What would happen if Jupiter devoured other planets? Can you tell us about that?

In addition to the stellar Sun, there are eight planets in the solar system that revolve around the Sun. So what would happen if Jupiter, the largest planet, devoured other planets? Can it be upgraded to a star?

About 4.5 billion years ago, a primordial planet struck the newborn Jupiter. This primordial planet weighed ten times as much as Earth and was made up of materials such as rocks and ice. Jupiter's inner core was directly shattered, and the denser material was mixed into hydrogen and helium.

Billions of years later, the denser material re-formed the deadly core of Jupiter that we see today. So can Jupiter swallow the remaining seven planets in the solar system now?

If the first planet engulfed by Jupiter is Saturn, then in the night sky of the Earth, you can see two huge multicolored planets shining brightly, approaching each other, and then merging together. If you're able to get up close**, you'll find burning meteorites everywhere nearby. Jupiter is about three times more massive than Saturn.

When they touch, the first to collide are each other's moons, and the wreckage of these moons will fall on Jupiter like raindrops. Then Jupiter's surface temperature rises, even higher than the Sun's surface temperature. Eventually, the two gas planets will fully merge.

Jupiter's mass and gravity will increase by about 30% after engulfing Saturn, at which point Jupiter will also have bright rings.

Next to be engulfed are two ice giants, Uranus and Neptune. When they get closer, Uranus' 27 moons will collide with Jupiter's new rings. Uranus's galaxy is a glacial river of water, methane, and ammonia, while Neptune's galaxy is mostly rocky.

But when the planets collide with Jupiter, their galaxy melts. At this time, Jupiter's mass will increase by about 40%. If it collides with Venus and Mars at this time, then Venus and Mars will not even be able to reach Jupiter's core, they will burn in Jupiter's atmosphere.

Supercharged is like a meteorite that hits the Earth, it is already evaporated at high temperatures before it reaches the ground.

Mercury is not even as massive as Jupiter, the largest moon Ganymede, for the huge Jupiter, Mercury is just a small snack, and now there are only two planets left in the solar system, the Earth and Jupiter, how will Jupiter swallow the Earth? Jupiter is the patron saint of the Earth, and even now, the Earth has been under the influence of Jupiter's gravity, and every 400,000 years, the gravitational pull of Jupiter and Venus will make the Earth's orbit swing once, which will cause the Earth's summers to be hotter and the winters to be colder, and it will also affect the rainfall in the tropics. But this gravitational pull still can't draw the Earth to Jupiter's mouth, because it can't compete with the Sun's gravitational pull.

I think Jupiter will be bigger and the magnetic field will be stronger, maybe Jupiter will suck the sun over and cause other small planets to change their trajectories.

After swallowing Saturn, Jupiter's mass and gravity can increase by at least 30%, and those broken moon fragments will become Jupiter's new rings. Next it will be on Uranus and Neptune. Uranus's 27 moons will be the first to collide with Jupiter's rings, which will only increase the amount of floating debris.

The two ice giants have cores of water, methane, and ammonia, and Neptune has a rocky component. But it doesn't matter, when you touch Jupiter, everything will melt. The result will be another 10% increase in Jupiter's mass.

Then you will face the rocky planets - Venus and Mars.

Jupiter weighs only three times as much as Saturn, so when it swallows a planet about its own size, first, their moons collide with each other to produce a lot of debris. Some of the moon's debris will rain down on Jupiter, while others will float in space. When Jupiter strikes Saturn, Jupiter's surface temperature will become hotter than the outer layers of the Sun, and the rest of Saturn will mix with Jupiter's atmosphere, and they will merge into one.

Current theories suggest that Jupiter is unlikely to engulf neutron stars. A neutron star is an extremely dense celestial body, usually between two times the mass of the Sun, but only about a few tens of kilometers in size. Jupiter, on the other hand, is a huge gaseous planet with a mass of about one-thousandth the mass of the Sun and a diameter of about 11 times that of the Earth.

Since neutron stars are very massive and extremely dense, if a neutron star is close to Jupiter, the strong gravitational pull can cause a violent interaction between the two. However, since Jupiter is a gaseous planet, neutron stars will encounter extremely high resistance when they collide with Jupiter's gaseous outer layers, which will make it difficult for neutron stars to "crash" directly into Jupiter's interior.

In practice, such events are very rare, because neutron stars are usually found in the Milky Way, and the planets are very far apart. Even if the neutron stars are close to Jupiter, what is most likely to happen is the formation of an orbital system between them, but it is unlikely that they will converge directly.

It is important to note that the universe is a very vast and diverse place, and these theories about the interaction between neutron stars and planets are based on our current understanding and observation of the universe. With the advancement of science and technology, our understanding of the universe is likely to be constantly updated and improved.

