Re: How can NaCl dissolve in water? Can Any one explain this phenomenon in molecular level?

>As I posted on June 12. 3: 27, the force of binding atoms to build a molecules is not the electrostatic Coulomb's attraction believed today, but is the Meissoner's magnetic attraction induced by orbital persistent current, or orbital electron ring. This Meissoner's magnetism has an inherent character, something different from ordinary magnetism. It has a diamagnetic character against the magnetism induced by other electron rings with different orbital radii, because the electron ring hates to be influenced by other magnetism with a different intensity, due to energetic reason. So there acts repulsion between two electron rings with different radii, the diamagnetic phenomenon. If there is no space to repulse each other, they have to arrange to make a right angles between them in order to minimize their mutual magnetic influence. This Meissoner's magnetic behavior governs all the interaction phenomena occurring between materials, without exceptions.
Dissolving phenomenon is also included to be explained with this
principle. You posted like dissolves like. That is right! The most
intensive attraction has to act between the same kind of atoms that
have exactly the same electron rings of all their kinds.
As I posted at the beginning how NaCl can dissolve in water, people
replied, are you kidding us? It is quite natural because we have been
taught an incorrect science up to the present at the school; molecules
are built by electrostatic attraction between atoms by a snapshot
effect, and electrolyte materials being divided into several kinds of
molecular fragments with counter charges, and etc.
An entirely new view for the dissolution of NaCl in water proposed by
Dr. Yoon (www.yoonsatom.net), is that, the non-bonded orbital electron
rings in the outermost Cl electron shell attract oxygen of water
molecules succesively to build water chains as *OH2*H2O*OH2*H2O....
Symbol * signifies the Meissoner's magnetic attraction. Thus NaCl
molecule can coexist amid the water molecules. The number of water
molecules is determined by NaCl concentration in water. The minimum
number of water molecules being associated on Cl atom can be readily
estimated from NaCl saturate solution. Under this number of water
molecules, even a single NaCl molecule is not allowed to dissolve in
water, and begin to be driven out from the water phase. That is why
electrolyte materials have a fixed solubility at given temperature and
pressure which determines the minimum number of water molecules. Then
how can we figure out the shape of Na^+ and Cl^- ions? Both ions have
the same shape, as NaCl(nH2O). So that Cl atom carrying water chains
repulse Na being loosely connected to it. This is the so called ion.
It is known dry HCl has covalent bond. This covalent bond immediately
turns into ionic bond in presence of water molecules. Thus we can
conclude that ionic and covalent bonds are essentially not different
but the same.
Water molecules dissociate from HCl at 108.6 degrees C one atom, the
azeotropic boiling temperature. Refer that water boils at 100 degrees C
while HCl boils at -84.9 degrees C. We can thus understand also the
azeotropic boiling character of materials with the same principle.
CO2 molecules attach to CO radicals involved in caffeines or nicotines
which are non-volatile materials, so these substance can dissolve in
CO2 gas phase to build a solution of gas/solid system. This phenomenon
is allegedly utilized to separate these kind of non-volatile
macro-molecular substance purely from their mother substance, utilizing
CO2 gas phase under crytical state, however this phenomenon of forming
gas/solid solution was impossible to understand with present science.
Mr p6! You said you bought the expensive Dr.Yoon's textbook, but you
says as though you do not read his book. I red his book five times for
establishing a foundation of understanding his science principles.
People never knows why CaO, CaCO3, BaSO4 and etc. do not readily
dissolve in water while NaO, Na2CO3, Na2SO4, K2SO4 and etc. dissolves
pretty well into water, but I became to understand this reason.
It is not limited to understand dissolution phenomenon of inorganic
materials but also all kind of organic substances.
Dr, Yoon explains how raw egg-white can dissolve into water despite
that it has a long chain configuration, and turns into gel that looks
white when boiled up to 70 degrees C. He explains amino acids building
egg-white protein are connected with -CO-NH- segments upon which a
large number of water molecules are attached by a linear association,
as such CO*OH2*H2O*OH2*H2O*......., and NH*H2O*OH2*H2O*...... He
defines this water chains assciated linearly by Meissoner's magnetism
as bio-water. So that protein chains with such a long dimension can be
coexist with water molecules, or can dissolve in water, as though
caffeine and nicotine molecules can dissolve in CO2 gas phase to form a
gas/solid phase.
Biochemistry today explaining this dissolution of egg-white into water,
attributes to protein chains with globular folding. However, it is
wrong. When it is heated more than 70 degrees C, or mechanically
agitated these bio-water chains are stripped off, and the bare protein
chains that are inherently hydrophobic, have to precipitate and
aggregate by themselves building a network structure to give a gel
phase. Thus liberated water molecules from raw egg-white become to pack
in the protein network holes as tiny droplets, scattering the incoming
light to be seen white. We can observe simply this mysterious
phenomenon if we dilute this egg-white in water and heat it slowly up
to 70 degree C, or agitate it vigorously. However, the polymer chains
from which water chains are stripped off, never redissolve into their
initial water solvent. it is because the space between aggregated
protein chains does not allow to rebuild bio-water chains, due to
stronger attraction between them. Likewise silk fibrin protein
attaching bio-waters on their CO-NH segments are contained in silk worm
body. When this aqueous silk fibrin is discharged as filaments, it
builds silk fibers evaporating water, but they never redissolve into
the same water solvent. Thus this kind of worms can build their own
cocoons possible to protect their pupas from rains and external enemy
attack. newedama wrote

.

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