These molecules gain sufficient energy to escape into atmosphere.
Only rare molecules of sugar can be trained in the atmosphere by water molecules.
Heat
Yes, it is true.
This water remain as a gas.
Kerosene will evaporate before water, given equal volumes and similar environmental conditions. The reason: water has considerable surface tension, brought about by hydrogen bonding between its very polar molecules. Kerosene is a hydrocarbon, and is non-polar, which means its molecules do not have a positive or a negative end. Water's surface tension resists evaporation. Kerosene's lack of surface tension (because of its non-polarity) makes it evaporate more quickly.
The temperature increase and the motion of molecules is accelerated.
Only rare molecules of sugar can be trained in the atmosphere by water molecules.
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.
Water has to reach its boiling point and absorb enough energy to break the hydrogen bonds between its molecules. This causes the water molecules to gain enough kinetic energy to overcome the cohesive forces holding them together and escape into the atmosphere as water vapor.
When heat is added to the water, the molecules move faster. When the water reaches the boiling point (100 Degree Celsius), the water molecules at the surface of the water would break apart with the other molecules and escape (evaporate). When they evaporate, the water molecules changes state and becomes water vapour.
The water molecules evaporate to the air.
Heat
Hot water will evaporate first because the higher temperature causes the water molecules to move faster, increasing the rate of evaporation. Cold water has slower-moving molecules, resulting in a slower rate of evaporation.
Yes, because when salt is put into water, they can also act like magnets. Attaching to opposite particles. The salt molecules also push down the water molecules so the water molecules have to get enough power to evaporate. Which makes plain water evaporate faster.
It will evaporate
This is the continuous movement of water molecules.
Water must absorb enough heat energy to break the hydrogen bonds holding the water molecules together. This causes the water molecules to overcome intermolecular forces and enter the gaseous state, thus evaporating.