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Re: Tesla's Wireless Power Transmission



Hi Antonio,
you can top load an antenna with an isotropic capacity, or you can bottom
load it
with an inductance. Either way, it's the long metal conductor that radiates TEM
waves 1/2 a wave length from it. With a TC there is no radiation zone (not
much of
one anyway), this is because there is very little radiation resistance. The net
result is that the E and H field can't get in phase, this results in only a
near-field where the E and H fields stay 90 degrees out of phase. I guess
this is
the electromagnetic version of reactive power, TEM being the real power.
Perhaps
this is what scalar waves are, the E and H field being 90 degrees out of phase,
the reactive radiation :)

Regards

Gavin, U.K.

Tesla List wrote:

> Original Poster: "Antonio Carlos M. de Queiroz" <acmq-at-compuland-dot-com.br>
>
> Tesla List wrote:
>
> > Original Poster: "Ruud de Graaf" <rdegraaf-at-daxis.nl>
>
> > Statement: Tesla's Wireless Power Transmission is not Herzian waves and
is a
> > realistic option:
>
> Just some ideas: What kind of electromagnetic waves can be expected
> around
> a Tesla coil without breakout, better if operating in CW?
> There is a strong vertical RF electric field, that propagating would
> generate a horizontal RF magnetic field.
> But there is also a strong vertical magnetic field, that propagating
> would generate a vertical RF electric field.
> It would be interesting to see with linear antennas and loop antennas
> what you can observe from the fields around a coil. Apparently both
> fields would be sort of "diagonal".
>
> Antonio Carlos M. de Queiroz