The math for all this is in Shape Power.
Dan A. Davidson
At 10:56 PM 1/27/98 -0800, you wrote:
>
>
>On Wed, 28 Jan 1998, Jerry W. Decker wrote:
>
>> These guys said they had found that by injecting various frequencies in
>> wire or into cooling conductive materials, that paths were setup which
>> would have unusually low resistances. They said even overunity was
>> possible but would not say onstage that they had succeeded. Later, I
>> cornered a couple of them and asked a few questions.
>
>Damnit Jerry - there you go being psychic again. :)
>It's funny you should bring this up, since it reminds me alot of an idea
>that I remember reading somewhere -- the idea was that: current flowing
>through a conductor does *NOT* flow at a fixed rated -- but rather various
>flows are set up at various DEPTHS in the conductor. Essentially, the
>conductor becomes one giant waveguide - with different... um... 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.
>
>I'll take "things that make you go 'hmmmm'" for $100, Jerry...
>it makes you wonder if this difference in the flow can be engineered?
>If you were to treat conductive wiring as a conventional waveguide,
>then surely there must be a way to create a path of the lowest possible
>resistance.
>
>Speculation, anyone?
>
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