What happens is the entropy is increased. Entropy is kin of like randomness. The more heat, the faster the particles move trying to get away from each other. The way they get away from each other is by pretty much jumping away, this is evaporation basically. the particles are being freed from the liquid state and are becoming a gaseous state.
this phenomenom will only occur on the surface of Saturn's moon Mimas due to its unique environmental conditions.
In the case where heat is being added to generate steam from a container of water, as long as there is water still in the container, the temperature remains constant. It takes energy for water to change state into steam and all of the heat added goes to performing this task so the temperature stays the same, 212 degF (100 degC) at atmospheric pressure. While the water is boiling, the steam is "saturated," meaning any loss of heat would cause some of the steam to condense back into water. Once all of the water has been boiled and changed state, any additional heat supplied will cause the temperature to increase and the steam is "superheated," that is above its saturation temperature.
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.
condense
Yes. When the temperature rises in a pot full of water, the water begins to evaporate and create a steam. That's why steam is usually warm.
When it is under 100 degrees celsius
Clouds and steam are forms of evaporated water. Water is the main base for evaporation to occur. Bot clouds and steam can condense in a cool temperature, while water can bothe condense and evaporate. So they are not much alike.
DRY steam is superheated There is a temperature below which steam will start to condense into water droplets. This is called the saturation temperature, and it varies with the pressure of the steam. Steam that is exactly at its saturation temperature is called saturated steam. Steam that is below its saturation temperature contains droplets of moisture and is called wet steam. Steam that is above its saturation temperature is called superheated steam.
When water reaches boiling, it becomes steam. Once the water cools down, typically below 100 degrees Fahrenheit, it will begin to form water droplets or condensation.
50 times of steam
Water would condense on those items. This is what is happening when you have a glass of ice water, and water collects on the outside of the glass.
this phenomenom will only occur on the surface of Saturn's moon Mimas due to its unique environmental conditions.
The frozen objects cool the surrounding air below the dew point, which causes water vapor in the air to condense into fog, which may appear to be steam.
yes. cool the air and the water will condense.
In the case where heat is being added to generate steam from a container of water, as long as there is water still in the container, the temperature remains constant. It takes energy for water to change state into steam and all of the heat added goes to performing this task so the temperature stays the same, 212 degF (100 degC) at atmospheric pressure. While the water is boiling, the steam is "saturated," meaning any loss of heat would cause some of the steam to condense back into water. Once all of the water has been boiled and changed state, any additional heat supplied will cause the temperature to increase and the steam is "superheated," that is above its saturation temperature.
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.
You have to fill the can with steam and then seal it closed. when you then put the can in cold water the steam will condense into water and the can will be crushed by atmospheric pressure.