The gravitational pull of a black hole is so great, can it be an energy source in the future?

I don't think it's impossible, because there are so many unknowns in black holesAnd there's a lot of energy. As long as people's technology develops to that extent, it will definitely become energy. We are very strong.

Millions of years ago, the rapid development of human civilization was inseparable from resources, especially with the development of science and technology, the demand for energy is also increasing. The main energy source we have access to now is chemical energy, which is basically a non-renewable energy source that was formed by the Earth over billions of years. When we run out, there are none.

If human civilization wants to develop rapidly and gradually become a powerful civilization in the universe, it must have a steady stream of energy, and the quality of energy must also be continuously improved.

For example, controlled nuclear fusion, antimatter, or dark energy, only more and more powerful energy can make human civilization stronger and stronger, and allow humans to explore the distant starry sky. The universe is vast, with countless celestial bodies and mysterious things. In the same way, the universe is a treasure trove of endless energy.

Many scientists suspect that extraterrestrial civilizations may allow us to build a Dysen sphere to harvest energy from stars.

It doesn't matter if you're a powerful star, or a photon or an electron, as soon as you enter its horizon, it's swallowed up by it. The celestial body of the universe is itself an energy body, such as a star. Could a powerful and mysterious black hole be an important energy source for the future?

The energy of black holes has not only appeared in science fiction movies, but has also been proposed by many scientists. In the eyes of scientists, such a powerful energy is the super-powerful energy core in the universe. If we could harness the energy of black holes, human spacecraft could reach or exceed the speed of light.

Some scientists have proposed using the Hawking radiation discovered by black holes to generate electricity.

We have always believed that in the future, mankind will become an advanced civilization in the universe and will be able to develop in the universe for a long time. Moreover, this is the dream of mankind. We hope that humanity will realize our dreams as soon as possible!

I don't think it's impossible, because there are so many black holes that are unknown, and they have a lot of energy.

I think the future can definitely become energy, and we humans are very powerful.

I think it will definitely develop into energy in the future, because the development of technology is very fast.

I think it's possible, as long as people's technology develops to that point.

<> for example, after the moon approaches the earth at a certain distance, due to the mass of the earth.

Big, the earth swallows up the moon. But if the moon becomes a black hole, when it gets close to the earth to a certain extent, the black hole slowly swallows the earth, because the attraction of the black hole is much greater than the binding force between a small part of the earth and the earth as a whole, and the black hole swallows the earth little by little. This is because the gravitational force depends not only on the mass, but also on the distance between the two objects.

If a black hole has the same mass as a supermassive star, then their gravitational pull should also be equal. However, because the former is massive and the body is small, it is not too far away from the black hole in the place where it can attract photons tightly, so the light cannot escape. Super-large perseverance, on the other hand, has a large diameter, much more than the distance its gravitational center can "catch" the photon, so it can continue to emit light outward.

Stars collapse into black holes, which is a fundamental error, stars are energy objects, black holes are energy-deficient objects, and the huge gravitational pull of black holes is missing energy, so energy needs to be filled.

Black holes come from the universe.

After that, there is a cosmic pit (lack of energy), which is the cosmic black hole,,, don't look at their fanciful explanation, this problem Einstein.

It's also hard to explain, because at present, human beings still don't know anything about black holes, and all theories are idealistic and take it for granted! Only when humans have a substantial understanding of black holes will these problems be solved. In a short period of time, mankind will not be able to study black holes substantially, unless new physical theories are born that allow mankind to break through the theory of relativity.

limitations! The mass of stars and black holes is stable. When a star becomes a black hole, the gravitational pull becomes less because the mass decreases.

But the gravitational pull of a black hole is stronger than that of a star. To put it simply, it is the difference between a child's powerful black hole and a big star! In fact, no one knows what a black hole is, and scientists are also guessing "scientifically" there.

So, I also guess that the original star was so large that it took up a lot of space and "squeezed" the matter to the side. After suddenly collapsing into a black hole, it is equivalent to a relatively "vacuum" space suddenly appearing, so the matter "slides" back, which is the gravitational pull of the black hole.

The main reason is that the mass of black holes is particularly large, and the mass of black holes is greater than the mass of stars.

Because some of the substances in it are in a state of extrusion, there will be a lot of gravitational pull, which has a lot to do with its formation.

The reason for the occurrence of gravitational force (brief description): When the high-energy particles moving in the universe pass through matter (celestial bodies or particles), part of them are intercepted and absorbed to form a weak energy region (Einstein's space-time curvature), which is the gravitational range mv2=e=mv2 (the formula of the law of conservation of energy conversion). For more details, please see the forthcoming gravitational hypothesis, "Elemental Periods and the Causes of Gravitation".

This is because the black hole is a bottomless place, and the volume of this place is relatively small, so the density is also relatively large, so the profit is also very large.

There are some conservation laws in it, and there is a limit to gravity. The volume is infinitely small, but the mass inside can be said to be infinite.

Chan's Model of the Universe: This is the same principle as steep and gentle slopes.

The gravitational pull of a black hole is extremely strong, and it is currently the strongest known celestial body in terms of gravitational field. The gravitational pull of a black hole is mainly determined by its mass, and the greater the mass, the stronger the gravitational pull. The gravitational pull of supermassive black holes can even distort space-time and relativistic effects.

Several characteristics of the gravitational pull of a black hole:1Extreme gravitational pull at close range.

When an object approaches a black hole, it is pulled by a strong gravitational pull. For black holes and stars of the same mass, the close gravitational pull of a black hole is much greater than that of a star, because the mass of the black hole is concentrated within the singularity. Nearby stars can be torn apart by black holes.

2.The gravitational gradient is extremely large. The gravitational gradient near the black hole is very large, and objects are pulled by huge gravitational changes over extremely short distances.

This intense gravitational gradient can tear apart objects and heat them to extremely high temperatures, resulting in extremely bright X-rays. 3.The space-time distortion effect is strong.

The strong gravitational pull of supermassive black holes can significantly distort space-time, producing strong space-time curvature, and inducing many relativistic effects such as gravitational lensing and frame dragging. 4.The gravitational pull of supermassive black holes is super-strong.

The gravitational pull of super-large trapped black holes, such as those with masses above a million suns, far exceeds the gravitational pull that any known matter can generate. In the vicinity of these black holes, gravity has become so strong that it distorts space and time itself. The gravitational strength of a black hole is often described in terms of its surface gravitational acceleration (g).

For a black hole with solar mass, g is about 64g; The 1 million solar mass black hole has a g of 6.4 billion g, which is far more than any object can bear; The 100 billion solar mass black hole has reached an unimaginable 1014g g, which can easily tear apart any foolish thing that knows what to do. It can be seen that the gravitational pull of black holes is really amazing. The various relativistic effects produced by the super gravitational pull of black holes have also brought many mysteries to physics, and have become the frontier topics of volume physics research today.