Because first of all the water is heavier then the oil so the droplets sink into the oil rapidly the next thing that happens is that the water suddenly urns int team and expands ans rapidly pushes the oil that is surrounding it away from itself.
This happens because water and oil don't mix, causing the water droplets to sink to the bottom of the pan and then rapidly boil and turn into steam. The sudden expansion of the water into steam creates a forceful expulsion of hot oil, which results in spluttering. This can be dangerous, so it's important to exercise caution when cooking with hot oil.
Water droplets form on the inner wall of a covered cup of hot water because the air inside the cup becomes saturated with water vapor from the evaporating hot water. When the air cools against the cooler walls of the cup, it cannot hold as much water vapor, causing the excess moisture to condense and form droplets.
When you take a hot shower, the warm air creates humidity in the bathroom. As the steam from the shower cools down upon hitting the mirror, it condenses and forms water droplets on the cooler surface of the mirror. This is why you see drops of water on the mirror after a hot shower.
When hot water is added to ice, it can create fog due to the rapid cooling of the air around it, which causes the water vapor in the air to condense into tiny droplets that appear as fog. The temperature difference between the hot water and the cold ice is what triggers this effect.
Steam is visible because it consists of tiny water droplets or ice crystals that scatter light, making it visible to our eyes. When hot water vapor cools and condenses into liquid droplets in the air, it forms the visible white cloud that we see as steam.
This happens because water and oil don't mix, causing the water droplets to sink to the bottom of the pan and then rapidly boil and turn into steam. The sudden expansion of the water into steam creates a forceful expulsion of hot oil, which results in spluttering. This can be dangerous, so it's important to exercise caution when cooking with hot oil.
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The water is too hot
the main reason is condensation of water vapour in the air to water droplets
The process of water droplets condensing on a soda can on a hot summer day is exothermic. As water vapor in the air comes into contact with the cold surface of the soda can, it releases heat energy, causing the water vapor to condense into liquid water droplets.
Yes, tiny water droplets forming at the spout of a kettle is typically due to condensation. When the hot water vapor comes into contact with the cooler spout, it cools down and condenses into the water droplets that you see.
because clouds are really small water droplets and they are always very cold and if the temperature is warm or hot it changes because the water droplets are very cold
Water droplets form on the inner wall of a covered cup of hot water because the air inside the cup becomes saturated with water vapor from the evaporating hot water. When the air cools against the cooler walls of the cup, it cannot hold as much water vapor, causing the excess moisture to condense and form droplets.
Jumping spiders wear water droplets on their bodies to help them stay hydrated and regulate their body temperature. The droplets act like a cooling system, preventing them from getting too hot in the sun.
Combustion produces water vapor as a byproduct when fuel is burned. As the hot water vapor cools down, it condenses into tiny water droplets, creating visible water droplets in the air known as condensation.
Bathroom tiles can get covered in water droplets due to condensation. When hot, steamy air comes in contact with the cooler surface of the tiles, the air cools down and its moisture condenses into water droplets on the tile surface. This is a common occurrence in bathrooms after hot showers.
When mercury is added to water, it does not dissolve or mix with water. Instead, it forms droplets due to its high surface tension and density. Mercury is insoluble in water and exists as separate droplets or beads.