Well 1 kg of water is 1 liter, so 334 kJ/kg would become 334,000 kJ/m3
Condensation releases energy rather than absorbing it, this is the latent heat of the change of state from liquid to gas and vice versa
Condensation releases energy rather than absorbing it, this is the latent heat of the change of state from liquid to gas and vice versa
When water vapor condenses back to liquid water, it lets go of internal structural energy in order to revert back to liquid state. THe energy released is Lantent heat of condensation.
Latent heat of vapourisation can be define as the rate by which water is heat to vapourise, it has a difference with evaporation because evaporation occurs directly when the water start heatin while vapourisation always start in a specific temperature
No, latent heat can never be zero.Because latent heat is the hidden heat so there has to be heat more than zero.
The latent heat of condensation.
1. Process that release "Latent Heat" : a. Freezing, b. Condensation, - (Greatest amount of released Latent Heat.) c. Deposition. 2. Process that absorbs "Latent Heat" : a. Melting, b. Evaporation, - (Greatest amount of absorbed Latent Heat.) c. sublimation.
Latent heat of condensation.
Because as things condense they give up their latent heat.
The theory of manifest and latent content of dreams originated with Freud.
Condensation releases energy rather than absorbing it, this is the latent heat of the change of state from liquid to gas and vice versa
condensation
Condensation releases energy rather than absorbing it, this is the latent heat of the change of state from liquid to gas and vice versa
L can either mean the latent heat of vaporization or condensation. The latent heat of vaporization is the energy required to completely turn 1 kilogram of a liquid into a gas at its boiling point. The latent heat of condensation is the energy required to completely turn 1 kilogram of a solid into a liquid at its melting point.
At saturation, latent heat of condensation is released into the air.
Sort of. Actually it is the condensation of water vapor into liquid water (a drop of rain or a particle of cloud mist) that releases the latent heat (into the surrounding air). So strictly clouds and rain do not release latent heat.
A condensation pump carries away water produced from latent water vapor in air conditioners, refrigeration units, steam systems and other HVAC operations.