Evaporation is a cooling process. What cools and what warms?

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SUMMARY

Evaporation is definitively a cooling process where high-energy water molecules escape from the liquid phase to the gas phase, resulting in a decrease in the average kinetic energy of the remaining liquid, thus cooling it down. Conversely, condensation is a warming process where vapor molecules lose energy upon condensing, transferring heat to the surface they condense upon. The discussion illustrates the relationship between molecular energy and temperature, emphasizing that the average kinetic energy of water molecules dictates the temperature of the water.

PREREQUISITES
  • Understanding of kinetic energy and temperature relationships
  • Basic knowledge of phase changes: evaporation and condensation
  • Familiarity with molecular behavior in liquids and gases
  • Concept of energy transfer during phase transitions
NEXT STEPS
  • Research the thermodynamics of phase changes in water
  • Explore the role of atmospheric pressure in evaporation rates
  • Learn about the impact of temperature on molecular kinetic energy
  • Investigate applications of evaporation and condensation in climate science
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Students of physics, environmental scientists, and anyone interested in the principles of thermodynamics and phase transitions in water.

Gc2012
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Evaporation is a cooling process. What cools and what warms? Also, condensation is a war,ng process. What cools and what warms?

I understand that during evaporation the water molecules of water slow down therefore cooling down. But does this mean that the air warms up? The opposite goes for condensation, the object upon which the vapor condenses is warmed. So whatt's cooled? The air vapors?

Thanks.
 
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Evaporation means that molecules of the liquid leave the liquid phase and become part of the gas phase above the liquid. Only those molecules can escape from the liquid which have enough energy. You know that the temperature of the substance is proportional to the average KE of its molecules. Loosing molecules with high energy would decrease the average energy of the remaining molecules, so the liquid losses heat when evaporating. The energy of the escaped molecules is transferred as heat to the gas phase above the liquid. ehild
 


Gc2012 said:
Evaporation is a cooling process. What cools and what warms? Also, condensation is a war,ng process. What cools and what warms?

I understand that during evaporation the water molecules of water slow down therefore cooling down. But does this mean that the air warms up? The opposite goes for condensation, the object upon which the vapor condenses is warmed. So whatt's cooled? The air vapors?

Thanks.

The temperature of water is a measure of the average kinetic energy of the particles.
In any sample of water, some molecules will have above average energy, others below average.
If a water molecule is lucky to have enough energy, it can exist as a gas molecule, rather than just part of the liquid. If it happens to be near the surface, it may even escape the liquid. If there is a breeze blowing, it may get swept away, while still a gas molecule, and thus not return, with its energy, to the body of liquid.

Note that this means one of the more energetic molecules in the original sample has left with its energy, meaning the average energy of the molecules left behind is lower - the water is cooler [remember temperature is a measure of the average KE of the particles.

Imagine doing this with money in a group of people. The average wealth of a group of 20 people is $1000. People exchange amounts of money between them selves - but the average wealth remains the same. Suddenly, one person notices that they are currently holding $5000, so decides to leave the group and take that money with them.
The remaining 19 people now have a collective wealth of $15000, so an average wealth of of just under $790. The average wealth of the group reduced when one member of the group evaporated.

We could cover condensation in the same way.
The average energy of the water molecules is sufficient for them to be a gas. Some have high energy, some have low energy, but the average is what ever it is.

At some time, there may be a group of atoms which individually only have sufficient energy to be a liquid, so they fall to the bottom of the container as a water droplet. The average energyof the remaining water molecules in the gas is now higher ... ... etc.
 


It all makes perfect sense now.

This is the first time I post anything on any forum (I know weird), but the replies you gave were great! Thank you again.
 

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