"Cold current" may be caused by novel magnetic subatomic interaction

[kmarinas86]

From a thread I posted elsewhere (http://www.overunity.com/index.php?topic=4299.msg199128#msg199128):

It is clear from the operation of capacitors that a displacement current creates a magnetic field with the same polarity as current going the same direction.

When displacement current forms, a curl of the B-field is generated to which the magnetic moments of copper (a diamagnetic material) attempts to cancels out. Because such a B-field can be made of such a magnitude to domineer over the magnetic dipole moments among neighboring copper atoms, the subatomic particles of those copper atoms will attempt to align their magnetic moment dipole axes in helical configurations in contrast to their typical random configurations. The change of configuration actually consumes potential energy by the formation of "paratoroidic (magnetic) moments" of copper (an as-yet-unconfirmed paramagnetic analogue of the experimentally validated "ferrotordic (magnetic) moment").

See timeline on verification of ferrotorodicity: http://www.google.com/search?hl=en&client=firefox-a&rls=org.mozilla%3Aen-US%3Aofficial&hs=Hek&tbo=1&tbs=tl%3A1&q=ferrotoroidicity&aq=f&oq=&aqi=

By keeping the impedance of the back-spike larger (i.e. voltage higher and its current lower) than in the initial pulse, copper's reaction to the voltage back-spike can provide the same polarity of magnetic field as current going forwards. The back-voltage does dissipate after a while, and you are right when you say that, "This oscillation seems related to the length of the conductor and maybe other factors like self-inductance, self capacitance, insulation, wire diameter, etc."

So where does the energy come from to restore the potential energy lost via alignment of the paratoroidic (magnetic) moments? Certain frequencies of electromagnetic radiation get absorbed by the (PARAtoroidic) arrangements of magnetic moments in the copper atoms, in effect, restoring their potential energy. When some of the moments fall out of alignment, others will follow suit.

I do not see this a violation of any laws of thermodynamics. The 2nd law in particular says nothing about any "impossibility" of zones of decreasing entropy, nor is it disproven by the existence of self-organizing structures. Don't get me started on the 1st law, that is simply fact because we can always define a potential energy in reference to new energies discovered. And the 3rd law is about absolute zero....

The generation of frost in some failed operations of the Steven Mark TPU device can be explained by generation of excess magnetic fields. If you remember the fact that temperature is dependent on motion, it is clear that atoms locked in position as a result of mutual magnetic inductance have a lower temperature; this is obviously not the same as keeping a macroscopic object still! At some point, this temperature change can spur surrounding photons to make up the difference, restoring the atoms into their natural, random configuration.

[dankie]

Wish I could understand and do something with it , kinda like the Bruce_TPU posts ...

Got any designs , schematics ?

[Mk1]

http://www.disclose.tv/viewvideo/29990/Dr__Steven_Greer_The_Promise_of_New_Energy/

[kmarinas86]

Wish I could understand and do something with it , kinda like the Bruce_TPU posts ...

Got any designs , schematics ?

The simplest case is the following:

+ _____________wire_____________mechanical switch_____________ -

Instructions:

When the switch is open, the voltage of the back-spike should be maximized while the current of the back-spike minimized. This means:
* The current should not have enough time during the pulse of the back-spike to respond fully to the voltage.
* The L/R constant of the wire should be high enough relative to the time of the pulse of the back-spike. That is what keeps the current low.

The anomalous output will be in the form of magnetic potential energy. The means of this are as follows:
* The back-spike produces an emf opposing the voltage source.
* The displacement current produced by this emf produces a B-field of opposite rotation around the wire as compared to current traveling from + to -.
* COPPER IS DIAMAGNETIC: It will act against the B-field of the back spike and produce its own B-field of opposite polarity. Copper, as any other diamagnetic material, has magnetic dipole moments among its subatomic particles. It is the alignment of these, to some noticeable degree, which uses potential energy.
* ENOUGH COPPER IS NEEDED: It is necessary to surpass the potential energy in the B-field of the backspike.
* COPPER WILL USE ITS POTENTIAL ENERGY AND OBTAIN A NEW EQUILIBRIUM: The only way out of this equilibrium is to absorb energy, just as energy is needed to separate two magnets.
* COPPER WILL ABSORB ENERGY FROM PHOTONS TO ESTABLISH THE ORIGINAL POTENTIAL: Just as what occurs when one removes neodymium magnet over an aluminum plate, the alignment of the copper atoms is lost WHEN there is a decline of the B-field within the material. The removal of the magnet from the aluminum plate does not demagnetize the aluminum plate, but rather it is the heat that absorbed by the material that dis-aligns the magnetic moments in aluminum plate, which in turn demagnetizes it.
* MUTUAL INDUCTANCE IS NECESSARY TO EXTEND THE LIFE OF THE MAGNETIC FIELD: It increases the amount of energy in photons necessary to dis-align the atoms in the copper wire.
* COPPER WILL BE COLDER AS IT USES THIS POTENTIAL ENERGY: As long as magnetic dipole moments of the subatomic particles of copper are locked in the formations which produce the circular magnetic field, they will have lower temperature.

In the TPU device, the control coils are what utilize this form of energy. The magnetic field generated by the control coils is parallel to the collector coils. The electrons absorb this energy in the process and will tend to move in spirals in the wire. Thus, magnetic potential energy is stored between the spiraling electrons in the wire and this allows sound-like waves of potential energy to transfer between electrons in ways not corresponding directly to their speed down the wire.

[kmarinas86]

"Cold current" may be caused by novel magnetic subatomic interaction

by Kmarinas86