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Post by prevenge on Jan 20, 2008 21:16:54 GMT -5
if we are producing magenetic fields... this would account for the attraction of the gnats. i've read before of small clouds of swarming gnats swarming because of EMF activity .. electromagnetic field perturbations. read this guy's account of what happened with his metal detector... answers.yahoo.com/question/index?qid=20070215222250AAgj1QG-Electromagnetism effect on gnat swarm?- "I had a metal detector and passed it under a swarm of gnats and instantly they all started flying in the same direction like in a vortex. I turned off the power switch and they resumed their chaotic pattern of flying. I turned the power back on and again instantly they all flew in the same direction in a funnel or vortex pattern and were very attracted to this field which is generated by the coil of a metal detector. I ran at full speed and the gnat swarm kept up with the field, very intent on staying within that field. Interesting?"[/i] -M
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Post by skytroll on Jan 20, 2008 21:20:12 GMT -5
this might help too toni, Magnetic and Mössbauer spectroscopy studies of nanocrystalline iron oxide aerogels might explain the gells part of Morgellons: epartment of Chemistry, Virginia Commonwealth University, Richmond, Virginia 23284 J. W. Long, D. R. Rolison, M. S. Logan, K. Pettigrew, and R. M. Stroud Naval Research Laboratory, Washington, DC 20375 L. Theil Kuhn Materials Research Department, RisøNational Laboratory, Frederiksborgvej 399, DK-4000 Roskilde, Denmark B. Rosendahl Hansen and S. Mørup Department of Physics, Technical University of Denmark, Building 307, DK-2800 Kongens Lyngby, Denmark A sol-gel synthesis was used to produce iron oxide aerogels. These nanocrystalline aerogels have a pore-solid structure similar to silica aerogels but are composed entirely of iron oxides. Mössbauer experiments and x-ray diffraction showed that the as-prepared aerogel is an amorphous or poorly crystalline iron oxide, which crystallized as a partially oxidized magnetite during heating in argon. After further heat treatment in air, the nanocrystallites are fully converted to maghemite. The particles are superparamagnetic at high temperatures, but the magnetic properties are strongly influenced by magnetic interactions between the particles at lower temperatures. ©2006 American Institute of Physics tinyurl.com/2k2h73scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU00009900000808N711000001&idtype=cvips&gifs=yes skytroll
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Post by skytroll on Jan 20, 2008 21:39:36 GMT -5
There's that word "superparamagnetic" you mentioned Toni,
....." nanocrystallites are fully converted to maghemite"
that swarming caused by the superparamagnetic particles?Size quantization and interfacial effects on a novel -Fe2O3/SiO2 magnetic nanocomposite via sol-gel matrix-mediated synthesis J. Appl. Phys. 81, 6892 (1997); DOI:10.1063/1.365233 Issue Date: May 15, 1997 ABSTRACTREFERENCES (41)CITING ARTICLES (13)Lei Zhang Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 George C. Papaefthymiou Francis Bitter Magnet Laboratory, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 Jackie Y. Ying Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 Novel isolated magnetic single-domain -Fe2O3 nanoclusters have been prepared by coprecipitation of ferrous and ferric salts encapsulated within sol-gel derived silica (SiO2). The nonmagnetic SiO2 coating formed by hydrolysis and polycondensation of tetraethoxysilane on the surface of the Fe2O3 nanoclusters provides a means for thermally stable dispersion of Fe2O3 clusters. The precipitated particles coated with SiO2 are spherical with 4–5 nm diameters. Surface and strain effects played a critical role in determining the overall magnetic behavior of the spherical single-domain particles. Superparamagnetic behavior was observed by superconducting quantum interference device magnetometry and Mössbauer spectroscopy. Superparamagnetic barrier energies and the low-temperature coercivities were modified through cluster/support interface microstructure manipulation. The optical studies showed the absorption edge of the nanocomposites to be slightly blue shifted in the UV–VIS spectrum range when compared to that of bulk -Fe2O3. This was attributed to the combined effects of the quantum confinement of the nanocrystalline -Fe2O3 clusters and the stress present at the particle/support interface. The magnetic properties can be manipulated via the matrix microstructure, synthesis conditions and thermal treatment. ©1997 American Institute of Physics. tinyurl.com/2auuvcscitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000081000010006892000001&idtype=cvips&gifs=yes Skytroll
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Post by toni on Jan 20, 2008 21:41:57 GMT -5
I can't wait till tomorrrow to read more about this. Prevenge and Sky these are very good articles and info, so much good stuff that does seem to tie in. Thank you.
