http://beforeitsnews.com/science-and-technology/2012/08/inventor-shows-5-fold-wireless-gain-of-amperage-between-equal-coils-2463024.html
I get in arguments all the time about what I am talking about, so this article
pretty much explains the special circumstances involved here, and it uses an
interphasal resonance as the sender of vibrations. Anyone with access to three
phase could reproduce my experiments with special coils, but a higher then 60
hz frequency is also very helpful for the simple fact it becomes much easier to
procure coils with a high q factor if we instead have a three phase source such
as a car alternator that also produces a higher frequency then 60 hz. Then
using ordinary 500 ft 14 gauge coils with just two of them and an alternator
frequency in the 400 hz range it is easy to procure Q factor internal voltage
rise factors in the 15 range. And you will be outraged at the electrical books
explanation for resonant phenomenon because it is a pipe dream expounded by
theorists who never actually did the experiments to verify what they are
talking about. The real Q factor
never equals X(L)/R, and the inductor never comes to an ohms law conduction at
resonance. I purposely selected the best circumstance I could find which was a
coil resonance at 60 hz and found that only 83% of ohms law conduction issued.
http://youtu.be/LgXfbkqxBok
In any case what I am talking about is using voltages DERIVED FROM SERIES
RESONANCE. If you are using AC voltages derived from ferromagnetic
transformers, which is what everyone is familiar with; then you cant get more
out of a coil then what you sent in. But resonant rise obtained voltages has
instances of secondaries exceeding the normal amp turn ratios. Heres some jpegs
past what is shown on the video, where the coil imparts energy to other
components and the ending component still has energy obtained in excess to the
sending amount. These are the other components seen in the video, but not dealt
with in application as they are given open connections.
http://www.flickr.com/photos/harvich/7907775572/
http://www.flickr.com/photos/harvich/7907801088/
Pioneering the Applications of Interphasal Resonances
http://tech.groups.yahoo.com/group/teslafy/
