If the Earth is captured by Jupiter s gravity, can it really ignite Jupiter and push the Earth away?

Unlikely, because after Jupiter was ignited, the composition of the Earth's atmosphere did not change, and ** would only produce a situation where Jupiter would not have any effect on the Earth, and the resulting air currents would not be retrograde towards the Earth.

Jupiter is all wrapped in ammonia and nitrogen. If it ignites Jupiter enough, it could push the Earth away.

No. Because Jupiter is very large and difficult to ignite, and even if it is ignited, it is difficult for Jupiter's gravitational pull to disappear, so it cannot push the Earth away by igniting Jupiter.

The Earth's atmosphere contains a lot of oxygen, and after extracting a lot of Earth's oxygen, it is related to Jupiter.

A large amount of hydrogen in the atmosphere is mixed, and it is possible **. (Jupiter is a gaseous planet with an atmosphere containing up to 90% hydrogen.) Guiding the space station in the setting, of course.

**, but actually propelling a large space station is faster than a small spaceship, without sacrificing the space station! Of course, we don't need to be serious. Because after all, this is a movie. But it is possible to ignite Jupiter's atmosphere. The shock wave is not yet known.

Can the Earth be freed from the Loch limit. Because theoretically, this ** does not spread to the surface of the earth. Because the atmosphere next to the Earth does not contain hydrogen!

Hydrogen combustion requires the consumption of oxygen, which requires a hydrogen concentration of 4% to 70%, but the amount of oxygen in Jupiter's atmosphere is very low! Unable to support the combustion process. Don't think Mars isn't enough to ignite Jupiter's atmosphere.

In fact, Jupiter's lightning chances are high! This is also the lightning of Jupiter's atmosphere, which happens every day, but never ignites because of the lack of an incendiary agent that can react with hydrogen! Another sense of ignition is nuclear fusion, but Jupiter does not have enough mass.

Even if nuclear fusion occurs locally, without a chain reaction, Jupiter cannot ignite. Unless Jupiter is given another 80 masses, the solar system is now.

All the planets and asteroids don't add up to half the mass of Jupiter, so Jupiter has no chance!

Jupiter, like the Sun, is made up of hydrogen and helium, but the two are very different. For example, the mass of the Sun is about 1,000 times greater than that of Jupiter. Hydrogen and helium, although light, have mass and create air pressure. The ultra-high mass of the sun results in an untold number of hydrogen atoms at ultra-high pressures.

collided, resulting in a nuclear fusion reaction that formed countless helium atoms. This process of course releases a lot of energy and heat, and the sun can continue to emit heat, and this process does not require oxygen.

If we go back to reality, we can observe that there are distinct bands and stripes on the surface of Jupiter. In fact, it is Jupiter's clouds with different temperatures, and the rise and fall of clouds at different temperatures can cause strong atmospheric storms. The most striking is Jupiter's "red spot".

It's huge enough to hold the entire planet. The violent weather above caused thunder and lightning constantly, but such a high energy lightning could not ignite Jupiter. With this negligible technology of the earthlings, tens of thousands of nuclear bombs around the world were dropped on Jupiter.

It's not a big deal. So the earthlings want to ignite Jupiter, the probability is zero, it does not exist at all. Hence "The Wandering Earth".

The episode that ignites Jupiter is just fiction.

It is unlikely, because the oxygen content on the earth is not enough to ignite Jupiter, if it is only to cause a ** to form a thrust reversal force to escape Jupiter's gravity, it is possible to find the ignition of the Earth's atmosphere that is not completely mixed with Jupiter's gas.

It's not possible at all, it's just to deceive elementary school students who haven't gone to junior high school, everyone knows that objects with different masses in free fall fall at the same speed, so the earth and air must fall towards Jupiter at the same speed, there is no such thing as pumping out the air first, Jupiter can't ignite without air, unless the earth hits it directly.

It is not feasible because Jupiter is relatively large and does not have a particularly high ignition point, so there is no way to achieve it.

In real life, there is definitely no way to achieve this level, it's just that the plots in TV are adapted from our own imagination, because our current technology can't reach this level at all.

The movie "The Wandering Earth" is a science fiction film, and there is a lot of physical and chemical knowledge in the film, and many viewers said that they couldn't understand it, maybe they didn't know much about it. Of course, after watching the film, many viewers are also wondering if it is reasonable to ignite Jupiter in "The Wandering Earth"? Is it highly likely that Jupiter will be ignited in reality?

Let's find out!

