One method to liquify atmospheric gases is through a process called cryogenic liquefaction. This involves lowering the temperature of the gases to below their critical temperature, causing them to condense into liquid form. This process is commonly used in industry to produce liquid oxygen, nitrogen, and other gases.
It depends on the specific method you are referring to. Some methods can be used for gases, while others are designed for liquids or solids. It's important to check the applicability of the method to gases before use.
Oxygen makes up about 21% of the Earth's atmosphere.
Some common gases that contain oxygen include carbon dioxide (CO2), ozone (O3), and nitrogen dioxide (NO2). These gases contain oxygen in various chemical compositions and play important roles in atmospheric processes.
The method used to separate noble gases from air is fractional distillation. Air is cooled to very low temperatures to turn it into a liquid, and then the different components of air, including noble gases, are separated based on their boiling points.
Gases disperse into the atmosphere and mix with the surrounding air. Depending on their density and temperature, they can rise upwards or remain closer to the ground. Ultimately, gases can be transported by wind and atmospheric movement to different locations on Earth.
evaporation and condensation or just condensation
Pressurised gases will eventually liquify.
The atmospheric gases carbon dioxide, methane and nitrous oxide are all greenhouse gases that help to heat the Earth.
The glass on the greenhouse stops temperature from leaving or entering like the gases do to the earth.The atmospheric gases are called 'greenhouse gases' based on the idea that the gases 'trap' heat like the walls of a greenhouse do
it is hydrogen
Hydrogen, Helium
A. Troposphere. The troposphere is the lowest atmospheric layer where greenhouse gases are found.
i have no clue
The troposphere.
Hydrogen,and Helium
Yes
The exosphere is the atmospheric layer that contains the fewest gases. It is the outermost layer of Earth's atmosphere and consists of very low densities of hydrogen and helium, along with traces of other gases.