It varies for the condensing vapor and humidity. Condensation occurs when a vapor is cooled to its dewpoint. See "dew point" for more information. It is not necessarily a difference in temperature, since it changes based on humidity and air temperature.
no, because condensation is loss of thermal energy from a hot body , only temperature difference should maintain
Condensation occurs when the air is cooled to its dew point temperature, which is the temperature at which the air becomes saturated with water vapor and can no longer hold it. This temperature varies depending on the humidity levels and amount of water vapor present in the air.
Condensation appears on the outside of a beaker when the temperature of the surrounding air is lower than the temperature of the contents inside the beaker. This temperature difference causes the moisture in the air to condense on the colder surface of the beaker, forming water droplets.
The temperature at which condensation begins is called the dew point temperature. This is the temperature at which the air is saturated with water vapor and condensation starts to form on surfaces.
The water from an air conditioner you are referring to is known as condensation. This occurs when there is a difference in temperature between an object and the temperature of the air.
Condensation takes place at any temperature. Condensation takes place at any temperature.
the only difference there is that the soft drink condensation has a few additives in it. other than that there is no difference.
Temperature
To prevent or address furnace condensation issues in your home, you can ensure proper ventilation, maintain a consistent temperature in your home, and use a dehumidifier if needed. Additionally, regular maintenance of your furnace and ductwork can help prevent condensation problems.
Condensation Increases with relative HUMIDITY.
The rate of condensation depends on the temperature difference between the object being cooled and the surrounding air, the humidity of the air, and the surface area and type of the object. Higher temperature differences and higher humidity levels typically result in faster condensation.
temperature