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Post by skizit on Dec 14, 2010 4:40:37 GMT -5
Ruth, I didn't mean for that to be a blanket statement. It says that D.d is one of the slime molds. That's not a blanket statement. It is one of the slime molds in Morgellons, "ONE OF". It doesn't say its in everyone or the only slime mold. Thats a misinterpretation.
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Post by ruth on Dec 19, 2010 12:40:38 GMT -5
skizit, the blanket statement is "it is one of the slime molds in morgellons". i do not believe that statement and need to see lab results substantiating that claim.
from my viewpoint, all spores in the air can attach to the artificial atoms. should you culture tissue from where a mold spore has been captured, it will show the mold and the cultured out molds are specific to your geographical location.
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Post by skizit on Dec 21, 2010 4:50:26 GMT -5
Ruth, Jan Smith (and I think Mark Neumann) have dictyostelium colonies under scabs in their skin. Have you watched my dictyostelium video? We tried to follow her forms through their life cycle. What she has (others have other kinds of slime molds), is a chimeric life form. the forms in several other videos have the Dictyostelium from DictyBase, the forms being the same, but Jan has one which expresses itself in a chimeric form which suggests it may be cloned with a Yeast artificial Chromosome. In my D.d video, we showed Jan's colony which had separated into stalk and bud. The spores come out the top when it bursts. Take a look at her pictures, it is astounding that she captured the various stages of colony life. the entire life of this slime mold takes place in the skin. Each colony has up to 100,000 individuals. I have some pictures of normal spores and they are capsule shaped and split their pod lengthwise.
On theh subject of quantum dots, Do you think everyone has those dots or is that a one of a kind thing. I haven't heard of anyone else having that. I think it is important. I think the technology is to far ahead of any practical use of these products, there would be no hope of testing them in any reasonable length of time, at which point they would be obsolete because it took so long to get to the point it was legal to treat people with them.
I do not have any yeast, molds, fungus or fibers (I may later) so I help others who ask for help identifying the characteristics of this disease.
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Post by ruth on Dec 21, 2010 11:58:22 GMT -5
skizit, i have been trying to find all my man made atom research to be on the theory board. i asked ant to put them over there, but i don't see them and am unable to locate some of them right now.
until you understand that all nanoparticles start off with quantum dots that are directed by light, you will not understand what is happening.
and that many mold and bacteria cultures are positive because they attach to the quantum dots. when they attach to proteins, a new modified protein is created. (chimeric forms?)
i have a basic crash course thread on physics. it takes a lot of effort to understand this and most are not willing to put in the focus time for my video's or information i am trying to convey.
when the fight comes down, we have to know what we are fighting for. i know and i want you all to know, but if i am unable to get you to understanding, how can others' soak this info in?
and yes, i have read all about the slime mold and chimeric forms.
i only agree that slime mold can attach to the atoms and create chimeric forms. and that regional molds can attach and be transform as well.
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Post by Harry on Dec 21, 2010 16:07:45 GMT -5
hah! theirs your dictyostelium post ruth,..I know I didn't post it. with all these theory's ,.one can go blind,.take care & Merry Christmas & hopefully a better new yaer,..take care all
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Post by ibzahp on Dec 21, 2010 18:36:52 GMT -5
Ruth I am wondering how to ascertain whether one has the quantum dots? Sounds pretty complicated. Is there a lab or?
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Post by skizit on Dec 21, 2010 22:20:02 GMT -5
Ruth, I think you are talking about programmable matter but I'm not sure. Are you saying that an charge in the fibers come from the quantum dots like in this article? The quantum dots are what make the fiber "alive"? This is a very important concept when coupled with the replication, the optics and responsive nature of the fibers in Morgelllons. If that is what you are saying, you are absolutely right. I think Ill put this in a new heading so you can teach us what you have learned in relation to Morgellons.
Quantum Dots and Programmable Matter Lead to Gold with the Click of a Mouse by Wil McCarthy 01/09/2004
For any inorganic material, and many organic ones, physics recognizes a triple point — a pressure/temperature sweet spot where solid, liquid, and gaseous phases can exist side by side. Strange occurrences are commonplace here, and peculiar structures abound.
I was reading about quantum dots and hit upon the idea of attaching them to electrically active fibers, and then weaving the fibers together.
Wil McCarthy Quantum Dots and Programmable Matter
Historically, the properties of matter are determined at the time of manufacture, through careful mixing and processing. But now we find ourselves at the dawn of a new age, where substances exist whose optical, electrical, magnetic, and even mechanical properties can be adjusted at the flip of a bit. In a 75-minute lecture and 45-minute Q&A, engineer/journalist/novelist Wil McCarthy explores the social and technological implications of this "programmable matter."