In The Wandering Earth, there are indeed reasonable conditions for Jupiter to be ignited. First of all, the situation at that time was that the distance between the Earth and Jupiter was very close, and because the Earth was no longer autobiotic, the air on the Earth was sucked away by Jupiter, which is why the planetary engine did not work and the Wandering Earth program was forced to be interrupted.

We all know that if you want to burn, you must have combustibles, combustibles and a certain temperature, and most of the gas on Jupiter is hydrogen, and now Jupiter has sucked away the oxygen on the earth, and as long as hydrogen and oxygen are mixed and ignited, they will definitely be able to burn, and in the film, they also prepared enough fuel to ignite Jupiter, so the plan to ignite Jupiter in the film is reasonable.

In the film, Jupiter was ignited, and the shock wave after the ignition did push the earth away from Jupiter, and in the end, all the people on the earth survived, and then continued to wander with the earth, continuing to find a new living space.

Judging from the theoretical analysis, Jupiter in "The Wandering Earth" can indeed be ignited. But in real life, Jupiter is not easily ignited, partly because of the distance, but because of the lack of conditions for burning. Of course, as for whether the audience will be ** after igniting Jupiter, whether the earth will lack oxygen, etc., there is no need to consider this, after all, this is a science fiction movie.

Science fiction movies are about imagination, as long as they can be said theoretically, they can give full play to their imagination, and the reason why movies are popular is that the idea of taking the earth to wander is indeed very avant-garde, which is in line with the positioning of science fiction movies.

However, in reality, although most of the gas on Jupiter is hydrogen, it is not easy to ignite because the oxygen content is very small, and the temperature cannot be reached, so it is not easy to ignite. Jupiter in reality is actually a very active planet, it stages lightning every day, but it has never been ignited, so it is impossible to ignite Jupiter at present.

Because Jupiter's gravitational pull is so strong, the Earth times Jupiter's gravitational pull captures.

In the near future, scientists have discovered that the sun is rapidly aging and expanding, and the entire solar system, including the earth, will be swallowed up by the sun in a short period of time. In order to save themselves, human beings put forward a bold plan called "The Wandering Earth", that is, to build tens of thousands of engines and steering engines on the surface of the earth with global efforts, and push the earth out of the solar system and run to another habitat in 2,500 years. Liu Peiqiang (played by Wu Jing), a member of China's aviation industry, went to the International Space Station when his son Liu Qi was four years old, and shouldered the responsibility of navigator with his international peers.

In the blink of an eye, Liu Qi (played by Qu Chuxiao) grew up, and he took his sister Duoduo (played by Zhao Jinmai) to secretly run to the surface and steal the transport car of his grandfather Han Ziang (played by Wu Mengda), but he was not only arrested, but also suffered a global engine shutdown. In order to repair the engine and prevent the Earth from falling into Jupiter, the world began to rescue with saturation, and even Liu Qi's car was forcibly recruited. In the race against time, countless people have followed one after another, desperately trying to continue the hope of survival for hundreds of generations ......

The Wandering Earth uses Jupiter's gravitational pull to eject the Earth out, and Jupiter loses mass.

1.In The Wandering Earth, Jupiter's mass is about 318 times the mass of the Earth, and Jupiter's gravitational bow relies on the Earth's acceleration. At this time, the mass of the Earth is not negligible in front of Jupiter.

If Jupiter accelerates the Earth several times, Jupiter's energy will decrease many times. With each decrease, Jupiter's orbit moves closer to the Sun. If astronomical observations can be made, Jupiter's orbit will undergo a change in the brightness of the town.

2.How much kinetic energy or kinetic energy Jupiter loses depends on how much kinetic energy and kinetic energy the Earth gains. It is content with two conservation laws.

If it were just a simple calculation, Jupiter's orbital speed was kilometers and seconds, and Jupiter could increase the maximum acceleration of the Earth to twice the speed of its own motion, that is, it could increase kilometers and seconds to the Earth. The answer can be obtained by substituting the Earth's mass and the growth rate of kilometers and seconds. The kinetic energy lost by Jupiter is joules.

3.When using Jupiter's gravitational slingshot, the Earth mainly steals Jupiter's public rotation. As the Earth approaches Jupiter, it accelerates through a parabola to Jupiter due to Jupiter's gravitational pull, and when it fails to reach its nearest point (which we call peri-Jupiter), it slows down and leaves.

Theoretically, when it approaches the Jupiter, the velocity is the same as when it is away from Jupiter, which is the same as the velocity on either side of the parabolic vertex.

