Part 1
The following are highlights of a discovery of a new form of matter.
Orbitally rearranged mono-atomic elements (ORMES).
(In other words, `What you always wanted to know about superconductivity,
alchemy, overunity cold fusion, and fission, but were afraid to ask, or
maybe whom to ask.)
Dallas, TX Feb., 1994, David Hudson bought a gold mine 15 years
ago and in his recovery process he found some strange material in an unknown
form. This story concerns a mysterious material that he observed as a residue
in the mining process. He found there's a total of 12 elements in this
group that can exist in a different atomic state, called "High Spin State".
One of them happens to he gold. The others are: nickel, copper, cobalt,
mercury, silver, platinum, rhodium, iridium, palladium, osmium. and ruthenium.
Most of his work was done on rhodium and iridium because he had 2,000 ounces
of rhodium and iridium per ton, and about 12-13 ounces of gold in his mining
material. So, in processing this material, he got a lot rhodium and iridium.
He had very small amounts of gold, so his work tended to be with rhodium
and iridium.
"We're going to present to you the Scientific American articles
and the published papers and Physics Review's "C". Which show the
discovery of this form of matter." Now when a man, particularly a cotton
farmer, tells you he's got patents on this new form of matter. you're going
to just like the US patent office. When I filed for a patent on gold. they
said. "What? You mean gold oxide or gold chloride or a gold
compound? "and l said, "No. This is gold. Elemental gold"
The following articles and comments substantiate Hudson's discovery.
This is out of Scientific American, Dec. 89, an article on micro clusters.
"Divide and subdivide a solid and the trace of its solidity fade away one
by one, to be replaced by characteristics that are not those of liquids
or gases. They belong, Instead, to a new phase of matter, the micro cluster,
Micro clusters consist of tiny aggregates comprising from 2 to several
hundred atoms.
And what we found is that every element has a minimum cluster
size where it has metallic character, and once the cluster goes beyond
or below that critical minimum size, it totally breaks up on its own. And
every element is different.
For iridium, it's a 9-atom cluster; for platinum, it's a 5 atom
cluster; for palladium, its 5 a 7 atom cluster; for gold, it's a 2-atom
cluster. Anything larger than that stays metallic and will aggregate and
become more metallic. Anything less than that will literally break up on
its own.
An article from Scientific American (new radioactives), March
1990 p.58, basically describes new radioactives. The example they give
is Uranium 232. This happens to be a radioactive isotope but don't
let that fool you. This is a phenomena that relates to all elements. Most
of us have never heard about nuclear orbitals. We've heard
about electron orbitals, you remember back in chemistry class you had 2,8,
16, 32, these are the sequences that the electron orbitals fill. 'Well,
the nucleus fills the same way. The proton and neutron orbitals
actually fill in harmonic sequences.
The Actinide group are the elements that begin with Actinium
and are the heavy elements. About 1985-86, some nuclear physicists were
watching these elements and suddenly, an atom blew apart. It literally
came apart on its own. There were no gamma or beta emissions. There was
tremendous heat, literally...one element became two elements. Just bang,
it happened.
This really took the physicists back because this was not an
element that they expected to come apart. This was a stable element, and
as they began to investigate, they found all of the Actinide group basically
would do this. These are kind of heavy nuclei, they're big, fat, they're
lots of protons and lots of neutrons. and they said. "Well maybe it's just
because they're big, cumbersome nuclei. They're not that stable,
anyway." But within a couple of years, these same researchers began to
find that the rare earths would do this, the Lanthanide group.
Number 57 is lanthanum, of the rare earth group. Now you're not
going to run into them that often in your normal chemistry endeavors, and
so they stick them down at the bottom of the Periodic Table. But they also
found that Samarium through Dysprosium, including Neodymium, would do the
very same thing. They literally, as a single atom, could come apart all
on their own, and they're not radioactive isotopes. Now this is very
serious stuff here, because these nuclear physicists, you know, we've been
taught that the nucleus is a very stable thing It takes tremendous
energies to blow it apart. It takes energies up to about I million electron-volts
to knock a nucleus apart, and yet they found that Samarium through Dysprosium
would do this. Samarium, Neodymium, Europium, Gadolinium, Terbium,
and Dysprosium would do this. So basically what they learned is the
nucleus is a very snobbish thing. That basically as the electron orbitals
fill, so do the nuclear orbitals fill. What happens is the elements that
are half-filled or half empty, the ones that are in the middle of the Periodic
Table, harmonically complete orbitals, actually say, "you unfilled orbitals
get out of here. You can't he next to us filled orbitals. We're the good
guys You're the bad guys. You get off away from here and you come hack
when you're filled, and then you can be part of us. But in the meantime,
get the heck out of here."
