Water molecules in an energised form.
At 0°C, 1 cm³ of water vapor would contain approximately 4.8 mg of water.
When water boils, bubbles form due to the release of water vapor from the liquid. These bubbles contain water vapor, not air. The water itself does not disappear; it is transformed into water vapor, which you see as bubbles.
No, snow does not contain nitrogen. Snow is made up of frozen water vapor and does not typically contain nitrogen.
Yes, rain can contain acid due to pollutants in the atmosphere mixing with water vapor to form acidic rain.
Water molecules are the smallest units of water that contain two hydrogen atoms and one oxygen atom. Water vapor is the gaseous state of water when it evaporates at temperatures above its boiling point. Water molecules can exist as either liquid water or water vapor depending on the temperature and pressure conditions.
Rivers contain the most WATER.... The water vapor, however, covering a lot of the atmosphere, contain the most H20-molekyls .
No, water vapor does not contain salt. Water vapor is the gaseous form of water, and it is typically pure H₂O. While seawater contains salt, when it evaporates, the salt is left behind, and only the water vapor escapes into the atmosphere. Thus, any water vapor produced from evaporation is salt-free.
At 0°C, 1 cm³ of water vapor would contain approximately 4.8 mg of water.
These bubbles contain air.
yes. very high amount of water vapor.
Hurricanes don't contain elements - only water and water vapor.
When water boils, bubbles form due to the release of water vapor from the liquid. These bubbles contain water vapor, not air. The water itself does not disappear; it is transformed into water vapor, which you see as bubbles.
No, snow does not contain nitrogen. Snow is made up of frozen water vapor and does not typically contain nitrogen.
The characteristic that allows the troposphere to contain a significant amount of water vapour is its ability to hold moisture through temperature regulation. The warmer the air, the more water vapor it can hold. This is because warm air has a higher capacity to hold water vapor compared to cold air.
The air above the sea typically contains a lot of water vapor due to evaporation from the water surface. The amount of water vapor in the air can vary depending on factors such as temperature, humidity, and wind speed.
Air would contain more water vapor in Panama than in Antarctica. Panama has a tropical climate with warm temperatures and high humidity, leading to more water vapor in the air. In contrast, Antarctica is a polar desert with extremely low temperatures and very little moisture in the air.
Water vapor is composed of individual water molecules in a gaseous state. These water molecules contain two hydrogen atoms and one oxygen atom bonded together. When water evaporates, it transitions from a liquid to a gas and becomes water vapor.