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Between our impressions, black holes are scary and can devour a lot of things, as if nothing in the universe is more powerful than it, and some people propose that quasars are more powerful than black holes, so who is more powerful than quasars or black holes? Then the following will be revealed by Constellation Knowledge for everyone! Quasars or black holes are more powerful.
Black holes are the end of all things, and they have always been quite terrifying, and they can even end many things, which is daunting, and it has always been something that everyone often discusses.
Although black holes are terrifying, some people believe that quasars are much more terrifying.
The so-called quasars are mainly a type of celestial body with super-powerful powers, which is caused by supermassive black holes. When a supermassive black hole continues to devour matter and eventually becomes larger, the black hole that cannot swallow more matter will directly turn the excess part into energy and shoot it out, which is a scary and long-lasting process. The powerful energy beams that are ejected are called quasars.
Quasars are very destructive energies, even capable of destroying any celestial body in their path. Quasars and the Milky Way.
The diameter of the Milky Way is 100,000 light-years, while the diameter of quasars is only 1 light-year, although it seems that the size cannot be compared, but in fact, the latter light intensity is extremely strong, and even more than 1,000 times that of the former, which means that the Milky Way may not be anything in the eyes of quasars.
It is also important to note that younger quasars may even have other effects on the galaxies around them. "During the first 100 million years of their lives, quasars can control the energy output of their galaxies," Richstone of the University of Michigan noted.
That said, the radiation emitted by quasars may even help other stars to be born, although this is a more complex process.
A quasar may even stir up the galaxy in which it is located. The high-velocity matter they eject with great energy can eventually sweep galaxies, eventually forming other powerful shock waves, and may also help form other stars, and eventually even change the shape of galaxies. Difference Between Quasar and Black Hole.
Quasars and black holes are completely different. Quasars are shaped like stars but not stars, the spectrum is like nebulae but not nebulae, and the radio electricity emitted is like galaxies but not galaxies, so they are called quasars. It has a large redshift, even exceeding the speed of light, and it emits enormous amounts of energy, generally appearing at the edge of the visible universe.
A black hole is a celestial body with so much guiding power that even light cannot escape its gravitational pull, and it can devour all objects that come close to it.
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There are countless large black holes in the universe, which are constantly devouring other planets, and they have the power to fight against them. When the gravitational pull of a celestial body is so strong that light cannot travel beyond its surface at a speed of 300,000 kilometers per second, the appearance of the object must be completely black. The idea dates back to the time of Isaac Newton, who did not believe in objects with such a strong gravitational pull, so until the advent of Albert Einstein in the late 19th and early 20th centuries, dark stars were an unconfirmed speculation.
Current research shows that any matter will be torn apart by the gravitational pull of the black hole before entering the black hole, and then cross the event horizon and disappear completely in the universe, and the matter and the information contained in it cannot escape the gravitational pull of the black hole well, only the Hawking radiation can theoretically also be used to make the mass of the black hole, but the higher the mass of the black hole, the weaker the Hawking radiation tends to become, so the lifespan of a normal natural black hole is hundreds of thousands or even millions of years.
<> 1916, Albert Einstein, who was already famous for his special theory of relativity, incorporated gravity into his theory of relativity and used this as an opportunity to publish the general theory of relativity, which perfectly solved the problem of the failure of the law of gravity in a strong gravitational environment and close to the speed of light. Thus, newspapers at the time reported that Einstein's general theory of relativity, "a new theory that breaks Newton's law of universal gravitation", was a victory for German scientists.
But knowing a little scientific spirit did not overturn Newton's gravitation, general relativity is an enhancement of the law of gravitation, or a patch version, in daily life and within the solar system, the law of gravitation is still valid, only in a few cases, it is necessary to use general relativity. The "exception" is the black hole, which is a singular object derived from a "dark star", but only deduced in the general theory of relativity.
It was calculated on the battlefield by the German scientist Schwarzschild, and a few years later it was widely accepted by the scientific community. First shot in 2019. For example, it is the most massive and powerful celestial body in the universe, and the singularity inside the black hole is another place where physics fails after the big ** singularity.
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