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Author Topic: So you say you want a charge gradient.  (Read 4150 times)

BEP

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So you say you want a charge gradient.
« on: February 18, 2009, 02:57:31 AM »
I present the work of Gerhard Kainz. His work follows my theory of TPU operation very closely.

The only thing he needs to do is join the ends with another B field and stop worrying about plasma and solid-state junctions and just use a dielectric material.
In his presentation you will see that heat is not the problem stated in the SM comments but a necessity for operation. The furnace feeding itself, so to speak.

And yes, magnets are required. Defined B fields, at least.

And no, there is no core, unless you consider what folks call a 'collector'.

BEP

wattsup

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    • Spin Conveyance Theory - For a New Perspective...
Re: So you say you want a charge gradient.
« Reply #1 on: February 18, 2009, 08:09:10 AM »
@BEP

Thanks for that read. Just in time.

Could I vulgarize by saying that a magnet placed over a loaded wire is both an electron teleporter and check valve or diode and you figure this is how SM is moving electrons through the coils, rings and toroids.

Maybe this can explain some of the scope waveforms I have seen in the past that would morph from one shape to another at a set frequency for no explainable reason.

BEP

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Re: So you say you want a charge gradient.
« Reply #2 on: February 18, 2009, 11:58:14 AM »
It is what I've been saying all along.....

Basically all matter has constant movement within, with no help from the outside. It is sometimes called 'thermal noise'. Why not make as much of that movement as possible unidirectional.

Kainz explains it better than I can.

This concept offers a solution for 'magnetic refrigeration', 'cold electricity', the clamp meter showing current, the spin up and spin down of the compass, the concerns about heat, analogies to the furnace, references to tubes, and many others.

Perhaps SM had no idea this was happening, but I'm positive it is the basis for the whole process. Kainz's concept will produce small amounts of free energy. The trick appears to be bringing it to a level displayed in the videos.

Simply placing a magnet over a wire wont make this happen. You need three vectors.



BEP

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Re: So you say you want a charge gradient.
« Reply #3 on: March 01, 2009, 04:44:48 AM »
Finally found the proper load test for my TPU tuning......

Antimon

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Re: So you say you want a charge gradient.
« Reply #4 on: March 01, 2009, 09:52:39 AM »
Holy shit!!! What a lamp!

A.