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Scientists identify quantum differences between light and heavy water
Scientists know that light water (H2O) and heavy water (D2O) have similar but not identical structures. Using quantum mechanics, researchers have recently identified several differences between the two water isotopes that previous research had not predicted.
“Signs and symbols rule the world, not words nor laws.” -Confucius.
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just an addition from a previous post:Originally posted by MonsieurM View PostDusty Shock Waves Generate Planet Ingredients
I present you with the first detected Cosmic Hydro-Magnetic Generator

the Crystalline forms of SiO2 Table, for instance the α-quartz
and now read this info:Helical chains making individual single crystals optically active; α-quartz converts to β-quartz at 846 K
An electrostatic spatial resonance model for coaxial helical structures with applications to the filamentous bacteriophages.
An electrostatic spatial resonance model for coaxial helical structures with applications to the filamentous bacteriophages.It is found that coaxial helices with optimally mated symmetries can lock into spatial resonance configurations that maximize their interaction. The resonances are represented as vectors in a discrete three-dimensional space[
Tridymite is a high-temperature polymorph of quartz and usually occurs as minute tabular white or colorless pseudo-hexagonal triclinic crystals, or scales, in cavities in acidic volcanic rocks. Its chemical formula is SiO2. Tridymite was first described in 1868 and the type location is in Hidalgo, Mexico. The name is from the Greek Tridymos for triplet as tridymite commonly occurs as twinned crystal trillings.[3] Tridymite can occur in several crystalline forms, which are metastable at ambient conditions, the most common being α and β. Alpha phase is orthorhombic, Pearson symbol oS24, group C2221, No.20 whereas β-tridymite is hexagonal, hP12, P63/mmc, No. 194. β-tridymite converts to β-cristobalite at 1470 °C.[1]
“Signs and symbols rule the world, not words nor laws.” -Confucius.
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Investigation of changes in properties of water under the action of a magnetic field
Mstate WaterInvestigation of changes in properties of water under the action of a magnetic field
Professor Pang Xiao-Feng and Deng Bo studied the properties of water, and their changes under the action of a magnetic field were gathered by the spectrum techniques of infrared, Raman, visible, ultraviolet and X-ray lights, which may give an insight into molecular and atomic structures of water. It was found that some properties of water were changed, and a lot of new and strange phenomena were discovered after magnetization. Magnetized water really has magnetism, which has been verified by a peak shift of X-ray diffraction of magnetized water +Fe3O4 hybrid relative to that of pure water + Fe3O4 hybrid, that is, a saturation and memory effect. The study is being reported in the November 2008 issue of Science in China Series G- Physics, Mechanics & Astronomy because of its significant values in science and extensive applications in industry, agriculture and medicine.
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Rare Masers -Cosmic 'Water Fountains'- Discovered
Three new water masers have been discovered in the Milky Way, including what could be one of the fastest ever found - reaching speeds of up to 350 km per second – and a rare ‘water fountain,' a special class of ‘masers’ – large microwave lasers caused by high-mass dying stars or high-mass star formation regions. The high mass source spews out material including clouds of water that can travel at a couple of hundred kilomers per second.
find out more news on magnetism here:
NASA's Cosmicopia -- Basics -- Magnetic Fields
Last edited by MonsieurM; 08-11-2011, 02:52 AM.“Signs and symbols rule the world, not words nor laws.” -Confucius.
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IndianaBoys, hope to hear from you soonOriginally posted by IndianaBoys View PostMonsieurM,,
Thought Jacques Benveniste would be a good addition to your collection.
Dr. Jacques Benveniste digibio part1 of 2
YouTube - ‪Dr. Jacques Benveniste digibio part1 of 2‬‏
Dr. Jacques Benveniste He claims that the "structure" of biochemicals can be impressed on water electrically using white noise and coils, and then the water will display some of the activity of the original biochemical.
IndianaBoys
As I was reviewing the various threads, i noticed i have not yet watched your post; but it is in complete accordance with
Luc MONTAGNIER DNA Teleportation
note: looks to me that a zone of activation (zone of resonance ) was created then the dna transfer was accomplishedA Nobel Prize winning biologist has ignited controversy after publishing details of an experiment in which a fragment of DNA appeared to 'teleport' or imprint itself between test tubes.
