some interesting ideas, particularly the use of a magnetic field to loosen
hydrogen bonds. You seem to have done some actual experiments, so you will
have to correct me if your empirical evidence contradicts my orthodox
theory.
First you suggested the use of 100,000V:-
As I understand it, such electrolytic actions (which involve the migration
of ions) is more down to current than voltage. I think I am right in saying
that there is a nominal voltage (which is less than 10V) that produces
enough current to get the reaction going. Any extra voltage leads to
saturation and all you get is ohmic heat loss. Then again, you stated that a
raised temperature encourages the reaction further.
The second point is that of using a current carrying steel bar.
Paramagnetism (as in a steel bar) is due to the alignment of electron axial
spin. That is, a magnetic flux running through a paramagnetic material is
simply the alignment of electrons. If you run an electric current through
this steel, then these same electrons migrate, making it difficult for them
to align. Basically using steel or copper will result in the same effect,
magnetic fields generated my migrating electrons, the strength would be the
same for either metal.
However, I am not sure if hydrogen and oxygen atoms will disassociate under
the presence of a magnetic field, but then I could be wrong.
As well as my previous ideas (pulsed magnetic field and TC primary coil),
what about using Bedini's battery charger? Here is his page:-
Anyway carry on with the good work.
Regards,
Gavin
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