yes when water vapor is cooled its molecules lose energy and come closer together therefore changing state into liquid. on a microscale this is what happens in the atmosphere to create fog. to have clouds we need something called a condensation nuclei which a small surface of which the water can condense on. because these are very small they are easily manipulated by air currents so a simple updraft is enough to suspend a giant cloud in the air because it has a very large surface area.
clonds form
It cooled.
Cooler. The cloud forms because the water vapor condenses by cooling down. Thunderstorms occur because a warm, moist air mass is cooled by an incoming cold air mass. When the moist air gets chilled, the water vapor condenses to form clouds, resulting in rain.
If water is heated enough to start bubbling, water vapor is formed.
condensation of water vapor. Rain starts as water vapor that has evaporated from the surface of the Earth. At higher altitudes the vapor condenses to form the cloud. An additional change in temperature or pressure causes the vapor to condense and fall as a droplet of water or rain. A simple experiment: With proper supervision bring a pan of water to boil on the stove. (Boiling is rapid evaporation.) Hold a glass of ice water well above the pan. (not too close or the steam can hurt) "Rain" should start forming on the glass.
condenses
because water in the atmosphere is in a form of vapor
The water vapor turns into liquid water.
clonds form
The answer to this question is precaution!
when water vapour is cooled it condenses and falls as rain
When water vapor is cooled it turns into liquid.
It cooled.
fog
When steam is cooled in the air it creates water vapor. This water vapor comes together to create clouds and fog.
To become precipitation, water vapor condenses on little bits of dust. Some of these little bits of water on dust bump each other and join. Pretty soon there is a big enough water droplet to fall to Earth as rain.
Condensation.Related Information:For water vapor to become liquid water, it must loose energy, molecule by molecule. Often this occurs when water vapor contacts a cooler surface. In the atmosphere, water vapor condenses onto a small, cooler particle to form a very small droplet of liquid water, or condenses onto an existing droplet of water making it larger.