O'Reilly Emerging Technology Conference February 9-12, 2004 San Diego, CA
-------------------------------------------------------------------------------- First of all, here's a two-word lesson in materials science: electron clouds. Every atom has one, and every molecule or crystal has an intermingling of the clouds of its individual atoms. These clouds sometimes have sticky arms that readily attach to other clouds. Sometimes there are empty spaces in the cloud through which electrons can travel with little resistance. And like the water clouds in Earth's atmosphere, electron clouds can exist in multiple layers above the atomic nucleus. When an electron jumps to a higher layer, it absorbs energy (in the form of heat, light, mechanical vibration, and so on), and when it falls to a lower level, it emits energy (usually in the form of light). Ignoring the subject of magnetism, which is a bit more complex, this oversimplified model explains (well, hand-waves) most of the important electrical, optical, chemical, and thermal properties of materials.
The electron cloud of an ordinary atom is held in place by the positive electrical charge of the protons in the nucleus. Electrons are negatively charged, and opposites attract. But the cool thing is, you can create an electron cloud — an artificial atom — that doesn't have a nucleus of its own. This miracle is accomplished with quantum dots, which are electronic components that trap electrons in a space so small that their quantum (wave-like) behavior dominates over their everyday classical (particle-like) nature. The electrons trapped in a quantum dot are really roaming through the cloud structure of the semiconductor crystal from which the dot is made, but they don't necessarily know that. And because they obey a quantum-mechanical rule called the Pauli Exclusion Principle, they arrange themselves in the same sorts of patterns as the electrons in real atoms. They behave, in many ways, like oversized, under-energized atoms.
What's more, by controlling tiny electrical fields around these dots, we can pump electrons in and out of them, by ones and twos, or by hundreds and thousands. We can even control the size and shape of the cloud they form. Thus, they can be herded into structures that mimic the properties of natural atoms, or that have completely novel properties that don't occur in nature.
This is being done right now, in corporate and university laboratories all over the world. Unfortunately, quantum dots' applications in computing and optics are currently overshadowing their more dramatic (indeed, transforming) implications for materials science. But progress is being made, and the writing is on the wall: by arranging these components in two-dimensional arrays, we can dramatically alter the surface properties of a material. And by rolling these surfaces into fibers, we can create a material that is mostly surface, and whose bulk, interior properties can be controlled on demand, to suit the needs of the moment.
Is there a single field of human endeavor that wouldn't be affected by a technology like that? Technically speaking, "programmable matter" is any bulk substance whose physical properties can be adjusted in real time through the application of light, voltage, electric or magnetic fields, and so forth. Such materials exist right now, but allow only limited adjustments of one or two traits (for example, the "photodarkening" or "photochromic" materials found in light-sensitive sunglasses). In ordered arrays, these materials can produce programmable surfaces like the LCD screen of your laptop, whose appearance can be altered dramatically and instantly. But quantum dots offer a much greater promise: materials whose very substance can be changed as easily as a picture on a screen.
Anyone interested in pursuing these issues is encouraged to seek out my nonfiction book on the subject: Hacking Matter: Levitating Chairs, Quantum Mirages, and the Infinite Weirdness of Programmable Atoms (Basic Books, 2003, ISBN 0-46-504428-X). And since books are out of date even before they reach the printer, I also maintain a Programmable Matter FAQ. You may also wish to attend my ETech speaker session on the subject.
Wil McCarthy is the author of "Hacking Matter," a pioneering book about the implications of quantum mechanics for materials science and "programmable matter."
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Post by bannanny on Dec 22, 2010 13:34:08 GMT -5
Sure wish I understood all this scientific jargon... but no matter how many times I try to read something it just won't compute. All I know is what I feel and that I'm seeing some very strange things nowadays in the environment... and that it's all become a part of my life that I can't seem to change for nothin. I just keep hoping one day this puzzle will be solved and I'll be able to read about it in laymen's terms... or have it explained to me by a doctor who will actually be able to do something to turn it all around.
There seems to be soooo many different scenario's to this mess huh? I think it was made to be that way too... so no one would ever be able to pin point it. We can go on and on trying to figure it all out, and we've all come up with some pretty good theories too. But what can we do about any of it? Nothing... not as long as no one of importance who can change it is willing to step up. I just don't see that happening either. Sorry to sound so beaten, but that's how I'm starting to feel about it all... especially given the fact that my brain just doesn't wanna work anymore.
I'm still so grateful to all of you tho who continue on with your researching day after day. I say kudos to every one of you too... no matter how many differences there are in what each of you find. So thank you... thank you for your strength, your hearts and your will.
I love ya's ~~ bannannas
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