How the Zergs were Made

Chapter 581 Stellar Resource Development Mission (4)

Gravitational ring, such a term that has never been heard before, appears in the communication channels of collectors. Basically, except for the individual proposer, no collector can understand what it means—could gravity be bent into a circle? ring?

In fact, this is indeed a newly created noun. When the proposer thought of this idea, he named his own idea by the way.

What is the gravitational ring? Do you still have a way to bend gravity into a ring?

None of the proponents of the individual inquiry plan can figure out what to do. Gravity is the four basic forces, but it is different from electromagnetic force. It is not something that can be shielded if you want to shield it, and it is not such a force that can be easily manipulated.

Not to mention bending the gravitational force into a circular ring, it needs to bend the source of the gravitational force into a circular ring, which is fine, but the problem is that the gravitational force of this circular ring must be very strong, and it is likely to be a A circular black hole, how to do such a project? Collectors just feel confused and unimaginable.

The proponent of the plan gave his answer very confidently.

That's right, I just have a way to bend the gravity into a ring, and the gravity generated by this structure is enough to overcome the gravity of the star and directly pull out the internal plasma matter.

How to do it? Do you want to create a strange ring?!

If this is the case, all collectors will not agree with this plan. A spherical black hole is already very difficult to control. How about trying to control a strange ring? That's purely courting death.

The so-called strange ring is a special kind of black hole. After the black hole collapses, all matter will collapse into a singularity. After the black hole rotates, the singularity will form a strange ring. The centrifugal force is greater than the gravitational force of the black hole, and the inner strange ring will expose the event horizon of the black hole.

Of course, this is a solution in mathematical physics, and the naked strange ring is something that exists in the theory, at least the collectors have not observed this kind of extreme celestial body.

And this also makes it more determined that the collectors will not consider adopting the strange ring plan-looking for death is not like this.

Why do you always think of black holes? You need to be more open-minded, so that you can better engage in the mental work tasks of the group.

The proponent of the proposal declared that his idea had nothing to do with strange rings, and even had nothing to do with black holes, which aroused the strong curiosity of the collectors.

If you don't use black holes, what's the use? It's more difficult for us to create stars like neutron stars, let alone pull neutron stars into a ring.

Black holes are easy to make. A lot of antimatter wrapped in dense matter is a black hole bomb. Throw it into a place with a lot of matter, and a black hole will be formed. But neutron stars are different. The matter in neutron stars is not like black holes, which can snowball. Expanding the shape, these neutron-degenerate matter will immediately undergo a violent nuclear explosion after losing the high-pressure environment. Hydrogen bombs of equal weight cannot match it, and it is also lower than antimatter.

If collectors want to create a neutron star, they can only find a supergiant star, and then continuously inject antimatter into the supergiant star to heat up and accelerate the internal nuclear reaction, accelerate the death of the star, regulate the mass of the supergiant star, and finally collapse When a neutron star is formed - just from the description, it is known that this is an extremely large amount of engineering.

You think so because you don't know enough about time and space, and you don't know enough about the theory of relativity.

The proponent of the plan feels that it is better to start with the most basic principles for his fellows, so that they can understand what their idea is.

In order to understand it better, I'll start with a simple one—any matter in the universe, as long as it exists, it will inevitably cause space-time distortion.

Any matter is fine? What about 'light'? Can it also cause space-time distortion?

Energy, the mass-energy formula equates energy and mass. Mass can distort space-time, and so can energy. So does a beam of light contain energy? The answer is obvious. The proposal proposer answered in the affirmative.

But we have never observed a beam of light collapsing into a black hole...

This involves another issue, but this is not what we are going to talk about now. What we are going to talk about is 'mass'. What is your most intuitive impression of interstellar travel? asked the proposal proposer.

Following the question of the plan proposer, the collectors fell into their own memories.

Swish to cross a long distance...

The starbow phenomenon...

It feels like my own time has slowed down, and it can also be understood as the time of the outside world has accelerated. In short, it's amazing...

...

Everyone gave a variety of answers, but they can generally be classified into two types: the scaling effect and the starbow phenomenon.

This is the distortion of time and space. The distortion of time and space gathers light at one point, which is the starbow phenomenon. The proposer of the proposal further asked another question, But the question is coming, you who are sailing, has the mass increased? Is there a self that collapses into a black hole?

The answer is of course no, otherwise none of the collectors in this star system would be able to survive—the collectors' thinking suddenly broadened.

So the moving mass can also cause space-time distortion, and can also produce gravity? Someone asked.

The proponent of the proposal replied, That's right, that's what happened. In fact, nearly 90% of our own mass is dynamic mass, which comes from the high-speed vibration of microscopic particles.

Where do the vibrations of these particles originate? What is their energy source?

Some individuals don't understand why the microscopic particles can continue to vibrate in order to maintain the quality of the macroscopic scale?

The proposal proposer gave the answer, It is the Big Bang, the energy obtained from the Big Bang, and then it has been vibrating until now.

Won't they stop vibrating? It's been over ten billion years.

Many collectors couldn't help being amazed. In order to facilitate understanding, the proposal proposer began to give examples to illustrate the vibration of particles in a more vivid way.

Then who will interfere with the particles and weaken the vibration of the particles? Just like the temperature in a system, if you want to lower the temperature, you need a low temperature to pull down the high temperature. If all the systems are high temperature, then The system just stays hot forever.

Isn't there still thermal radiation? Someone asked.

I'm giving an example! Don't interrupt!

This is just for the convenience of understanding. It is still somewhat inappropriate to apply heat directly. After all, thermal radiation will cause the continuous loss of heat energy of the material.

oh……

After some explanations, the collectors have basically understood the basic principle of the plan proposer's idea, relying on the dynamic mass to replace the gravitational effect of the static mass black hole, and the next thing is the topic.

Among the many individuals, a collector asked, Okay, we roughly understand the principle of the gravitational ring you mentioned. You intend to use the dynamic mass to realize the generation of strong gravitational force, but how do you design it?