Index to movies on this CD

To see the videos, Irecomend using the free down loadable RealPlayer


You may download free the RealPlayer 8 Basic at :


You may also need to update your apple viewer and microsoft media player.

The version that I know works is Windows media player version 9 Windows media player 9 series

A free copy is availabe from the microsoft website and works well with windows 98 Advanced version of windows should work ,but I can't confirm for sure.

Don Adsett 200 machine demonstration Two disk spiral p/Magnet Motor Idea Two pulsed capacitor with an assym pulse Two pulsed capacitor with an assym pulse part 2 Three disk spiral p/Magnet Motor Idea Animation of three cones as used for hamel device Electrostatic three arm spinning disk High voltage corona discharge The Barkhausen electro magnet effect Suspect Floyd Sweet VTA demonstration Vibrating coil on cold ice (carbon dioxide) Flying saucer Disk

Room Temperature magnetic levitation Several high voltage discharge in sequence Spiral coil discharge in a magnetic discharge Fan and Lit bulbs suspect Floyd sweet type demo High voltage discharge in tube spiral pattern High voltage discharge in tube Electro motor gyro scope demonstration 1 Electro motor gyro scope demonstration 2 High voltage flame discharge high voltage in twin tubes high voltage discharge corona

Lord Kelvin water drop experiment setup

Toriodal high voltage discharge

Toriodal high voltage travelling discharge

Hollow circular terminal high voltage discharge

High voltage discharge in convential light bulb

High voltage discharge in what appears to be magnetic influence

Twin high voltage discharge from one terminal

Demonstration of a home made levitron

Another demonstration of the levitron sonics and water liquid nitorgen and magnetic levitation 1 liquid nitorgen and magnetic levitation 2 liquid nitorgen and magnetic levitation 3 spinning disk liquid nitorgen and magnetic levitation 4 driven motor Plasma discharge in microwave oven

Plasma discharge in microwave oven within light bulb until destruction

Plasma discharge in microwave oven from single terminal

Plasma discharge in microwave oven and resulting fire

Plasma discharge in microwave oven with tin foil hill

Plasma discharge in microwave oven more tin foil

Corona discharge from top of telsa coil

Corona discharge from top of telsa coil

High voltage discharge in incandescent bulb

High voltage discharge with introduced conductor

High voltage discharge igniting conductor

High voltage discharge and a quick flame produced

Small smot demo

Germany Video of the Philipines water var South African magnetic motor Newman motor and Fan motor demo Joseph Newman device demo Ball bearing levitating Unknown but appears to be a linear motor Unknown but appears to be a linear motor2 Unknown but appears to be a linear motor3

Two working pendulums of same length but different weight shapes

A Solar powdered radiometer (toy)

electromagnetic repulsion larger electromagnetic repulsion linear smot motor

Super Plasma hydrogen cracking chamber Side views of Testakica in operation Ultra sonic water disassociation Ultra sonic water disassociation 2

Using light buld to find node points in radio transmission lead A water vortex producer in cyclinder A part water vortex produced in cyclinder A water vortex with egg levitated in vortex Vta demostration

Priciple of Adams motor explained

Priciple of Adams motor explained

Don Adsett linear motor demonstration

Aqua fuel demo

Aqua Fuel producing demo

A metal Don Adsitt

ARDA aircraft First Test Flight

ARDA aircraft First Test Flight 4

Bruce Perrealt year 2000 conference Lecture animation showing how disks are fitted in hamel saucer project animation showing how disks are fitted together

A constructors attempt at building hamel disk simple demo hamel spinner another hamel demo water vaporized by sonics

Magnet and ball bearing repulsed

Balance fixture demo by Butch Lafonte

David haun coil energy to battery

Bottle shattered and exploding

High Frequency power and light demo

Calvin Bahlmanns Inventions 2000 BAP conference

Calvin Bahlmanns Power wheel

Water to fuel and cutting a can

The Coanda effect demo

Meuller Motor coastdown

Coil test Meuller motor test

Possible ufo sighting

Exploding wire due to current flow

MP3 Carl Dingle Water Fuel car audio interview

Don Smith teaser from Bruce Perreault conference.

