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Here is another article I came across on the net that I feel is relevant. It is about an experiment trying toreplicate some of Dr. Hooper's work on what he termed "Motional E-Fields".

The author is only known as "Sparky".

The Motional E-Field. 

This is one of my most interesting projects that I have kept private. While experimenting for several years on

this project, I decided to release what information I have concerning this extremely exciting subject. Theexperiments I will explain could Kill you. Use Extreme caution. You have been warned, proceed at your ownrisk. 

Lots of folks have tried in vain to build a machine that exploits the Motional E Field. The problem is a basic

understanding of HOW it works. Notice, I did not say why it works. I don't have a clue as to WHY it works. I have read everything I could find on the subject, it is vague on what's out there about it. I will leave WHY it 

works to Bearden, Sweet, Kaluza-Klien and others who profess to know this. I do recommend reading "Nothing is Something" by Floyd Sweet found with a good search program. But even then he is trying to explain where

this mystery potential is coming from, instead of explaining how to actually build a device to produce it. Anormal wound coil has induction. A Bifilar coil connected in reverse-Parallel {Ends Tied} has very little. We

will use both in a device to exploit the MEF. The experiment will be just that, not a full time working deviceready to power your house or car. Purchase {3} rolls of 24 gauge at 100 feet each magnet wire. I use the GC 

brand part# L3-612. Gather {2} empty plastic spools with a 1 inch bore. The GC brand comes on these 1 inchbore spools, very handy. Take {2} rolls of the 24 gauge wire and wind them on a empty spool. We are making a

bifilar coil. Take your time and wind it carefully keeping the wires together as you wind. You need good balanced bifilar coil. Make sure the wires are the same length, 100 feet. When you get through, clip the ends

equal and tie them together. Now test your bifilar wire. It must NOT conduct any electrical potential and or current. Hold it next to a spinning magnet assembly of sorts with a good meter set on AC. Nothing.... it must not

conduct anything, this is very important. The bifilar coil will be your pick up coil, but NOT as NORMALelectrical conduction. Take your last roll of wire and leave it on the spool and we will use it as the exciter coil.

These coils have no cores, and you will see why later.

Find or purchase {2} ferrite magnets 2" x 6" x 1" will do. We are only doing an experiment. 

You will not have a continuous output, so go this route first. Do not use Neo's, their lattice domains are very

tight. You will have to demagnetize these magnets to about 10 to 20 gauss. How you do it is up to you. One canwrap the magnets with magnet wire and dump cap voltage against the fields, or use heat. This is common, so I 

won't go into that procedure here. Once the magnets are demagnetized, we need to treat them. We need toimpress a 60 Hz field in the now loosened domains of the magnets. Wrap the magnets separately with 100 feet 

of #19 or #20 wire each. Wire these in series and connect them to a veriac on the lowest level. Go do something else for 2 or 3 hours. You can build conditioning coils on forms that slide over the magnets for easy removal 

and installation. After 2 or 3 hours remove the coils and check the magnets with a scope. You should see a weak

60 hz signal on the magnets. Carefully place the bifilar coil and the exciter coil between the {2} magnets. Spacethem as far apart as possible without the spools hanging off the edges of the magnets. use plastic ties to keepthem in place. 

Connect the Exciter coil to a generator at 8 to 12 volts at 2 to 3 ma at 60hz. Place a load across the bifilar coil,

such as a light. See if the bulb will flash. If it does, place more bulbs in line with the load. It may even blow thebulb. This field is regulated by load. You may have to experiment with the exciter voltage to get the effect to

occur. All one wishes to do is vibrate the magnet. do not overdrive the magnet with the exciter voltage. This willnot last long, the magnets will loose the 60Hz signal. Perhaps Barium ferrite IS needed to keep the 60hz signal 

or the whole design is not shielded properly or it will always run down. Barium has high electron emissivity andpromotes electron scattering when excited. The point is: Something of the electrical nature lit the bulbs from a

8/7/2019 MOtional E Field

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non-conductive coil. The bifilar coil was not connected to anything but the bulbs placed between the {2} treatedmagnets. 

Now, HOW it works. As current flows through a wire the electrons act like magnets when they MOVE. Now if 

they don't move, they just have a electrical field around them. If we move this current through the bifilar coil,the magnetism cancels. But moving the electron magnetism will actually add. The magnet domains have been

loosened. Their domains are not locked in a position they can shuttle some what within the structure. But theystill have a very small amount of magnetism. It is like billions of small magnets vibrating about the domains

because of the 60hz exciter coil. They also have a 60hz signal that we supplied to the magnets. Because theyhave a slight charge on top of being small magnets the E-Field will manifest into the bifilar coil. But this is not 

the normal conductive current. In fact any normal conductive current abounds, it will cancel the effect. This isthe reason the bifilar coil must be made so carefully. You MUST have the least amount of induction in your 

bifilar coil as possible. This is the reason I use no core. I want a small exciter signal that does not interfere withthe bifilar coil, so the exciter coil has no core either.

All the exciter coil does is vibrate the domains which have the 60hz signal placed on all those billions of atoms

already that are very slightly magnetized in the domains. Moving a electrical charge against another charge byseparate wire cancels the magnetism in both wires and adds. 

This is the Motional E-Field.

I have added this graphic to show the experimental arrangement.

This experiment is of interest because here we see again the creation of a perpendicular field similar to whatStubblefield, Barbat and others are relying on, in line with Barbat's interpretation of Helmholtz.

Hans von Lieven