The whole aspect of 3 phase car alternator generated voltages generated from
spin alone is frequently dismissed as an effect of remanent magnetism of the
rotating field rotor. The gyroscopic reaction force on the unpaired electron
spins in the ferromagnetic pole faces in rotation should work to only exert a
sideways deflection on the uncohered spins moving in the wrong direction with
respect to the macroscopic rotation of the field rotor steel itself. Take a
bunch of spinning gyroscopes in all directions, put them on a revolving
turntable and see how precession makes all these spins seem more cohered.
Essentially the magnetic gap assembly of the field rotor is feebly magnetized
during rotation, meaning a "prior"voltage on the rotating electromagnet itself
is present before any field voltage current is introduced. Incredibly in all
the google alternator references I have seen no where is the connection between
the direction of spin of the field rotor and the proper polarity to be applied
to the field to be in harmony with that spin mentioned. On top of all this
because the field rotor has an air gap in rotation with respect to the stator
windings, those windings see a varying inductance on their outputs, making this
also a form of a parametric oscillator.All of these effects are made from
rotational magnetism alone where the field of the alternator is not yet
empowered.https://youtu.be/FAc3jQziiccOne of the classic early videos of the
flux capacitor, which coincidentally my birthday of sept 7: 70 years prior to
my own is featured on the third episode of back to the future. Will check the
orders sir, and respond to original objective.HDN on spin factor.Pioneering the
Applications of Interphasal Resonances
http://tech.groups.yahoo.com/group/teslafy/
On Friday, July 24, 2015 10:40 PM, Terry Blanton <hohlr...@gmail.com>
wrote:
"To create a current of spins in insulators, scientists have typically kept
electrons stationary in a lattice made of an insulating ferromagnetic material,
such as yttrium iron garnet (YIG). When they apply a heat gradient across the
material, the spins begin to "move"—that is, information about the orientation
of a spin is communicated from one point to another along the lattice, much in
the way a wave moves through water without actually transporting the water
molecules anywhere. Spin excitations known as magnons are thought to carry the
current.
Read more at:
http://phys.org/news/2015-07-young-scientist-magnetic-material-unnecessary.html#jCp