What happens is, these partially filled orbitals are excluded
from the filled orbitals, and this is inherent in a mono-atomic system.
It's kind of like a 2-cylinder motor. The pistons run opposite each other,
and so even though here's a vibration. they kind of neutralize each other,
and so the motor is pretty still. But what happens when you take one cylinder
away and you have a one-cylinder motor? It's an inherent vibration. You
can't help it.. And so here there's one little naked atom who has
got this out-of-balance phenomena in the nucleus, and it's spinning. And
what it does is it excludes these unfilled orbitals. These protons and
neutrons that are not filled get pushed away from it. and it creates this
figure eight or coke bottle-shaped nuclei.
Okay, now this is new stuff, people. You're not going to find
it at the universities. You're not going to find it being taught, because
it's new. It was just 1985-86 when it was first discovered. It's in the
published literature now, Probably 50-60% of the physics papers in Physical
Review are on this area right now. It is a hot topic. But very few college
professors are aware of these new findings because it wasn't in their curriculum
when they were in school, It's not in Physics or Chemistry books yet, either.
"It is now known that the atomic nucleus is a more or less spherical object
whose diameter is a few firmes, a unit of measure equal to I quadrilliontb
of a meter. or simply 10 to the minus 15th meters, Electrons orbit the
nucleus at a distance of about 100,000 firmes. For comparison,
the radius of the moon's orbit is only about 30 times greater than the
diameter of the earth," So we think the moon's a long ways out there, but
relative to the earth, it's very close. You take an atom, the electrons
are far away from the nucleus. "Packed in this firmes sized nucleus is
nearly all the mass of an atom and all its positive electric charge. The
mass of the nucleus comes mainly from nucleons. Protons carry the positive
charge. The structure of the nucleus arises from two types of inter-reactions,
the strong and the electromagnetic, As a result of the strong inter-reaction,
or nuclear force, protons bind to neutrons and to each other. The nuclear
force binds nucleons very tightly." Okay, now. this is old hat for you
people who took physics, but this is very important to most of you.
To separate two neutrons that are one firme apart, for instance, requires
an energy of about 1 million electron-volts." Now this is the standard
thinking that you were taught in school, "Now, on the other hand,
only about 10 electron-volts is needed to disassociate two neutrons that
are 10 firmes apart." So, the strong force only works over very short distances,
And once those nuclei start coming the least little bit apart, the glue
no longer adheres. "As a result of the electromagnetic inter~reaction,
or `coulomb force' or `repulsive force', the protons repel other protons.
Although the coulomb force is weaker than the nuclear force, it acts over
a much longer range." So if two protons are one firme apart, the
coulomb force is about 100 times weaker than the nuclear force, yet at
a distance of 10 firmes the coulomb force is about 10 times stronger than
the nuclear force.
Now are you beginning to understand what's happening here? These
foreign nuclei no longer are glued together like they are supposed to be.
They actually want to come apart on their own. The force that's inside
that nucleus that is pushing apart is very weak compared to the force that's
holding them together. And when they become deformed, all the rules break
down.
And so we're taught in school that the nucleus takes a million
electron-volts to push it apart, but in fact, this phenomena doesn't hold
true, often you're talking about deformed nuclei. Now here it is in Scientific
American. It's very serious and true.
And so Physicists found that all the Actinide group would do
it, which most of these are man-made elements, but then they found
that the rare earths Samarium through Dysprosium would do it. These rare
earths are not that big. They're not that fat. They realized that it had
to do with the harmonics in the nucleus, and it was actually the nucleus
that deforms itself and in doing so, it is no longer stable. It literally
can just blow apart on its own.
That sounds like alchemy, doesn't it? Anyway, they began
to look at Ruthenium, Palladium, Platinum, Silver, Osmium, iridium
and Gold, and then Mercury, which just happened to be the elements I have
been working with. The U.S. Government and European labs have been working
on this, also. They found that the nuclei in the Platinum region
with total proton numbers 78-82 and neutron numbers 108 to 126, were also
anomalous. In other words, they don't conform either They're just like
the rare earths. A discontinuity of this magnitude is not observed in any
other part of the Periodic Table." They found that the heavy
Actinides would do it. Then they found that the rare earths would do it.
Then they started looking at these elements above it and below it. Key
words that were developed when they began to make these discoveries were
"high-spin" like Rhodium 103. When the nucleus becomes deformed in a ratio
of 2 to 1, twice as long as it is wide like a coke bottle. its spin flips
to the high spin state. It's inherent in the stuff. It isn't anything you
do from the outside.
