The Average Energy Per Molecule Is Proportional To

The average energy per molecule is proportional to the temperature of the system. This means that as the temperature of the system increases, the average energy per molecule will also increase. This is because molecules in a system with a higher temperature have higher kinetic energy, meaning they are moving faster and have more energy. This is due to the fact that the average kinetic energy of a molecule is proportional to the temperature of the system.

At the molecular level, temperature is a measure of the average kinetic energy of the molecules in a system. As the temperature increases, the average kinetic energy of the molecules increases, resulting in an increase in the average energy per molecule. This increase in energy is due to the increased motion of the molecules which causes them to collide with each other more often, resulting in the release of energy. This energy is then available to do work, such as driving chemical reactions.

The average energy per molecule is also proportional to the number of molecules in the system. As the number of molecules increases, the average energy per molecule increases. This is because the total energy of the system is proportional to the number of molecules, and the average energy per molecule is simply the total energy of the system divided by the number of molecules.

In summary, the average energy per molecule is proportional to the temperature and number of molecules in the system. As the temperature and number of molecules increase, the average energy per molecule will also increase.