Quote:
Originally Posted by Esteban
I understand! Sorry for can't explain scientifically. The results I obtain outdoor, no in the labo. So, maybe some phenomenons can't be replicate.
If isn't involved some part of electricity, why can be detectable via preamp prepared for detect this electrical/magnetic variations?
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First, I would agree that dissimilar metals, when in a suitable electrolyte (perhaps certain soils) could possibly enter into an electrochemical process where there is an exchange of ions between the two metals. But these paths of current and/or conduction do not leave or float around outside of the electrolyte. Also, if a voltmeter (probes) are touched to the separate metals, a difference of potential (voltage) will be measured. The potential difference will be as a result of how far the metals are away from each other in the Galvanic Series.
However, your devices involving preamps, amplifiers and various types of antennas connected to them, could very well be picking up all sorts of extraneous noise and/or signals from an entire gamut of sources ---none of which would necessarily be buried noble metals.
I appreciate your confidence in what you are doing, and what you are observing, but your claims are in direct conflict with basic physics, electronics and in particular wave propagation. I would have to personally observe what you are doing, and with what sort of apparatus before your
theory of operation could be validated.
The theory and practice of Corrosion of Metals in hostile environments is a very well known science, with tried and true instruments and protocol to arrest corrosion of all sorts of metals. It is a practice built around the science of electrochemical processes that have been studied and researched for decades now. Certainly, if there were deviations from this very old science, involving ions leaving the metals and drifting into the ether where they might be measured or detected as voltages --we would have heard about it many years ago. The fact is, this phenomenon just doesn't occur.