Do gas planets become solid planets?

Gas planets may self-evolve into solid planets, and of course, they may turn back into solid rock planets, or they may become solid ice-rock hybrid planets.

A gas planet is a planet made up of hydrogen and helium, its main characteristics are low density and strong gas, there are four such gas planets in the solar system, so what will these four gas planets end up becoming, will it become a solid rock planet? First of all, some gaseous planets may be supplemented by the stars as matter and become food for the stars.

Of course, this scenario may not play out in our solar system, and it will not be possible for at least three to five billion years. The so-called solid planet generally refers to: a high-density planet composed mainly of rocks and metals, a slow-rotating planet, a solid surface, no halo, and few moons.

The so-called gaseous planets are: their planets are mainly composed of hydrogen and helium, have low density, fast rotational speed, atmosphere, halos and many moons.

Look at gas planets are mainly composed of gaseous elements, of course, gaseous elements can also exist in a liquid state, such as hydrogen. But the main volume of a gaseous planet must be gaseous. Gas planets mainly include:

All stars include the Sun and the giant planet Saturn. It's rare to hear that small gaseous planets are unstable and difficult to survive, and the most fundamental difference between gaseous matter and solid matter is when it comes to danger.

Mobility, then the result of mobility is a severe instability in the position of matter in a gaseous state, such as they have hurricane currents. Various chemical and physical reactions such as lightning storms are intense due to the fact that the temperature of complete contact is not adaptable, so it is absolutely impossible for them to land in a gaseous state, not to mention the many hazards in the air flow.

You can also try to get into the shallow atmosphere, but the deeper you go, the more danger you will be exposed to, so the atmosphere of the gaseous planets is actually much stronger than the atmosphere of the solid planets of the Earth.

It is possible to become a solid planet, because when the temperature is extremely low, the gas will condense, and the planetary material will become solid after the condensation, and the planet at this time is a solid planet.

A gas planet would not become a solid planet if the matter on the gas planet did not change radically or the distance from the star did not change dramatically.

Gas planets can evolve themselves into solid planets. A gaseous planet is a type of planet made up of hydrogen and helium that can become a solid planet by lowering the temperature and being intervened by civilization.

It is possible that this can only depend on environmental changes, such as an uninvited guest hitting a gas planet, a chemical reaction between the two sides, or a temperature change, the rotation speed of the planet, the influence of orbit, etc., to make it a liquid planet, but the probability of this situation is very low, but it is not non-existent. Or maybe it won't be until the central star changes, and these larger gas planets will be affected.

It's possible. Gas planets in the universe will not become solid planets so easily, but the impact of the environment is immeasurable and still a possibility.

If you get close enough to the star, the atmosphere will be blown away by the solar wind, leaving only a rocky core and becoming a solid planet.

Solid planets (solid planets made of stones) are: Mercury.

Venus, Earth, Mars.

Solid planets refer to a type of planet that is mainly composed of rocks and metals, with high density of early burial, slow rotation speed, solid surface, no halos, and few moons; Its counterpart is a gaseous planet.

The gaseous planet is a continental planet with a wide sky body, a low density, a fast rotational speed, an atmosphere, and a halo and many moons.

The gas planets are: Jupiter.

Saturn, Uranus, and Neptune.

Jupiter is an aero-rattan planet. Jupiter is called a gaseous planet because its surface is covered with an extremely thick gaseous substance, up to 3,000 kilometers thick, mainly hydrogen and helium. Jupiter is a celestial body with hydrogen as its main component, which is very different from our Earth and similar to the Sun.

The atmospheres of both the planetary bodies Jupiter and the Sun contain about 90 hydrogen and 10 helium, as well as very small amounts of other gases.

Beneath the atmosphere is a layer of liquid hydrogen up to 10,000 kilometers thick, followed by metallic hydrogen. Based on the mass, density, and volume calculations of Jupiter, Jupiter should have a solid nucleus, equivalent to 10-15 Earth's masses, and its composition may be rocky in nature, containing silicates and iron, among other things.