Before the Earth's tectonic plates shifted, Sulawesi was a large island in Indonesia. In the movie, Liu Qi and a group of people went to Sulawesi to rescue the equatorial engine. In the movie, the surface climate changes dramatically, the oceans freeze, and the plates shift.

However, Sulawesi is probably still on the equator, so there is a motive to turn to the Fawang Bridge.

In the movie, there is a plot that when the rescue team gave up the rescue and returned, the Russian rescue team kept saying that they would not be able to get home for seven days. Therefore, it is speculated that Sulawesi may have moved to a farther place, but did not leave the equator.

At the same time, Sulawesi is also the place to save the entire planet. When the whole world was ready to give up the rescue, it was here that the CN171-11 rescue team ignited Jupiter, so that the earth avoided the sleepy end of being swallowed by Jupiter. So, Sulawesi is still a place of miracles.

Here, we see the miracle of man's victory over heaven; Here, the desire to survive at the end of the world is seen; Here, I met rescuers who risked their lives for the sake of human survival.

Although the earth is wandering, where there are people, it is home. It is someone who stands up to the sky to support our home, and in the environment in which we live, they are all desperately trying to create.

About 4.6 billion years ago, a nebula on the third spiral arm of the Milky Way collapsed due to some kind of disturbance. As nuclear fusion was ignited, a newborn star was born, and its name was the Sun. The newborn Sun is surrounded by a disc-shaped cloud of dust and gas, where the planets are born.

At the beginning of its existence, the solar system was not as peaceful as it is now, but extremely turbulent. For example, the most mainstream hypothesis of the origin of the moon is that the moon may be the product of the collision between a Mars-sized protoplanet and the native Earth in the early solar system. The collision sent a large amount of material into Earth's orbit, which then accreted to form the Moon.

Interestingly, a recent study adds a new dimension to the tumultuous story of the solar system's early days, when a protoplanet may have collided head-on with Jupiter about 4.5 billion years ago, and Jupiter swallowed it alive in its unrelenting spirit. I don't know what it tastes like?

As the largest planet in the solar system, Jupiter belongs to the gas giants. However, Jupiter is not a complete mass of gas, and its interior is thought to have a dense core, which may be rocky. On the outside of this inner core, a thick layer of liquid metallic hydrogen is encased.

Of course, our understanding of Jupiter's internal structure is still very limited, and there are still many unknowns to be solved. For example, astronomers have discovered that Jupiter's core appears to be diffuse and fragmented, but the reason remains unknown.

Currently, NASA's Juno probe is orbiting Jupiter to gather more clues for us. In the new study, a team of American, Chinese, Japanese and Swiss astronomers used Juno probe data to study Jupiter's structure and composition and test multiple possibilities to explain why Jupiter's core was scattered and fragmented.

The results show that an ancient impact is the most plausible and consistent explanation with the detection data. Researchers say that a model of Jupiter built in this scenario would indeed form a diffuse core that would last billions of years. They have published their research in the journal Nature.

Astronomers believe that, in part, Jupiter's core seems to have disappeared, which can be explained by the fact that Jupiter once collided with a planet that could be 10 times the mass of Earth.

In the early days of the solar system's history, the probability of planetary collisions was very high, so it was not surprising that planets collided with Jupiter. Thinking about our Earth, scientists speculate that Earth's own moon was caused by a massive impact. Similar events may be responsible for some of the unexpected properties of Jupiter's core, which is low in density but high in heavy elements.

NASA's Juno mission to Jupiter has detected Jupiter's gravitational field in detail, and scientists can study the gravitational field to figure out what is going on inside the gas giant. Judging from the distribution of Jupiter's gravitational field, the cores of the planets may actually be more dispersed, but there are many heavy elements, and the non-erection is very dense central cores, and the surrounding environment is less dense.

According to a journal published in Nature, researchers in the United States, China, Japan and Switzerland wondered how such a planet could have become like this, contrary to most planet-forming models. But there is one hypothesis that could explain this result: Jupiter's early massive impact.

The solar system is formed by a disk of dust around the sun, which condenses into planets and other celestial bodies. During this time, planets like Jupiter grow rapidly and (on the time scale of the universe) suddenly exert a large gravitational pull on the surrounding planets. Perhaps, as a result, a smaller protoplanet nearby could collide with Jupiter.

In fact, the researchers' model of Jupiter's formation and the collision of the conditions under which the planets were formed, such planets look just as the researchers understand Jupiter.

According to reports, the impact will not be a light blow to Jupiter's slowly engulfing object, which will not produce enough shock waves to destroy Jupiter's nucleus, scientists speculate that the planet must hit Jupiter head-on, and with a very large mass, to produce a large enough impact to destroy Jupiter's nucleus.

So, while a huge crash is not a sure thing, it is very helpful to continue the exploration of Jupiter, especially the construction of scenarios for Jupiter's formation.

If the black hole swallows up all Jupiter, it will have a very big impact on our earth, and it will also cause many natural disasters on our earth.