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How is the size of a planet related to the thickness of it atmosphere?
Mainly, the mass of a planet doesn't matter, considering many planets are made up of gas, and how in different situations, atmospheres can be destroyed (The Sun burnt off Mercury's Atmosphere). However, in some cases, the planet can be in a good situation on the galaxic map, and have great conditions for an atmosphere, such as Earth. In which case, the mass of an object can attract a smaller object, causing gravity. Therefore, the bigger the mass of a planet when in right and specific conditions, the more atmosphere it can attract, if there is any floating by the planet. If it is bigger it will have more gravitational influence and therefore gather more gases.
How is it size of the planet related to the thickness of it atmosphere?
Mainly, the mass of a planet doesn't matter, considering many planets are made up of gas, and how in different situations, atmospheres can be destroyed (The Sun burnt off Mercury's Atmosphere). However, in some cases, the planet can be in a good situation on the galaxic map, and have great conditions for an atmosphere, such as Earth. In which case, the mass of an object can attract a smaller object, causing gravity. Therefore, the bigger the mass of a planet when in right and specific conditions, the more atmosphere it can attract, if there is any floating by the planet. If it is bigger it will have more gravitational influence and therefore gather more gases.
How is size of a planet related to the thickness of its atmosphere?
Mainly, the mass of a planet doesn't matter, considering many planets are made up of gas, and how in different situations, atmospheres can be destroyed (The Sun burnt off Mercury's Atmosphere). However, in some cases, the planet can be in a good situation on the galaxic map, and have great conditions for an atmosphere, such as Earth. In which case, the mass of an object can attract a smaller object, causing gravity. Therefore, the bigger the mass of a planet when in right and specific conditions, the more atmosphere it can attract, if there is any floating by the planet. If it is bigger it will have more gravitational influence and therefore gather more gases.
How is the size of a planets related to the thickness of its atmosphere?
Mainly, the mass of a planet doesn't matter, considering many planets are made up of gas, and how in different situations, atmospheres can be destroyed (The Sun burnt off Mercury's Atmosphere). However, in some cases, the planet can be in a good situation on the galaxic map, and have great conditions for an atmosphere, such as Earth. In which case, the mass of an object can attract a smaller object, causing gravity. Therefore, the bigger the mass of a planet when in right and specific conditions, the more atmosphere it can attract, if there is any floating by the planet. If it is bigger it will have more gravitational influence and therefore gather more gases.
How is the thickness of a planets atmosphere related to its size?
Mainly, the mass of a planet doesn't matter, considering many planets are made up of gas, and how in different situations, atmospheres can be destroyed (The Sun burnt off Mercury's Atmosphere). However, in some cases, the planet can be in a good situation on the galaxic map, and have great conditions for an atmosphere, such as Earth. In which case, the mass of an object can attract a smaller object, causing gravity. Therefore, the bigger the mass of a planet when in right and specific conditions, the more atmosphere it can attract, if there is any floating by the planet. If it is bigger it will have more gravitational influence and therefore gather more gases.
How is the size of a planet related to the thickness of its atmosphere?
Mainly, the mass of a planet doesn't matter, considering many planets are made up of gas, and how in different situations, atmospheres can be destroyed (The Sun burnt off Mercury's Atmosphere). However, in some cases, the planet can be in a good situation on the galaxic map, and have great conditions for an atmosphere, such as Earth. In which case, the mass of an object can attract a smaller object, causing gravity. Therefore, the bigger the mass of a planet when in right and specific conditions, the more atmosphere it can attract, if there is any floating by the planet. If it is bigger it will have more gravitational influence and therefore gather more gases.
For planets of similar size but with one planet more massive than the other which planet is more likely to maintain an atmosphere explain?
The more massive planet is more likely to maintain its atmosphere because its stronger gravity can hold onto the gases in its atmosphere better. The gravitational pull of the heavier planet can prevent gases from escaping into space, resulting in a more stable atmosphere compared to the lighter planet.
What property controls the type and amount of atmosphere a planet has?
gravity controls the amount of atmosphere that a planet has because the more gravity that a planet has, the more atmosphere it can hold in. God controlled the type of atmosphere a planet had at the start, but since then, the chemical reactions on its surface, volcanic activity, and similar things have changed it slightly.
How is earth and Jupiter not alike?
Jupiter is bigger so it has a bigger gravitational force, Jupiter is away from the sun more, it is a gas giant. most asteroids hit Jupiter saving our planet, and Jupiter doesn't have a atmosphere like we do.
How is the size of planet related to thickness of its atmosphere?
There is no simple relationship, but the general tendency is that more massive planets have more gravitational attraction, and are able to maintain a denser atmosphere. The amount of atmosphere a planet has may also depend on it closeness to the Sun / to the planet's star, and to its evolutionary history.
How is the size of the planet related to its thickness atmosphere?
There is no simple relationship, but the general tendency is that more massive planets have more gravitational attraction, and are able to maintain a denser atmosphere. The amount of atmosphere a planet has may also depend on it closeness to the Sun / to the planet's star, and to its evolutionary history.
Is a planet with stronger gravity more or less likely to have an atmosphere?
More likely.
