because liquids can give us the right temperature but solids and gases
Particles in liquids have more freedom of movement compared to solids but less compared to gases. They are able to slide past each other, allowing liquids to flow and take the shape of their container. The movement of liquid particles is random and continuous.
Gases have more space between their particles, which allows them to be compressed more than solids and liquids. In gases, the particles are in constant random motion and have higher kinetic energy, making them more easily squeezed together. Solids and liquids have stronger intermolecular forces that resist compression.
Liquids diffuse at a slower rate than do gases because they have much less kinetic energy.
Magnitude in thermal expansion is how much the substance can expand, so, the relative order of magnitude of thermal expansion is: solid<liquid<gases. Gases expand more than liquid, and liquid more than solid.
This variation is typically small for solids and liquids but much greater for gases.
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.
because liquids can give us the right temperature but solids and gases
I can only tell you that gases are does not have a difinite shape and volume . E.g air / nitrogen / carbon dioxide / water vapour / . . .
Though both can act as fluids liquids are a different and much cooler state of matter. Gases must first become liquids before they can become solids.
The motion of particles in gasses, liquids, and solids are all different. Gas particles can move much more quickly than solids.
Air can travel through some kinds of solids, if they are porous. Otherwise it can't. It can travel through liquids in the form of bubbles. It does not exactly travel through gases so much as mix with them.
Gases are easier to compress than solids or liquids because gas particles are more spread out and have more space between them. This allows for the gas to be compressed more easily by reducing the volume of the container, as opposed to solids and liquids which have their particles closer together and experience more resistance to compression.
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.
Particles in liquids have more freedom of movement compared to solids but less compared to gases. They are able to slide past each other, allowing liquids to flow and take the shape of their container. The movement of liquid particles is random and continuous.
Gases have more space between their particles, which allows them to be compressed more than solids and liquids. In gases, the particles are in constant random motion and have higher kinetic energy, making them more easily squeezed together. Solids and liquids have stronger intermolecular forces that resist compression.
Solids have tightly packed molecules, making them denser and heavier. In contrast, gases have widely spaced molecules that are free to move around, making them lighter in comparison to solids. This difference in molecular arrangement accounts for the difference in weight between solids and gases.