So you physicists, the people of the technical world, you can
get the paper and you can read all about the deformations. It's a big,
long paper and you're welcome to read it.
That now is the consensus. The word is "super-deformed" and it's
used whenever the nucleus has a 2 to 1 or greater deformation. This is
the semantics, the wording, that the physics community has developed.
The world isn't as we thought it was. The references are the
"American Physical Society" 1988, pg. 28, and Physical Review C, Vol. 38,
No. 2, Aug. 88, and the source is Nuclear Science... Lawrence Berkeley
Lab, Berkeley, CA. That's your government lab. This is hard science, folks.
this is not a maybe.
Another reference, "Quantum size effects in rapidly rotating
nuclei." Now they talk about high spin, the rapidly rotating nuclei.
And there is the Niels Bohr Institute, University of Copenhagen. You all
know who Niels Bohr was? Worked with Einstein? This is Physical Review
C, Vol. 41, No. 4], Apr. 90
They're talking about that as nuclei become filled, their nuclei
are stable and very spherical. But when they're half filled or half empty,
it's when they're the most unstable. And so it's not the elements on the
left or right side of the Periodic Table, it's the elements in the middle
that do this.
You can see by 1990 they were really trying to understand this.
because the world isn't as we thought it was. We thought these atoms were
just so stable and never would come apart, and heck, you look at
these wrong and they come apart.
Now there is also a 1960's book that my Ph.D. chemist studied
at Iowa State University and it's actually found that by applying an 800,000
gauss magnetic fields that they could cause the nucleus to spin flip to
the high spin state. And then when they release these fields. they read
the resonance that comes out of the nucleus as the nucleus drops back down
to the low spin state. Now this was discovered in the 60's but if you have
to keep 800,000 gauss applied to this nucleus to keep it in the high-spin
state. it's a tremendous amount of energy.
But if they could ever get nuclei that would go in a high spin
state and stay in the hi-spin state, then they should have a superconductor.
Another article, "Quantum-size effects in rapidly rotating nuclei"
Apr. 90. This is the Niels Bohr Institute, Physical Review 6, Vol. 41,
No 4. They finally put it down in print and admitted this was what they
were chasing, these high-spin nuclei. What they are talking about is "in
the nuclear case." I'll start reading right here "a variety of symmetries
are spontaneously broken and particular rotation on gauge invariance is
testified by the occurrence of families of collective excitations displaying
rotational relationships with the different observables." Skipping on down
here. "It has been conjectured, it is Cooper instability..." Now for those
of you who don't know what Cooper instability means, they gave a
Nobel Prize to Barr, Dean, Cooper and Schreifer, who worked for GE.
It was the theory of superconductivity. And "Cooper pairs" are when a time
foreword electron pairs with a time reverse electron, they become pure
light with no particles. There's no particle aspect anymore. It's
light!!
And each atom contains many of these electron pairs on it, so
it takes a certain minimum number, several hundreds of atoms, before you
have a superconductivity. The word "superconductivity" it like the word
"army," you can't have a one man army. It's a contradiction in terms. By
definition, the word superconductor is a many atom system. Any patent on
superconductivity has to be cleared for worldwide issuance by the Department
of Defense.
All this information is getting out. If you haven't figured it
out yet. this is the explanation for cold fusion. Ponds and Fleischman
just haven't been doing their physics, they've been doing too much chemistry.
(Pons and Fleischman are being financed by Toyota and expect to have
a cold fusion or overunity electric car by 1998.
Another paper. Physical Review Letters, Vol. 62, No. 10, Mar.
6, 89, and if you read it just a little bit, "1,776 vaporization's
of iridium atoms onto a supercooled tungsten plate." And you know,
people study the darndest things and they measured where the atoms
arranged themselves. They didn't realize the importance of what they were
doing. They found that the atoms were arranging themselves at about 6.3
angstroms apart. Their conclusion was that it's like there's a coulomb
wave that comes off of the atom. This atom is in a high-spin state. But
it's actually out of balance, and resonates in 2 dimensions instead of
3 dimensions, and its got a coulomb wave that it produces. The next atom
gets into that wave and can't get closer than the last wave coming
off the atom and so it's repulsed But in the bottom of the wave, it's attracted.
and so at about 6.3 angstroms, the next iridium atom will nestle in that
wave and perpetuates the wave and the next and so on. What they did
is heat and cool the sample. They let it go to room temperature and then
they repeated it and let it go to room temperature. What happens is that
the atoms will arrange themselves in perfect distances, about 6.3 angstroms,
in 2 dimensions. Not in 3 dimensions. In 2 dimensions, like a long chain.
