packing Theory. 

By determining the winding window size, the  appropriate circle packing  fraction can be used to
determine a close estimate of the number of windings per coil. In the previous example
cross-section of a coil, it represents one type of winding

Another type is hexagonal winding, with the layers arranged more like a honeycomb

And thirdly there is a random type of winding with lots of crossover and gaps

The hexagonal packing is the closest or most densest  method of winding coils
with a value of 0.906  or about 91% of the area occupied by wire with the
balance of the area being gaps between the wires

Square geometry winding with  each winding of wire directly on top the
layer below(  No offset)   has a value of 0.785  It is not at close or dense
a winding as hexagonal winding

A random wind often a more gaps but the packing ratio is highly dependent
on the size of the wire relative the length and width of the winding window

Consider for a moment two equally sized sheets of sandpaper.
One is coated coarse grade grit, the other coated coated with a fine grit used for
final sanding.  The  arrangement of the sand grains is random in both
cases but there are fewer grain of sand  on the coarse paper and
many more grains of  sand on the finer grit paper.
This is analogous to the number of random winding or wraps of wire in a given
cross sectional area on a bobbin. Intuitively very small wire gauges have a
higher  packing fraction than large. This is a difficult value to quantify

SO IN SOME CASES IT MAY BE POSSIBLE TO CALCULATE THE NUMBER OF TURNS
IN SOME CASES EMPIRCAL METHODS OR TEST WINDINGS MIGHT BE NECESSARY

As an example if the winding window is 1 square inch and the AWG  is 22, and the tighter hexagonal
winding factor is used(0.906) then    0.906 square inches of that window is occupied by the area of the wire..
The cross-sectional area of AWG 22 is 0.0005 inches.
0.906/divided by 0.0005 =approx 1800 turns
 
With precision or square winding a factor of 0.78 can be used resulting in an estimate of 1560 turns through
a 1 inch square window 

SUMMARY

Basically the application of the above method may be used to estimate  the number
of windings for an EPG coil by photogrammetric means in some cases
As search of empircal transformer design charts might be instructive for this third case

MISCELLANEOUS COMMENT
POWER OUTPUT DEPENDS ON  METHOD OF WIRING PICKUP COILS

It appears as though the mechanical drive epg was wired in parallel  lower voltage and  and a
higher amperage due to more coils
While the multitier EPG was higher voltage due to fewer coils and  many windings which required of multiple tiers
It also could be that the effective value of the flux in the mag-gas systems was lower that the higher density f