How can one use the endless black hole?

Man will one day go out of the solar system and explore the galaxy. Then can we use the endless black hole for your purposes? Scientists have attractive offers.

One day, humans lived in the cave and were only satisfied with being alive. However, it has now come to the point where we have a trip to Mars, and then it comes to other planets and moons of the solar system. Scientists also increase our need for energy as human civilization grows. Finally, one day we will have to even use black hole energy. Is this an idea?

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Different ways to inhibit and use endless black holes

Scientists have now put forward two options to provide the energy of the great human civilization in the future. We mean, of course, when man has been able to control all the energy sources of the earth and to control the energy resources available in the Milky Way. Some people think that the best way to build Korea is around a star. The energy received from a star certainly seems to be sufficient for human needs; But the Dyson Korea will have many challenges.

Dyson’s Korea is actually a hypothetical structure that can receive most of the star’s energy. We have not yet been able to find any signs of Dyson’s Korea in the world. So either there is no type 2 civilization on the scales in the universe or they think Dyson’s Korea is not a good idea. This is where the idea of ​​using black hole energy comes up.

The process of peproof to inhibit the black hole

The first time a prominent physicist named Roger Peproz came up with the idea. He said that man can use the energy of a rotating black hole for his purposes. First of all we have to bring an object to the black hole orgosar. The orgosphere is slightly outside the event horizon. In this area, everything spins around the black hole axis; But it is still possible to escape its terrible gravity.

In this area the mass is accelerated and part of the black hole. The idea is known as the Penroz process. We will need negative energy to save the mass from the black hole. Otherwise we have only reinforced it instead of using black hole.

Now imagine that after very precise calculations we have entered the orgosphere area. At the very beginning of the particle, the particle becomes two parts. One is absorbed by the black hole and the other moves to a distant point. Due to the large density of the black hole, the absorbed part can have negative energy.

Paprus calculations showed that in this position the piece escaped from the black hole would have more energy than the captive piece. Has the Energy Stability Law been questioned? No! The absorption of the particle with negative energy reduces the mass-energy of the black hole, which means slowly reduces its rotation. Simply put, we have been able to extract part of the black hole.

Approaching the black hole with a high-end-of-the-germ process

There is another way to use black hole energy. This method is known as the Taliban-Zonics process. A spiral path is created when the gases of the gases are raised in the black hole. In this way, the fictional friction of the gases will reach millions of degrees of Kelvin. The same high temperature is sufficient to ionize gases (converting it to plasma with a sea of ​​positive ions and negative electrons).

Severe turbulence of pregnant particles causes turbulent magnetic fields. Fields that eventually throw the plasma out at a speed of light at the speed of light. If we live on one of the planets near the black hole, we can get the energy in the plasma jets with our advanced equipment.

Aura -stimulant

The third way to use black hole is to mean a halo stimulus. This idea has just been introduced and has significant advantages over other methods. First of all, we no longer have to send a particle into the black hole. Second, we will also need negative energy.

When the light passes through a gravitational well, it gets some energy. Since light moves with the maximum possible speed in the universe, it cannot increase its speed. Instead, after entering a gravitational well, we see an increase in light and blueness frequency and when leaving redness. The same idea is also introduced in the concept of stimulants for the use of black hole.

The idea is very simple. We send a light beam to a high -speed black hole. We then use a light that gets more energy and hydrate to accelerate the spacecraft. The use of a rotating black hole causes the kinetic energy to be transmitted to the light beam. Light not only accelerates the spacecraft, but also increases its energy.

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Theoretically we can even reach 2 % of the black hole speed, which means that it may even be up to 5 % of the speed of light. Keep in mind, of course, that all of this works on paper. We have not yet been able to get out of the solar system, and we certainly have no ability to reach the nearest black hole to Earth. Because even with the fastest human -made spacecraft, we have to make 1.5 million years.

Challenges of using black hole energy

The idea of ​​using black hole’s energy looks so attractive; But there are many challenges. First of all, we need to be able to find a way to go too far from the world to the largest black holes in the world. Second, we need to have a very advanced shield for our spacecraft to survive against the extreme and dangerous beams around the black hole.

Another problem is how to inhibit and use black hole. The energy thrown from the black hole is very scattered and powerful. We can’t even inhibit its lightning energy, are we thinking about blocking the plasma jet from a macro -black hole?

Finally, we need to get close to it to use the black hole. In such a situation, the slightest mistake would mean the death and destruction of the entire mission. Looking at the problems ahead, it seems that the use of star energy may be a more reasonable option for now.