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Still asking. The powerful compressed water you asked about is already in the method 1 I mentioned earlier, but it can't be done by manpower, and the forces of nature in the earth's ecosphere can't do it. To the extent that you think, the neutron nuclei are piled up, and that thing must be something that is "solid" atoms to the minus 10th power, neutrons to the minus 15th power of 10, and that thing is no longer water.
You can go to the 4 most basic forces in the universe, which are the final additions.
It is estimated that only time can be stopped, the first way is to break the time rule that you want to observe matter, and place it in a special environment, such as a black hole, a neutron star and other environments, under the action of huge gravity, it can probably be seen as electrons and protons combine to form neutrons, and a series of nuclear fusions will also be triggered between atomic nuclei (at this time, the effect of electromagnetic force on matter is relatively small, so it has little to do with chemistry, and the scope of physics is beyond the scope of classical physics, which is not something you can directly feel in reality), and the second is to stop the time of the observer, that is, at the moment of your observation, your time will be terminated, what you see is always stopped at that moment, of course it doesn't mean anything to you, you won't feel anything after you stop, just like the camera generated**. (Looking back, time is not a good thing to tell you.)
Then there is the core of the sun, in general, the vast majority of matter in nature is in 3 states (i.e., solid, liquid, gaseous, which is related to pressure and temperature), when the pressure is constant, the solid substance will become liquid with the rise of temperature, and if it continues to rise, it will become gaseous, so what about continuing to rise to a higher degree?That is, the fourth state of matter, the plasma state (when the gas is heated and its atoms reach thousands or even tens of thousands of degrees Celsius, the electrons will be atomized"Shake"drops, and the atom becomes an ion with only a positive charge. In this case, the electrons and ions have opposite charges, but the number is equal, and this state is called the plasma state.
Quoted from the encyclopedia) about the name of water when the H2O molecule is presented as a liquid state at a certain atmospheric pressure and a certain temperature (this range is very narrow), the electrons and nuclei you are talking about are problems at the atomic level, and the liquid solid gas is a problem at the molecular level, and the two are not an order of magnitude at all. You can't stop electronically at all.
Your physics knowledge is too shallow, I can't explain it all at once, these should be in high school physics books, and if you have the opportunity, you can look at the relationship between atoms, molecules, solids, gases, and liquids,..
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Originally, I came up to check the problem of compressed water, but I saw this problem of yours.
Due to the huge mass of the star, the gravitational force exerts super pressure on the center of the star, so strong that the protons are squeezed together, triggering nuclear fusion, which resists the contraction of gravity through the energy of nuclear fusion. Therefore, the Sun is a young star, and so far there should be no nuclei of atoms that are squeezed together, as you are talking about.
And what happens when hydrogen fusion is over? When the fusion stops, the star will no longer be able to resist the contraction of gravity, and then the nuclei will be squeezed together to form a "degenerate matter", at which point the electrons will also come together and become an electron fluid. It should be noted that the matter at this time is not solid, but a degenerate state, and its properties are actually closer to liquids and gases, and are fluid.
That's pretty much enough for your question. Also, the movement of electrons around the nucleus is not due to the centrifugal force of circular motion. I don't know exactly what the reason is for the time being.,I'm interested in going and seeing quantum mechanics for myself.。。。 Interested in communicating again.
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I really don't understand this question, what exactly are you trying to ask!
Water is inherently liquid!!
The water molecule is made up of H2O, which consists of 2 hydrogen atoms and 1 oxygen atom.
Would you rather deoxy the electrons of the atom or the electrons of the hydrogen atom?
Removing electrons involves the consideration of the unit of quarks.
There are many assumptions about the power of electrons and their strength, such as black holes, such as collapse.
Electrons and nuclei and things like that are not good for you, and at the previous level, in terms of molecules, generally matter is made up of molecules.
There is an exception to the fact that iron has no molecules and is directly atomically constituted.