According to a team headed by Luc Montagnier, previously known for his work on HIV and AIDS, two test tubes, one of which contained a tiny piece of bacterial DNA, the other pure water, were surrounded by a weak electromagnetic field of 7Hz.

Eighteen hours later, after DNA amplification using a polymerase chain reaction, as if by magic the DNA was detectable in the test tube containing pure water.
“Signs and symbols rule the world, not words nor laws.” -Confucius.
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This is probably one of my favorite moments,when you find a nugget....
i found this info here: (the cosmic egg
)
Method & Apparatus for Splitting Water Molecules Dr. Andrija Puharich M.D
Method and apparatus for splitting ... - Google Patents

and Schauberger's Cosmic Egg

wow
“Signs and symbols rule the world, not words nor laws.” -Confucius.
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I wonder if you took the water after it ran through the Kelvin experiment kept it isolated and froze it, the ice should be negative or positively charged depending which you froze.Originally posted by MonsieurM View Posttransfered info from the tree as radiant antenna thread:
Kelvin water dropper
Kelvin water dropper - Wikipedia, the free encyclopedia
note: you could try coils instead of a conducting ring, mash up time
also:
you could try also a water/methanol mixture Kelvin Experiment
each drop of water/Methanol Mix is a tiny capacitor that will discharge its energy when it hits the bucket
(see: Velocity Compression in Cylindrical Capacitor Electrospray of Methanol-Water Mixtures)
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or just a water/methanol Capacitor to charge the energy produced by the electrostastic created by water (or water/methanol) drops
YouTube - ‪Lord Kelvin Water Dropper/ Schauberger Waterthread Experiment‬‏
Schauberger take on Lord Kelvin Experiment
YouTube - ‪The Extraordinary Nature of Water -Viktor Schauberger 6/6‬‏
Dielectric Study of Water-methanol Mixtures for Use in Pulsed-power
Velocity Compression in Cylindrical Capacitor Electrospray of Methanol-Water Mixtures
Looks like something went wrong... The link you have may be incorrect, or the page you're looking for may have been removed or renamed. Try using the site's menu to locate the page. Try using the site search to search for the page by name. Try starting from the homepage. If that doesn't work, use this form to let us know what you were looking for, and someone will get back to you shortly.
also used in engines
http://en.wikipedia.org/wiki/Water_injection_(engines)
I'm going to try the Kelvin Experiment using acid water on one side and alkaline water on the other (for experimentation sake
)
note:
Have you tried the Kelvin Experiment on your M state Water?
the point I am making here, is that besides Schauberger, people tend to overlook the nature of water.

Might make a good experiment.Half of the Answer is knowing the right Question
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Diamond planet discovered by astronomers | MNN - Mother Nature NetworkOriginally posted by IndianaBoys View PostMonsieurM,
Astronomers Find Largest, Most Distant Reservoir of Water
NASA - Quasar Drenched in Water Vapor
Quasar Drenched in Water Vapor
This artist's concept illustrates a quasar, or feeding black hole, similar to APM 08279+5255, where astronomers discovered huge amounts of water vapor. Gas and dust likely form a torus around the central black hole, with clouds of charged gas above and below. X-rays emerge from the very central region, while thermal infrared radiation is emitted by dust throughout most of the torus. While this figure shows the quasar's torus approximately edge-on, the torus around APM 08279+5255 is likely positioned face-on from our point of view.

IndianaBoys
University of Technology in Melbourne, Australia may have just discovered the supreme BFF: an entire planet made of solid diamond, according to a report by New Scientist.
The planet is orbiting a pulsar about 4,000 light years away and represents some serious bling. Astronomers estimate that the planet is only slightly less than 60,000 kilometers in diameter and has a mass roughly equal to that of Jupiter
“Signs and symbols rule the world, not words nor laws.” -Confucius.
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from a link provided by Dave45
:
Anomalous properties of water
Water phase anomalies
Water has unusually high melting point.
Water has unusually high boiling point.
Water has unusually high critical point.
Solid water exists in a wider variety of stable (and metastable) crystal and amorphous structures than other materials.
The thermal conductivity of ice reduces with increasing pressure.
The structure of liquid water changes at high pressure.
Supercooled water has two phases and a second critical point at about -91°C.
Liquid water is easily supercooled but glassified with difficulty.
