Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[Ganzha]

Who cares about - is TK lonely or he doesn't! we ARE all lonely themselves! USSR was Powerfull and Great.....There are a lot of Yoki!
There are more than enough old TV sets! They are millions!
Don't pretend to be mercy to human whom build Perpet um Mobile but greedy enough to hide secret in green boxes for waste!!!!

[Ganzha]

I could research YokeS  in former Ussr and bring them to Germany but I would need money for beer and wuErst BUT i am afraid that amount of my possible customers are less than 10 individuals

[Zeitmaschine]

Yeah I've brought up the transistor fake out myself, I think we should consider the possibility
that they use the fake heating of the transistors as an excuse to shut it down to conserve battery power

Let's calculate: 5000W at 220V = 23A, 5000W at 12V = 416A

Hence a hidden 12V battery in the green box had to provide 416 amps of current for at least 1 - 2 minutes without being heavy, because any heavy weight (like a car battery) in the green box would have been extremely suspicious (at least to whooshman).

Any idea what kind of battery this could be?

Regards

[stivep]

XRF is practically useless for elements lighter than sodium. That means any carbon, hydrogen, nitrogen, boron (e.g. as in NdFeB magnets) will not be detected.
Also XRF is good in detecting the percentages of elements but not in detecting chemical compounds, e.g Al₂O₃

Raman spectroscopy is another analytic technique worth looking at.

I was digging for literature in Raman spectroscopy  but not only,since your comment and I have few questions as :
some of older  versions of devices are within 2K that makes it possible to acquire  but 
Mostly containing cryogenics and  operating with assigning properties of liquids and vapors. and tissue
How do you see yoke........say take sample from ferrite and put it into rotating sample wheel?
or grain it?
or what?


https://docs.google.com/viewer?a=v&q=cache:da6OeUODJBsJ:crystal.che.ncsu.
edu/pdfs/Appl_spectroscopy_SERS_c.pdf+&hl=en&gl=
us&pid=bl&srcid=ADGEESgSGITAh_8a_EkIz8B4ZklU2VtMD_JFQErHPw2qzO1N-6xQpoeYp4TwUB5dxG9wdSIPgsPgCya0D__
9Ip9Z7oUSDAkN2RxliJaoVJfyHdulG2XayLYex-DSC_eKd3a5aH3TmJM3&sig=AHIEtbTGEaIH62g1
VivFzDZCwQdckLSH1A


http://144.118.25.24/bitstream/1860/1158/1/Ellzy_Michael.pdf
page #38




Wesley

[verpies]

Raman spectroscopy uses reflected laser light from the tested surface and requires no sample preparation. The laser illumination does not penetrate very deep below the surface (WYSIWYG). If the sample is not homegenous then grinding/scrubbing can be used to get to the deeper layers of the sample.

Most of the reflected/scattered light is of the same color (wavelength), but 1 millionth of the light changes its color through inelastic scattering, and the spectrum of this changed light carries the information about the elemental and chemical composition of the tested substance,  (the chemical bonds between these elements, too)

The whole idea of the Raman photospectrometer is to filter out the light frequency produced by the illuminating laser (e.g. with a notch filter) and measure the spectrum of the remaining light.  This filtering is hard to do because the laser line is much much brighter than the other lines in the spectrum, and any fluorescence can jam the remaining light, too. This undesirable IR/Vis fluorescence can be avoided by using a short UV light to illuminate the tested sample.

Once the laser line is filtered out, the remaining light can be detected using standard techniques, such as prisms, diffraction gratings, (Czerny monochromator) with sensors such as CCDs and photomultiplier tubes.  The signal-to-noise ratio of the CCD sensors can be improved by cooling it with Peltiers or L.N., but this is optional if the Raman signal is strong (e.g. intense laser or SERS amplificaton).  Used monochromators can be bought for $1k.

The heavy elements (e.g.: Hg, Pb) are harder to detect through Raman spectroscopy because their spectrum is very close to the blinding laser line.  The advantage of Raman is that the light elements and the bonds between them are easily detectable.  On the other hand, the XRF Spectroscopy "likes" the heavy elements but is useless with the light ones and does not yield much information about the chemical bonds between elements.