Wimshurst electrostaic generator driving motor

Electrostatic motor driven from Wimshurst machine

Linear electrostatic motor driven from Wimshurst machine

Close up of linear electrostatic motor

Enhqanced Brown Biefeld effect rotor

Magnetic exit ramp experiement

Neo Magnet /black sand coil experiment

Mueller motor explaination

Jim German electric motor explanation

Thomas bearden audio explanation of the Vta Device

180 magnetic ram test

Finsrud magnetic device

Another view of Finsrud magnetic device long shot view of the Finsrud Device

Plasma flame demo

Floating neo magnet

Front view of Jim German device gravity pump animation super martin demo another animation if the super martin gravity converter another gavity converter animation another gavity converter animation another gavity converter animation another gavity converter animation gravity converter Geet powered motor Gyroscopic inertial thruster 1 Gyroscopic inertial thruster 2 Gyroscopic inertial thruster 3 Gyroscopic inertial thruster 4 Gyroscopic inertial thruster 5 Gyroscopic inertial thruster 6 Gyrosopic inertial thruster animation Gyrosopic inertial thruster animation 2 gyroscopic theory animation gyroscopic device

Griggs hot water pump possible overunity

Griggs hot water pump possible overunity fire station use

Daniel Dingel water car project

Newman ype motor generator!

Newman ype motor generator2

Newman ype motor generator3

Newman ype motor generator4 Newman ype motor generator5 David Haun Nuclear Kid Helium 3

High voltage toriod discharge

Close up discharge from wimshurst machine

A lawn motor fitted with a Gitt device

A lawn motor fitted with a Gitt device 2

A lawn motor fitted with a Gitt device 3

Lord Kelvin water drop experiment

Kronzen Motor

Jacobs ladder discharge

Jacobs ladder discharge 2

Basic triangle lifter

Jim Germans load off demostration

Long track magnetic demonstration magpro animation small single disk testakica device

Large testakica device large testakica bulb lighting

Stanley Meyer fuel cell demo

Stanley Meyer working on water powered dune buggy

High voltage toroid discharge

John Bedini type 9 voltage pulse motor

John Bedini type 9 voltage pulse motor

John bedini 3 coil motor

Mullerl motor

Muller2 motor

John Bedini student motor

Magwheel animation unknown water experimentl unknown water experiment2

unknown water experiment 3

unknown water experiment4

unknown water experiment5

Newman motor demol

Newman motor demo2

Newman motor demo3

Newman motor demo4

Newman motor demo

Newman Fan demo

Newman Fan demo New plasma motor

Non magnetic clogging edison model ford generator a very simple hamel spinner cold fusion cell cold fusion cell 2

Power lifter testakica may not work with some computer triangular power lifter experiment octogon power lifter power lifter power lifter power lifter power lifter power lifter suspended magnetic disk spinning Noth pole pulse motor Rmogdemo motor rotary arc plasma pvc cannon high voltage toriod dischare

Anto gravity John Schnure (German dialouge)

Jim Germans motor/generator running when shorted out side view of Jim German motor/generator small motor does not stop when shorted out

Smarpak Techology workshop Lecture

Smartpak Technology William Alek

Smartpak lecture of William Alek smot wheel of Stefan Hartmann smot wheel of Stefan Hartmann

Possible ufo footage from space shuttle

Ice flow from space shuttle

Testakica demo more of the Testakica demo close up of lit light bulb of the Testakica lower part of the testakica

Tomi linear motor movie number

Tomi linear motor movie number 1

Tomi linear motor movie number 1

Tomi linear motor movie number 2

Tomi linear motor movie number 3

Tomi linear motor movie number

Tomi linear motor movie number 5

Tomi linear motor movie number 8

Tomi linear motor movie number 9

High voltage Telsa donut toroid disscharge

Ufo lifter v1.0 demonstration

The A.R.C. disk Motor

Schaffer Vortex 2nd law violaton experiment

Naration by Tom Beardon on the Floyd Sweet Vta

Movies of Cold Fusion from Jean Louis Naudan

Cold Fusion reactor 1.2 with carbon cathode Cold Fusion reactor 1.3 with carbon cathode Cold Fusion reactor 1.4 with a th w loade cathode Cold Fusion reactor 1