Now in a metal. the atoms bind at about 1.8 angstroms. That's when they're
sharing electrons. But this high spin superconductive iridium is out at
6.3 angstroms, so no electrons are being shared. There's no crystalline
energy. There's no chemical energy, but the atom is way the heck and gone
out there at about 6.3 angstroms, its bound in the resonance wave. And
so these atoms literally, by repeated heating and cooling, will arrange
themselves at precisely. 6.3 angstroms in 2 dimensions, like a chain
And this atom makes a wave. This atom nestles next in the wave and perpetuates
the wave. The next atom nestles in the wave and perpetuates the wave, the
next atom nestles in the wave and perpetuates the wave, and literally you
get a resonance coupled system of quantum oscillators resonating in 2 dimensions.
These are bound atoms, resonance coupled, oscillating in 2 dimensions.
And it's a biphonic phenomena. It has "Cooper Pairs".
In a normal atom, around the nucleus there is what's called
a positive screening potential that exists around the nucleus and this
positive screening potential screens all of the inner electrons.
Only the valence electrons, the ones on the outside, are available for
chemical bonding. These are not screened. They're called valence electrons.
When the nucleus goes to the high-spin state that positive screening potential
expands out and overlies all the electron orbitals and all of the electrons
become screened. Now some amazing things happen when the electrons are
under the screening potential. The electrons are time forward electrons
and time reverse electrons, actually get in perfect harmony and pair up.
They couple. They become married and they literally become pure light in
the high-spin state. All of the valence electrons are no longer valence
electrons, they become light.
Another very important phenomena occurs under the screening potential
of the nucleus, the time reversed electron acts identical to a positron.
And by definition, the positron is the energy that originates in the nucleus.
But under the screening potential of the nucleus, the time reversed electron
now acts like a positron And so you have the time reversed electron paired
with the time forward electron. and they literally become light. They no
longer have any particle aspect.
Now, the important thing to understand here is that an electron
exists in space-time. It has a particle aspect and all of your instrumental
analysis is based on knocking this electron from this space-time to that
space-time and measuring the absorption or emission when jumps from it
or when it comes back. It's called emission spectroscopy, or absorption
spectroscopy, x-ray emission, or x-ray absorption. BUT WE HAVE NO ELECTRONS
NOW.
ALL WE HAVE IS A BUNCH OF LIGHT. AND YOU CAN'T KNOCK LIGHT FROM ONE
SPACE-TIME TO ANOTHER SPACE-TIME, BECAUSE LIGHT DOESN'T HAVE A SPACE-TIME..
You can put any amount of electron pairs on a super-conductor because they
can all go in the same space-time. SO ALL OF OUR INSTRUMENTAL ANALYSIS
THAT'S BEING USED FOR STANDARD ANALYSIS OF ELEMENTS DOESN'T WORK
IN THE SUPERCONDUCTOR SITUATION.
It's like stealth atoms. They're there. we just can't see them
That's why it lakes some dumb farmer who doesn't know any better to beat
his head for 18 years and spend million dollars of his own hard-earned
money to figure out what the heck this stuff is that's invisible. Some
people say. "Dave, you were too dumb to know it was impossible, so you
did it anyway" Even neutron activation, the most sophisticated analytical
tool available to science, is based on exciting the nucleus by sending
a neutron into the nucleus and exciting it to high-spin state or a high
energy state and then reading the emission that comes out of it when it
drops back down. But this is already in the high-spin state and it's
happy in the high-spin state. So the neutron analyzer doesn't read
anything. It's invisible to neutron activation. This is why
your illustrious scientists have never found it, because they read everything
else, but they don't read this.
And if you ever tried preparing high purity metals, you'll find
that you cannot buy 100% pure. There are always impurities associated
with metals, even gold. There's always one atom out of thousands
that's an impurity. And so when you send 50,000 quantas of energy
into this sample of the high-spin state, every quanta of energy reads the
impurity, because all the other atoms "pass it on," "pass it on," "pass
it on." Until it finds the impurity. Bang, it reads.
So you send 50,000 quantas in the sample and it reads 50,000 quantas
of iron, and the man says, "Yeah, it's iron, but it's not." The iron
is there, but the material is not iron. And why all your wonderful
commercial laboratories are telling people it's iron, silica and aluminum
and that's why it took me 3 1/2 years to get rid of all the iron, all the
silica, and all of the aluminum, and produce pure nothing! And that's
when l had them boxed in the corner. I said, "I want to know what
that stuff is. It's still 98% of the sample. What's that stuff?"
