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Water molecules are dense enough to be fluid, which is liquid.
The more densely they aggregate to form a fixed crystalline structure, which is a solid.
Of course, ice is denser than water and water is a special case.
The more densely aggregated above means that there is a strong enough intermolecular force to form a fixed crystal structure.
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A single molecule cannot constitute a liquid or a solid. Solids or liquids depend on the distance between molecules, the larger is a gas, and the smaller may be a liquid or solid.
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The most common forms of matter in everyday life are solid, liquid, and gaseous, and these states are determined by the collective form of molecules or atoms. Because the motion of molecules or atoms in these three states of matter is different, we see different characteristics. Thus the state of matter is a macroscopic manifestation of the motion of a large number of molecules, independent of individual molecules, just as matter is colored, while molecular atoms are colorless.
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A water molecule is a molecule, not a substance, and has no state.
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There is no such thing for water molecules, when the molecular interval is small, it is ice, when the molecular interval is large, it is liquid water, and when the interval is particularly large, it is gaseous.
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Nothing.
A liquid or solid is a bunch of molecules that come together to exhibit physical properties
A molecule cannot embody the physical properties of water.
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The water molecule is described from a microscopic perspective, and the tristate is described from a macroscopic perspective.
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It also turns into water vapor and ice crystal particles.
The three forms of water are ice, water, and water vapor, which are solid, liquid, and gas. Blind code.
Turning into water vapor is in liquid form and is called vaporization. Specifically, it refers to the change of a substance from a liquid state to a gaseous state, which is called vaporization.
Particles that turn into ice crystals are in a solid form and are called solidification. Specifically, it refers to the change of a substance from a liquid state to a solid state, which is called solidification.
As shown in the figure below, the three forms of water are transformed:
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We all know that the water molecule is H2O, which is two hydrogen atoms and one oxygen atom; That is, water is composed of hydrogen and oxygen, so water is alive.
Scientists used nuclear magnetic resonance imaging (NMR) to observe the structure of water molecules in water. Normal water is composed of 13-15 water molecules in each water molecule cluster at 140-150 Hz, which is called macromolecular cluster water. The World Health Organization has determined that each water molecule group within 100 hertz is composed of 5-7 water molecules, which is called small molecule cluster water.
It is also known as pentagonal water or hexagonal water. It is known that the snow flakes are hexagonal, and the sea water and the amniotic fluid of the fetus are all small molecules.
Water exists in the structure of molecular clusters, and studies have found that the larger the water molecular clusters, the smaller the active friend, the less delicious this water is, the more difficult it is to absorb, and it exists in the gastrointestinal tract and kidneys, resulting in bloating and edema. The smaller the water molecules, the greater the activity, this kind of water is also delicious, drink soft and smooth, good taste, slightly sweet, clean, higher oxygen content, it can remove organic matter, remove viroids, remove different colors and odors, remove heavy metals, retain organic minerals, activate and other characteristics. The more you drink, the more you want to drink, it does not produce a feeling of fullness after drinking, promotes vitality, can be quickly absorbed into the body, penetrates into the cells, makes the nutritional and physiological function of water close to the water in the human cells, and also alleviates metabolic diseases and promotes growth.
This is the small molecule cluster.
Oxidation means decay or aging. When oxidized, the redox potential value (ORP) rises. As we get older, the redox potential value in the body increases due to the fact that all the cells are oxidizing.
Unfavorable values can cause excessive spoilage and premature aging. In the human body, oxidation is caused by free radicals that lose one electron of an oxygen molecule. Because these free radicals manage to "steal" the electrons they need for stability, they become very unstable and very prone to "reactions".
What is small molecule water?
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Microscopically speaking, energy ionization is caused by the breaking of chemical bonds with high energy under the impact of water molecules in water, making the molecules become anions and cations, resulting in ionization. This "impact of water molecules" includes both the impact of the thermal motion of the molecule and the attraction of polar molecules. So junior high school chemistry says that water is a good solvent, why?
One of the reasons for this is that water molecules are highly polar. (The landlord is a freshman in high school, right?) The concept of polarity will be learned later.
However, whether it can be dissolved in water depends on the "intimacy" between the substance and the water. The so-called "similarity dissolves". If a substance is not "intimate" and "similar" to water, then it may not be "soluble".
But it has nothing to do with whether it is impacted by water molecules or not. (Strictly speaking, the process of dissolution is very complex, involving many physical and chemical changes, and some of the deeper mechanisms are not explained even today.) Here is a brief explanation) For example, an ion, barium sulfate, is insoluble in water.
This is because the structure of barium sulfate itself dooms it to be "intimate" with water. However, the ionic bond energy between barium sulfate is relatively high, and water has strong polarity. The small fraction of barium sulfate dissolved in water under the attraction of water can be completely ionized.
So barium sulfate is insoluble in water but is a strong electrolyte – because the part that dissolves in water can be completely ionized. It can ionize because of its high bond energy and strong polarity of water molecules. But that doesn't justify its ability to dissolve in large quantities.
Ionization occurs after dissolution. At best, ionization can only ionize the dissolved part, but the insoluble part is powerless.