I "wonder"...just a thought, you know how when the moon is full? Well...we get the extra tingly sensations going on, and I wonder if "our magnetic" stuff in us now, has anything to do with that?
And I shouldn't say "it's in us all" cause someone might be saying that doesn't happen to us all (which I'll only speak for what I know with what's happening)...but I believe I've got some serious magnetic stuff in me, because my hair goes wild, I can electocute(sp?) someone like a tazer gun too, just by touching, and the OHM meter shows me too I'm way more electrical than I should be.
OOOOOH...something just hit me too. Remember when with the OHM meter if I switch hands, red in right hand, black cord in left?
Well...when I then switch hands with the cords...I register a "minus sign" before the number, meaning I'm polarized like a battery is. Same "concept" really. And that has to do with magnetic something too ...doesn't it???
I really don't know this science stuff.
Gosh, Prevenge, that sure is a nice scope! I've got one here that I think the mag is 1250X from Meade Instruments that I've used up till the QX5 which I love cause of the picture ability, but the Meade one doesn't do pics on the computer.
Maybe I can see if I can figure out how "to rig" it with the other.
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Post by skytroll on Jan 20, 2008 21:44:25 GMT -5
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Post by skytroll on Jan 20, 2008 21:50:10 GMT -5
Toni,
excellent job, You go girl!
You too, supersleuth! What's in that pipe?
Skytroll
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Post by skytroll on Jan 20, 2008 21:51:28 GMT -5
maybe not the moon, but the Thermal laser organizing the particles with the aid of the MOON.
Skytroll
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Post by toni on Jan 20, 2008 21:53:53 GMT -5
WOW WOW Skytroll!!!!
There's tons of references there! Well...I know what I'll be doing tomorrow.
You know, there was something else I was reading this morn, it had to do with atmospheric plasma spraying. Now...I didn't read enough to even really know what I'm talking about here...but it seems like that too might be something to just a look at and see if there's any tie-ins here...maybe not, but maybe??
Just saw your post Sky, YES, that is a definate possibility - because there's no doubt when the moon is full, this stuff gets going, we can feel it.
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Post by toni on Jan 20, 2008 22:01:23 GMT -5
digitalcommons.libraries.columbia.edu/dissertations/AAI3039664/Here's a link...now there's many on this...but I don't even know what I'm really reading here, I don't understand it. I know they're concerned about the carbon 'give and take' ((talk about laymen words here))...but the carbon exchange isn't what it use to be. Do you know what I mean? Okay...does this "atmospheric plasma" have anything to do with that? I should read up.
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Post by prevenge on Jan 20, 2008 22:12:15 GMT -5
"The magnetic properties can be manipulated via the matrix microstructure, synthesis conditions and thermal treatment" where is that quote from sky -M
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Post by cheetah on Jan 20, 2008 22:30:17 GMT -5
Toni, Are these the same looking black specks that people talk about that they find in their homes? You know how it has been descibed as pepper looking. I cannot remember if you have spoke of that or not. One more thing....Have you touched them as in squishing ? If so, are they hard, soft...?? Very Curious.. You are quite the photograher....I am telling you. Excellent photos my dear
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Post by skytroll on Jan 20, 2008 23:52:32 GMT -5
Prevenge, Here is the article and the link: "Size quantization and interfacial effects on a novel gamma-Fe2O3/SiO2 magnetic nanocomposite via sol-gel matrix-mediated synthesis J. Appl. Phys. 81, 6892 (1997); DOI:10.1063/1.365233 Issue Date: May 15, 1997 What's New in the Abstract View What's New in the Abstract View You are not logged in to this journal. Log in ABSTRACT REFERENCES (41) CITING ARTICLES (13) Lei Zhang Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 George C. Papaefthymiou Francis Bitter Magnet Laboratory, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 Jackie Y. Ying Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 Novel isolated magnetic single-domain gamma-Fe2O3 nanoclusters have been prepared by coprecipitation of ferrous and ferric salts encapsulated within sol-gel derived silica (SiO2). The nonmagnetic SiO2 coating formed by hydrolysis and polycondensation of tetraethoxysilane on the surface of the Fe2O3 nanoclusters provides a means for thermally stable dispersion of Fe2O3 clusters. The precipitated particles coated with SiO2 are spherical with 4–5 nm diameters. Surface and strain effects played a critical role in determining the overall magnetic behavior of the spherical single-domain particles. Superparamagnetic behavior was observed by superconducting quantum interference device magnetometry and Mössbauer spectroscopy. Superparamagnetic barrier energies and the low-temperature coercivities were modified through cluster/support interface microstructure manipulation. The optical studies showed the absorption edge of the nanocomposites to be slightly blue shifted in the UV–VIS spectrum range when compared to that of bulk gamma-Fe2O3. This was attributed to the combined effects of the quantum confinement of the nanocrystalline gamma-Fe2O3 clusters and the stress present at the particle/support interface. The magnetic properties can be manipulated via the matrix microstructure, synthesis conditions and thermal treatment. ©1997 American Institute of Physics. History: Received 18 November 1996; accepted 2 February 1997 Permalink: link.aip.org/link/?JAPIAU/81/6892/1" tinyurl.com/2wayeoscitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000081000010006892000001&idtype=cvips&gifs=ye Skytroll