And they honest to gosh couldn't tell me. That's because it's a form
of matter they have not set their machines up to analyze. (Editor's
Note: David Hudson should be nominated for a Nobel Prize for these
great discoveries!) It's not anything bad about the analytical instrumentation
it's not anything derogatory about the operator. it's a new form of matter
for which they don't have prepared standards and for which they don't know
how to do the analysis. It's that simple.
Another paper on superconductivity. This is Physical Review Vol.
62 Feb. 89, No 9. "Bound state Cooper pairing in 2 dimensions.'' We got
a resonance coupled system, a bound BIPHONIC state. They're
resonance coupled and oscillating in 2 dimensions. Curious coincidence
here. Anyways, we go into the superconducting stability. They talk
about superconductivity but this specifically is the definition of a superconductor,
which happens to be our stuff. It's a resonance coupled system of
quantum oscillators resonating in 2 dimensions. It doesn't make any difference
what's beside it in the 3rd dimension. That has nothing to do with
the system. It's resonating this way, not this way.
And did you know that with less than 10 electron-volts.
you can cause superconductor atoms to fission? I bought a brand
new arc furnace. An arc furnace is kind of like a welding machine.
It has a water-cooled copper crucible. You put the sample you want
to melt in the copper crucible and you slide the lid over it, and
you lower it down and it seals on 0-rings. Then you put a controlled gas
through the sample. Well, we used argon as our plasma gas. In this
crucible there's a tungsten electrode down in and you can strike
the arc between the tungsten electrode and the copper crucible.
We put 30 grams of rhodium powder in there and sealed it up, vacuumed out
the air, put in argon, and struck the arc. You can sit there and watch
your sample through a glass. You can actually stir the sample with the
electrode and burn the arc on it.
"We're gonna melt this sucker. I don't care if takes you two
hours of burning, we're going to melt it. I'm gonna find out how the metal's
produced." Now this is about 1982-83. We struck the arc and within a second
it stopped. We opened up the machine and the tungsten electrode was gone.
It's all melted in with our powder. Now! said, "This must be a faulty electrode.
Let's get another electrode." So we ordered another electrode, put another
30 grams in there, and here's all the tungsten all down in with our powder.
We took that out, we did it again. It didn't even take a second. The heat
that was being produced was like a thousand times greater than the D.C.
arc should have been because the heat was coming out of the material. It
was nuclear level energy coming out of the nuclei as we struck the arc
on it. So then, we took the material that had all this tungsten in
it and we separated the tungsten, had it analyzed, and it doesn't
analyze to be the same stuff it used to be. This is 1982. And I said, "You
know, it looks to me like there's a nuclear level transition going on here
and I don't want any of my employees working around it." We just
decided the safest way to process the sample was with chemistry. So we
basically went away from the metallurgical heating processes. and we went
to chemistry.
Another article is "Scientific American" October 1991. They are
talking about the super-super deformed nuclei. Now they give examples
of Mercury 192 and Mercury 194 which are both radioactive isotopes. And
if you didn't know what we know now after reading these papers, you would
assume that this only happens in linear accelerators or nuclear facilities
on the single atoms that they make by collision, fissioning a heavier element
into these elements. But Rhodium 103, Palladium 104 and 105, Platinum,
Gold, Mercury, Osmium, Rubidium, Palladium all exist in this state as stable
isotopes, nonradioactive isotopes. Lawrence Berkeley Laboratory
researchers have been finding that rapidly spinning nuclei with different
masses have similar, if not exactly the same, moments of inertia.
"Something is going on", said Frank F. Stevens, a physicist at Lawrence
Berkeley, "and for reasons we don't understand, yet." At Lawrence Berkeley
Labs, they're saying, "We don't understand this. It doesn't make
sense that every element in the high-spin state acts identical, like
it's the same material."
The deformed nucleus can take the shape of an American football,
a doorknob, or possibly even a banana, depending on the collision energy
and the nuclei. In a typically deformed nucleus,
the long axis exceeds the two short axis by about a factor of 1.3.
This is a very hot topic in the National Laboratories. They're
very intrigued and interested in the high-spin nuclei in these super-deformed
states. Their problem is they're making them one atom at a time with this
tremendous energy. What they haven't realized is that they're out there
in nature. That Mother Nature created them in the belly of the Earth. and
that they are here in the monatomic form in nature. Rhodium and Iridium
were spewed out of volcanoes and vents in the western states.
