Chapter 580: Chapter 581 Star Resource Developnt Mission (4)
Gravitational rings, such a term that has never been heard of, appears in the channel where collectors communicate. Basically, except for the individual proposers, no collector can understand what this ans - can gravity be bent into a ring?
In fact, this is indeed a newly created term, and when the proposer thinks of this idea, he nas his own idea by the way.
What does the gravitational ring an? Is there any way to bend gravity into a ring?
The proposer of the individual inquiry sche, no individual can figure out what to do. Gravity is the four basic forces, but it is different from the electromagnetic force. It is not sothing that can be shielded if you want to shield it, let alone a force that is easy to manipulate.
Not to ntion bending gravity into a ring, it is necessary to bend the field source of gravity into a ring. That's fine, but the problem is that the gravity of this ring is very strong, and it is likely to be a black hole bent into a circle. What should such a project do? The collectors only felt confused and unimaginable.
The proposer of the plan gave his answer confidently.
"Yes, I just have a way to bend gravity into a circle, and the gravity generated by this structure is enough to overco the stellar gravity and directly extract the internal plasma matter."
"How to do it? Do you want to make a strange ring?!"
If this is the case, all collectors will not agree with this sche. A spherical black hole is already very difficult to control, and they still try to control a strange ring? That's purely looking for death.
The so-called strange ring is a special black hole. After the black hole is reduced, all matter will shrink into a singularity. After the black hole rotates, the singularity will form a strange ring. In so black holes with ridiculously high rotation speed, the centrifugal force is greater than the gravity of the black hole, and the inner strange ring will expose the ** horizon of the black hole.
Of course, this is a mathematical and physical solution. The bare strange ring is sothing that exists in theory, and at least the collectors have not observed such an extre celestial body.
And this makes it more firm that collectors will not consider adopting the strange ring sche - this is not the case for death.
"Why do you always think of black holes? You should be more open-minded so that you can better engage in the ntal work tasks of the ethnic group.
The proposer stated that his idea had nothing to do with the strange ring, or even with the black hole, which aroused the strong curiosity of the collectors.
"If you don't use a black hole, what do you use? It is more difficult for us to make stars such as neutron stars, let alone pull neutron stars into a ring.
Black holes are easy to make. Many antimatter wrapped in dense matter is a black hole bomb. When thrown into more materials, a black hole is ford, but neutron stars are different. The material of neutron stars is not like black holes, which can expand their shape like snowballs. These neutrons are losing their high-pressure environnt. After that, there will be a violent nuclear explosion, and the hydrogen bomb of other weight cannot match its power, so it is a little lower than antimatter.
If the collectors want to create a neutron star, they can only find a supergiant, and then constantly inject antimatter into the supergiant to heat up the internal nuclear reaction, accelerate the death of the star, regulate the mass of the supergiant, and form a neutron star at the final contraction - just listen to the description, this is a An extrely large amount of work.
"I think so because you don't know enough about ti and space, and you know too little about relativity."
The proposer felt that he should start from the most basic principles for his peers. In this way, they can understand what their ideas are.
"In order to understand better, I will start from a simple beginning - any matter in the universe will inevitably cause the distortion of ti and space as long as it exists."
"Any substance is fine? What about 'light'? Can it also cause space-ti distortion?
"Yes, the mass-energy formula equates energy with mass. Mass can distort ti and space, and energy can also be used. So does a beam of light contain energy? The answer is obvious. The proposer's answer is very positive.
"But we have never observed a beam of light shrinking into a black hole..."
"This involves another question, but this is not what we are going to talk about now. We are going to talk about 'mass'. What is your most intuitive impression of transstellar navigation?" The proposer asked.
Following the questions of the proposer, the collectors fell into their own mories.
"I crossed a long distance at once..."
"Star rainbow phenonon..."
"I feel that my ti is slowing down, and it can also be understood that the ti of the outside world is accelerating. In short, it's wonderful..."
...
Everyone's answers are variety, but they can be roughly classified as the ruler shrinkage effect and the star rainbow phenonon.
"This is the distortion of space-ti. The distortion of space-ti brings light together at one point. This is the star rainbow phenonon." The proposer further asked another question, "But here cos the question. Has the quality of you on the voyage increased? Is there a self-condened black hole?"
Of course, the answer is no, otherwise none of the collectors in this star system will survive - the minds of the collectors will suddenly broaden their minds.
"So dynamic mass can also cause space-ti distortion and produce gravity?" There is an individual question.
The proposer replied, "Yes, that's it. In fact, nearly 90% of our own mass is dynamic mass, which cos from the high-speed vibration of microscopic particles."
"Where does the vibration of these particles co from? What is their energy source?
So individuals don't understand why microscopic particles can vibrate continuously to maintain macroscopic quality?
The proposer gave the answer, "It is the Big Bang, the energy obtained from the Big Bang, and then vibrates until now."
"Will they stop vibrating? More than 10 billion years have passed.
Many collectors couldn't help but be surprised. In order to facilitate understanding, the proposer began to give examples to explain the vibration of particles in a more vivid way.
"Then who will interfere with the particles to weaken the vibration of the particles? It's like the temperature in a system. If you want to reduce the temperature, you need a low temperature to lower the high temperature. If the system is all high temperature, the system will only maintain a high temperature forever.
"Isn't there still thermal radiation?" There is an individual question.
"I'm giving an example! Don't stop!"
This is just for the convenience of understanding. If you directly apply heat, there are still so inappropriate things. After all, thermal radiation will cause the continuous loss of thermal energy of substances.
"Oh..."
After so explanation, the collectors have basically understood that the basic principle of the idea of the proposer of the sche depends on the dynamic mass to replace the gravitational action of the static mass black hole. Next is the topic.
Many individuals asked the collector, "Well, we roughly understand the principle of the gravitational ring you ntioned. You plan to use dynamic mass to achieve the generation of strong gravity, but how do you design it?"
Reviews
All reviews (0)