So as not to co-mingle GK's "The Final Answer" thread, I copied a reply from Ion to this new Thread.
Quote from: ion on 2019-02-09, 19:28:45
My hypothesis for a radiant event goes something like this:
When electrons are compressed (pressed together) along the length of a conductor, and if the compression force is high enough something has to give, and what gives is this: charge is exited from the wire perpendicularly and with great speed and force.
The image is a wire surrounded by perpendicular blue sharp needle like charges. The exiting charge can electrify objects in the vicinity. It can sting the skin. The charge can be "collected" as a current and used to fill capacitors.
The question remaining is how to create the electron compression? Reflected waves of a tuned transmission line? possibly there may be a few ways. The Tesla literature on this effect may provide the clue.
I have some possible supports to this hypothesis, but I don't want to disrupt GK's train of thought so I will allow him lead here.
I'm of the opinion that this phenomenon can be produced with an abrupt discharge from a capacitor (sorry no time to look at Peter L's doc right now - lunch almost over and I have to get back to work). I believe Bruce TPU has demo'd this phenomenon by hitting one end of an open wire with an abrupt discharge, at which point the wire jumps. He too, if I'm not mistaken, maintains that there's a perpendicular charge exit from the wire. For me, this is an important starting point. Some questions (in simplest terms) that follow for me are: - how best to charge up a cap from atmospheric (ambient) charge - how best to discharge the cap into open wire/coil - how best to allow discharges of 2 or more caps with coils to heterodyne - how to collect the heterodyned standing wave to power an external load Bob
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Topic: Another Look at the TPU as related to Tesla's Radiant Electricity (Read 2855 times)