Cold Fusion reactor 1.0 input/output measurements

Cold Fusion reactor v2.1 test

Cold Fusion reactor v2 test

Cold Fusion reactor v3 demo

Cold Fusion reactor v3 test run 2

Cold Fusion reactor v4

Tiny cold fusion demo

CFR power input measurement with a power meter Cold Fusion reactor v1.1 with K2CO3

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{lif-covciiiiifj' iicditit

Radiant Energy Diatribe

****THIS DISCUSSION WAS GENERATED BETWEEN PAUL CLINT and BRUCE PERREAULT in a series of e-mails between 01/29/2001 and 02/03/2001***

Bruce A. Perreault February 2nd, 2003 (revised 10/22/04) e-mails were edited for clarity

Cable Generator Discussion

Static Electricity that is generated on a properly treated insulated wire will produce more than a kilowatt in a light wind, according to Paul Clint. This becomes possible because of a phenomenon in physics known as the electret effect. This effect occurs when the surface between a conductor and a dielectric obtains a permanent electric field. This field has the same effect on static electricity that a magnetic field has on iron filings.

A treated piece of insulated wire strung out in the wind will act as a Van de Graaf high voltage generator. In some conditions, a 400-foot length of wire can generate 50 kilowatts and even on a bright sunny day with a breeze of 3-4 mph, it will average 10 kilowatts, according to Paul Clint's calculations.

How can the static energy produced by the cable be converted into a usable form?

The only practical method I have found in the past was to charge a battery. My ionic diode component might be another way to do the conversion. I will run some tests when I get the time..

The static electricity generated can be used to charge a battery using nothing but a spark plug, a coil and a capacitor, but the process is only 15-20% efficient using conventional diodes. An efficient voltage controller must be used to keep your battery from overcharging. The circuit is needed to convert static charge into low voltage to charge batteries. The least expensive design uses a spark plug, an old automotive coil, a .001, 3 to 20kv capacitor and a ground rod.

Thus far, I have devised two methods. The first is simple and inexpensive but only 15-20% efficient. It simply involves breaking the current into pulses with a spark gap, and then transforming the voltage down and current up with a transformer and increasing the pulse duration with a capacitor in parallel.

The second method will use a micro-processor to monitor voltage and current. The impedance is then adjusted to make the charging current as smooth as possible. This circuit can also easily protect a battery from overcharging. Bill Alek's controller might be the perfect solution for the task.

Axial Cable Electrets

Perreault Conversion Circuit click here for an updated version

The electret effect is more important than you realize. Any ordinary antenna will collect charge, but without the electret effect, most of it is dissipated before it can be tapped. The electric field created by the electret effect not only attracts the charge from the air, but then it traps it in the conductor. This effect will also be produced even in a vacuum.

Virtually all insulated cable exhibits some degree of the electret effect, which the wire manufacturers consider undesirable. Treating the coax will increase the electret effect at least 10 times. Treatment cost is negligible. Obviously, the treatment process is the essential piece to receiving enough energy to be useful. Teflon tape can be dangled from a cable and wonderful results can be obtained. In a thunderstorm, using an ordinary 400-foot cable with Teflon tape has produced a continuous arc eight feet long. Essentially, what you have is a type of Van De Graff Generator. I have not witnessed this myself but this appears to be possible because a lightning discharge releases energy that has been estimated to be in the billion watt range.

Conditioning the Cable

Buy cheap coax RF cable, that has a center wire and a shield cylindrical wire. Then cut off the outer plastic skin and put the whole cable into your oven and heat it up to about l00 degrees Celsius or more, so that the internal plastic insulation almost begins to melt.

Then apply from a D.C. high voltage source around 30 kilovolts or maybe a little less, so that there will be no arc-over yet inside the cable. Then let the cable cool down slowly again, but still apply the high voltage D.C.

When the cable has come down to room temperature again, it will be a pretty good electret!

Now hang this cable in the air and the outer layer of the shield metal (which does not have any plastic isolation skin anymore), will now attract lots of free ionized electrons from the air and charge up the outer shield metal of the cable. This way you can collect lots of more charges as before and have a much higher electrical output from this cable.