A gaseous planet is a planet formed by gas, which has no land, and the surface of the planet is full of gas in constant flow, which also causes the surface of the planet to be quite unstable. Among the eight major planets in the solar system, Mercury, Venus, Earth and Mars are all solid planets, while the next four planets Jupiter, Saturn, Uranus and Neptune are gas planets. Solid planets are all smaller in mass, while gaseous planets are larger.

Gas planets are not devoid of solid matter, but gaseous matter, which accounts for the majority of the planet's mass.

Jupiter and Saturn, for example, have rocky or metallic cores, but such cores are thought to be absorbed by the gas giants themselves, and the main masses are still hydrogen and helium. In the upper part of the planet, the main element is gas, but to the lower part of the planet, they are compressed into liquid, and then to the interior to become solid, and the density increases as you go to the core, until the core part is the core of a solid planet (such as Earth and Mars), which is dominated by iron and nickel.

Understood in this way, the so-called gaseous planets are planets in which a huge amount of gaseous matter is wrapped around the core of metals and rocks, and the liquid and solid substances formed by the compression of these gaseous substances, so that most of the mass of the planet is gaseous matter.

Jupiter structure.

No, solid-state cores are also gaseous planets.

Jupiter is a gaseous planet that is mostly made up of hydrogen and helium, so it does not have a definite surface, but is made up of multiple layers of atmosphere. Jupiter's atmosphere contains a large amount of hydrogen, helium, and small amounts of methane, water vapor, etc., as well as some gas clouds formed by storms, such as the famous "Great Red Spot". Jupiter's core may be a solid mass made of swimming rocks and ice, but the exact nature of this core is not well understood.

Due to Jupiter's sheer size, its mass is also very large, in fact it is more massive than all the other planets in the solar system combined.

First of all, there are no planets that are mixed with solid and liquid, and they are all just different proportions of solid and liquid.

According to the theory of planet formation, some planets may form in outer water-rich dust disks, which are mixtures of semi-solid water and half-rock.

Due to the influence of gravity, some of these planets may migrate to orbits closer to the host star.

Under the heating of the stars, the ice on the surface of the earth is melted, and water is also released to the surface in the mantle, resulting in the formation of a global ocean, and the land is submerged under the planet.

In the movie "Interstellar", there is a planet full of water. Because of its proximity to the black hole, I was impressed by the fact that the water on this planet is not deep, but it can make huge waves.

New research suggests that water may account for about half of the total mass of some exoplanets discovered in recent years; In contrast, water on Earth accounts for only a total mass.

Europa, for example, is as rocky as the Earth and the Moon. But the Earth is four times larger and a little smaller than the Moon; But Europa contains several times more water than the Earth.

According to NASA detection, Europa is covered in a thick layer of ice, which is up to 100 kilometers thick. Beneath the ice lies an ocean. And because the earth or key table is covered with ice, this makes Europa one of the smoothest planets in the solar system.

In addition to Europa, many of the other moons of the solar system also have water, and Jupiter's other two moons, Europa and Europa, have also been found to contain large amounts of water.

On Europa's land surface, some areas are also covered with ice, and there may be liquid water thousands of meters deep under the ice surface.

Calymede and Titan are similar, consisting of almost equal amounts of water ice and solid material, and it has been suggested that the interior may also be a small solid-state core, while an underground ocean of liquid water may exist 100 kilometers below its surface.

So planets with more liquid water than Earth may be common throughout the universe, which means that life is more likely to exist than we think. And if a planet is composed of water on the outside and inside, like a drop of water floating in the universe, such a planet is completely impossible.

At present, between the scope of the universe that people know, people have discovered many planets in the vast universe, explored their mysteries, and revealed their unique existence.

The planets are not deeply studied, but relative to the solar system.

The planets are more widely knownSo the same planets in the universe, the earth is a "solid planet", whyJupiterBut what about "gas planets"? The surface of the earth has a hard surface and is a rocky surface, and Jupiter is mostly composed of gaseous hydrogen and helium, so Jupiter is a "gaseous planet".

