Yes, it is true.
These molecules gain sufficient energy to escape into atmosphere.
When water evaporates, the energy used to evaporate it is converted into the kinetic energy of the water molecules as they transition from liquid to gas. This energy comes from the heat in the environment, causing the water molecules to gain enough energy to escape into the air as vapor.
Yes, water molecules with the highest energy are more likely to evaporate first compared to lower-energy molecules. This is because they have enough energy to overcome the attractive forces holding them in the liquid state and transition to the gaseous state.
The energy that causes water to evaporate comes from the sun. Solar radiation heats up the water molecules, increasing their kinetic energy and allowing them to break free from the liquid surface and become water vapor.
In order to evaporate, water needs energy in the form of heat to break its intermolecular bonds and transition from a liquid to a gas. This process occurs when water absorbs enough thermal energy from its surroundings to overcome the forces that hold its molecules together.
The kinetic energy of water molecules at the surface is higher.
These energy sources are the movement of water molecules and the temperature.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; but a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase.
At higher temperatures waer molecules at the surface of the liquid have more energy and is more simple to escape into atmosphere.
At higher temperature the continuous movement of water molecules is accelerated.
Water molecules can evaporate from the surface of water, where they gain enough energy to overcome surface tension and escape into the air. Below the surface, water molecules can also evaporate through a process known as sublimation, where molecules transition directly from a solid to a gas, although this is less common.
These molecules gain sufficient energy to escape into atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
When water evaporates, the energy used to evaporate it is converted into the kinetic energy of the water molecules as they transition from liquid to gas. This energy comes from the heat in the environment, causing the water molecules to gain enough energy to escape into the air as vapor.