Tuesday, 23 July 2013

Science Behind Monatomic Matter


Science Behind Monatomic Matter


 
monatomic ormes ormusThe universe of monatomic elements is often characterized by ventured and poorly founded theories, without the slightest scientific background. This come from an erroneous concept according to the monatomic matter as monatomic elements are not detectable by spectrometric analysis. This inevitably has repercussions on the quality of the final product, often depleted, and devoid of any real bioavailability.

Chymialab, on the contrary, proposes a new concept in the development and standardized production of Ormes-based remedies, coming from the detection of monatomic matter conducted by characterization of the spin in the individual isolated monatomic elements, and then by prepending a physical system to a chemical one.

The main characteristic of so-called transition elements would be to shift, more easily than others, from the metallic state to the monatomic (or diatomic) one, when placed in particularly favorable conditions (zero point energy). Until recently, it was thought that a simple chemical reaction could achieve all this, but developments in the field of Bose-Einstein Condensates and Nanoscience, have shown that only addressing elements to a quantum state (the energy of each state is precise within the limits imposed by the uncertainty principle but may be changed by applying a field of force) can they assume monatomic stability over time.

Unlike what was previously believed, the monatomic state is not another state of matter, but a more specific level of Bose-Einstein condensate as unique effect in which the electronic states of a solid, a liquid or a specific gas can self-organize to acquire quantum phase coherence. One of the fundamental rules of quantum mechanics dictates that all particles in nature are either “fermionic”, or “bosonic”.

The difference between the two is very important: any two fermionic particles are not allowed to occupy the same quantum state, in contrast to bosonic particles, which may occupy the same state, irrespective of their number. As a result, matter is usually associated with fermionic particles, while radiation and the carriers of forces are associated with bosonic particles. Clearly this classification is in the heart of quantum mechanics. While the behavior of fermionic particles is easy to confirm, the behavior of bosonic particles has proven more difficult to probe. Einstein predicted already in the 1920s that an ideal gas of bosonic particles may undergo a phase transition to a phase in which a macroscopic number of such particles occupy a single, coherent quantum state, the so-called Bose-Einstein condensed state. If plasmas are super hot and super excited atoms, the atoms of monatomic elements in a Bose-Einstein condensate (BEC) are total opposites as the same phenomenon is. They are super-unexcited and super-cold atoms, but that fixes them and they become stable at environmental temperature.




Truth about monatomic matter

monatomic ormus ormesSome academicians and skeptics argue that monatomic state matter, discovered the first time by David Radius Hudson, is purely chemicals, with nothing particularly important from a physical and biological point of view. Fortunately, the modern advances of science and technology in the field of nanoscience, matter physics and quantum chemistry, seem to come in aid of this new state of matter. It’s also worth noting a trend change by many physicians and biologists, as well as some very enlightened pharmacologists, who recently welcome the bioactivity of the monatomic elements, at least on a theoretical perspective.

Until recently it was stated too lightly by some monatomic manufacturers that monatomic elements are impossible to detect by common instrumental analysis, referring to chromatography and mass spectrometry only. But it’s not undeniably true. There are in fact some very interesting quantum hypotheses, which stimulate research in the right direction.

Today, by the available technological resources in the field of FEM and spin polarization analysis, many issues can be settled. Monatomic matter can be characterized starting from super deformed condition of atoms nuclei. Exotic matter exists and is recognized by mainstream science. Imagine a real object (the common chemical element) and its mirror image (the same item in another state, or exotic). You can see both, reflections of one another; the second one by the mirror that become the tool for your investigation. Considering claims about m-state elements as single pure chemical identities placed in a bottle is a big mistake.

The monatomic state is isolable exclusively encapsulated in an ionic solution or a solid support (salts of bioavailable Mg, Ca, Na), and never as a single element such as the common element that it represent. For example, Monatomic Ruthenium (mRu) is not the commonly metallic Ru solid at 298 K, but an exotic condition of Ru atoms.

The monatomic state is an energy/matter identity, a sort of hybrid in which matter and energy remain at high level of atomic quantization. At this level you enter a completely new domain, which requires a leap over the hurdle of academic science.