4.With the help of Jupiter's gravity, there is a scientific basis for increasing the speed of the aircraft, which is the gravitational slingshot effect of celestial bodies. But the Earth must escape with the help of Jupiter's gravity, it must be able to start from a public rotation orbit and then travel hundreds of millions of kilometers in Jupiter's direction.

Earth flees the solar system. In the current orbit, it must reach an escape velocity of more than 42 kilometers per second. Now the Earth's rpm is about 30 kilometers per second.

In other words, in order to finally escape the sun's gravity, it needs to accelerate more than 12 kilometers per second.

There will be no loss of mass, Jupiter is the source of the movement of the earth after entering Jupiter's gravitational field, Jupiter will drag the earth through gravity to move together, Jupiter has done work on the hail of the earth, will not make Jupiter's mass loss.

Jupiter does not lose mass, the Earth just borrows Jupiter's gravitational pull and has no effect on its mass.

Jupiter simply does not lose its mass, because there is a law of conservation between matter. Unless in the process of using Jupiter, some objects fly to the universe with pins.

The first is the range, the farther the range, the smaller the gravitational pull.

Gravity is also a force, although Jupiter is big, but it is still a lot smaller than the sun, so the earth revolves around the sun.

Then why is it not sucked away and pinched, gravity and gravity are in the opposite direction, just like a tug-of-war, go to the side with the greater force, then why not go to the side with the greater force, since brute force is not good, use skillful force, move in a circle, so that you will not bump into it.

You can actually change the angle of your question.

If you think about it, Jupiter's gravitational pull is greater than that of the Earth, the gravitational pull of the Earth is greater than that of the Moon, and the gravitational pull of the Sun is greater than that of Jupiter.

Two huge gravitational forces are more forceful, the big one pulls the small one away, and the small one desperately resists, although it is controlled by people, but at least it can save a life.

Welcome to adopt

Because of all "gravitational pull", any planet in the universe has gravity, it's just a matter of size. Our earth is in the solar system, attracted by the sun, and Jupiter is the same, and there are many stars around our earth and Jupiter pulling each other, forming a kind of balance. So Jupiter's gravitational pull is greater than that of Earth, and Earth is not sucked away by Jupiter、、、 hope satisfies you.

But Jupiter's gravitational pull is not as great as that of the Sun.

In the solar system, the gravitational pull of the sun dominates.

Just look at the nebulae formed in the solar system.

Under normal circumstances, this is not possible.

Because the distance between Jupiter and the Earth is very far, at the farthest point, Jupiter and the Earth are 100 million kilometers apart, and the closest time is 100 million kilometers, so the Earth is not affected by Jupiter's gravity, let alone captured by Jupiter's gravity.

There is only one scenario in which the Earth is in danger of being captured by Jupiter's gravity, and that is if we carry the Earth to Jupiter ourselves. Why do we want to transport the Earth to Jupiter? The sun as a star, life is limited, about 30 to 5 billion years later, the Zhenfan sun will run out of fuel and helium flash, and then expand and engulf the earth's orbit, so billions of years later, human beings will sooner or later face a long cosmic migration, and to transfer all the billions of people on the earth, the best way is to stop the earth from rotating, and then use the earth itself as a spacecraft to drive the earth for interstellar migration.

Jupiter has helped the Earth withstand 21 waves of annihilation, and in the past two months, Jupiter has been hit twice in succession. There's a reason why Jupiter and Earth collided instead of Mars. In 1994, Jupiter was hit by 21 consecutive waves of interstellar impacts, each of which would be enough to wipe out humanity if it were put on Earth, which was the first celestial impact event observed by a planet in the solar system.

Jupiter's orbit

Jupiter's common center of mass with the Sun is actually located outside the radius of the Sun at a time of the Sun's center – or 7% of the Sun's radius beyond the Sun's surface. The average distance from Jupiter to the Sun is 778 million kilometers (about times the distance from the Earth to the Sun, or astronomical units), and it takes Earth years to revolve the Sun in one revolution. This is two-fifths of Saturn's orbital period, which means the formation of 5:5 between the two largest planets in the solar system

The resonance orbital period of 2 is quietly in the reed.

Jupiter's elliptical orbit is tilted relative to the Earth's orbit because of the eccentricity, so the distance between perihelion and aphelion is 75 million kilometers. Jupiter's axis inclination is very small compared to Earth and Mars, only, so there are no significant seasonal variations.

Jupiter's rotation is the fastest of all the planets in the solar system, and it takes less than 10 hours to complete a rotation of its axis; This causes an equatorial uplift that can be easily seen on Earth with a small amateur telescope. The planet is an oblate sphere, meaning that its equatorial diameter is longer than the diameter between the poles.