We've talked about accumulation before, so we'll talk about it again this time. I think there are three types of accumulation, solid accumulation, liquid accumulation, and loading accumulation. Each of the three types of accumulation has its own advantages, but the situation is not the same. However, there are always some commonalities in stacking. And I think it's important to discuss these commonalities. We discussed the peeling of corn kernels, and I had a question: is there a lot of force in the center or on the edges in the stacking? So, let's answer for me! Mizukawa said.

I'm analyzing solid accumulation, and my conclusion is that there is a lot of force in the center. Because the edge effect says that the yin edge is the least stressed, and the edge will continue to expand to the center. For example, if you take a book on a stack, the top one must be the best.

Don't you feel that the bottom book is the most stressed, Duenias?

I have not denied it. Note that the question is whether the force is high at the center or at the edges, and the bottom is not covered here. Therefore, my conclusion is not wrong.

However, I think that the pressure on the center will cancel each other out. Therefore, the force in the center is not as great as the force on the edge.

Liuzifeng is coming, which is easier to get a book from the center or from the top? Isn't it the top easy?

It depends on the situation. When you take a book from the middle, the pressure on the top and the pressure on the bottom are concentrated on the book in the center. In fact, the original balance of forces has been broken. After being broken, the pressure on it has to look for the force. The same goes for the pressure below. They all put pressure on the central book outward, which is why the central book is so difficult to get out.

Since we are talking about solid accumulation, we should talk about loading accumulation that is somewhat similar to it. In this case, I think it's just as big. Do you think it's counterintuitive? Actually, this involves the transmission of force. Undoubtedly, the crux of the matter lies at the edges. That's right, the edge does have more force than the center in the beginning. However, let's not forget about the transmission of force. When the edge is resisted, it is impossible to fight the resistance. According to the principle of lowest energy, the edge will inevitably disperse the resistance towards the center. As a result, resistance in all directions is transmitted to the center. At this point, the center concentrates the pressure created by too much resistance from the edges. Eventually, a stressful point of force is formed, and the point of force is unstable. Therefore, the central pressure is transmitted twice. In the process of continuous transmission, the force balance is gradually formed. In this case, the force on the center and the edge is naturally the same. Of course, there is a combination of load accumulation and solid accumulation. At this time, the force on the top is less than the force on the center. Liuzi Fenglai was extraordinary, and he spoke very freely.

Now, I don't have a choice. In that case, I'm going to talk about liquid accumulation. Few people are aware of the presence of liquid build-up due to the fluidity of liquids. Since liquids are fluid, build-up is unstable. Because of the edge effect, the edge force is the greatest. Throw a stone in the river and the edge will be affected very little. Why is there such a violent reaction from the center? In addition to being closer to the stone, it is not because the force experienced in the center is less than that on the edges. Alicia is the end.

Yesterday is still there, and the four of them are still the same.

Don't forget the physical mind and climb the mountain of knowledge.

Never care, single-mindedly for the truth.

As long as it can be correct, the hard work will not be in vain.

After Mizukawa finished speaking, the three of them were amazed.