Nanotechnology

monatomic ormus ormesWe define Nanoscience as the study of phenomena and manipulation of materials at atomic, molecular and macromolecular scales, where properties differ significantly from those at a larger scale; and nanotechnologies as the design, characterization, production and application of structures, devices and systems by controlling shape and size at the nanometer scale.

Nanotechnology, the manipulation of matter at the atomic and molecular scale to create materials with remarkably varied and new properties, is a rapidly expanding area of research with huge potential in many sectors, ranging from healthcare to construction and electronics. Using new tools that allow us to see and manipulate small groups of molecules whose size in the Nano scale, scientists have now discovered that these tiny amounts of a given substance often exhibit different properties and behaviors than larger particles of the same substance!

We’ve seen that when the number of atoms or molecules bonded together is so small that they only occupy between 1 and 100 nanometers of space, the properties are no longer predictably the same properties that are listed in tables of “physical properties” of a substance. Quantum effects can begin to dominate the behavior of monatomic state matter at the nanoscale – particularly at the lower end – affecting the optical, electrical and magnetic behavior of resulting compounds. Reaction time is another phenomenon that changes at this scale. The greater the surface-to-volume ratio that reacting substances have, the faster the reaction time.

Nanosized groups of particles are so small that they have a very high surface area to volume ratio, and thus react so quickly that precise time measurements are difficult. Chymialab AG has taken advantage of nanotech in the separation and purification of the m-state elements, through its proprietary process based on Condensed Elemental Plasma Phase (CEPP), and especially in the confined plasma m-state separative process (CPMSP), and in sub-Nano total bio solution (liquid form) or m-state ion implanting (solid form) of the extracted and purified m-state elements in bioavailable support. We do not add Nano-ingredients to our preparations, as well as we do not deliver to the organism the active ingredients as Nano colloids, but we extract and purify our m-state elements at a Nano scale condition. This ensures safety, non-toxicity, sustainability, and an absolutely natural product.


Holoresonance

monatomic ormes ormusBiological organisms possess the ability to communicate with each other outside the realms of perception and measurement. This phenomenon is s known as Quantum Bio-communication.  Chymialab AG believes in the results of quantum bio-communication as a main cause of bio-psychic Holo-Resonance in human being through the activity of quantum mind.

The concept originates from the theories of quantum consciousness of Penrose-Hameroff, for which the brain’s neurons and synapses behave as bits and switches on a microprocessor, that consciousness is essentially calculation. A kind of calculation that is no different – except for complexity – from what is happening on a microprocessor. Neurons are filled with microtubules, actin filaments and neuro-filaments, all of which are components of the cytoskeleton. The microtubules comprise alpha and beta tubulin dimers and have plus and minus ends.

The plus ends of microtubules undergo polymerisation/depolymerisation cycles to a much greater extent than the minus ends. The tubulin that comprises the microtubules accounts for up to a quarter of the soluble protein in the brain. Microtubule associated proteins (MAPs) are found in high concentration in neurons. MAP2 is particularly abundant in dendrites.

Areas possessing many pyramidal cells associated with higher cognition, are often rich in MAP2, suggesting a connection between this protein and cells involved in higher cognition. MAP2 expression is also altered by the recent experience of learning, which suggests a more general involvement in information processing. Consciousness exists on the boundary between the quantum subconscious and the classical world. It is not just a matter of neurochemistry. A particularly subtle form of energy is the basis of the process.

This subtle energy that some call biophotons, others identify with the neutrino diffusion, is the only responsible for a chain of events that determines the dialogue between the brain and every constituent of our body structure (cells, endorphins, proteins, DNA, organs, blood, etc). The m-state elements, in their degree of high purity and concentration, are able to convey this energy to the target, by activating specific functions within the microtubule and speeding the neurotransmitters at the level of the more subtle consciousness identity, till set off phenomena of metaphysical manifestation, reaching the state of presence in perfect zero-point mind-matter equilibrium.


From Chymialab @ http://www.chymiamonatomic.com/science-behind-monatomic-matter/
 

For more information about monatomic elements see http://nexusilluminati.blogspot.com/search/label/monatomic%20gold  or http://nexusilluminati.blogspot.com/search/label/mkfzt
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