Any type of gas can do that. The only condition is that there be a sufficient amount of gas - otherwise, the gravity won't be able to overcome the pressure of the gas.
Gases with low boiling points, such as water vapor, can condense into liquid form when cooled. Additionally, gases with high vapor pressure can also condense under the right conditions.
Gases that can be changed into a liquid through compression and cooling include nitrogen, oxygen, argon, carbon dioxide, and helium. These gases have specific temperature and pressure conditions at which they condense into a liquid state.
One main reason is the gravity a dense object like a terrestial planet has. As gravity depends on the density of a object and a rocky planet has much density...our earth is the densest object in the solar system but Jupiter's gravity is more as gravity depends upon size too. The gravity holds the gases forming the atmosphere. Another reason is the core which has a magnetic effect and forms a magnetic layer which has some effect on the atmospheric gases and saves it from going away to the space by attracting the gases towards the pole where the gravity is the highest.
The individual particles attract one another. Under certain circumstances, this can overcome the gas pressure - especially when large amounts of gas are involved.
The answer is simple: gravity.
A protostar forms when gravity pulls the dust and gases in a nebula together.
By the gravity compression of interstellar gases - same as all other stars.
Gases are condensed at low temperatures.
The two gases that are most common in interstellar clouds,consist mostly of gas,especially hydrogen and helium.
No. Saturn is one of the "gas giant" planets, which means it is made up entirely of gases, some of which condense due to the planet's tremendous gravity.
Gases with low boiling points, such as water vapor, can condense into liquid form when cooled. Additionally, gases with high vapor pressure can also condense under the right conditions.
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Oxygen and Nitrogen are the two gases that do not condense when air is cooled to 200 degrees Celsius. They remain as gases at this temperature.
Incondensible gases, are gases that do not condense and do not dissolve readily in hot water. Steam ejectors are used to remove these gases from a condenser.
Stars and planets are made from gases found in nebulas, which are large clouds of gas and dust in outer space. These gases primarily consist of hydrogen and helium, with traces of other elements.Gravity plays a crucial role in the formation of stars and planets as these gases condense and come together under their own gravity to form these celestial bodies.
Gases that can be changed into a liquid through compression and cooling include nitrogen, oxygen, argon, carbon dioxide, and helium. These gases have specific temperature and pressure conditions at which they condense into a liquid state.
One main reason is the gravity a dense object like a terrestial planet has. As gravity depends on the density of a object and a rocky planet has much density...our earth is the densest object in the solar system but Jupiter's gravity is more as gravity depends upon size too. The gravity holds the gases forming the atmosphere. Another reason is the core which has a magnetic effect and forms a magnetic layer which has some effect on the atmospheric gases and saves it from going away to the space by attracting the gases towards the pole where the gravity is the highest.