i need help
In order for clouds to form, water vapor needs a surface to condense upon. This can be provided by tiny dust particles, salt particles, or other aerosols present in the atmosphere. These particles serve as nuclei around which water vapor can condense to form cloud droplets.
Water in the atmosphere exists in a gaseous state, known as water vapor. Depending on temperature and pressure, water vapor can condense to form liquid droplets (clouds) or solid ice crystals (snowflakes, hail) in the atmosphere.
Water moves from the Biosphere to the Atmosphere through the process of transpiration, where plants release water vapor through their leaves. This water vapor then enters the atmosphere where it can condense and form clouds, leading to precipitation. Additionally, water can also evaporate from oceans, rivers, and lakes into the atmosphere.
Entrapped water on land moves into the atmosphere through the process of evaporation. The heat from the sun causes the water to turn into vapor, which rises into the atmosphere. This water vapor can then condense to form clouds and eventually fall back to the land as precipitation.
Water vapor in the atmosphere plays a crucial role in the Earth's climate system. It acts as a greenhouse gas, trapping heat and contributing to the warming of the planet. Additionally, water vapor is a key component of the water cycle, as it can condense into clouds and eventually fall as precipitation.
In order for clouds to form, water vapor needs a surface to condense upon. This can be provided by tiny dust particles, salt particles, or other aerosols present in the atmosphere. These particles serve as nuclei around which water vapor can condense to form cloud droplets.
Particles are needed because then the water vapor can condense on them
water vapor in the atmosphere condense and falls to earth surface as rain or snow
Water in the atmosphere exists in a gaseous state, known as water vapor. Depending on temperature and pressure, water vapor can condense to form liquid droplets (clouds) or solid ice crystals (snowflakes, hail) in the atmosphere.
Water moves from the Biosphere to the Atmosphere through the process of transpiration, where plants release water vapor through their leaves. This water vapor then enters the atmosphere where it can condense and form clouds, leading to precipitation. Additionally, water can also evaporate from oceans, rivers, and lakes into the atmosphere.
Entrapped water on land moves into the atmosphere through the process of evaporation. The heat from the sun causes the water to turn into vapor, which rises into the atmosphere. This water vapor can then condense to form clouds and eventually fall back to the land as precipitation.
Water vapor in the atmosphere plays a crucial role in the Earth's climate system. It acts as a greenhouse gas, trapping heat and contributing to the warming of the planet. Additionally, water vapor is a key component of the water cycle, as it can condense into clouds and eventually fall as precipitation.
saturn has water vapor in its atmosphere so i guess if the water would condense yes,but not drinkable to to the amonia methane and other non-breathable gasses in its atmosphere
Water condenses in the atmosphere when warm air rises and cools, causing the water vapor in the air to change into liquid droplets. This process is known as condensation.
Water vapor from the atmosphere condenses to form clouds. When the air cools, it can no longer hold all the moisture it contains, causing the water vapor to condense into tiny water droplets or ice crystals, which then come together to form clouds.
When the sun heats the Earth's water, it evaporates and turns into water vapor. Water vapor rises into the atmosphere where it can eventually condense to form clouds and then fall back to Earth as precipitation. This process is known as the water cycle.
The gaseous state of water, i.e., water vapor condense in atmosphere to form clouds. The amount of water vapor in air is known as humidity. It describes the weather.