When gases lose heat they condensate into liquids.
When gases lose heat, they cool down and their particles slow down, eventually losing enough energy to change into liquid form through a process called condensation. This transition occurs when the temperature of the gas decreases to its condensation point, causing the gas molecules to come closer together and form a liquid.
If there were no greenhouse gases in the atmosphere, the Earth's temperature would be much colder than it is now. Greenhouse gases trap heat from the sun, so without them, the Earth would lose more heat and the average temperature would be significantly lower.
Solids ---heat---> Liquids ---more heat---> gases
They are generally called Greenhouses gases, as greenhouses trap heat into the glass.
The name given to gases that trap heat and cause global warming is Greenhouse gases.
They usually lose heat by panting.
When gases lose heat, they usually contract and their molecules move slower, which may lead to condensation if the temperature drops below the gas's dew point temperature. However, this does not always result in the gas fully condensing into a liquid; it depends on factors such as pressure and the specific gas involved.
When gases lose heat, they typically undergo a process called cooling, which can lead to a decrease in temperature and a reduction in their kinetic energy. As a result, the gas molecules move more slowly and may condense into a liquid if the temperature drops sufficiently, transitioning to a different state of matter. This phenomenon is commonly observed in processes like condensation or when gases are compressed.
The atmospheric gases carbon dioxide, methane and nitrous oxide are all greenhouse gases that help to heat the Earth.
It moves mainly by radiating through gases.
Greenhouse gases are gases in the Earth's atmosphere that trap heat energy and contribute to the greenhouse effect, leading to global warming and climate change. They include carbon dioxide, methane, and water vapor.
They are massive enough to have a strong gravitional field which stops the gases escaping.