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#11
03-01-2006, 05:09 PM
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Quote:
In the early 1990's a NOVA TV documentary showed a division of NASA had developed the same method of discriminating the "field" of underground anomalies from an aircraft. The difference was we had spent about $70,000 to develop an analog prototype, and the division of NASA had invested over $1 million in a computerized version. We both used conventional geophysical methods and Ground truthing to verify our locations. The idea of long time buried Gold being detectable vs freshly buried Gold not being detectable was originated by Claude Cochran, an LRL super salesman during the late 1989's as a competetive advertising scheme. In my experience, It is true that the deeper fresh Gold is buried, the longer it will take for the "Field" to reach the surface where the "field' might be detected. Certain geologic conditions appear to not allow the concentrated earth "field" around some sub-terrain Gold buried even for thousands of years to ever reach the surface and therefore not all Gold will be detectable using this Remote sensing concept. In my Field testing of the Mineoro, I used a 1 ounce Gokl Krugerand, lieing on the surface of the ground to tune the Mineoro, and specifically to determine if the target SOF was strong enough to be within the Mineoro's operating limitations. When the SOF was strong, the Mineoro, detected the unburied Gold from a distance of 12-15 feet. When SOF conditions were weak, the Mineoro would not detect the "field" of the un-buried Gold, and also, it would not detect the "field" of the long time buried Gold either. This is consistent with All LRL's I've used, or tested, whether electronic, or non-electronic. At least some understanding of the Physics that are being applied are an integral part to the electronic development this remote sensing concept. I hope my field experience provides some "food for thought". Good Luck! "WHAT HAS BEEN DONE, CAN BE DONE" Dell 
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