When I was working with General Electric doing our fuel cell
studies and we were coming to understand what was going on, we got a copy
of Pons & Fleischman's paper before they publicly announced. It was
sent to GE for their review. It was their electric chemical catalyst division
who works with Palladium. They handed it to me and said, "Dave, look here.
What's coming out here?" Pons and Fleischman were putting a Palladium electrode
in this Lithium Deuterate solution. Lithium is the third element on the
Periodic Table. Lithium will dissolve into the Palladium just like Hydrogen.
It's tiny and it goes in between the metal-metal bonds, just like Hydrogen,
and it weakens the s-p bonding and little by little, the Palladium begins
to disaggregate from the other palladium atoms and go to the high-spin
state. What they have reported is that after several days, there is this
tremendous release of energy and it's more energy than the amperage that
went into the sample. What they haven't figured out is that a superconductor
feeds on the magnetic field, not on the amperage. And so literally, when
they pull the voltage potential in it, there's no amperage flowing.
The amperage only puts the Lithium into the Palladium. That's the only
purpose of the amperage is to electroplate the Lithium onto the Palladium
and cause the metal-metal bonding of the Palladium to break and form what
Pons and Fleischman call, and this is their scientific technical term,
"the white crud on the surface of the Palladium." And that white crud is
the superconductor. And it literally builds up energy. Builds up energy.
Kind of like you think of a capacitor building up energy. It's flowing
more and more light and it's feeding on the magnetic potential. More and
more light, more and more light, until it reaches what's called HC2, the
greatest amount of magnetic field that superconductor can sustain. and
at that point, it collapses.
In another paper it says "We will find that a superconducting
material like Palladium is going into a state that is much like superconductivity
when it causes the cold fusion reaction." And they're figuring this
out. They're seeing what 1 am describing, but they don't understand
this, yet. Palladium specifically can become superdeformed. Palladium will
come apart by just looking at it wrong. So certainly 'when this flux collapse
occurs, you'll get all sorts of elements that shouldn't have been there
before.
It sure sounds like Alchemy, doesn't it? Making elements into
other elements. It's interesting to note that the philosophical text,
the Lur Vedic text, was sent to me by the Maharishi Mahesh Yogi,
a nuclear physicist who knows of this work, and he had it translated into
English. This information comes from about 2,000 BC and it says you can
take Mercury and divide Mercury and divide Mercury and divide Mercury,
until you divide it into its essence and you actually get a white powder
of Mercury. And the way you test the Mercury to see if it's ready for ingestion,
is you heat it in air and if it turns to Gold, then it's ready for ingestion.
And they knew this in 2000 BC
So here your Mercury atom now has a I million volt photon that
comes flying into the binding nucleus of the Mercury, and that's the energy
it takes in the high spin state to knock off a proton and several neutrons.
Coincidentally, now you have low spin Gold. If there is other Gold atoms
near, it will aggregate as a metallic material, and you have diatomic Gold.
Now, you've got metal. So you could actually take Mercury to the high spin
state, heat it in air, and if it goes to Gold. don't heat the rest
of it, consume it, it's a medicine. And that's something that miners and
metallurgists have a real hard time with. They say, "Why don't they want
the beautiful, yellow, valuable metal?" Because the white powder is more
valuable, that's why.
And that's the test to see if you got it. And they knew that
2,000 BC. and we're just now figuring the Physics of it now.
They claim that the gods taught them this technology. (Ancient cosmonauts.)
Some more interesting information about superconductivity and
your body. Over 5%, by dry matter weight, of your brain and nervous tissue,
is made up of rhodium and iridium in the high spin state. And literally,
you have light flowing in your body right now". And literally you have
a light body and you have a physical body. and they're totally independent
systems. You have this liquid invisible light that vibrates and it's flowing
in your body right now, and it corrects the DNA and keeps the DNA corrected
and functioning correctly. What happens when some DNA becomes deficient
in these elements or it becomes pinned with the carcinogens. now the light
cannot flow in that area. Now curiously enough. you find the aura also
collapses in that area, because the aura is the Meissner field of
the superconductor. When the light cannot flow throughout that area, you
get resistance. You get heat build up. You get energy buildup. It's
like a rock in the stream. The water can't flow through the rock
now, and now that DNA becomes altered. and it's getting too much energy
as heat, and the cells begin to divide way too fast. When you put these
elements into the cancer correctly, then the resonance connection can reestablish
itself where that rock used to be and the rock dissolves away, because
the light begins to correct the DNA again. and that's the way it cures
the cancer.
