Single Wire Tests

[hansvonlieven]

BUT... what if, SM discovered that the way to "disable the EFFECTS of the flux, so that now the electrons float freely" was as simple as sending the identical frequencies in opposite directions?  One power source sends them all clockwise and another oscillator and power source (two batteries) sends identical signals counterclockwise?  This would give you the counter rotating fields, and (perhaps, needs more testing) this is how SM disabled the effects of the flux?

Cheers,

Bruce

I think you are on the right track with your thinking Bruce,

Have another look at Mark Snoswell's animation of the behaviour in a bifilar coil  http://www.overunity.com/index.php/topic,2764.90.html

posts 92, 95 and 96.

As Rosphere has shown there is bifilar behaviour in a single wire with opposing currents. What if you send the same opposing pulses down a bifilar coil? Would the effect be cumulative? Is that how you create the vortex? And what if the bifilar coil was constructed with one iron wire and one copper wire as in the Stubblefield coil? Fascinating questions.

Only experiment will show.

Hans von Lieven

[Freezer]

Might relate I donno.
http://www.geocities.com/nayado/

[allcanadian]

I did the crossed current test last night, two batteries with lamps and positive connections cross on the single conductor, this just defies all rational explanation. I have no idea  I mean absolutely nothing comes to mind to explain this ---- good job guys.
I tried sending inductive discharges across the current and still ---- Nada, zero interaction

Tonight Im going to probe this setup with a compass to see what the hell the B field might be doing, then maybe try Hans setup. This just ain't right-----

[hansvonlieven]

G'day all,

On this one I need help from you electronics guys. I am only a humble mechanical engineer and though I can read and understand circuit diagrams I don't know enough to design a circuit. What I am trying to do is feed complex pulses (a la Keely) in opposing directions through anything from a single wire to coils to electrodes in an electrolyte to study the effects.

I intend to use my computer as the frequency generator, I have the necessary programmes.

I intend to optically isolate the test rig from the computer using optocouplers. You can see in the attached diagram what I have in mind.

What I need is a circuit that drives the LED's with my audio output. How do I go about this. Any suggestion gratefully received.

Obviously in my proposed setup anything you wish can be connected to the terminals A and B.

Hans von Lieven

[BEP]

Info that may be of additional interest:

Replace that 1 wire with a low ohm resistor.
Connect equal resistors across each LED to bring the load up.
If there are amps going through the 1-wire resistor then it would radiate heat, but it doesn't.

If your loads are almost perfectly balanced and both high enough to pronounce the effect you should sense a temperature change in that 1-wire resistor.

I'll not yank your chains on this but balance is the key word here.