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Originally posted by med.3012
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Thank you very much med.3012 -
Originally posted by med.3012 View PostYes this is very important if we take a look at this device from another angle, combining 3 wire to become just two has a lots of indications, in my point of view volts and ampere must be in equal state physically, L1 coil have to work as a kind of electrons divergence mechanism, in this stage a source of huge electromagnetic flux is produced ...
L2 coil must do the opposite things as previously stated, Volts and ampere must meet each other so the resistance R is introduced, this mean useful work !
the electrons divergence ( serial ) in L1 coil have to come after the electrons convergence (parallel)
this is a photo of Don device where it's clear the presence of two parallel diode just to make L2 in equilibrium state.
just to correct something here : the right is :
the electrons divergence ( parallel ) in L1 coil have to come after the electrons convergence (serial), in a few words divergence = ( parallel ) and convergence = (serial)Comment
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Originally posted by AetherScientist View Post
you are welcome.
just to add the photo that show the diodes in parallel, i have a bad connection today!
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I have been watching the part where Smith explains about separation and assembling of electrons. I think he is explaining the same as I have drawn in the pictures.Originally posted by med.3012 View Post
Smith device is "breaking" the potential wave (current + volts in non excited stated) into a differentiated or excited state (differentiated or excited means the same). The device tunes with both components (for that reason L2 is a bucking coil), amplify them and finally both components are mixed together to form a bigger potential wave. It seems he is using a special LC resonator. I say special because it seems that he is using superconductivity LC resonator.Comment
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I think you are drawing a visual explanation. I am doing the same to explain what I understand between your theory (convergence and divergence) and the Smith coil theory.Originally posted by med.3012 View PostComment
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Originally posted by AetherScientist View Post
this is the point, a special L/C circuit able to oscillate and combine serial and parallel mechanism plus super conductivity which is a kind of electrons condensation.Comment
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med.3012
there is a way that Smith explains and I have seen in a video that you can measure the direction of spin and the strenght of the field in the coil.
You need to use a hall effect sensor and an oscilloscope to see the output from that sensor. Smith explains exactly what it's happening.Comment
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Smith clearly uses superconductivity and potential decomposition (electron separation). So L1 and L2 are using LC resonant in superconductivity.Originally posted by med.3012 View Post
As you may remember, the superconductivity laws are logarithmic and the non-superconductivity (ordinary electricity) laws are linear.
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Originally posted by AetherScientist View PostSmith clearly uses superconductivity and potential decomposition (electron separation). So L1 and L2 are using LC resonant in superconductivity.
As you may remember, the superconductivity laws are logarithmic and the non-superconductivity (ordinary electricity) laws are linear.
you mean he used a special material that have superconductivity characteristics ?Comment
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The drawings
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No, I mean that electricity can be polarized to produce superconductivity at ambient temperature.Originally posted by med.3012 View PostComment
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It's like an electric fan.
When the electric fan in on, it absorbs air (convergence) and emits it (divergence)
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Originally posted by AetherScientist View PostIt's like an electric fan.
When the electric fan in on, it absorbs air (convergence) and emits it (divergence)
good point, we have to think also about an electric fan can do this in both direction, so it can work as a true quantum generator.Comment
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When I read this, I think of separation of voltage/dielectricity from amperage/magnetism through resonance. The dielectricity flows through the system without resistance, in the fashion of a superconductor. The amperage component can be reintroduced to the system through the AV plug and capacitors to power a load.Originally posted by AetherScientist View Post
Is this what you are referring to?
BobComment
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Not exactly, but similar.Originally posted by Bob Smith View Post
Smith separates voltage and amperage throught resonance. Smith device is not easy to understand because it implies a lot of small details, and most of them I have not seen in other inventions. Smith device employs some mechanism that are unique in his device.
Sometimes you see a device and you may have seen a similar technique employed in other invention. Smith is quite different. Even he wrote some papers and made some presentations, his explanations are easy to understand but hard to implement in all the mechanisms. Smith explains it very easy but there are tons of details that you need to know.
I think that is the reason because it's not easy to replicate.
L2 coil separates voltage from amperage and amplifies each one apart. He also uses some superconductivity inductions that are not usual.
He also uses a non conventional way to charge capacitors.Comment
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