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The density of the central value is second only to that of a black hole. And the cause of the formation is the explosion of stellar supernovae. The centroon can reach 21 tons per cubic centimeter. That's about 100 trillion times the density of water.
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The density of matter on the surface of a neutron star is very large, in simple terms, the density of a typical neutron star is in the hundreds of millions of tons per cubic centimeter, which is equivalent to 100 trillion times the density of water! The density of a white dwarf star of tens of tons per cubic centimeter seems a little insignificant compared to that of a neutron star.
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If there is an object tuned to the top of the neutron star. There is simply no time to react, because the powerful gravitational field of the neutron star can directly tear it apart. The magnetic field of neutron stars is unusually large, and it is similar to that of black holes.
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It is a piece the size of a fingernail, and its mass is equivalent to the mass of a hydrogen bomb that blew up an area hundreds of kilometers in diameter, and it is difficult to easily estimate.
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is a shocking concept that has never been anything like this on our planet, so it is not visible.
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Existing only in theory, it is impossible for human beings to discover and prove it with their current technology.
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Neutron star is a special celestial body formed when the star evolves to the end of life, although its radius is not large, only about tens of kilometers, but the mass is extremely amazing, it can be said that it is the most dense except for black holes, only per cubic centimeter can reach 80 million to 2 billion tons, which is 100 trillion times the density of water, which is about equivalent to 3 solar masses.
The special nature of the neutron star is not only reflected in the mass, but also the gravitational force is also very strong, and its escape speed can reach 50 percent of the speed of light within a radius of more than 10 kilometers, so that the light can only break free in the form of a parabola when it enters its surroundings, and if human beings launch a rocket on the surface of a neutron star, then the rocket needs to reach a speed of 150,000 metric volts per second to fly away from the neutron star.
So why is the density of neutron stars so high and the gravitational pull so strong? To know the answer, we first need to understand how neutron stars are formed.
As we all know, neutron stars, like the white dwarfs we usually know, are the products left after the death of stars, but the only difference is that the neutron star was a star larger than the mass of the Sun before it formed, because only massive stars can form neutron stars.
According to astronomers' research, the conditions for the formation of neutron stars are about 8 times the mass of the sun and less than 30 times the mass of the sun, because the hydrogen element inside the star is exhausted, the original gravitational force and the internal thermal balance will be broken, resulting in a supernova explosion of the star, and the core of the star will be ruthlessly squeezed by gravity, the result is that the atoms continue to squeeze, so that the electrons are compressed into the nucleus, and the protons combine to form neutrons, and the density rises sharply in the process. That is, a bunch of neutrons are close together, so it is called a neutron star, which is why the neutron star is so dense.
However, neutron star matter can only exist on neutron stars, because it is hundreds of millions of tons per cubic centimeter, once it leaves the strong gravitational environment of neutron stars, it will instantly "**" into ordinary matter, followed by fierce **, if there is a gram of neutron star material on the earth, then the power will be no less than a nuclear bomb.
Some scientists believe that there should be a denser object above neutron stars, that is, quark stars, theoretically speaking, the mass of neutron stars will collapse into quark stars or black holes when they exceed the Oppenheimer limit, but so far, we have not found quark stars, because neutron stars will directly collapse into black holes when they exceed this limit. Therefore, quark stars may only exist for the moment when the neutron star collapses into the black hole.
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The density of neutron stars is high, and it reaches 100 million tons per cubic centimeterTheoretically, it is entirely possible that there are unknown elements.
Neutron stars are not only extremely dense, but also very hot, with surface temperatures reaching tens of millions of degrees Celsius, and internal core temperatures exceeding hundreds of millions of tons.
This means that the pressure inside the neutron star is very high. The pressure in the Earth's core is about 3 million atmospheres, while the pressure in the core of a neutron star can reach a trillion-billion-pound atmosphere. After all, there are only 94 natural elements known to us, and even if synthetic ones are added, there are only 118 elements.
Neutron stars are certainly not made up of these elements.
Because any element we know is made up of electrons and atomic nuclei, and the matter inside a neutron star has only neutrons, and the electrons are completely squeezed onto the protons to combine into neutrons.
That is, there are no electrons inside a neutron star, there are no protons, and they are made entirely of neutrons. At the same time, since neutrons are not charged, the spacing between neutrons is very small, which is why neutron stars are so dense. The state of a neutron star should be similar to that of an atomic nucleus, except that the protons that make up the nucleus are replaced by neutrons.
Finally, black holes. As I just said, when the strong gravitational force exceeds the degenerate pressure of electrons, it will squeeze electrons onto protons to form neutrons and produce neutron stars.
When the gravitational force is enough to resist neutron degenerate pressure, the neutrons will be infinitely squeezed together, squeezed into an infinitely small space, forming a singularity, and a black hole is born.
Black holes, weirder than neutron stars, are arguably the weirdest objects in the universe. What exactly are the elements that make up a black hole? It's hard for us to imagine. It can even be said that black holes are no longer composed of matter, at least not matter that we can recognize.
Compared to our world, black holes are a different world entirely, a world that we may never understand!
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ZTE's density is as high as 100 trillion tons per cubic meter. There is such a high density of planets because China cannot detect such a high density on Earth. The noisy grip to meet the rise and the bridge to a lot will be very surprising.
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It may be because the planet is not affected by other external environments, including the Moon or the radiation of the sun's sunlight.
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It is estimated that this star is relatively far away from the sun, and is not disturbed by many planets, but is developing on its own.
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