The Annals of Exploratory Science
ABSTRACT
Before to talk on the polyscale mechanisms of energy transport for pure Magnet Motors (MM) function it might be the usefull, educational and entertaining step to remind to students that the good text on sources of energy in electrodynamic devices are already exposed without explanations, but still accepted and used in various electric and physics department courses related to "energy from the nothing," read in - "Clean Electrical Energy from the Active Vacuum," Jan. 2002, by Tom Bearden - http://www.cheniere.org/articles/clean%20electrical.htm
where he writes:
Is this piece an educational, isn't it?
Then, everybody can recognize that the COP>1.0 electromagnetic systems have been already existing and have known, but not explained fully. The serious problem in analysis of COP> 1.0 devices is that the used for theory the electrodynamics of Maxwell-Heaviside-Lorentz is of insufficient means itself, just approximation for many phenomena and not correct for many other phenomena. We wrote (along of other researchers) the substantial texts on this matter.
The known and explained in HSP-VAT mechanisms of magnetization and demagnetization of magnetic materials which is the connection to the function of MM, have no relationships to the COHP explanation of magnetism, that is using the fantastic definitions and procedures for electrons and other particles, atoms involvement.
What regards to the MM rotation and energy supplied for this rotation and the torque at start and under the load, for that it will be correct at first to identify the compound or composite constituents (if applicable) of the magnet pieces itself.
1) The matter is that the components of magnet alloys and the elements of magnet crystalline compounds, for example, of (Nd-Fe-B) where (B-boron) or (Sm-Co) alloys and composite magnets has being introduced without the isotopic structure variations. And hardly can be found regarding the known isotopes distribution?
Unfortunately we don't know most about the isotope's number of components of for example,
while we can say that isotopes (stable ) - and and are stable or practically stable (very long half-life of decay), when is the decay isotope.
Meanwhile, some other rare earth elements (metals) used in high strength permanenet magnets are produced and physically exist by the radioactive nuclear decay from the high energy states of their atomic nuclei - via gamma decay, decay, beta decay, electron capture, so they are the radioactive isotopes. It is mostly left out of consideration and studies - What kind(s) of radiation in each compound and how strong is it?
The compositions of radioactive isotopes in the final magnetic compound or composite of rare earth elements high strength permanenet magnets are not known.
Some sources (http://www.chemicool.com/elements/neodymium.html) pointing out that - "Neodymium usually exists as a trivalent ion, , in its compounds. "
That means the compound or magnet ceramic can be consituted from a number of isotopes with different half-life times following the spectrum of emitted particles.
The issue at this time is - How the "isotopic" energy released has been transferred to the upper continuum scale magnet material - electromagnetic fields and force the fields to perform the dynamical actions?
We have some methods for procedure of showing that the electromagnetic energy (most of radioactive fluxes are the electromagnetic particles fluxes) scaleportation will be understandable if used the HS physics modeling.
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Tuesday, 30-Apr-2024 01:15:37 GMT
Any information displayed here is the propriatary information in the area of "Upscale Energy Transport in Magnet Motors (MM) from the Sub-atomic to the 2-nd Heterogeneous Continuum Scale in MM."
This is also the well known problem - still can not be solved within the Homogeneous One-Scale Magnetism theory, electromagnetism, particle physics.