molecular structure
Gasses are compressible and liquids and solids are incompressible. Using this information one can surmise that CO2 compressible would be the gas phase of CO2 and CO2 incompressible would be the solid (dry ice) phase of CO2.
Solids and liquids are both forms of matter with definite volumes. However, solids have a definite shape, while liquids take the shape of their container. Solids have particles tightly packed together, whereas liquids have particles that are more spread out and can move past each other.
For example polar liquids dissolve polar solids, nonpolar liquids dissolve nonpolar solids.
Talking about the three "classical" states of matter, solids and liquids have a more or less fixed volume - they can be considered incompressible for most practical purposes - whereas a gas will fill up any container where you put it in.
The kinetic energy in liquids is greater than that in solids because the molecules in solids are more closely packed together than in liquids such that liquids can freely move about within the containing vessel.
Solids are not completely incompressible, but they are much less compressible than liquids and gases. This means that solids can be compressed slightly under high pressure, but their volume does not change significantly compared to liquids and gases.
Solids are typically dense, meaning they have a high mass per unit volume. They are not completely incompressible, but they are much less compressible than liquids and gases due to the strong intermolecular forces holding their particles in place.
They are both incompressible, and they have a fixed volume at a fixed temperature.
Some incompressible materials include liquids such as water and oil, as well as solids like metals and rocks. These materials have very little change in volume when subjected to pressure.
Gasses are compressible and liquids and solids are incompressible. Using this information one can surmise that CO2 compressible would be the gas phase of CO2 and CO2 incompressible would be the solid (dry ice) phase of CO2.
Liquids and solids both have definite volumes and densities. Additionally, they are relatively incompressible and exhibit resistance to flow. Both states also have closely-packed particles that exhibit strong intermolecular forces.
Yes, you can compress gases, liquids, and solids. However, liquids and solids are MUCH less compressible than gases, and for many practical purposes you can consider them "incompressible". This means that a high pressure will only cause a very small change in volume.
solids
it is the property of the liquids. all the liquids are incompressible. this is because the change in volume due to pressure is negligible for liquids. in liquids the molecules are almost compact and hence no space for compression.
I'm not exactly sure what you're wanting to get from this question, but I can tell you these things for sure:solids have a definite shapeliquids do notsolids and liquids both have a definite volumesolids and liquids have a definite massThose are just some of the basics, if you want to get more into detail with the things solids and liquids share, besides there properties, then I suggest you research it.Solids and liquids are essentially incompressible.
No, because solid and liquid have a definite shape. In practical terms the above it correct. However with great pressure many solids and liquids can be compressed into a more compact arrangement.
I don't know exactly what you mean by "crush". It is certainly possible to grind solid sulfur into a fine powder. Solids (and liquids) are usually incompressible, to a first approximation.