Flow
No, molecules have more freedom of movement in the liquid state compared to the solid state. In solids, molecules are tightly packed and have limited translational and rotational movement. In liquids, molecules have more space to move around and slide past each other, allowing for greater freedom of movement.
convection
Liquids and gases are amorphous (shapeless), viscous (can flow), and diffuse (have internal space) due to the movement of their molecules.
Osmosis.
because as the particles met they are wet
The molecules begin to release and move into the air more quickly than they condense back into liquid.
the movement of a liquid along the surface of a solid caused by the attraction of molecules of the liquid to the molecules of the solid
All molecules are in constant motion. Molecules of a liquid have more freedom of movement than those in a solid. Molecules in a gas have the greatest degree of motion. Heat, temperature and the motion of molecules are all related. Temperature is a measure of the average kinetic energy of the molecules in a material. Heat is the energy transferred between materials that have different temperatures. Increasing the temperature increases the translational motion of molecules Energy is related to temperature by the relationship: E= kT
It becomes a liquid. solid, liquid, and gas are relative terms defining the movement of molecules, solid moves slow, liquid faster, and gas the fastest. molecules move constantly.
The continuous movement of water molecules can lead some molecules at the surface to escape in the atmosphere as a gas.
Yes, the size of molecules can affect a liquid's resistance. Larger molecules tend to have higher viscosity, which is a measure of a liquid's resistance to flow. This is because larger molecules have more intermolecular forces that hinder their movement.
Brownian movement is the random shaky movement of very small particles suspended in a gas or a liquid, caused by them being hit from every side by atoms and molecules of the gas or liquid. You can only see it in a microscope.