Hope this helps Regards, Stefan

The electret effect is a problem in the manufacturing of coaxial cable. This problem arises from the process used to make insulated wire; an unwanted electret effect is created. Engineers work very hard to reduce the effect but are unable to completely eliminate it. What I am saying is that all insulated wire exhibits some electret effect. The engineers go to great lengths to minimize it. The treatment as suggested by Stefan Hartmann should increase the electret effect of the cable at least 100 times, and with some cable, as much as 1000 times (depending on how hard the engineers worked). The electret effect is present wherever plastic is in contact with a conductor. It is much better to use unshielded cable and it is cheaper as well. If you do use shielded cable, it might not draw as much radiant energy. To begin your radiant energy experiments string out a 300-foot length of ordinary coax cable and do not connect the other end to anything. Use the conversion circuit in this article to convert your collected charge into electrical power. When you ground this circuit do not use the one that is connected to the electric companies meter. If you do not get at least a couple of pops per minute from your spark plug you will need to condition your cable as explained by Stefan Hartmann. Tying a bunch of 2-foot pieces of Teflon tape to your cable will also increase its draw power.

Virtually any insulated wire has a small electric field surrounding it that attracts positively charged air molecules (called ions) to itself. This charged moving air mass induces a negative charge of static electricity that builds up in the cable conductor. Under most circumstances, the conductor in a cable is connected to a circuit and the current is absorbed without notice. Nevertheless, if the conductor is connected to a spark plug (whose threads are grounded) it will produce an electric arc across the spark gap each time the voltage in the cable rises to the limit of the spark plug's gap. In some cases with a long piece of cable and some air current (wind), the spark gap will arc almost continuously. During a thunderstorm, Paul Clint reported to me that he once witnessed an eight feet long arc during a thunderstorm. A continuous arc or one that is eight feet long indicates to me that a substantial amount of power was being received. This means that a treated piece of insulated wire can be strung out on a fence and used to generate enough power to provide a home owner with all they need. It also means that it is possible to generate power in winds that have previously been considered worthless (3-4 mph).

How can a small cable extract so much energy from little or no air currents?

This is easily explained. The energy collected from the cable is not derived from charge collection as one might first think. It is derived from induction, as the positive ions in the air rush towards the cable. As you may or may not be aware, the earth's atmosphere is a gigantic capacitor. At its upper level, air molecules are constantly being ionized and then as the air circulates, the charge is eventually carried to the ground that has a negative charge with respect to the upper atmosphere.

Ham radio operators will certainly confirm that a coaxial cable strung out, as an antenna, will become highly charged, especially in wet, stormy weather. The accumulation of charged ions is not possible in a humid environment. Therefore, the power is derived through charge induction rather than from static charge. This is clearly demonstrated from the fact that the power generated is directly proportional to the speed of the wind rather than the square of the speed.

Still, the wire hardly intersects any of the wind. How can a little wire collect so much?

The cross section of the wind from which power is collected is much larger than you might think. Remember that the electret effect creates an electric field, which attracts charged air molecules as a magnet attracts iron. The cross section of this field can be as great as 2 feet, so a 100-foot cable can intersect as much wind as a 16-foot diameter airfoil.

Have you measured the cable power output?

Measurement of the output of the cable is not a simple process. The output varies over several orders of magnitude for voltage, current, frequency, and is well beyond the capability of simple measuring devices. Because of this fact, I have devised a couple of indirect methods to measure output. In the first of these, I have connected a spark plug between a cable and ground so that whenever the voltage builds up to the arc-over value, a pulse of current is generated that can be counted. This method can be termed no more than a rough estimate because the shape and duration of the pulse still varies over a substantial range. Analysis of the pulses will eventually allow us to use an average and thus devise a formula that will give a close approximation of the power output.

The second method is simple and if done properly, very accurate. We simply place a resistive heating element between the generator and ground and then into a bucket of water. The output is then measured by the change in temperature of the water. Neither of the two methods takes into account the losses of the charging circuit, battery, or inverter, etc...

Does the electret effect wear out or dissipate over time?

The question as to whether the electret effect wears out is not a simple one to answer. It is clearly being used in a way that is unique. The fact of the matter is that, in general, the electret effect is unwanted, and engineers are normally working to prevent or eliminate it. The fact that they have to work very hard to do so is an indication that it is stable. Thus, the best answer I can give is that it does not wear out in the short term (years).

How can I determine if the cable will produce more power for its cost than I would have to pay the utility company?

