There are many asteroids in the Kuiper Belt, how big will they be combined?

If he had a mass, they could double it, because their mass was not large, and the total mass added up was only about 1 10 of the earth's, like a large amount of sand added up without a single stone sinking. However, in recent years, scientists have suggested that there may be a ninth planet outside the Kuiper Belt, and that there are two possibilities for the planet's mass, with many believing it to be ten times more massive than Earth, and another possibility being that it is about 1 10 times as massive as Mars.

If the planet is discovered, the Kuiper Belt celestial body.

The total mass will have to be rewritten, because the distribution of matter here is extremely rare, astronomers believe that objects here cannot grow to a diameter of more than 1000 kilometers, so how many objects with a diameter of more than 1,000 kilometers come from here, and through computer simulation information, they found that, in fact, most of the Kuiper Belt objects are affected by Jupiter and Neptune.

The influence of gravity is great, and it turns out that many of the celestial bodies here were originally formed in regions close to Jupiter.

However, in the solar system.

In the early stages of evolution, they were abandoned by Jupiter, Saturn.

Soon after the formation of Neptune, they became Kuiper Belt objects. Today, thousands of objects have been discovered in the Kuiper Belt, including Pluto.

Eri, Bird, Divine and so on. The largest diameter of the celestial body here is also less than 3,000 kilometers.

So, due to their large numbers, it may be disappointing to say how massive these celestial bodies will be if they are added up. In fact, it only has the mass of the earth.

The 1 in 10 is equivalent to the mass of Mars. However, even so, the mass of the Kuiper Belt objects is actually the asteroid belt.

celestial, and this is 100 times smaller, because all the asteroids and dwarf planets in the asteroid belt.

Added together is only about 1 of the Earth.

Combined, they are about one-tenth the size of the Earth, because the masses of these asteroids are very small.

Bigger than the sun. Because there are so many asteroids in the Kuiper Belt, add them up and be large enough to surpass the Sun.

There are many asteroids in the Kuiper Belt, and if you add them up, they are arranged in a seamless arrangement that is equivalent to a sphere the size of two Earths.

There are eight planets in the solar system, and the farthest from the sun is Pluto, which I believe everyone knows, but do you know what is farther away than Pluto? It is called the Kuiper Belt, which is an area with dense celestial bodies.

1. There are no giant planets

Before Pluto was downgraded to a dwarf planet, it was one of the nine planets in the solar system, but in 2005, scientists discovered Eris in the Kuiper Belt, and its appearance challenged Pluto's existence. In order to avoid the appearance of the tenth and eleventh largest planets in the solar system, and even more, on August 24, 2006, scientists redefined planets:

orbiting around the sun;

The mass must be large enough to overcome the gravitational pull of the solid to make the celestial body spherical;

celestial bodies capable of clearing other objects in the vicinity of their orbits;

By this criterion, since Pluto and Eris are both located in the Kuiper Belt, and there are other objects in their orbits, they obviously do not have the ability to clear the bodies of other objects in their orbits, so they cannot be counted as planets. And by the standards of a new planet, does Kuiper have a giant planet? Apparently not, there are only dwarf planets here.

2. There may be a huge "Planet X".

More than a decade has passed since Pluto's downgrading, and scientists have not stopped exploring the Kuiper Belt. During this period, some scientists pointed out that there may be a mysterious "Planet X" in the Kuiper Belt, which is a huge planet with several times the mass of the Earth, which may be around the solar system for tens of thousands of years, and has been stirring the orbits of many planets such as Pluto.

In this regard, a team of expert researchers has rejected the claim of "Planet X" through new research, believing that this "Planet X" in the Kuiper Belt is not a star, but a bunch of small stars. This speculation is more realistic, because if there is a huge planet in the Kuiper Belt, it is impossible for mankind to go undiscovered so far.

Of course, all this is speculation, there can be no huge planets in the Kuiper Belt, only the existence of dwarf planets, which is determined by the current level of human technology. But we know that the universe.

The vastness is beyond the reach of human technology, and it is possible that there will be huge planets in the Kuiper Belt, and this needs to be achieved through continuous technological development

The asteroid belt is a dense area of asteroids in the solar system between the orbits of Mars and Jupiter, and it was first discovered in this region by Titius**, the Italian astronomer Piazzi, in 1801 --- Ceres. More stars were discovered, reaching 100,000 by 1982. The modern asteroid survey system uses automated equipment to continuously increase the number of asteroids discovered.

Regarding the origin of the asteroid belt, modern astronomy believes that the asteroid belt was formed by a group of stars (the precursors of planets smaller than the planets) in the primordial solar nebula. However, because of the gravitational influence of Jupiter, these stars are prevented from forming planets, causing many stars to collide with each other and form many debris and debris.

However, according to the law of gravitation, the so-called stars in the asteroid belt have similar orbital velocities, so it is impossible for them to collide violently and form debris. According to the principle of planet formation in this section, the orbital position of the asteroid belt should have formed a planet the size of Mars, and although the formation process of this planet was affected by Jupiter, it did not affect its formation process. Therefore, the above explanation is debatable.

The theory of system relativity holds that due to the impact of alien objects, the planets in the orbit of the asteroid collide with the alien objects and break into countless fragments of various sizes, such as sedan chairs. Some of these fragments remain in this orbit and continue to orbit, some fall into the Sun or orbit in an elliptical orbit within the solar system, and some form the Kuiper Belt on the outer side of Neptune, and a small number of fragments fly out of the solar system.

There are many opinions in the astronomical community about the origin of the Kuiper Belt, so I will not describe them all here. System relativity holds that the asteroid belt and the Kuiper belt share a common origin--- planet-to-celestial collisions. Fortunately, the alien object did not hit our Earth at that time, otherwise the --- Earth, the home of human beings, would not exist.

The Iber Belt is mainly made up of ice-covered objects, and the Asteroid Belt is made up of small rock-like objects.

Although the two dwarf planets are similar in size, Eris is significantly more massive than Pluto, so Eris is considered the largest object in the Kuiper Belt. The interesting thing here is that these larger dwarf planets themselves are not supposed to be in the Kuiper Belt. This is because the emergence and formation of large stars requires a certain density of matter, and although the Kuiper Belt is a dense area of celestial bodies, it is not very dense.

Since the density of matter is not enough, these larger objects must not have formed here, so scientists have simulated them and finally concluded that these larger objects formed in the inner solar system. If it formed in the inner part of the solar system, why did it come to the Kuiper Belt? There is only one possibility, and that is to be thrown out by the planets in the solar system, because of the gravitational pull of the four large gas planets, these dwarf planets were eventually thrown into the outer solar system and settled here.

And it is almost certain that there is a large celestial body on the outer side of the Kuiper Belt, and the mass of this celestial body is much greater than that of the Earth where we are located, and can even reach several times or even more than ten times that of the Earth.

Although scientists have not found such objects in actual observations, scientists have found through the observation of many stars in the Kuiper Belt that the orbits of many dwarf planets are affected by a huge gravitational attraction from the outside, so there must be an object unknown to us. How big is this celestial body? And where does it come from?

We hope that in the future, scientists will be able to unravel the mystery for us.

These celestial bodies may be due to some. Black holes evolve slowly.

These larger celestial bodies are formed in the inner part of the solar system.

For now, this is simply an unsolved mystery.

It was thrown out by the planets in the solar system.

What comes out of the black hole is still self-growing.

There is simply no human being discovering it.

Maybe it was made up out of thin air

I don't know, maybe it was brought from somewhere else.