Dragon Ball - King of Super Membranes

"Mr. Harrick, I also want to ask this question. This balloon originally only had a few hundred cubic meters. Even if not a single bit was exposed during the compression process, this little guy only had this little oxygen, which was consumed in our battle. The speed is simply terrifying. Hundreds of cubic meters of oxygen will be consumed in basically one or two seconds. This does not include the use of flames in water and the loss of air caused by other energy conversions. At this consumption rate, even if No matter how much we have on our body, we can't withstand the consumption. So besides allowing us to stay underground quietly for a long time, this thing has no other use."

"Do you really think that there are so many people on our planet who have not improved after so many years of study? You just said that the air in the ball is only a few hundred cubic meters. That is completely wrong. And what you just said about digestion I’ll tell you this about speed, a small ball like this in your hand can support you in fighting for a thousand seconds.”

"What?!" Xiaolang and I were both shocked. Little Wolf and I both stared closely at the little ball in our hands. "That means the air contained in this ball is hundreds of thousands of cubic meters?! But how is this possible? It can't be stuffed in!"

Harrick smiled, as if he had known we would ask this question: "If you think about it carefully, our ultimate goal is to have a layer of air wall, and then the air inside is compressed, and finally forms a wall that can't be controlled even if no one controls it. An exploding air balloon, right?”

Xiaolang and I both nodded, and I seemed to have grasped something. "The middle step... can be omitted?"

"It's really smart. The middle step is completely unnecessary. Just build a solid air wall directly. It won't explode, but the air inside won't increase."

"But I still don't understand, how can the air inside increase?"

"The middle step is to turn both the surface air and the inside air into a liquid state, and part of the surface air becomes a solid state, right? What happens when you turn the inside and outside air into a liquid state?"

"When the volume of objects inside decreases, a negative pressure will form." I said the most important thing.

"Yes, but there are still some minor problems. Even if there is negative pressure, it cannot reach a thousand times the amount. Why do some parts need to become solid first?"

I shook my head, I really couldn't answer this.

"The purpose of turning into a solid is to control the ball, because at this time you want the air inside to turn into a liquid, which will form a negative pressure, and the surface of you is liquid air, so it will squeeze in. But since there are still some solids on the surface, Solids are not sucked as fast as liquids, so the two are not at the same speed, there will be speed interpolation. And the part where I let you become a solid actually has a certain pattern, almost a complete spiral. Therefore , it will form a small white hole. But it is too small, you can’t feel it or see it, but it does exist. It absorbs a large amount of matter and hides it in the two-dimensional space. But when it When all the surfaces turned into a solid, the white hole naturally stopped. But the two-dimensional space cannot store so much air, so it had to be 'spit' out, but the air released was all gaseous air, and there was no way to break the solid air, so... …”

At this point, I have completely understood it, and I can't help but sigh that their method is really good. This also made me understand why the two compression methods have the same amount of air before compression, but the power released after compression is very different.

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