But it is these elements that do it and they are naturally in
your body. All we're talking about is just adding more of something that's
naturally supposed to be there. Even though Iridium is 25% heavier than
Gold, in the monatomic form, it's not a heavy metal. it's an element that
has no toxicity whatsoever. Pretty heavy stuff, huh?
Another related study titled, "Evidence from activation energies
for superconducting, tunneling and biological systems at physiological
temperatures." Who's doing the work? The Biochemistry Laboratory,
U.S. Naval Air Development Facility. Good old Uncle Sam. "Superconductivity
has been observed. It's responsible for nerve and growth processes.
They know it's going on right now. They just don't know what's doing
it, because whatever is doing it is like a stealth atom. It can't be analyzed.
It can't be detected. Sound familiar?
In a related study. "Magnetic flux quantization and Josephson
behavior in living systems." they're talking about the Josephson junction.
Hid it's a superconducting switch. These are mono atoms, resonance coupled.
But if the magnetic field applied is great enough to break that resonance
coupling, then it stops the superconductivity, and that's called a Josephson
junction. They gave a Nobel Price to Brian Josephson for the discovery.
And because these are monatomic resonance coupled systems. Any external
field that breaks that resonance coupling stops the superconductivity.
And they have found, in evaluating the superconductivity in living systems.
that in fact, if you apply too much magnetic field. it stops it. And that
number is somewhere around 8-10 gauss. Beware, high-powered many magnetic
fields are dangerous. Tremendous implications here.
Another article. "Biological sensitivity to weak magnetic fields
due to biologically superconducting Josephson junctions." Good old big
brother, Biological Laboratories. U.S. Naval Air. Ctr. in Westminster,
PA, at the very introduction it says, "Various organisms can detect weak
magnetic fields of 1 to 5 gauss." And that is in fact the field that this
responds to. I'll tell you a very interesting phenomena. when we make this
white powder under controlled atmosphere and it's sitting there in a sealed
quartz tube, you can run your hand about 6 inches under the tube
and the material flies around in response to your hand 6 inches away. If
you take a magnet and put it under it, nothing happens, but if you put
your hand hack under it, it flies around again. Superconductivity
is flowing hundreds of thousands of amps in response to the tiniest magnetic
field, but when you get too big a magnetic field, it all stops. We are
talking about very subtle fields, very tiny fields. but those tiny fields
cause dramatic current flow, enough to levitate the material. Think about
bow much amperage has to he flowing in the sample to cause it to levitate.
How much current has to flow down that wire before the wire literally suspends
and has no weight. You know, it's got to be a tremendous amount of amperage.
The books say about 150,000 to 200.000 amp/square foot, but
no volts! So you can actually touch the stuff, feel the stuff.
there's no sparks. There's no tingle. Now tickle. but tremendous
current flowing.
Another article published in "Physiological Chemistry and Physics"
1973. These materials are in your body. They're in your body naturally.
Their role is to keep your DNA corrected. They are very important for your
body to function naturally. Probably one of the highest sources,
natural sources, of rhodium and iridium is Aloe Vera and grape juice.
When these electrons are screened by the high spin nucleus. All the
electrons become paired as Cooper pairs or as light. There is no
more particle aspect. It's pure light. So, if you have a nucleus, instead
of having electrons around it, it now has nothing but bundles of
light around it. New. world!!
"When you understand that a Cooper pair is actually 2 waves perfectly
equal and opposite." Now' this is very important to Understand. That 2
waves equal and opposite create a null. Now you cannot measure 2 waves
equal and opposite because their effects are canceled. So in our
3-dimensional existence, we don't have anything that deflects a meter
or a gauge to measure this situation. It's a null. But do not
ever believe that this is nothing.
The 2 waves are still there. and this is a nothing that is everything.
Now once again. we'll repeat this. Two waves equal and opposite. The electron
and the positron, the mirror image, are it perfect harmonics. And so when
these waves appear to cancel they produce a residuum wave that can't be
measured, and that is the Planckian frequency [Planck's Constant..
(4.2 x 10 to the minus 42 second)?]. That is it and it only is produced
with two waves. It doesn't make any difference the length of the waves
as long as their equal and opposite. When these two waves cancel. they
literally leave a residual vibration that is very tiny and very short and
that is the Planckian frequency.
Dan Winters said that the nucleus or the DNA inter-reacts with
this frequency, so people in music that listen or play all this beautiful
music, they say it calms the soul, It does all these things What you're
trying to effect is in fact a null. And that frequency you're trying to
generate is in fact a frequency so short that even our nuclear physicists
can't produce the Planck frequency. But that frequency is where everything
is and that frequency just happens to inter-react with the DNA in the cell.
