The temperature at which the rate of evaporation equals the rate of condensation is known as the equilibrium vapor pressure. At this temperature, the vapor pressure of a liquid is equal to the external pressure, leading to a dynamic equilibrium between the liquid and vapor phases.
When the rate of condensation of the gas becomes equal to the rate of evaporation of the liquid or solid, they are said to be in an equilibrium state. The amount of gas, liquid or solid no longer changes in this state.
Evaporation and Condensation are based upon the energy in the water molecules. If the water temperature (vapor) is above the surface temperature, it will evaporate. If the water temperature (vapor) is below the surface temperature it will condense. Evaporation and condensation are happening at the same time. We add the term "Net" at the beginning to show which is happening at a greater rate. The temperature at which there is net condensation is referred to as dew point.
As temperature rises, the rate of water evaporation increases.
The liquid will eventually evaporate fully and disappear.
The rate of condensation is determined by factors such as temperature, humidity, and surface area. Higher temperature and higher humidity levels generally increase the rate of condensation. A larger surface area for condensation to occur on also tends to speed up the process.
This is called an equilibrium.
condensation follows evaporation and involves clouds holding water until it is ready to rain. Temperature could speed the rate of evaporation and therefore increase the speed of condensation.
When the evaporation rate equals the condensation rate, the space above the liquid is in a state of dynamic equilibrium, where molecules are constantly transitioning between the liquid and gas phases but there is no overall change in concentration.
When the rate of condensation of the gas becomes equal to the rate of evaporation of the liquid or solid, they are said to be in an equilibrium state. The amount of gas, liquid or solid no longer changes in this state.
In a system at constant vapor pressure, a dynamic equilibrium exists between the vapor and the liquid. The system is in equilibrium because the rate of evaporation of liquid equals the rate of condensation of vapor. -KarkatHorns
the rate of evaporation will be equal to the rate of condensation
Evaporation, at a rate proportional to heat input and temperature specific to the fluid to a maximum set by the pressure.
The higher the temperature, the higher the rate of evaporation. It is
Evaporation and Condensation are based upon the energy in the water molecules. If the water temperature (vapor) is above the surface temperature, it will evaporate. If the water temperature (vapor) is below the surface temperature it will condense. Evaporation and condensation are happening at the same time. We add the term "Net" at the beginning to show which is happening at a greater rate. The temperature at which there is net condensation is referred to as dew point.
Evaporating and condensing
When a liquid and a gas are in equilibrium, the rate of evaporation of the liquid equals the rate of condensation of the gas. This means that the vapor pressure of the liquid remains constant over time. Additionally, the temperature of the system remains stable, and both phases coexist under specific conditions of temperature and pressure.
as the temperature increases, the rate of evaporation increases