Is it possible for a planet orbiting a black hole to have life?

There should be no possibility of life on the planet orbiting the black hole, because the black hole itself has a large magnetic field, and it is known that it is impossible to live and survive in this position, so it is impossible for life to exist.

Life is unlikely to exist because black holes have a particularly strong gravitational pull and are likely to destroy planets.

1 There may be life.

2. The temperature difference between the cold black hole and the residual radiation could be an energy source for distant civilizations, and the Czechs calculated that an Earth-sized planet orbiting a black hole could obtain an effective power of about 900 watts. That's enough to sustain life

Planets revolve around stars, stars revolve around the center of the galaxy, and at the center of the galaxy is entrenched a mysterious behemoth - a supermassive black hole. This is one of our common knowledge about the hierarchical structure of the universe.

But does it have to be this way? No! Planets can also form directly near the center of the galaxy and orbit the supermassive black hole at the center of the galaxy.

Astronomers have previously suggested that planets can orbit smaller black holes, but these black holes evolved from the collapse of stars, which planets have previously orbited, so this is not unusual. They know very little about whether planets can orbit supermassive black holes, which are millions of times the mass of the Sun. Recently, a Japanese team of researchers applied a planet-forming model to supermassive black holes to see what would happen.

Studies have shown that planets can also form around supermassive black holes, and that the process is much the same as the formation of normal planets around stars. While supermassive black holes, with their enormous mass and gravitational pull, can distort space-time, producing effects such as time dilation, planets orbiting them may not feel these effects, as they usually orbit 10 30 light-years from the black hole, where the effects of general relativity are negligible.

However, the planetary system formed in this way is still different from the normal planetary system. Due to the strong gravitational pull of supermassive black holes, the sphere of influence can extend far away, so the total amount of dust that can be controlled is huge, and the mass of the planet may also be huge, about 10 times that of the Earth. In addition, due to the large controllable range of gravity, it can "attract" more than 10,000 planets.

To have so many planets is beyond the reach of an ordinary star.

Planets are artificially named, and if the moon revolves around the sun, then the moon is a planet. First of all, the revolution is relative, the earth revolves around the sun, and the sun also rotates due to the gravitational pull of the earth on it, but because the sun is much more massive, the point around which it revolves is inside the sun, and at a very close point to the center of gravity, we can't see that it is rotating. And the mass of the Earth is larger than that of the Moon, so we can't see the rotation of the Earth due to the gravitational pull of the Moon, but if two celestial bodies have about the same mass, they will revolve around a certain point, and if this point is not inside any of them, then they are binary stars, such as Pluto and its moons, which are now two "dwarf planets" and are binary stars of each other.

So if a planet orbits a planet, then this planet is the moon of the planet it orbits, and if the planet is massive enough, then it and the planet that is orbiting are double stars.

Black holes don't revolve around the sun, they kill people.

First, a star like the Sun has a much smaller mass than a black hole, and it only takes its turn to revolve around the black hole, and secondly, if the black hole is less massive, then it will become a binary star with a star, such as a binary star system in the constellation Perseus (we can only see one of them) because the black hole is a star and has a mass comparable to that of a star. However, when a black hole is a supermassive star or a supermassive black hole formed by the merger of several black holes, it will roll away its binary partner and engulf it, releasing gravitational waves at the same time, thereby cleaning all the matter around it, and the star can only orbit on a farther scale. In this way, it will not follow the sun, 9, no, because the mass of the black hole is more than three times that of the sun, so only the sun revolves around the black hole.

1, no! ,1,No, because a black hole is a celestial body with the contraction and compression of the inner core of a star, and the mass of the black hole is much greater than that of the sun, and the universe is conclusive, only the small mass of the celestial body revolves around the large mass object. It is impossible to do it the other way around.

A black hole the size of a moon could pull the entire solar system into it. The mass of the entire solar system is inferior to that of a black hole the size of a moon. ,0,

Using the Atacama Large Millimeter Submillimeter Telescope Array (ALMA), scientists observed a process similar to the formation of the early solar system. First, the gas and dust collapse under their own gravitational pull, forming stars. Over time, the disks of gas, dust, etc., around the star condense into larger clumps, which then condense into planets.

<> Japanese astronomers have proposed that gas and dust are not unique to young stars. The black hole at the center of the Milky Way galaxy also has a large amount of gas and dust around it, and the mass of the black hole can be billions of times that of the original astrolabe. A dark, cold, supermassive black hole like the one at the center of the Milky Way galaxy could also be an ideal place to give birth to planets.

What is a supermassive black hole? A black hole with a mass of more than a million times that of the Sun is considered a supermassive black hole. A supermassive black hole can dominate all objects in its galaxy, and its gravitational pull is very strong.

When it comes to the formation of supermassive black holes, modern studies have shown that it is likely to be a precursor to relativistic stars with hundreds of thousands of times the mass of the Sun, as their inner cores become unstable and shrink directly into black holes. It was found that the planetary formation around the black hole was similar to the formation of star systems.

The formation of ice and the condensation of more gas and dust, among other things, are key conditions for the formation of planets. Dr. Wu said that the gas in the disk around the black hole gets hotter the closer it gets to the black hole, but at a certain distance, it becomes cold enough that some of the water turns into ice. For a supermassive black hole located at the center of the Milky Way, which has a mass 4 million times that of the Sun, it is calculated that the distance from the black hole is about 10 light-years enough for dust, water and other gases to condense to form planets several to thousands of times more massive than Earth, the so-called black hole planets.

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Mainly because of the changes between the universe and the movement between the planets, the speed of the planets is formed, and the planets will move according to the situation of the black hole.

It's because there is a lot of gas and dust around the black hole, which spins around the universe and then gives birth to a new star.

These planets are usually born from nebulae, and these black holes are surrounded by gas and dust, which can then give birth to planets.

According to the knowledge I have gained, there are several main reasons why planets cannot form black holes:

Planets are celestial bodies made up of gas and dust that come together through gravitational interactions. Whereas, black holes are formed by the collapse of stars with sufficient mass after death, and they do not contain any matter, so it is impossible to form a black hole. Pi Xianbu.

A very large mass is required for the formation of a black hole, and the mass of the planet is too small relative to the star, so it is impossible to form a black hole.

In summary, the reason why planets cannot form the burning ears of black holes is mainly because they are not massive enough to form black holes.