Well; that is a trick question. Atoms are always in motion, no matter what you are doing with it
Atoms are always in motion, even at very low temperatures. This motion is due to the thermal energy possessed by atoms. However, at absolute zero temperature (-273.15°C or 0 Kelvin), the atoms would theoretically have no motion as their thermal energy would be reduced to the minimum. However, achieving absolute zero temperatures is practically impossible.
The atoms themselves may not be classified as "in motion" but the constituent particles of atoms are (protons, neutrons, electrons), and molecules having greater than zero energyare also in motion.
Pretty much everything bigger than an atom.
A chemical reaction can end when the limiting reagent runs out, but atomic motion; i.e. the motion of atoms and of subatomic particles within atoms, never stops.
The more energy removed, the slower the motion of the atoms and molecules.
Please be more specific. Small respect to what? Are you talking about the motion of atoms or the motion of sub atomic particles?
heat...
The atoms themselves may not be classified as "in motion" but the constituent particles of atoms are (protons, neutrons, electrons), and molecules having greater than zero energyare also in motion.
Atomis
Atoms are in constant motion. Even in a solid, the atoms are vibrating.
Pretty much everything bigger than an atom.
How is called the energy that lies at the level of atoms and does not affect motion? Its nonmechanical.... Do you go to PH???
Since heat and energy are the same it is called Kinetic energy. The temperature is what makes up the average particles in motion which are in all atoms.
Yes. Absolute zero of temperature and therefore motion is impossible.
Kinetic energy is possessed by moving atoms. It is the energy possessed by particles in motion.
Atoms and molecules are constantly in motion
Atoms and molecules.
Atoms and molecules are always in motion