"..This one works beautifully and produces COP=5.0..." say Tom Bearden - ( COP=5 is equal to an efficiency of 500% ) |
Created on 10-06-00 - JLN Labs - Last update 10-31-00
Sujet : The Motionless Electromagnetic
Generator
Date : 06/10/00 07:54:41
From: xxxxxxxxxxx (Tom Bearden)
Dear Jean-Louis,
Information on our Motionless Electromagnetic Generator has now been publicly released, in the form of our paper, "The Motionless Electromagnetic Generator: Extracting Energy from a Permanent Magnet with Energy-Replenishing from the Active Vacuum," carried on public DoE website http://www.ott.doe.gov/electromagnetic/papersbooks.html .
Thus you may furnish the information to whomever you wish, since it is now publicly released and can be freely downloaded. It is a long paper (69 pages) and does take a little time to download.
We are encouraging web site managers who so wish, to place a pointer to the paper if they wish to. As you are aware, this one works beautifully and produces COP=5.0. Our patent application has been filed and so full patent coverage is retained; we have been in patent-pending status for some time prior to the public release. We expect to force the patent by direct demonstration and independent government-certified test laboratory testing and certification to NIST, IEEE, and U.S. Government test standards.
The system uses an extension to the work-energy theorem: In a replenishing potential environment, when energy is removed from the potential in a different form, the potential is simply replenished by the giant entropy process (my paper on the giant negentropy process is on the same DoE website). Use of a permanent magnet simply uses its magnetostatic scalar potential to evoke and sustain the giant negentropy mechanism. This sustains the continuous flow of the magnetic vector potential, and the device separates the magnetic B-field from the magnetic vector potential A.
The giant negentropy mechanism continuously
replenishes the A-potential as fast as energy is extracted from
it. Thus it is rather like dipping bucket after bucket of water
from the same spatial volume in a rushing river, with the river
instantly filling the hole up each time a dip is made. In this
case we must pay only for the switching costs, since the giant
negentropy mechanism continually replenishes the magnetic dipole
sustaining the magnetic vector potential energy flow. Note that
we do not destroy the source dipole, as every conventional closed
current loop electrical system does. As Whittaker showed in 1903,
once the dipolarity is established, the giant negentropy process
continues so long as the dipole exists. Dipoles in original
matter, e.g., have been pouring out copious energy by this
process for some 15 billion years, so the energy is absolutely
inexhaustible and copious.
There are 23 illustrations in the Magnetic Energy Ltd. paper on
the DoE website.
Very best wishes,
Tom Bearden
You may download the MEG document at : http://www.ott.doe.gov/pdfs/MEGpaper.pdf
Note ( 10-26-00 ) : The MEG Paper has been removed from the DoE site, but you may download it :
If you don't have the Adobe Acrobat reader you may download it freely at :
Some technical infos :
Fe-based
Nanocrystalline Toroidal Core for Current Transformers :
Characteristics: Nanocrystalline
alloy has similar features of high initial permeability and
temperature stability, less gravity and packing factor than that
of Permalloy. Under the same conditions of core size and
performance, it is lighter ( about 1/3 lighter) and cheaper than
that of Permalloy.
Nanocrystalline
Magnetic Core :
Characteristics: High saturation magnetic
induction (1.25T), high permeability, high inductance (ten times
higher than that of ferrite), low loss, small volume, light in
weight, high electric interference resistance, good frequency
performance and high temperature stability.
For more infos about the Nanocrystalline material see :
Nanocrystalline magnetic material suppliers :
Interesting patents to explore which have some similarities or interesting characteristics :
The MEG v1.0 build by JL Naudin - October 29th, 2000
See : The MEG v1.0 build by J-L Naudin, with diagrams and tests reports