Liquid water molecules exhibit a greater amount of motion than ice molecules.
They each exhibit the same amount of motion
related to the motion of molecules
The primary motion in solids is very small amplitude vibrations of atoms around their equilibrium positions. The amplitude of the vibrations increases with increasing temperature up to the melting point of the solid, at which the solid becomes liquid and far more spatial motion is possible for the molecules.
At increased temperatures, atoms and molecules exhibit more kinetic energy. This energy shows up as "vibration" in the atom or molecule. Those atoms and molecules also move around more in the "situation" they're in. As a liquid or gas, those particles that make it up will move around more within the volume of that liquid or gas. In a solid, the atoms or molecules will "buzz" increasingly as temperature goes up.
Molecular motion is less constrained in liquid than in solid and is less constrained in gas than in liquid.
currents caused by the motion of heated molecules
yes it is, simply because of the molecules that are regarding it.
No, they are in motion in a liquid as well. In a solid they vibrate in place.
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
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
the force of attraction between its molecules becomes strong enough to overcome the energy of motion that its molecules have when the substance is in its liquid state, molecules are locked into rigid crystalline formations.
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
A gas hasn't form and the molecules motion is free.A liquid has the form of the container and the molecules motion is slower.A compound is a molecule formed from two or more chemical elements chemically bonded.
Gases and liquids are called fluids.Due to the kinetic energy of the atoms/molecules of the fluids they vibrate hence result in a contant mixing or motion of the molecules. Experiments which prove the motion-Brownian motion,Smoke cell
Yes, pressure in the liquid caused by its molecules constantly being in motion force it to take on the shape of its container (within limits).
Grains of sand are about to move about in a manner that is similar to the motion of molecules of a true liquid.
diffusion
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