[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

RE: TMSC 2006 Demonstrations



Original poster: "Jim Mora" <jmora@xxxxxxxxxxx>

"Where you gonna put the meters", Westinghouse

-----Original Message-----
From: Tesla list [mailto:tesla@xxxxxxxxxx]
Sent: Saturday, October 14, 2006 5:01 PM
To: tesla@xxxxxxxxxx
Subject: Re: TMSC 2006 Demonstrations

Original poster: "resonance" <resonance@xxxxxxxxxxxx>


I used our model M-150, a 7.5 kVA coil with an 8 ft long spark, to
light up a 10 inch long neon tube using an identical coil as a
receiver --- at a distance of 4,600 feet.

We started out in the driveway, and I was surprised that at the end
of the driveway it was still igniting.  I loaded it in a truck and
drove down the road east until it extinguished.  Near 3/4 mile range
using coil with identical tuning.

Dr. Resonance



>We used a hoop receiver with an NE2 across the spark gap to
>demonstrate the reception of electrical energy propagated by means
>of electromagnetic radiation.  Being a Hertz type transmitter, the
>average RF power must have been in the milliwatts.
>
>A diminutive incandescent lamp was connected to the secondary of a
>Tesla receiving transformer to demonstrate the reception of
>electrical energy propagated by conduction between the two ground
>terminals and displacement current between the two elevated
>terminals.  No new physics are needed to explain how this works.
>
>The TC RF transmitter was not properly tuned up because I ran out of
>time. The power supply was two 6V lantern batteries connected in
>series; the current was not measured.  The operating frequency of
>the Wardenclyffe transmitter model is somewhere around 218 kHz.
>
>I assume by "usual RF" you mean electromagnetic radiation in
>distinction from RF currents flowing through a transmission
>line.  As for demonstrating that the transmission of electrical
>energy between 1) a radio transmitter and receiver, and 2) a Tesla
>coil RF transmitter and Tesla receiving transformer is by two
>distinctly different means, this should be easily done, either
>mathematically or through experiment.  Why don't Ed, Matt and you all try
it?
>
>>       There is no question that RF can illuminate lamps
>>       at modest distances.  Can be done next to any
>>       transmitter, the higher power the better.
>>
>>       It is a deal more difficult to demonstrate, and may be
>>       impossible, that any given demo is some
>>       'special Tesla effect' distinct from usual RF.
>>
>>       best
>>        dwp
>
>
>
>