Liquid water exists at very low temperatures and freezes on heating.
Liquid water may be easily superheated.
Hot water may freeze faster than cold water; the Mpemba effect.
Warm water vibrates longer than cold water.
Water density anomalies
The density of ice increases on heating (up to 70 K).
Water shrinks on melting.
Pressure reduces ice's melting point.
Liquid water has a high density that increases on heating (up to 3.984°C).
The surface of water is more dense than the bulk.
Pressure reduces the temperature of maximum density.
There is a minimum in the density of supercooled water.
Water has a low coefficient of expansion (thermal expansivity).
Water's thermal expansivity reduces increasingly (becoming negative) at low temperatures.
Water's thermal expansivity increases with increased pressure.
The number of nearest neighbors increases on melting.
The number of nearest neighbors increases with temperature.
Water has unusually low compressibility. [Explanation]
The compressibility drops as temperature increases up to 46.5°C.
There is a maximum in the compressibility-temperature relationship.
The speed of sound increases with temperature up to 74°C.
The speed of sound may show a minimum.
'Fast sound' is found at high frequencies and shows an discontinuity at higher pressure.
NMR spin-lattice relaxation time is very small at low temperatures.
The NMR shift increases to a maximum at low (supercool) temperatures
The refractive index of water has a maximum value at just below 0°C.
The change in volume as liquid changes to gas is very large.
Water material anomalies
No aqueous solution is ideal.
D2O and T2O differ significantly from H2O in their physical properties.
Liquid H2O and D2O differ significantly in their phase behavior.
The mean kinetic energy of water's hydrogen atoms increases at low temperature.
Solutes have varying effects on properties such as density and viscosity.
The solubilities of non-polar gases in water decrease with temperature to a minimum and then rise.
The dielectric constant of water is high.
The dielectric constant shows a temperature maximum.
Proton and hydroxide ion mobilities are anomalously fast in an electric field.
The electrical conductivity of water rises to a maximum at about 230°C.
Acidity constants of weak acids show temperature minima.
X-ray diffraction shows an unusually detailed structure.
Under high pressure water molecules move further away from each other with increasing pressure.
Water thermodynamic anomalies
The heat of fusion of water with temperature exhibits a maximum at -17°C. [Explanation]
Water has over twice the specific heat capacity of ice or steam.
The specific heat capacity (CP and CV) is unusually high.
The specific heat capacity CP has a minimum at 36°C.
The specific heat capacity (CP) has a maximum at about -45°C.
The specific heat capacity (CP) has a minimum with respect to pressure.
The heat capacity (CV) has a maximum.
High heat of vaporization.
High heat of sublimation.
High entropy of vaporization.
The thermal conductivity of water is high and rises to a maximum at about 130°C.
Water physical anomalies
Water has unusually high viscosity.
Large viscosity increase as the temperature is lowered.
Water's viscosity decreases with pressure below 33°C.
Large diffusion decrease as the temperature is lowered.
At low temperatures, the self-diffusion of water increases as the density and pressure increase.
The thermal diffusivity rises to a maximum at about 0.8 GPa.
Water has unusually high surface tension.
Some salts give a surface tension-concentration minimum; the Jones-Ray effect.
Some salts prevent the coalescence of small bubbles.
don't forget to add the special properties of water seen in the documentary on water ...see post http://www.energeticforum.com/152708-post377.htmlLast edited by MonsieurM; 08-30-2011, 12:41 PM.“Signs and symbols rule the world, not words nor laws.” -Confucius.
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Hi
Another interesting thing I found out about water is this:
In Celsius the freezing point to boiling point of water is scaled from 0 to 100, and the human body's interior is 37 degrees of Celsius. This actually marks the scale of vibrations liquid water molecules can possess. The golden mean is 0.618 and 37 degrees is very close to 38.2. Therefore This satisfies very closely the golden mean ratio, so that our body temperature or water molecule vibration is somewhat in golden mean ratio relation to the vibrational scale of liquid water?! Does this mean something? It is said that this temperature is vital to maintaining balance inside the body, as 1 or 2 degree of Celsius vibrational change in the molecules of water just causes fever and extreme discomfort.
Elias
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water and photons is the origin of lifeOriginally posted by MonsieurM View Postfrom a link provided by Dave45
:
Anomalous properties of water
Water phase anomalies
Water has unusually high melting point.
