Gas
The temp (e.g. boiling point) is but the average of the kinetic energy of all the molecules, some will be going faster (have more energy) than others. The ones that exceed that value we know as boiling point have enough energy to escape from the liquid state and become vapor.
The temperature of air is determined by the kinetic energy of its individual gas molecules. Warmer air has molecules with higher kinetic energy, causing them to move faster and collide more frequently, resulting in a higher temperature.
The kinetic energy of molecules is directly related to their physical state. In general, molecules in a higher energy state (higher kinetic energy) tend to be in the gaseous state, where they have more freedom to move around. Conversely, molecules in a lower energy state (lower kinetic energy) tend to be in the solid or liquid state, where they have less freedom of movement.
Liquid water molecules have more kinetic energy and are moving more freely than ice molecules, which are in a more ordered and rigid structure. As a result, liquid water flows more easily compared to ice, which is more solid and less fluid.
related to the motion of molecules
gas
Molecules have the highest amount of energy in the gas phase because the molecules are moving faster and have more kinetic energy compared to the solid and liquid phases.
Gas.
gas
Gas state
Solid
Solid
Water molecules have the highest amount of energy when they are in the gaseous state, such as steam or water vapor. In this state, the molecules have absorbed enough energy to overcome intermolecular forces and move more freely.
gas
when moleecules start to get Nadph and Adp
The amount of energy an object has because of its moving molecules is called kinetic energy. This energy is determined by the mass of the object and the speed at which its molecules are moving.
When they are the coldest that they can be is when they have the least energy. Absolute Zero is when molecules have no energy and are not moving, but it is impossible to get to that degree.