"Within the compressed space, the principle of speed invariance!"
Zhao Yi began his explanation very seriously, because the principle of speed invariance is the foundation of understanding space compression.
This foundation had not been given due attention previously.
This was mainly because the mathematics and physics related to space shuttles were overly complex, involving many derivations, as well as analyses of spatial particles. The theoretical team had always been summarizing related content, but due to the involvent of very complex mathematical and physical problems, even including difficult-to-understand spatial analysis, they simply couldn’t keep up with the pace of research and developnt.
The question raised by Academician Yuan Qiming made Zhao Yi think of the speed invariance in compressed space, because it involved the direct principles of experintation, he knew he had to explain clearly.
He said, "The invariance of speed within a compressed space ans that the mont space is compressed, the velocity of all particles and matter inside is fixed."
"During the period when space compression is sustained, the velocity of all matter within the covered area remains constant due to the unusually high spatial density."
"Think about this question," he continued.
"There are two asteroids in space, and the space between them undergoes thousands or tens of thousands of tis compression. Normal physical logic would say that their distance should beco infinitely close."
"But in reality, this is not the case. It’s not due to inadequate coverage of space compression, but because space is a whole. In fact, one might say, the entire universe’s space is a whole."
Zhao Yi nodded emphatically, glanced at everyone, and continued, "In cosmic space, there is no difference in location, distance, or direction. That’s why Spatial Connection Technology exists. Even if it’s tens of thousands or billions of light-years away, the space is connected to this room we are standing in."
"The space millions of light-years away is no different from the space we are in or the next room."
"It’s only relative to matter that differences in distance and direction arise."
"The space compression area can be understood like this: imagine a bubble in water."
"Undoubtedly, the bubble is pressurized by the surrounding water. If the bubble’s structure is soluble in water, then it will burst sooner or later."
"However, while the bubble is intact, its physical properties differ from those in water."
Zhao Yi gave an example and then said, "With space compression, it’s the opposite, because the spatial density within the compressed area is much higher than outside. The state of particles being squeezed ans their particle reactions are rapidly magnified."
"This is why Z-wave can directly ignite uranium material with high abundance and also get absorbed by plasma for energy."
"Once the particle reactions are excluded, because they are in the process of changing states, their physical properties get fixed and are not influenced by external forces to accelerate or slow down."
"Within the compressed space area, the only thing unaffected are massless particles."
"Everyone knows that in anti-gravity areas, the maximum speed of particles is restricted. Space compression has the entirely opposite characteristic; the maximum speed of massless particles is enhanced by the sa ratio as the compression."
"This is the fundantal principle of space shuttle travel. Within the range of space compression, a spacecraft with the spatial shield activated, which won’t be impacted by space compression, is considered a ’massless particle’ and its speed is greatly increased."
Zhao Yi expounded all of this in one breath and then sat down, giving others ti to discuss.
Those who were able to participate in the theoretical study of the space shuttle experint were undoubtedly the top experts in the country. They already had a certain understanding of the principles of space shuttle experintation. After hearing Zhao Yi’s explanation, they imdiately ca up with many ideas.
They continuously discussed and expressed their own ideas to inquire of Zhao Yi. The convergence of many ideas brought Zhao Yi many insights.
In Zhao Yi’s understanding, the state of spatial compression has always existed in the universe but only around the edges of black holes.
Only black holes capable of absorbing space can continuously release Z-waves, affecting space to an imnse degree. Zhao Yi also brought out his own theory of the universe and discussed it with everyone.
Zhao Yi shared his own universe theory for discussion with everyone.
Many felt that they had gained a lot from the exchange.
At that mont, they suddenly realized that Zhao Yi was quite useful.
Although his explanations were not as ticulous as Zhang Qican’s, when it ca to core issues, it was Zhao Yi’s research, and his understanding was very clear, whereas Zhang Qican was much less competent, often unable to address key points.
Soon,
more than a month passed.
Zhao Yi had spent over a month at the Aerospace Bureau, discussing the space shuttle experint with a group of experts. Later on, he beca involved in the experintal preparations and inspected the newly constructed Z-wave device.
This dium-sized Z-wave device was very precisely assembled and wrapped in compressive material. The device itself used compressive material and ca with an energy storage chamber, with just enough energy to release one Z-wave, fully prepared for the experint.
After completing most of the work, Zhao Yi left the Aerospace Bureau for Zhengyang.
Phoenix Bay Industrial Park in Zhengyang, having been constructed, seed sowhat desolate. Over the past year or two, everyone had felt the area would beco barren. In so of the newly built factory spaces, weeds were everywhere, and they were basically neglected by people.
Reviews
All reviews (0)