Absolute Zero
random motion of molecules
In random motion.
never ending random
the mixing of gas molecules due to random motion-apex
Molecules of a substance are in constant motion. Whether you have a solid, liquid, or gas, the particles are moving (but the speed and amount they move differs). Particles of a solid move the least (they basically vibrate), particles of a liquid can flow around one another, and particles of a gas have a lot of space between them because they move in random, constant motions.
The average amount of energy in the motion of the molecules of a substance is the temperature of that substance. Heat is simply random motion on a sub-microscopic scale.
Thermal energy
Dissolving is when a substance has mixed into a solvent.
random motion of molecules
Molecules in an object or substance are always in motion.
Brownian motion
Brownian motion is evidence of random motion of molecules.
In random motion.
Fluid means capable of flowing. So liquids and gases are considered as fluids. Particles are different from fluid molecules. Molecules will be at random motion. Only at 0 K, molecules would come to rest. Otherwise at room temperature they are at random motion. So any particle within fluid will be bombarded by these molecules and so particles too will be in random motion. This motion is termed as Brownian motion.
Random Motion
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.
Yes, the molecules of a gas are constantly in a random motion if the gas temperature is more than 0 degree kelvin. This random motion determines the average kinetic energy of the molecules which is equal to the temperature of the gas. I hope this answers your question.