It is the energy that is everywhere timeless in the universe. That's what
the electro-magnetic null produces. So the frequency is not important.
It's two waves equal and opposite. That's what's important.
It is the inter-reaction of the zero point energy at the center
where the vibrations actually go to a null, to nothing. And that's the
frequency inter-reaction of the DNA.
Max PIanck about the turn of the century, 1906, came with a little
thing called little "h" constant. You have to put in all your wave computations
because if you don't, it isn't accurate. That's Planck's frequency When
Max Planck died, he still couldn't tell us why you have to use Planck's
constant. He just knew that it was the number it took to balance the equation.
If you didn't use it, it didn't work. And he came up with this phenomena
called the quanta. What he was encountering is the electromagnetic
zero point. It just happens to be dead center where these two vibrations
won't reconcile. You get a singularity. It's where it literally turns around
and starts to come back. and at the point where it perfectly turns. there's
actually a singularity, because in reality it literally turns and runs
off in another dimension and continues in it. The two miss each other by
Planck's frequency. It's where another dimension intersects. It's where
time intersects at the electromagnetic zero point.
To the right is the ionization spectrum. To the left
is the microwave spectrum. It's in the spectrum in the middle where the
zero pout is. And what you'll find out is that the electromagnetic zero
point is within you. That's where it is. It's within all life. It's what
is life. It's what makes up life. It's what makes up matter. All physicists
are looking for that singularity. They're trying to crunch waves tighter
and tighter and tighter and tighter together until they literally... and
get them where they stack on top of themselves. It is inherent in
the system that this singularity occurs at the electromagnetic zero point.
And all physicists are looking for the creation way out in deep space.
the big bang right back here at null is where it all came from. It's the
primal soup. It's where particles are born out of that vacuum energy every
day. Electrons disappear into it and reappear out of it continually. It
is the creative force. It's where it all came from. Some observations from
this masterpiece investigation by David Hudson on superconductivity,
alchemy, cold fusion and fission, and over-unity?
1. We can have superconductivity at room temperature, with the buildup of energy and the release of energy from the Meissner field of the superconductor in the high-spin state. We can access or create from within, tremendous amount of energy. It can be termed cold fusion or overunity. High spin elements are beacons of light resonance coupled as coulomb waves in the electromagnetic zero point.
2. Overunity is used usually when referring to a magnetic motor which produces more energy than it consumes. It appears that the key interaction that makes this possible is the use of strong rare earth elements as magnets, such as samarium cobalt or neodymium, which appear to be stressed to a superconductive slate, or a high-spin state. High-spin systems, when coupled together, create excess energy, or require much less energy input to output They act as a diode or gate. allowing nuclear level energy to be released in electromagnetic form, creating the overunity device. A high frequency motor controller in tune with the resonance of the magnets appears to achieve an overunity situation. much like a super conductor.
3. Different forms of elements can be created in the high-spin state and transmutation can occur. Mercury can he transformed into Gold. Uranium 232 becomes Lead 208. Transmutation occurs in many elements all the time.
4. Alchemy is of Arabic-Egyptian origin. "Al" means site and "kima" means secret. This technology was known in ancient Egyptian times, 2,000 B.C. Ancient Hebrews produced high spin monatomic gold and mercury, and it is finally being rediscovered today.
5. Superconductivity at room temperature will alloy future expensive technologies such as MRI's to be made smaller and less expensive.
6. No potential voltage can exist in a superconductor. A super conductor creates a Meissner field which must be resonance tuned to the vibrational frequency of the superconductor. In other words: it is a time-forward electron interacting with a time-reverse electron (which acts like a positron under the screening potential of the nucleus), termed Cooper pairs, which create light and a Meissner field, and when a Meissner field collapses it produces energy.
7, Superconductivity will allow us to produce economical powerful propulsion systems including antigravity systems. Super conductors interact with the earth's magnetic field to weigh less, (antigravity).
8. High spin rhodium will not contaminate when used on the electrodes of cheaper carbon based fuel cells.
9. The Genie is out of the bottle. Hudson has fired the opening shot in a new technology race Will our research teams ignore this when others have not?
10. This information explains much of the work of John Keeley, Tesla, Moray and other researchers. The understanding and application of this technology will change the world more than we can imagine.
Reference: Space Energy Journal, Vol. V , issue 3, Sept.
95 , Videos of David Hudson workshops at Dallas Texas. Feb
10-11, 95. (214)-601-7687, and at Ashland, OR - Oct. 27-28, 95., for Videos
contact: 54l~479-6633.