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Water can be compressed. When subjected to a pressure of 200 atmospheres, the volume of water can be reduced by about 1%. Due to the high pressure values and the small amount of water required to reduce the volume of water, it is often ignored that water cannot be compressed.
The reason for this result is that the gap between water molecules is in the critical size range, and if the distance between molecules is reduced by compression, a large repulsive force will be generated between the molecules, so it is difficult to compress it. <
Water can be compressed. When subjected to a pressure of 200 atmospheres, the volume of water can be reduced by about 1%. Due to the high pressure values and the small amount of water required to reduce the volume of water, it is often ignored that water cannot be compressed.
The reason for this result is that the gap between water molecules is in the critical size range, and if the distance between molecules is reduced by compression, a large repulsive force will be generated between the molecules, so it is difficult to compress it.
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Water can be compressed, but the pressure required is particularly high, about 1.1 million atmospheres. During the continuous pressurization of water, the pressure breaks the hydrogen bonds between the water molecules, causing the water to gradually evolve from a low-density structure to a high-density structure, i.e., from a liquid form to a solid form. When the pressure is removed, the water will quickly change from solid to liquid.
Water can be compressed, but the pressure required is particularly high, about 1.1 million atmospheres. During the continuous pressurization of water, the pressure breaks the hydrogen bonds between the water molecules, causing the water to gradually evolve from a low-density structure to a high-density structure, i.e., from a liquid form to a solid form. When the pressure is removed, the water will quickly change from solid to liquid.
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I believe everyone has eaten compressed biscuits, and compressed air may be commonplace for everyone! So can water be compressed?
Generally speaking, we will say that water can of course be compressed, and when water is compressed, it will become smaller in volume and increase in density. Scientists have found that water has the highest density and the smallest volume at a certain temperature, but if it deviates from this temperature, the volume will increase, so it seems that water cannot be compressed.
Can water be compressed? Theoretically, everything in the world can be compressed because they are made up of microscopic particles, mainly molecules and atoms.
Water is the source of life and comes in three forms: liquid, solid, and gaseous. What we usually call compression is actually applying pressure to an object to change its shape, so that the volume becomes smaller and the density increases. In daily life, water gives us the feeling that it cannot be compressed, in fact, water is an incompressible substance itself is not true, water is just compressed is difficult, because the distance between water molecules is very small.
The basic composition of water is water molecules, which are composed of one oxygen atom and two hydrogen atoms, and water will not be compressed under normal pressure, but if the pressure is very high, the density of water will be extremely high, so that the sub-water will be compressed.
If you keep increasing the pressure, what will the water be compressed into? Anyone who has studied chemistry knows that the chemical bond of water is very stable, so a little change in pressure will not cause any change, if you continue to increase the pressure, you may see solid precipitation, in fact, water becomes solid at this time.
However, if the pressure is increased and the molecular bonds in the hydrogen molecule are broken, atoms will be formed, and then the pressure of the environment will increase, and the decomposed atoms will come together to trigger a nuclear fusion reaction.
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Can water be compressed? What happens to water when it is compressed?
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Water is formless and colorless, and it flows freely, and it is impossible to be compressed, just like the sea, it is boundless, and it is impossible to compress it.
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I think it's compressible because it's not very dense, only 1, so it can be compressed.
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Water is a flowing thing that can't be compressed at all, so this idea is impractical and impossible to achieve.
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Many substances in life can be compressed, as long as there is a gap between their molecules, how much can be compressed depends on the size of the gap. Water can also be compressed, and when subjected to a pressure of 200 atmospheres, the volume of water can be reduced by about 1%. Due to the large pressure value and the small volume of water, it can generally be regarded as water that cannot be compressed.
The reason for this result is that the gap between water molecules is in the critical size range, and if you want to compress and reduce the distance between molecules, there will be a large repulsion force between molecules, so it is difficult to compress.
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Theoretically, it can be compressed. It hasn't actually been realized yet. Because water is also made up of molecules, atoms, etc., there are large voids in their arrangement, so it can be compressed.