Water has unusually high boiling point.
Water has unusually high critical point.
Solid water exists in a wider variety of stable (and metastable) crystal and amorphous structures than other materials.
The thermal conductivity of ice reduces with increasing pressure.
The structure of liquid water changes at high pressure.
Supercooled water has two phases and a second critical point at about -91°C.
Liquid water is easily supercooled but glassified with difficulty.
Liquid water exists at very low temperatures and freezes on heating.
Liquid water may be easily superheated.
Hot water may freeze faster than cold water; the Mpemba effect.
Warm water vibrates longer than cold water.
Water density anomalies
The density of ice increases on heating (up to 70 K).
Water shrinks on melting.
Pressure reduces ice's melting point.
Liquid water has a high density that increases on heating (up to 3.984°C).
The surface of water is more dense than the bulk.
Pressure reduces the temperature of maximum density.
There is a minimum in the density of supercooled water.
Water has a low coefficient of expansion (thermal expansivity).
Water's thermal expansivity reduces increasingly (becoming negative) at low temperatures.
Water's thermal expansivity increases with increased pressure.
The number of nearest neighbors increases on melting.
The number of nearest neighbors increases with temperature.
Water has unusually low compressibility. [Explanation]
The compressibility drops as temperature increases up to 46.5°C.
There is a maximum in the compressibility-temperature relationship.
The speed of sound increases with temperature up to 74°C.
The speed of sound may show a minimum.
'Fast sound' is found at high frequencies and shows an discontinuity at higher pressure.
NMR spin-lattice relaxation time is very small at low temperatures.
The NMR shift increases to a maximum at low (supercool) temperatures
The refractive index of water has a maximum value at just below 0°C.
The change in volume as liquid changes to gas is very large.
Water material anomalies
No aqueous solution is ideal.
D2O and T2O differ significantly from H2O in their physical properties.
Liquid H2O and D2O differ significantly in their phase behavior.
The mean kinetic energy of water's hydrogen atoms increases at low temperature.
Solutes have varying effects on properties such as density and viscosity.
The solubilities of non-polar gases in water decrease with temperature to a minimum and then rise.
The dielectric constant of water is high.
The dielectric constant shows a temperature maximum.
Proton and hydroxide ion mobilities are anomalously fast in an electric field.
The electrical conductivity of water rises to a maximum at about 230°C.
Acidity constants of weak acids show temperature minima.
X-ray diffraction shows an unusually detailed structure.
Under high pressure water molecules move further away from each other with increasing pressure.
Water thermodynamic anomalies
The heat of fusion of water with temperature exhibits a maximum at -17°C. [Explanation]
Water has over twice the specific heat capacity of ice or steam.
The specific heat capacity (CP and CV) is unusually high.
The specific heat capacity CP has a minimum at 36°C.
The specific heat capacity (CP) has a maximum at about -45°C.
The specific heat capacity (CP) has a minimum with respect to pressure.
The heat capacity (CV) has a maximum.
High heat of vaporization.
High heat of sublimation.
High entropy of vaporization.
The thermal conductivity of water is high and rises to a maximum at about 130°C.
Water physical anomalies
Water has unusually high viscosity.
Large viscosity increase as the temperature is lowered.
Water's viscosity decreases with pressure below 33°C.
Large diffusion decrease as the temperature is lowered.
At low temperatures, the self-diffusion of water increases as the density and pressure increase.
The thermal diffusivity rises to a maximum at about 0.8 GPa.
Water has unusually high surface tension.
Some salts give a surface tension-concentration minimum; the Jones-Ray effect.
Some salts prevent the coalescence of small bubbles.
don't forget to add the special properties of water seen in the documentary on water ...see post http://www.energeticforum.com/152708-post377.html
- Pollack G.H. Water structuring at interfaces - EZ water "exclusion zones"
Pollack Laboratory - Water Science
video
Water, Energy, and Life: Fresh Views From the Water's Edge - UWTV.org
Pollack G.H. Water structuring at interfaces. Pt.1 - YouTube
Pollack G.H. Water, Energy and Life - YouTube
- water is source of free energy close to the "exclusion zones" you can collect itLast edited by wings; 01-22-2014, 05:06 AM.
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