German and lola
When water vapor touches a mirror, it condenses into liquid water due to the temperature difference between the vapor and the mirror surface. This condensation creates a thin film of water droplets on the mirror's surface, causing it to appear foggy or misty.
When you take a hot shower, the warm, moist air can cause condensation to form on the mirror. The steam from the hot water hits the cooler glass surface of the mirror, causing the water vapor in the air to cool and change back into liquid droplets, creating a foggy or misty effect on the mirror.
When steam condenses onto a cold mirror, the water vapor in the steam loses energy to the cold surface of the mirror. This causes the water vapor to change phase from gas to liquid, forming water droplets on the mirror's surface.
When a mirror fogs up, it is due to water vapor in the air condensing on the cooler surface of the mirror. The water vapor forms tiny droplets that scatter light, causing the mirror to appear cloudy or hazy.
When you blow on a mirror, the warm air from your breath can cause the mirror to fog up temporarily due to condensation. This happens because the warm air contains water vapor, and when it hits the cold surface of the mirror, it cools and turns into water droplets on the mirror's surface.
it comes out March 30th
7th of april
June 26 ,2012
Snow White and the seven dwarfs
It's called condensation, steam from the hot water in the bath turns back to water when it touches the mirror covering the mirror in a thin layer of water.
bringing face very close to mirror water will forms on the mirror why give scientific reason ?
When water vapor touches a mirror, it condenses into liquid water due to the temperature difference between the vapor and the mirror surface. This condensation creates a thin film of water droplets on the mirror's surface, causing it to appear foggy or misty.
According to Amazon, it will be released June 26, 2012
When you breathe out on a mirror, the warm water vapor in your breath comes into contact with the cool surface of the mirror. This temperature difference causes the water vapor to condense into tiny water droplets, creating the foggy effect on the mirror.
When the warm water vapor in the air comes into contact with the cool surface of the mirror, it loses heat energy. As a result, the water vapor cools down and changes from a gas to a liquid, forming tiny water droplets on the mirror. This process is called condensation.
In 2004.
When steam (water vapor) comes in contact with a cold mirror, it loses heat energy to the mirror. As a result, the water vapor particles slow down and come closer together, transitioning into liquid water droplets. This process is called condensation, where the gas phase (water vapor) turns into the liquid phase (water droplets) due to the loss of thermal energy.