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Post by skytroll on Jan 20, 2008 23:55:07 GMT -5
Toni, Lets rip er apart! " Abstract Plasma spraying of metals in air is usually accompanied by evaporation and oxidation of the sprayed material. Optimization of the spraying process must ensure that the particles are fully molten during their short residence time in the plasma jet and prior to hitting the substrate, but not overheated to minimize evaporation losses. In atmospheric plasma spraying (ASP), it is also clearly desirable to be able to control the extent of oxide formation. The objective of this work to develop an overall mathematical model of the oxidization and volatilization phenomena involved in the plasma-spraying of metallic particles in air atmosphere. Four models were developed to simulate the following aspects of the atmospheric plasma spraying (APS) process: (a) the particle trajectories and the velocity and temperature profiles in an Ar-H 2 plasma jet, (b) the heat and mass transfer between particles and plasma jet, (c) the interaction between the evaporation and oxidation phenomena, and (d) the oxidation of liquid metal droplets. The resulting overall model was generated by adapting the computational fluid dynamics code FIDAP and was validated by experimental measurements carried out at the collaborating plasma laboratory of the University of Limoges. The thesis also examined the environmental implications of the oxidization and volatilization phenomena in the plasma spraying of metals. The modeling results showed that the combination of the standard k-s model of turbulence and the Boussinesq eddy-viscosity model provided a more accurate prediction of plasma gas behavior. The estimated NOx generation levels from APS were lower than the U.S.E.P.A. emission standard. Either enhanced evaporation or oxidation can occur on the surface of the metal particles and the relative extent is determined by the process parameters. Comparatively, the particle size has the greatest impact on both evaporation and oxidation. The extent of particle oxidation depends principally on gas-liquid oxidation. The convection due to recirculating flow of liquid within the metal droplet (Hill's vortex) dominates the mass transfer of oxygen after the metal particles become molten. This study showed that the behavior of evaporation and oxidation of metal particles in atmospheric plasma spraying can be predicted and the process parameters can be optimized to reduce the evaporation and/or oxidation of metal particles in industrial applications of plasma spraying. Subject Area ENGINEERING, METALLURGY (0743); ENGINEERING, ENVIRONMENTAL (0775); ENGINEERING, MATERIALS SCIENCE (0794) digitalcommons.libraries.columbia.edu/dissertations/AAI3039664/Skytroll
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Post by skytroll on Jan 21, 2008 0:06:30 GMT -5
toni, ...." Four models were developed to simulate the following aspects of the atmospheric plasma spraying (APS) process: (a) the particle trajectories and the velocity and temperature profiles in an Ar-H 2 plasma jet, (b) the heat and mass transfer between particles and plasma jet, (c) the interaction between the evaporation and oxidation phenomena, and (d) the oxidation of liquid metal droplets." just might be Aerosol Operations ............................... CHEMTRAILS FIDAP Run by supercomputer? ................................. HEre is one Super computer: www.osc.edu/supercomputing/software/apps/fluent.shtmlFIDAP: NIH: lbc.nimh.nih.gov/fidap/fidap.htmlSparsing the particles? Skytroll
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Post by skytroll on Jan 21, 2008 0:40:13 GMT -5
That NIH one threw me for a loop, but believe might be the data gather for the new MRI? or for the thermal imaging supercomputer, which bounces off the satellite? So, did find that this relates to ceramic and parts for planes. Many defense companies, and the airbus use that for spraying on planes as coatings. but, am wondering about this: ..."thermal surfacing powders are based on nickel, cobalt or iron." these are metals in powders: www.tspc.ru/en/material/Skytroll Skytroll
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Post by skytroll on Jan 21, 2008 1:24:11 GMT -5
FIDAP: What is FIDAP? FIDAP stands for Functional Image Data Analysis Package. It is a menu-driven toolbox of C programs and shellscripts for the analysis and visualization of functional image data. FIDAP is developed at the Laboratory of Brain and Cognition at the National Institute of Mental Health. It is freely available for research purposes only without any guarantees or warrantees about the validity of the results it produces. lbc.nimh.nih.gov/fidap/preface.htmlSkytroll
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Post by bannanny on Jan 21, 2008 4:06:01 GMT -5
Terrific pics toni! I'm with sky and what she said....... now I think it's time to crunch that sucker (if you can) and see what happens next! I've seen the same hue of different colors take place before too. Almost takes on the look of abalone to me....... it's actually very pretty at times! (BTW, Dr. Martin always thought there was some type of mineral involved with morgs, but at the time, he didn't know what one it might be.)
