Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[Hoppy]

The ground current is the key to a working (Kapanadze) device, because it pulls electrons from ground (or any other suitable object) in order to boost the current going through the load.

How are you sure of this?

[Farmhand]

Then the lesson learned of this is: Don't get distracted by anonymous video presentations. Use only authentic Kapanadze video presentations for your analyses.

Don't trust any presentations when there is no measurable ground current. The ground current is the key to a working (Kapanadze) device, because it pulls electrons from ground (or any other suitable object) in order to boost the current going through the load.

Zeitmaschine, If you watch the video of mine linked below you can see that the ground can be used as a conductor as part of a transmission line. Feel free to laugh when I get a small HF arc burn.  Those can hurt. even with a setup powered with less than 15 Watts. Even though I used a pot the same thing can be done between two points in the ground under the right conditions and with lower frequency equipment. This was just an experiment to show the lighting of bulbs with the "hand to ground effect" and the only bulb I had was a 220 volt 15 Watt one, so it got limited glow up and only a few Watts of power dissipated by the bulb. Enjoy. (frequency was about 700 Khz)

Experiment with dirt.
http://www.youtube.com/watch?v=1eRiVu-gd1Y

Cheers

[From other Planet]

Then the lesson learned of this is: Don't get distracted by anonymous video presentations. Use only authentic Kapanadze video presentations for your analyses.

Well according to Hoppy and some others Kapanadze is fake too... 

Seriously, i said it before, the only way to find out what works or not is to actually experiment and from time to time replicate something u personally think might be worth it (Imho)

But maybe we should work on one point all together: To design a fast (low ns range) controller and driver for MosFets/Transistors where u can adjust frequency, pulse width and phase shift. All mechanical switches (spark gaps, relays,reeds, etc.) are wearing out very fast and change in behaviour, thats really driving me crazy, and i think others too.

[Zeitmaschine]

How are you sure of this?

Same as Stepanov and Barbosa. In order to route more electrons through the load (without expending more energy to push the electrons already in the wire) we need additional electrons from somewhere.

What attracts electrons? A magnetic field? Then how about attracting electrons by a collapsing magnetic field due to a sudden switch-off of the current going through a (primary) coil? The secondary coil is not a high voltage coil (like a HV transformer) but a 50Hz resonant circuit connected to ground.

A LC circuit works like this: When the sinusoidal wave is on its peak -the voltage maximum- all energy is stored in the capacitor C as an electric field. On zero-crossing when the voltage is on its minimum, all energy is stored in the coil L as a magnetic field.

At the point of zero-crossing the magnetic field is on its maximum and then it starts to collapse and to generate a current charging the capacitor in reverse polarity.

Now what could happen, when that already (slowly) collapsing magnetic field gets a hard push downwards from a suddenly interrupted DC current going through a second coil (the switching coil) so it collapses much more faster? Will this lead to a higher charged capacitor than without that push? At the same time the abruptly collapsing magnetic field attracts electrons from ground and so these additional electrons can charge up that capacitor? One half-wave cycle attracts electrons from the ground, the second half-wave cycle pushes the electrons back into the ground because of the alternating magnetic field, going through the load between.

I'm still puzzled why Kapanadze needs two transistors (to generate high voltage?). One for each half-wave perhaps? And the DC supply is for the DC current going through the switched coil? Or are these thyristors after all?

A thyristor or triac switches itself off at zero-crossing. That's the normal way of operation. But we do not want to switch on and off the LC circuit or the load from that LC circuit like done with a dimmer. Instead we switch on and off (but driven by the voltage of the LC circuit) an auxiliary DC supply to a second coil of the transformer, namely the switching coil. Hmm ...

Not sure about that, just sorting out my thoughts ......... ......... could the outcome be parametric resonance?

But we want to keep it so simple someone would laugh.

[Hoppy]

What attracts electrons? A magnetic field?

Now what could happen, when that already (slowly) collapsing magnetic field gets a hard push downwards from a suddenly interrupted DC current going through a second coil (the switching coil) so it collapses much more faster? Will this lead to a higher charged capacitor than without that push? At the same time the abruptly collapsing magnetic field attracts electrons from ground and so these additional electrons can charge up that capacitor?

I'm still puzzled why Kapanadze needs two transistors (to generate high voltage?). One for each half-wave perhaps? And the DC supply is for the DC current going through the switched coil? Or are these thyristors after all?

Not sure about that, just sorting out my thoughts ......... ......... could the outcome be parametric resonance?

There are a lot of questions in your reply, so you really do not come across as being sure that when you see the clamp meter on Kapanadze's or others 'earth' wire, it is accurately reading real current / free energy sourced from the ground, rather than sinking to ground and returning back to the source external power supply. Or, even more likely giving a totally false reading due to HV / HF induction.

The two transistors on Kapanadze's device are more than likely components in a Royer or Mazillii oscillator for producing a high voltage for the spark.