But if you want to compress water, you need a lot of energy, and I can't say how big it is, anyway, the current conventional means can't achieve it.
Let's talk about my thoughts, the water in the deep sea is under a lot of pressure, so it will be compressed, but the amount of compression is very small, otherwise, the temperature in the deep sea is high, if the water is not compressed, it should float to the surface of the sea, because the water with high temperature will go up, so there is a contradiction.
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Water can be compressed, but only a small deformation will occur when compressed, and the density of the water will increase a little. However, in real life, compressed water is not very useful, water is a liquid with a very low viscosity, and it is easy to leak once compressed.
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Water will not be compressed under natural normal pressure, but if the pressure of compressed water is very high, then the density of water will be significantly improved, but it is impossible to continue compression.
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Water is compressible. Water is a molecular substance, there are gaps between any kind of molecules, it is just difficult to be compressed, and the water molecules become smaller after compression.
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Can water be compressed? What happens to water when it is compressed?
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Water can be compressed. Since any object can be compressed, it is only necessary to apply a sufficient amount of pressure, and when subjected to 200 atmospheres, the volume of water can be reduced by about 1%. Due to the high pressure value and the small shrinkage of the water volume, it is usually considered that the water is incompressible.
The reason is that the gap between water molecules is in the critical size range, and if you want to compress and reduce the distance between molecules, there will be a large repulsion force between molecules, so it is difficult to compress. <
Water can be compressed. Since any object can be compressed, only a sufficient amount of pressure is applied, and the volume of water can be reduced by about 1% when it is subjected to a pressure of 200 atmospheres. Due to the high pressure value and the small reduction of the water volume, it is usually considered that the water is incompressible.
The reason is that the gap between water molecules is in the critical size range, and if you want to compress and reduce the distance between molecules, there will be a large repulsion force between molecules, so it is difficult to compress.
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Water can compress or shrink, to be precise, any substance can be compressed. There are gaps between any molecules, so theoretically it is possible to compress any object, but in practice, there are many things that are difficult to achieve with current science and technology, and the compression of water has not yet been heard.
Water can be compressed, just hard, because the distance between the molecules of water is already small, there is 10*10 (-10) small, so it is difficult to be compressed. But if you have to compress it, you can use a water press, or some machines of your own design, and the density of the water will become greater in the deep sea.
In order to compress an object, it is necessary to overcome the molecular forces between the molecules of the object. The molecular force is the intermolecular force that makes up an object, and it exists only when the distance between the molecules of the object is less than 10 to the minus 9 power (or manifested, it is close to 0 if the distance is greater than this). It is easy to compress ordinary gases, because the distance of gas molecules from the large spinal fluid is about 10 to the minus 9 power, and the molecular force between them is almost equal to 0, so it is easier to compress gas.
The characteristic of liquids is that they can transfer pressure, and solids transfer pressure, because liquids are fluid, and solids are not. The pressure generated by the gas is due to the compressibility of the gas and is the result of the thermal movement of the molecules, which is two different concepts from the transfer of liquid pressure, and the mechanism of water pressure and air pressure is different, although they are both fluids.
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Water can be compressed. From a factual point of view, any liquid can be compressed, as long as the appropriate pressure is applied to change its volume, so water can be compressed, but the degree to which water is compressed is very small, so small that it can be ignored, so it is generally considered that liquids cannot be compressed.
Water is an inorganic substance composed of two elements, hydrogen and oxygen, and chemically, the chemical formula of water is HO.
In the universe, the phenomenon of compression is very common, and any matter can be compressed as long as the pressure is high enough.
Water is one of the most common substances on Earth, the most important part of the biological chain, and when viewed from space, the Earth is blue because 71% of the Earth's surface is covered by water.
I've never seen such a strong compression algorithm
Yes, compression** is better for water film moisturizing.
Baked goods, packaged with a commercial label in the final product are generally acceptable.
The compressed file occupies a small space, and the speed will be fast, so many of the network are compressed, and they generally install their own decompression programs, such as winrar >>>More
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