Liquid particles move in random directions due to their kinetic energy. The particles are free to flow and slide over each other, creating a fluid or liquid state of matter.
Gas particles are free to move in all directions and fill the space available to them. This is because gas particles have high kinetic energy and are not held together by strong intermolecular forces like solids and liquids. As a result, gases can expand to fill any container they are placed in.
Gas particles move randomly in all possible directions and travel in a straight path.
They move quickly past neighboring particles.
well only liquid and gases can vibrate in all directions because with a solid there all stuck together and cant move but when it comes to liquid and gas they move and vibrate in all directions.
Liquid particles move in random directions due to their kinetic energy. The particles are free to flow and slide over each other, creating a fluid or liquid state of matter.
Liquid is the answer.
Perfume particles mix with the particles of air. Due to diffusion, the particles of smelly gas are free to move quickly in all directions.
Different directions, they just move slower until they stop and then you have ice.
Gas. Gas particles have a lot of kinetic energy, allowing them to move freely and quickly in all directions, leading to a complete separation from each other.
Solid - Particles vibrate and rotate about a fixed position and do not diffuse measurably Liquid - Particles move freely in all directions slowly and diffuse slowly Gas - Particles move freely in all directions rapidly and diffuse rapidly
when its hot outside
Gas particles are free to move in all directions and fill the space available to them. This is because gas particles have high kinetic energy and are not held together by strong intermolecular forces like solids and liquids. As a result, gases can expand to fill any container they are placed in.
Gas particles move randomly in all possible directions and travel in a straight path.
Heat energy.
gas
They move quickly past neighboring particles.