Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[scratchrobot]

@Dole, Nice video thanks.

I found another interesting article on my quest:

Scientists Create Radiation Absorption Device - An Artificial Black Hole

Researchers in China have created an electromagnetic absorbing device for microwave frequencies. The device, called an “omnidirectional electromagnetic absorber”, is made of a thin cylinder comprising 60 concentric rings of metamaterials  and is capable of absorbing microwave radiation, so they compared it to an astrophysical black hole which soaks up matter and light.

The research published in New Journal of Physics outlines how the researchers utilized the special properties of metamaterials, a class of ordered composites which can distort light and other waves.  Qiang Cheng and Tie Jun Cui of the State Key Laboratory of Millimeter Waves at Southeast University in Nanjing, China, designed and fabricated their omnidirectional electromagnetic absorber using 60 strips of circuit board arranged in concentric layers coated in copper. Each layer is imprinted with alternating patterns, which resonate or don’t resonate in electromagnetic waves.

The designed device can trap and absorb electromagnetic waves coming from all directions by spiraling the radiation inwards and converting its energy into heat with an absorption rate of 99%. Hence it behaves like an “electromagnetic black body” or an “electromagnetic black hole”.

At the moment, the device only works with microwaves, but the researchers are planning to develop a black hole for visible light next.

The current results could find some applications in microwaves. As the researchers write, “The good agreement between theoretical and experimental results has shown the excellent ability for metamaterials as the candidate to construct artificial
omnidirectional absorbing devices.

“Since the lossy core can transfer electromagnetic energies into heat energies, we expect that the proposed device could find important applications in thermal emitting and electromagnetic-wave harvesting.”

http://www.science20.com/news_articles/scientists_create_radiation_absorption_device_artificial_black_hole

scratchrobot

[penno64]

@Dole,

Thank you.

Kindest Regards, Penno

[core]

How Camera Flashes Work.

The basic idea is to conduct electrical current -- to move free electrons -- through the gas in the tube, from one electrode to the other. As the free electrons move, they energize xenon atoms, causing the atoms to emit visible light photons (see How Light Works for details on how atoms generate photons).
You can't do this with the gas in its normal state, because it has very few free electrons -- that is, nearly all the electrons are bonded to atoms, so there are almost no charged particles in the gas. To make the gas conductive, you have to introduce free electrons into the mix.

This is the metal trigger plate's job. If you briefly apply a high positive voltage (electromotive force) to this plate, it will exert a strong attraction on the negatively charged electrons in the atoms. If this attraction is strong enough, it will pull the electrons free from the atoms. The process of removing an atom's electrons is called ionization.
The free electrons have a negative charge, so once they are free, they will move toward the positively charged terminal and away from the negatively charged terminal. As the electrons move, they collide with other atoms, causing these atoms to lose electrons as well, further ionizing the gas. The speeding electrons collide with xenon atoms, which become energized and generate light (see How Fluorescent Lamps Work for more information).
To accomplish this, you need relatively high voltage (electrical "pressure"). It takes a couple hundred volts to move electrons between the two electrodes, and you need a few thousand volts to introduce enough free electrons to make the gas conductive.
A typical camera battery only offers 1.5 volts, so the flash circuit needs to boost the voltage substantially. In the next section, we'll find out how it does this.

http://electronics.howstuffworks.com/camera-flash1.htm

Most of the flash circuits I have seen have a diode reversed biased that places a negative voltage on one of the electrodes. The other electrode, is connected to (-) negative on the circuit. So what becomes the positive charged terminal? I imagine it's the trigger plate and the positive ions race towards both negative terminals.

I guess, in the TK device, the million dollar question is 'What are you ionizing? (A) Air, (B) Conductor (C) Insulator.

BTW - If you place a meter across the xenon bulb when at full charge and prior to triggering what side of the bulb shows positive? Anyone ever do this?

Respectfully,

Core

[dole]

I guess, in the TK device, the million dollar question is 'What are you ionizing? (A) Air, (B) Conductor (C) Insulator.
BTW - If you place a meter across the xenon bulb when at full charge and prior to triggering what side of the bulb shows positive? Anyone ever do this?
Respectfully,
Core

Yes I did some experiments on that, if I did remember correctly and did not make mistake under measurements (what is quiet often, believe or not) polarity reverse prior to discharge. Answer to the question should be A and C (there are the same) providing very specific properties for B as a path, whatever it is.
Interesting to report under last youtube I was able to see tiny glow from my body in the dark attached to third coil, there was no current in my body I feel I just provide energy flow ionizing myself. Then it become clearer a report that top of the Tesla tower glow very bright and not sending sparks as many think. Thanks in advance if any have some more reference to the subject.

d.

[crowclaw]

Most of the flash circuits I have seen have a diode reversed biased that places a negative voltage on one of the electrodes. The other electrode, is connected to (-) negative on the circuit. So what becomes the positive charged terminal? I imagine it's the trigger plate and the positive ions race towards both negative terminals.

I guess, in the TK device, the million dollar question is 'What are you ionizing? (A) Air, (B) Conductor (C) Insulator.

BTW - If you place a meter across the xenon bulb when at full charge and prior to triggering what side of the bulb shows positive? Anyone ever do this?

Respectfully,

Core

Hi Core
The negative point of your circuit is your reference point. if you produce a more negative potential voltage with reference to this negative point...then the negative point becomes more positive in relation ship the the negative potential. Not easy to grasp at first but if you think about it long enough it becomes clear!! If you connect a voltmeters negative probe to the negative potential and the positive to circuit negative, it will indicate a positive voltage reading. Hope this helps.