First, the proportion of ingredients is <>

The reason why Jupiter is a "gas planet" is mainly that most of its components are not solid substances, but are composed of gaseous substances such as hydrogen and helium, and most of its appearance is composed of these two gases; At the same time, it is not completely said that Jupiter is composed of gas, and it also has a certain amount of solid matter, mainly in the central nucleus, and this central nucleus is composed of iron, rock and ice, and the proportion of solid matter in the central nucleus of Jupiter is relatively small in the whole planet, and it does not reach the mass of the earth.

considerable multiples.

Second, the difference in essence <>

The Earth we live on is mostly covered with hard rock material on its surface, according to scientists.

Through ** waves.

Some studies on the interior of the earth have found that the thicker surface of the earth is mainly composed of solid materials, and the gaseous substances are still relatively small compared to solids, and the surface of the earth is suitable for all kinds of heavyweight things. In recent years, human beings have continued to explore other planets in the universe, and according to relevant explorations, we have learned that Jupiter is surrounded by thick gases, most of which are hydrogen and helium, and the substances composed of Earth and Jupiter are essentially different. <>

In the vast universe, even if they are in the same universe, but the trajectories in the galaxy where they are located are different, in the solar system, with the sun as the center, some planets are far away, some are close, and in their different positions, their composition is different, so the earth is a "solid planet", and Jupiter is a "gas planet".

Because the Earth has a tough rocky surface, while Jupiter does not, the only material that makes up Jupiter is gas, and although both Earth and Jupiter are planets, the difference between the two is very large, so the division is different.

Because Jupiter is relatively dense, most of the gas on Jupiter is hydrogen, which is difficult to aggregate into solids, so Jupiter is a gaseous planet.

In the solar system: solid planets made of stones: Mercury, Venus, Earth and Mars:

Solid planets are mainly made of rock and metal, have high density, slow rotation, solid surfaces, no rings, and few moons.

Larger gas planets: Jupiter, Saturn, Uranus and Neptune:

Gas planets are mainly composed of hydrogen and helium, have low density, fast rotation, thick atmospheres, halos, and many moons. Pluto. But Pluto has been expelled.

It is a planet made mainly of gaseous matter.

A planet like the Earth with a solid surface is called a rocky planet, and the outside is wrapped in a layer of gaseous material that is not too thick, and for the Earth, it is called the Earth's atmosphere. The greater the mass of the planet, the more and thicker the atmosphere that can be gravitationally attracted and retained. The more and thicker the gaseous matter, the greater the mass of the planet, the greater the gravitational pull, which in turn attracts more gaseous matter.

So, the more mass the planet has, the more gaseous matter is wrapped around it. When a planet's mass is large enough and its gravitational pull is strong enough, the gaseous matter wrapped around the outside will account for the majority of the planet's mass compared to the solid matter at the core. At this time, the planet is called a gas planet.

Therefore, gaseous planets, first, must have a large enough mass so that gaseous matter becomes the majority of the mass of the planet; Second, the surface is completely gaseous, and no solid matter can be seen; Third, the gas composition is mainly hydrogen and helium, which is not much different from the gas composition of stars, but is obviously different from the gas composition of the atmosphere of rocky planets; Fourth, gaseous planets have a huge volume compared to solid rocky planets.

In the solar system, there are 4 gas planets, namely: Jupiter, Saturn, Uranus, and Neptune. Their common features are:

The mass is huge, there is no solid surface, and there is a solid (possibly rocky) core in the center, which has a very small percentage of the core mass compared to the mass of the planet.

For example, Jupiter's inner core mass accounts for less than 5% of Jupiter's total mass, Saturn's inner core mass does not exceed 20% of Saturn's total mass, and Uranus's rocky core mass is not very certain, but it is generally believed to account for only 5% of Uranus's total mass, and Neptune is about the same.

To use a misguided analogy, a gaseous planet is a large cloud of gas wrapped around a small rock.