How the Zergs were Made

Chapter 580 Stellar Resource Development Mission (3)

"You want to create a supernova explosion?"

Even the collectors with such nerves immediately felt that the individual who proposed this plan was mentally abnormal.

"No, no, we can use the magnetic field to deflect the stellar matter captured by the black hole's gravity, so that the mass of the black hole will not continue to increase."

The proponent of the plan hastily explained his idea. According to its idea, the black hole is never in direct contact with the star because of the centrifugal force of its revolution, but the gravity of the black hole can pull out the matter in the star. This situation is rare in the universe. Very common astronomical phenomenon.

It can even be said that most of the black holes observed by the collectors through remote observations are "they" that are eating stars and showing their traces, otherwise it is really difficult to find "black" such as black holes in the background of the universe.

"What if the black hole singularity erupts?" Some individuals questioned.

"Don't worry about the singularity explosion. The mass of a black hole is directly proportional to its lifespan. The greater the mass, the longer the lifespan. As long as the black hole can reach the mass of a star, the time it takes to evaporate to the point where it cannot maintain its own form, at least in units of billions of years."

Regarding this problem, the proponent of the plan has long thought of a solution. The time of hundreds of millions of years is completely enough for the collectors to do anything. far away.

"Where does the mass of the black hole come from?" Another individual asked.

"Obtained from the star, its mass is readily available. We only need to be responsible for creating such a black hole, and let it move around the star in an elliptical orbit. At perihelion, it will absorb a large amount of stellar matter, and at aphelion No, this can control the matter absorbed by the black hole to a certain extent."

"But as the mass of the black hole increases, this orbit will become smaller and smaller."

Some individuals are worried that the black hole will get out of control. As the black hole swallows more matter, its own mass will also increase. If it swallows a large amount of stellar matter at perihelion, and the black hole is relatively close to the star, it is very likely that it will just fall into it. inside the stars.

"That's why I said that it is only a certain degree of control, which also needs to be combined with another part, that is, to create a circle of stellar ball-like structures outside the black hole, because the black hole is small, so there is no need to build a large scale. structure, the electromagnetic force at the microscopic scale can play a role."

The proponent of the plan explained his own ideas, which is also the most important part of his plan, that is the magnetic deflection device for stellar matter. The deflected stellar matter will be imported into another device to cool down and slow down. After the temperature and speed drop, these stellar matter will become the matter that can be used by the group.

This is how it came up with a flash of inspiration to directly mine the matter in the stars!

"Is this possible?"

Many collectors are confused, because this plan involves black holes, which just sounds unreliable. After all, the first impression of black holes to collectors is often - stay away when you see them.

"It's not feasible at all." Some objectors stood up.

"It's back to the original question. The tumbling motion while rotating will cause the tearing of the sphere. Under the strong gravitational force of the black hole, this tearing effect will only be more obvious than that on stars."

In response to this problem, the proposal proposer explained his own thinking. It also thought of the problem of tearing the sphere, so it planned to use another shape to deal with the gravitational problem of the black hole.

"We can use the structure of the triangular pyramid to disperse the gravitational force, so there will be no problem."

Therefore, the structure is small, and the role of electromagnetic force becomes obvious. Using the electromagnetic force in the material, the gravitational force of the black hole is divided into three forces, and transferred to the part with strong centrifugal force for bearing, instead of directly relying on the part with weak centrifugal force part against the gravity of the black hole.

"Instead of a spherical structure, use a triangular pyramid?"

The doubters are a little confused. According to the physical model, the triangular pyramid is not a suitable structure for star construction. The proposer of the proposal should not be stupid enough to make such a mistake. It still feels that it is necessary to ask clearly to avoid misunderstood. up.

Sure enough, the proponent of the plan re-explained what he wanted to express, not a triangular pyramid structure, but a 32-hedron structure.

"No, I intend to adopt a 32-hedron structure. The general structure of a sphere is still in the state of the most uniform force, but the uneven local force caused by rotation needs to be compensated by other methods. The method I think of is Spread the force on this structure and share it to other areas with stronger forces..."

In such a structure, the 'edge' of the 32-hedron will share the force of the 'surface'. As long as this point is cleverly used, the gravity of the black hole can be shared and transferred to the part where the centrifugal force is strong enough.

However, even so, there are still individual objections.

"I object!"

"Why?" asked the proposer.

Opponents state the reasons for their opposition.

"The risk is too great. An extreme celestial body such as a black hole has an extremely terrifying mass and density. During the construction process, as long as its orbit value has an error of even one thousandth, it may cause it to fall into the star. In terms of orbit control, it is very difficult for us to control how the black hole that absorbs a large amount of matter should move, because the mass is too large, and the energy required to push such a star is beyond imagination."

"Every link is too ideal. It is impossible for us to completely avoid accidents. Your plan is too low in fault tolerance and is not applicable to reality."

Being opposed by other individuals so casually, it is naturally impossible for the plan proposer to be convinced. At least the current plan is the closest to the mission goal. A more perfect solution to replace it is produced.

"Then you have a better way?" asked the plan proposer.

"Yes." The opponent replied.

"What is it?"

"It's still the same gravitational attraction method as yours, but I don't use black holes."

The opponent's information caused other collectors to be very puzzled.

"What do you use if you don't use a black hole? Use other stars? That would be more difficult to control. At least the black hole is small enough, and other stars will have to enlarge their structure due to their size, and their strength will decrease. If it is a neutron star, then it has nothing to do with a black hole." It's not really that different, and it's not as easy to make as a black hole."

The opponent replied, "No, no, no neutron star, that is too extreme, I plan to use the gravitational ring."