molecues
because the particles are away from each other so, the particles are spreading in an object
Surface tension.
Surface tension.
The intermolecular forces in a liquid (such as cohesive forces) are stronger than in a gas, which prevents the particles from spreading out to fill the entire container like gas particles. Additionally, the particles in a liquid are still in close proximity to one another, allowing them to maintain a certain degree of structure and cohesion.
The word is "diffusion." It refers to the movement of gas particles from an area of higher concentration to an area of lower concentration.
Diffusion describes the process by which particles in a gas spread out due to their random motion. The particles move from areas of higher concentration to areas of lower concentration, resulting in even distribution.
The particles of a liquid are attracted to each other through intermolecular forces, which keeps them close together and prevents them from spreading out as freely as gas particles. The stronger intermolecular forces in liquids compared to gases allow them to maintain a closer arrangement, leading to a fixed volume and shape.
As the piston is raised in a cylinder with gas particles, the volume available for the gas particles to occupy increases. This results in the gas particles spreading out and the density of the gas decreasing.
In a given volume, a gas typically has the fewest particles compared to a solid or a liquid. This is because gas particles have more space between them and move around more freely than particles in solids and liquids.
Perfume particles mix with the particles of air. Due to diffusion, the particles of smelly gas are free to move quickly in all directions.
A non-solid. The particles are really spread out in a gas, and less spread-out in a liquid.
In a liquid, the particles are in constant motion but are still close enough to each other to maintain some level of attraction. The intermolecular forces in a liquid (such as van der Waals forces or hydrogen bonding) prevent the particles from spreading out as much as gas particles, which have weaker intermolecular forces. This is why liquids have a definite volume and take the shape of their container, but not to the extent of gases.