Re: Frequency Controlled Resistance

Jerry W. Decker ( (no email) )
Wed, 28 Jan 1998 01:17:12 -0800

Hi Hex!

You wrote;
> I don't quite know how to put it... uhh... "conduction bands" --
> bands of charge travelling at different speeds -- forming layers
> around the center -- which matches the wave conventional waveguides
> work for air or water.

Interesting, another can of worms, gotta hide your can opener...<g>..

Ok, you remember when Bearden was talking at one time about 'degenerate
semiconductors'? He said that you must tap ONLY the POTENTIAL (voltage)
and not the current. IMHO and understanding, he says that current is
evoked from the center of the conductive mass, i.e. the center of the
wire (much like Tewari's use of a rotating magnetic drum in his homopolar
generator, where he taps the center and the outside rim to pull current,
roughly 1.5 volts at 1700 amps).

Ok, if this is so, that current is evoked from the center of a wire, then
it is moving radially until it hits the edge of the wire (your outside
conduction band)...only then does it do a right angle turn and begin to
actually DRAW CURRENT (use energy). Bearden says if you hook up 1000
wires to a single power source, when you turn switch power to the wires,
they all measure the same amount of power INSTANTLY. So if you could tap
all these potentials before current ever flows, then you could suck off
free energy.

Much like Keely's claim that you can put one tuning fork into a room with
a thousand tuning forks. When you strike THE ONE FORK, all the other
forks will resonate to the SAME AMPLITUDE, evoking the extra energy from
the resonant neutral center of the mass. It is a matter of converting
all that mechanical vibration (collimating) into a useful form of energy.
Perhaps piezoelectric crystals or better yet, magnets connected to the
tines and vibrating in the presence of coils of wire which feed into a
very high dielelectric.

Another point, water and fluids in general are known to have just such
conduction bands...the fastest flow is in the center and the closer you
get to the container wall, the slower the fluid flows, so there are
'conduction bands' there also..

So, what if electricity acts like fluid (which we know it does), then
this conduction bands idea makes sense. Perhaps the crystalline
structure can be created from the outside in, the deeper the structure,
the more efficient the wire. Lots to play with here.

-- Jerry W. Decker / jdecker@keelynet.com
http://keelynet.com / "From an Art to a Science"
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