So, giant black holes don't coalesce from small black holes, and there is no way to suddenly form an intermediate-mass black hole? The key to the existence of this possibility is whether or not to have it too

A celestial body with a mass of 1 million times the sun condenses to space below 0, 01 light-years. As a possibility, Ling Xiao, a scientist at Global Space University, put forward a new idea: at the beginning www.biquge.info of the birth of the universe

Massive celestial bodies give rise to intermediate-mass black holes. Scientists simulated this process on a computer, and the results showed that 30-500,000 years after the birth of the universe, massive objects occurred

ionized, reduced in size to less than 0, 01 light years. At this time, the universe is extremely clear, and light can pass through unhindered. The resulting black hole is about 100,000 to 1 million times the mass of the Sun, basically in with

galaxies are formed in 0-dimensional space unrelated.

When a black hole of this size encounters a galaxy, the black hole falls into the center of the galaxy due to the frictional effect of mechanics. If a black hole falls into the center of a galaxy, it will attach a solar mass within 1 year

In 100 million years, it will have more than 100 million times the mass of the sun, making it a giant black hole. With the energy of a quasar, mass attachment of this magnitude is essential. But this kind

Models are not self-justifying. Considering the general model of the universe, the number of black holes formed by this mechanism is much smaller than the number of galaxies. So theoretically, the formation of huge black holes is exactly too over

It should be said that it is still unclear, so the black hole of the M82 galaxy with its intermediate mass and revolving around the center of the galaxy is very intriguing. The key problem is to find the exact mass of the black hole in the m82 galaxy

amount, and figure out the process of its formation. The solution of these problems is of decisive significance for unraveling the mystery of the huge black hole.

The mystery of the origin of the giant black hole is still shrouded in a fog to this day. How black holes are getting bigger and bigger, and how giant black holes are related to the birth and evolution of galaxies

There are many questions that need to be explained about what kind of relationship there is. Years later, several astrophysicists from Global Space University, after studying the question of the origin of huge black holes, published a very interesting presentation

The results of the analysis.

They compared the observations of the giant black hole to a certain object in the Milky Way and extragalactic galaxies, and compared the mass of the black hole with the "bulge" of the galaxy. The so-called galaxy "bulge" refers to the place

A group of the most primitive and oldest stars that are spherical at the center of galaxies. The results show that this ratio is about 1000:1, and even if the mass of the black hole changes, the ratio does not change significantly

but this ratio has not changed significantly. The "bulge" of galaxies is structurally different from the disk of galaxies, and elliptical galaxies are almost always made of "bulges".

If the relationship discovered by astrophysicists such as Ling Xiao and Johnson is of universal significance, the formation of black holes is likely to be closely related to the formation of galaxies. The galaxy "bulge" is made of

The hypothesis of the formation of "starbursts" in the early days of galaxy formation is now more convincing. Are giant black holes also associated with "starbursts"? A new type of black hole was discovered in the m82 galaxy, and it also

It is a common "starburst" in the macrocosm of the universe.

"Starbursts", galaxy formation, galaxy "bulges", active galactic nuclei, and mesomass and giant black holes are the final ones that can be depicted after a series of combinations

What is it?

There is also a scientific prediction that the starry sky in which we live may collapse under a devastating "powerful pressure". Scientists believe that although the universe is still expanding

Expansion, and the rate of this expansion is accelerating, but it will still explode at twice its current age and form a new cosmic "black hole".

Professor Johnson of Global Space University said: "A few years ago, no one would have thought that the end of the world would come between the next 10 billion and 20 billion years, especially since we observed the universe

The expansion of the universe is accelerating, but now we understand that a cosmic explosion is absolutely possible -- as the cosmic sky seen today was formed when the original universe exploded ...... "study at a distance."

Astronomers at Nova have found evidence that the expansion of the universe is accelerating. This implies that there is some kind of "hidden energy", that is, the "antimatter energy field" of the primordial universe, which is driving the division of the universe

。 Most theories of "hidden energy" suggest that the accelerated expansion of the universe is due to the existence of a "quantum field" of the same "magnitude" as the universe, commonly known as the cosmic "antimatter energy".

The "quantum field" passes through the cosmic space, and this "quantum field" (multidimensional space antimatter energy field) plays a repulsive role with the cosmic field. It is this similar energy field that makes the universe primordial

The universe expanded rapidly after the end of the Big Bang...... (To be continued.) )