Again, this can only be done over a long time-period because it is dependant on wind, location, humidity and possibly other lesser, undetermined factors.

How does humidity affect cable operation?

Ham radio operators have reported that static charge builds up on their antennas more often and more intensely in times of high humidity, rain, or snow. The technical literature reports that most atmospheric charge is carried by aerosol particles of dust or water that collect hundreds, thousands, and sometimes tens of thousands of units of charge. As they collect more and more charge, these particles migrate toward the earth's surface and constitute a major component of the fair weather current.

Have you tested cable generator in other configurations such as a spiral, coil, grid, or vertical mode?

Optimum results are obtained by suspended an insulated cable between 5 to 15 feet above the ground in a horizontal straight line. Any deviation from this will reduce the output of the cable generator.

You must use an insulated cable that is strung out horizontally. For it to function properly there should be a swag to it. Please see...

If you see that the cable is physically vibrating you will know that it is set up properly. Any wire will vibrate but it needs to be electrically insulated and possess the electret effect to generate self charge. There is more than just wind that is involved. The cable will vibrate sometimes with only the slightest breeze. As you can see here there is a real energy source that is waiting to be harnessed. Essentially, we are utilizing the induction from a moving ion field. This is why a cable can be seen to physically vibrate. Where the seat of kinetic activity actually originates from I do not know. What I do know for certain is that energy is present in the system.

Will a bare wire generate a charge?

Bare wire will not generate a charge. The electret effect has to be present. Please see...

Has anyone measured the ion density of the atmosphere?

Yes, the average is 3000 ions per cubic meter. The figure is subject to stupendous variations of many orders of magnitude as shown by this quote from "Atmospheric Electricity in the Planetary Boundary Layer" by William A. Hoppel, R.V. Anderson and John C. Willet. "Most atmospheric processes are interrelated and cannot be studied in isolation, but it is possible to identify one or two dominant influences. In the case of Atmospheric electricity in the Planetary Boundary Layer, however, separating the various causes and their effects can be extremely difficult. In fact, this field may be unique with respect to its sensitivity to many disparate phenomena spanning a tremendous range of scales in both space and time. For example, locally produced turbulent fluctuations in space-charge density have an effect roughly comparable in magnitude to that of changes in the global thunderstorm activity on electric-field variations within the Planetary Boundary Layer."

The ion density does not appear to provide enough charge to account for the current generated by the cable. Are there other sources of energy contributing to the current?

Both the electric field of the earth (typically 100-200 volts) and that of the cable produce an effect called the induction charging mechanism. This is a physical process for particle charging involving the collision of pairs of particles in an ambient electric field. Electric charge induced on particles surface by the ambient electric field is made available for transfer when the two particles come into contact. A subsequent differential particle motion that is influenced by gravity is postulated to result in large scale charge separation. The specific role of induction charging in the electrification of thunderclouds has not been resolved.

Another effect that is unquestionably effecting the cable is the double layer effect. On the surface of a substance a layer of electric dipoles whose axes have an average orientation normal to the surface, double layers may appear on the interface of a solid and gas, liquid and gas, liquid and liquid, etc. They arise whenever media with different electron affinities (forces of attraction, or work function) are contiguous, and if dipoles are available. A net potential difference, the electrokinetic potential exists across the double layer. This effect is demonstrated in the super capacitor. Therefore, our cable acts like a super capacitor of high farads.

Yet, another source of atmospheric charge collected by the cable is due to aerosol charges. These particles of dust or water form dipoles and disproportionally collect one charge or the other. Where ions carry only single or double units of charge, aerosols carry hundreds, to tens of thousands, of units of charge. The fact humidity is such an important factor in the output of the cable indicates that aerosols are an important source of the energy it collects.

What else would be needed besides a cable to provide a good alternate electrical source for a home?

You would need a battery or bank of batteries, a charge controller, and a grid tied inverter.

* note: Paul Clint forwarded e-mails between him and Bruce Perreault to Jerry Decker who posted their discussion on


See; modern radiant energy circuit.htm

All e-mails between Paul Clint and Bruce Perreault are archived on hardrive

Nu Energy Horizons Alternative Energy Research

Nu Energy Technologies, P. O. Box 22, Rumney, New Hampshire 03266-0022 USA Copyright © 2003 and 2004, All Rights Reserved

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