hugs ~~ bannanny
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Post by toni on Jan 21, 2008 10:28:53 GMT -5
Thanks Cheetah and Bannanny about the pics. And yes, I've tried to smash them, they're hard as glass really. Skytroll, thank you so much. Something that I was wondering....about the plasma spraying was because of the black speck (how some of it's black outer "shell" started crumbling off when I put the water on it). Wasn't that really strange how that did that? But yet some remained and even though this "black speck" looks sort of opaque, the other side is multicolored, like Bannnanny said (abalone) EXACTLY...me too even said that outloud. And yes, I've had so many black specks come out of my face (last year) that every morning when I woke up, I looked like someone shook pepper all over me. When I'd try to remove them with a needle (to lift them off) many would sink right back into the skin instantly before I could get them. Now...I rarely get see them. But applying milk and yog on my head....tiny crystals form (when the milk/yog mix is bone dry) and those tiny crystals look like salt, and they're loaded with these black specks. They're so tiny, one wouldn't know they're there, unless you magnify those "salt looking crystals" at least 100X. It's really like the milk/yog mix suck them right out of the scalp. And I've never had any sores on my scalp either...it was just a "trial kind of thing" and I was blown away to see these, everytime I use the milk/yog mix on my head (2X a week) like a conditioning pack really....when it dries....there they are. So that tells me they are in fact under the skin on the head and only lurking until I suck them out with the topical "mixture' I use (the milk/yog mix. Also I can enduce these black specks out of my skin anytime, anywhere on my skin...doesn't matter if the skin is flawless or not. Just a tiny scratch I make with a needle (just barely breaking the skin) then I apply 30% glycolic cream mounded on top of the scratch for 15 min...oh...after the time is up, I flip over the cream...and it's totally blackened with 100's of these black specks. I think our body is loaded with these. I know there's all kinds of "glycolic creams"...and I've tried so many also, every brand, every strength too from 5% to 65%. But I've found that MD Forte 30% glycolic Hand and Body cream from SkinCareRX is what works best and for sure every time. See how "this side" is like a shell is coming off just from a drop of water? But yet the other side (the abalone side) wasn't phased.
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Post by toni on Jan 21, 2008 11:13:55 GMT -5
Here's what I did with the black speck finally. I had it on the side of the needle, and I took a lighter to it. It made a black burnt spot on the needle, which it shrunk up to a super tiny black speck...then it fell off (don't know where)...but I can produce more, I'm loaded with these.
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Post by skytroll on Jan 21, 2008 14:27:49 GMT -5
I am thinking kerogen, and this was used to simulate the tholins, Carl Sagan talked about years ago that were found on Titan.
The kerogens were found at the Burgess Shale In Canada. But, they can be found other places.
A while back I posted on the simulation of the tholins, and for some reason those were being studied, Seems J. Gould had something to do with it.
that is from coal or flint that is used in the fuel industry. When it disintegrates, when the stuff came off your little specimen there, made me think of that.
What we have here is the consequences of ordered evolution, in other words spontaneous evolution was thrown out the window, and an ordered lineage has been set up.
For some reason evolutionist forgot that spontaneous generation does happen when the right DNA and the right horizontal gene transormation takes place.
I think the tinkerer has not got his hand caught in the machine!
Will look more into the Burgess Shale.
I think we can call it Astrobiology, the evolution before the computer comes into our brain.
When they talk of ancient bacteria, and genes, this could be from outer space. The tholins are, the kerogens are not but can mimic the tholins.
Skytroll
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