Zhao Yi had completed the theory that in the presence of a spatial blocking effect, a magnetic field would absorb Z-waves released from space, and he was very certain that the theory was correct.
At the sa ti, a magnetic field without the spatial blocking effect would rapidly release absorbed energy, which was very likely to be the direct release of Z-waves.
The process of enhancing and then releasing a magnetic field would result in a significant loss of particle energy.
Particle energy is related to the principle of how a magnetic field is ford; for example, in the simplest case of a magnet, its original magnetic field strength would diminish because the internal particles forming the field would have lost so of their energy.
In the case of an electrically driven magnetic field, both the absorption and release process would consu electricity.
In fact, it is similar to the effect of an ordinary rechargeable battery. No matter what material the battery is made of, there will definitely be so energy loss during the charge-discharge process, and frequent use will greatly diminish the battery’s capacity.
The advantage of an electrically driven magnetic field is that it consus external electricity to maintain its operation, rather than depleting the materials that form the magnetic field itself.
Of course.
What is now essential is to conduct basic experints.
Mathematical theories, after all, are just that—mathematical. Their constructs are very complex, not as clear-cut as "1 1=2." The logical validity of particle mathematics can only suggest that the principle is likely to exist; specific data must be calculated experintally.
Zhao Yi was very confident that the principle was correct, but without the aid of experints, he was unable to determine the relationship between spatial blocking effects, Z-wave energy, and magnetic field strength. This specific data relationship is directly related to the problem of spatial analysis.
This experint is very important for the perfection of the theory.
Undoubtedly.
Dong Lihua was very interested in the experint, speculating that if Z-waves could be transmitted over hundreds of kiloters, he felt his blood boiling with excitent.
Z-waves were capable of triggering nuclear explosions; not only that, they could effectively destroy critically operating engines, with better results in those with more intense internal combustion.
If a fighter jet’s engine compartnt were hit by a Z-wave, it would directly cause a violent explosion.
Even if the fighter jet’s engine wasn’t hit, the outco wouldn’t be much better. Z-waves have a certain harmful effect when penetrating the human body, and if they penetrate operational circuits, the particle activity can be greatly enhanced, increasing the electrical current flow by tens or hundreds of tis and likely causing direct damage.
In short, there is no good outco for a fighter jet hit by Z-waves.
For anti-missile applications, the effect is also very good.
Any high-performance missile would have electronic and radar systems, and a high-energy combustion propeller at the rear; if hit by a Z-wave, it would definitely explode on impact.
If struck at the front, conventional missiles might fare better because Z-waves won’t react with unignited explosives. If electronic or radar systems are hit and beco inoperable or short-circuited, there won’t be an explosion. However, if a nuclear warhead is hit, experints have already proven that it will certainly detonate imdiately.
Of course.
A nuclear explosion hundreds of kiloters up in the sky is also quite frightening, with the resulting radiation affecting a vast area, spreading to the entire Earth, and possibly affecting the global climate. But whatever the case, hundreds of kiloters up in the sky is completely removed from the ground, far above the clouds, and the subsequent impact becos a global issue, which is much better than the result of a ground explosion.
Dong Lihua couldn’t wait to start the experint, but its planning and preparation took ti. Zhao Yi laid out the experintal requirents, and even listening to them, Dong Lihua felt quite frustrated.
Because the experint required two anti-gravity devices, and with the destruction of the third unit, they could only use the second and the much less efficient first unit.
The anti-gravity team was always building experintal devices; they had constructed the fourth and fifth machines, but due to the application of more advanced technology and the desire to see better-performing experintal machines, these two were continually being adjusted.
The previously used third machine was the main experintal unit, with very high performance and superior functions. High power was just one aspect; the third machine could achieve more than ninety-seven percent anti-gravity effects, hover five kiloters up in the air, and swiftly activate a spatial shield to release Z-waves.
The fourth and fifth machines had better performance but were still undergoing constant adjustnts and could not be imdiately applied to experints.
Experintal units are different from those sold comrcially.
The anti-gravity devices sold by Aviation Group to the public had very poor performance; even the top-end ones only supported standard hovering, and the efficiency of the high-energy beam arrangent inside was very poor. This resulted in the inability to activate the spatial shield at maximum power, let alone release Z-waves.
If one wanted to activate a spatial shield with a standard anti-gravity device, it was necessary to rearrange the high-energy beams, which required so theoretical support.
Increasing the power of the internal high-energy beams was one thod, but the effectiveness was very bad. This was mainly because the efficiency of the high-energy beam arrangent was low; generating 100 units of energy would waste more than 90 units.
For standard anti-gravity devices to activate a spatial shield without changing the high-energy beam arrangent, each high-energy beam’s power would need to be increased twenty-fold, and it would have to run at maximum power continuously for two hours, just to barely et the minimum requirents for activating the spatial shield.
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