The inter molecular spaces
Yes, all gases can be compressed because gases are highly compressible compared to liquids and solids. When gases are subjected to pressure, they can be compressed into a smaller volume, increasing their density.
Molecules will fill the space available to them due to their kinetic energy causing them to move around randomly. This is known as diffusion. In a closed container, molecules will spread out evenly to fill the entire volume.
The ability to flow and take the shape of their container is a property of liquids and gases that solids do not have. This property is known as fluidity.
Yes, gases can both expand and contract. When heated, gases expand as the molecules move more rapidly, increasing the pressure and volume. Conversely, when cooled, gases contract as the molecules slow down, decreasing the pressure and volume.
Gas molecules have more freedom of movement compared to those in solids or liquids, allowing gases to expand and fill the available space. Gas molecules can also diffuse easily through other substances due to their higher kinetic energy. Additionally, gas molecules have lower intermolecular forces, making them more compressible than liquids or solids.
The inter molecular spaces
This is possible because gases have the physical property of elasticity, due to the fact that there are relatively large spaces between the molecules of gases.
Yes, all gases can be compressed because gases are highly compressible compared to liquids and solids. When gases are subjected to pressure, they can be compressed into a smaller volume, increasing their density.
Yes, gases show the property of diffusion. Diffusion is the movement of gas molecules from an area of high concentration to an area of low concentration, and this process occurs naturally in gases due to their high kinetic energy and constant motion.
A vacuum is present between inter-molecular spaces.
The molecules of solid are already intact that you cannot compress them any further unless there are spaces left.
Gases and liquid do not share the same compressibility property. In liquids, the molecules are approximately lesser compressed, that Is why they move around freely and does not have fixed shape. While gas is the most compressible and it doesn't have a shape.
gases have huge spaces in between them.enough to move around where ever they want
When molecules in liquids and gases are heated they move faster
Molecules will fill the space available to them due to their kinetic energy causing them to move around randomly. This is known as diffusion. In a closed container, molecules will spread out evenly to fill the entire volume.
after atoms and molecules of gases and liquids are heated, they sink?
Gases have particles that are far apart and move freely, allowing them to be easily compressed when pressure is applied. Solids, on the other hand, have particles that are closely packed and have strong intermolecular forces, making them resistant to compression.