When boiling water is thrown into cold air, it quickly evaporates and turns into water vapor. This happens because the cold air causes the hot water to cool rapidly, leading to a phase change from liquid to gas.
When hot water is thrown into cold air, the water quickly evaporates and turns into steam. This happens because the cold air causes the hot water to rapidly cool down, leading to a phase change from liquid to gas.
When hot water is thrown into the air on a cold day, the water quickly evaporates due to the temperature difference. The water vapor condenses into tiny water droplets or ice crystals, forming a cloud. This happens because the cold air saturates quickly with the water vapor, creating a visible cloud.
Boiling water turns to vapor in the cold because the temperature difference between the hot water and the cold air causes the water to evaporate and turn into vapor.
No, boiling water cannot freeze in the air. Boiling water needs to cool down before it can freeze, and the air is not cold enough to freeze boiling water instantly.
Actually it's not weight we are dealing with here, it is actually density. So what happens is when temperature increases, the density decreases and volume increases or vice versa if the temperature decreases, the density increases and the volume decreases.
When hot water is thrown into cold air, the water quickly evaporates and turns into steam. This happens because the cold air causes the hot water to rapidly cool down, leading to a phase change from liquid to gas.
I recommend putting hot water in your kettle and timing it getting to the boil, and repeating with the same volume of cold water. Then have a think about why this happens.
Boiling takes place and it leads to the movement of hot water upwards and the movement of cold water downwards.
When hot water is thrown into the air on a cold day, the water quickly evaporates due to the temperature difference. The water vapor condenses into tiny water droplets or ice crystals, forming a cloud. This happens because the cold air saturates quickly with the water vapor, creating a visible cloud.
Boiling water turns to vapor in the cold because the temperature difference between the hot water and the cold air causes the water to evaporate and turn into vapor.
When a cold spoon is placed near the vapor of boiling water, the water vapor cools down and condenses into water droplets on the surface of the spoon. This happens because the cold temperature of the spoon causes the water vapor to lose energy and transform back into liquid form.
Sodium chloride is also soluble in boiling water.
They are the same. When cold water heats up and bubbles that means it is boiling.
No, boiling water cannot freeze in the air. Boiling water needs to cool down before it can freeze, and the air is not cold enough to freeze boiling water instantly.
Actually it's not weight we are dealing with here, it is actually density. So what happens is when temperature increases, the density decreases and volume increases or vice versa if the temperature decreases, the density increases and the volume decreases.
It requires water and oxygen. Cold, lukewarm, or boiling water will do it. Boiling can introduce some other types of errosion/corrosion, also.
Starch cannot dissolve in cold water, however boiling water has sufficient enough energy to dissolve starch.