When the cold drink is poured into the glass, the air around it cools down quickly. This causes the water vapor in the air to condense on the colder surface of the glass, leading to the formation of droplets. The droplets are essentially water from the air that has condensed on the chilled surface of the glass.
This is the molecule of water - H2O.
water is a polar molecule (meaning that it has a positive and negative charge.) In otherwords, they stick to eachother. much like how you can hold a magnet up by holding it with another magnet.
A rock tumbler is a device to brake down large boulders into smaller gravel. It is a drum that rotates and often has divets or bumps to smash the larger rocks.
A condensing tumbler dryer works by circulating hot air through the clothes to evaporate moisture. The moist air is then cooled down, causing the moisture to condense into water, which is collected in a separate container or drained out. The dry air is reheated and circulated back through the drum to continue the drying process.
When the cold drink is poured into the glass, the air around it cools down quickly. This causes the water vapor in the air to condense on the colder surface of the glass, leading to the formation of droplets. The droplets are essentially water from the air that has condensed on the chilled surface of the glass.
when a man push the tumbler up side down than the air is blocked inside it and than the air preasure becomes so high in the tumbler and then the air preasure of outside is lower than the inside and than theair preasure inside the tumbler push the tumbler up.
This is because the air around the tumbler contains water vapour in it. When these water vapour came in contact with the cold, they contact with cold water, loses energy and converted into liquid state, which we see as water droplets.
freez the water. after freezing it will be ice then you can turn a glass of water upside down without spilling the water.
If the glass has a hole in the bottom and you submerge it upside down in water, the water would enter the glass through the hole until the air pressure inside and outside the glass equalize. Once this happens, the water would stay at a level inside the glass equal to the height of the water outside the glass.
One way to turn a glass full of water upside down without spilling it is to place a piece of cardboard or a small plate over the mouth of the glass, then flip the glass upside down while holding the plate/cardboard in place. Once the glass is upside down, carefully remove the plate/cardboard to reveal the water remaining in the glass.
When a glass of water is turned upside down, the water does not fall out due to the presence of air pressure pushing against the water, creating a vacuum inside the glass. This vacuum holds the water in place, creating a seal that prevents the water from spilling out.
This because air is present inside the empty glass which does not let the water to enter theglass . Air also offers a force which is opposite the force of water and does not let the water to enter the glass.
The air pressure acting on the water surface prevents it from entering the glass. The pressure of the water pushing against the glass is not enough to overcome the air pressure inside the glass, which keeps the water out.
This is an example of heat transfer from the warm water to the cold glass. The glass absorbs the thermal energy from the water, causing the water to cool down.
When you dip a glass upside down in a pail filled with water, the air trapped inside the glass creates an air pocket at the top of the glass, preventing water from entering. This is because the pressure of the air inside the glass is greater than the pressure of the water outside. The glass will remain filled with air and no water will enter.
This is the molecule of water - H2O.