Yes it can. Prove this to yourself by filling glass with ice and water. Water from the air condenses on the outside. Empty the glass and put it back down without wiping the outside (drops still in place) As the glass returns to room temperature the condensed water evaporates back into the air. Evaporation is the opposite of condensation.
Reversible.
non --- Evaporation is reversible by condensation, lowering the temperature.
Yes condensation is reversible with the help of evaporation...Condensation is when water vapors are collected, they turn into water again!! And the best way to change water's form is condensation...
Yes, condensation and evaporation are reversible processes. Condensation is the transition of a substance from gas to liquid, while evaporation is the transition from liquid to gas. Both processes can occur depending on changes in temperature and pressure.
Evaporation and condensation are reversible reactions. They occur in water cycle.
The change of water to water vapor is reversible, as water vapor can condense back into liquid water through a process called condensation. This cycle of evaporation and condensation is part of the water cycle.
Yes it is reversible and the process is called condensation!
Yes, both condensation and evaporation are reversible changes. Condensation occurs when gas turns into liquid, while evaporation is the process of liquid turning into gas. These changes can be reversed by applying the appropriate conditions.
Not chemical reactions, but change of phases
Yes, evaporation is the changing of matter from a liquid to a gas. You can reverse this process through condensation which is the change from a gas to a liquid.
Yes, because it can be reversed by condensation. Physical change = Reversible Chemical change = Irreversible
Yes, the process of a puddle evaporating is reversible. When water evaporates from a puddle, it turns into water vapor, which can later condense back into liquid form through a process called condensation when the conditions are right, such as cooling temperatures.