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ORMEs Difficult to Detect by Conventional Apparatus
From the Australian patent application we see that
"The atoms of each ORME do not have d electron orbital overlap as do their corresponding T-metal clusters. ORMEs do not, therefore, exhibit the same characteristic emissions of their corresponding T-metal when subjected to analysis by instruments which depend upon electronic transitions. ORMEs must, therefore, be identified in new ways, ways which have heretofore not been used to identify T-metals."
These materials have been characterized as being high temperature, high strength materials. They will not vaporize like conventional precious metals, and therefore be easy to detect. They will be difficult to sense, as Hudson alludes to "unique thermal and chemical properties."
ORMEs Provide Superconductivity and Zero Point Energy Release
Hudson also alludes to the vast industrial potential of Ormes: "The ORMEs of this invention can be used for a wide range of purposes due to their unique electrical, physical, magnetic, and chemical properties. The present disclosure only highlights superconductivity and catalysis, but much wider potential uses exist, including energy production."
Case in point: "And what we also found is that there was an amplification of heat about two thousand times. It was not chemical heat, it was nuclear heat. What we found is all the wiring in the laboratory was beginning to crumble and fall apart. You could go up to copper wires and do that and they would just go to powder.
The glass beaker sitting in the laboratory near the furnace was getting
full of little air pockets in the glass and when we would pick them up
they would
fall apart. And that's radiation damage. There is no
other explanation for it. I'll show you tomorrow that Berkeley-Brookhaven
has confirmed that this
is 25,000 electron volt photons. Gamma level radiation comes
out of these high spin atoms when you throw too much
energy at them."
All of the wires in Hudson't lab were converted into a powder of elements which were different than the original copper they were made of. What caused this was that:
"We took about thirty grams of this white powder and we put it in
the furnace. This furnace had an insulated crucible; it had a copper crucible
in it with
water all around it to keep it cool. You bring a lid to set
down on top of it and there's a tungsten rod that hangs down in it.
And it actually runs a little arc welder which you strike from the tungsten
electrode to the copper."
"And in this arc you sit there and you stir with the electrode back
and forth, back and forth till you literally melt everything that is there.
Now what we
did was we pumped out all of the air, we back filled it with helium
gas, for a plasma gas, and we struck the arc. It went bzzp, like
that and shut off. We
opened up the arc furnace, no tungsten electrode. Now this
tungsten electrode is about the size of my thumb. Tungsten is the
filament material that they
make light bulbs out of. The people who built this furnace
said we could use it for thirty five to forty times with no deterioration
of the electrode. We
could burn it for minutes and minutes and minutes and minutes.
We didn't even get a second out of this thing. So we sent to the
manufacturer, got another electrode put it back in it, put back on, closed
it back up, vacuumed the air out, put in the inert gas, struck another
arc, bzzp, shut off. Opened it up again and the tungsten electrode
is all molten into this powder."
I plan to excite the Orme atoms by "heating the electrons" using the Sun as the Hinthorne device web page suggests. The Orme should release energy in a less careless manner.
Also I wanted to mention to you that you can easily make tiny specks of visible gold glass (transparent gold) when you heat the samples up to red hot with a torch. It is again, plainly visible. I refer to the file Portland, Oregon, July 28, 1995.
"It literally becomes a glass as clear as window glass, and yet it is pure gold, it's not a gold compound, it's pure gold. You can take it in a mortar and pestle and grind it right back to the white powder, but it is, it looks absolutely like glass."
This initial but simple research was found by a researcher in New York,
which he proved for the grey Virginia samples. I immediately confirmed
that the glass was being produced and that I needed to find samples with
a higher gold glass production content. That was in the month of
July, 2001. I went further North of the Viginia-NC gold-pyrite belt
because I realized that the samples would have been the least nucleated
from the vein, and possibly contain higher percentages of g-ORME.
ORMEs provide Antigravity Levitation when heated
I refer to the file Portland, Oregon, July 28, 1995,
"Do you know that when we heated it and cooled it and heated it and cooled it and heated it and cooled it under helium or argon that when we cooled it it would weigh three to four hundred percent of it's beginning weight and when we heated it it would actually weigh less than nothing. If it wasn't in the pan, the pan would weigh more than the pan weighs when this stuff is in it."
In another text, Hudson goes on to explain to Mr. Puthoff that the white powder when heated in a crucuble becomes two-dimensional and sticks to the top of the kiln.
I refer to the file 2,
1995,
"That there is no gravitational field per se. And in his calculations
and in his mathematics, he calculates that when matter is resonance connected
in two dimensions, it no longer interacts in three dimensions, but it's
only interacting in two dimension s, by what he calls the jitterbug motion,
that it loses 4/9s of it's gravitational weight. Or it only weighs 56 percent,
which if you all recall is exactly what our material weighed. 56 percent,
or 5/9s of it's true weight. Which means that the material is a resonance
connected, quantum oscillator, resonating in two dimensions, which just
happens to be the definition of superconductor. "