Mizukawa writes down molecules, atoms, neutrons, and quarks on paper: Do you think objects can be decomposed indefinitely?

Liuzifeng looked at Quark: Actually, it's a math problem. If so, how many infinitesimal particles are there? I think it's infinite. Even if the infinitesimal particles are small, can they fit so many tiny particles? Actually, that's another question. Is the universe infinite? Of course, the universe here is broad and narrow. When you think about it, the problem has changed again. We know that numbers are infinite, but what is the relationship between mathematics and the universe? There is a saying that art comes from life. And I would say that mathematics comes from the universe. Mathematics can abstract infinity, but is infinity the largest number in the universe? We know that the universe was a singularity before the Big Bang, that is, the density is infinite. Since there can be infinity in the universe, does this mean that the universe is infinite?

There is a great deal of controversy about whether mathematics is found or yin. If mathematics is discovery, then say that the yin universe is infinite. If mathematics is yin, the universe is finite. Maybe you can think it out in a different way. Man can think of the number as infinite and man in the universe. If the universe is finite, then how do we come up with infinity? There is only one conclusion, and that is that the universe is inherently infinite. Mathematics is just a discovery, and one day humans will be able to draw straight lines with a length of π meters. Now the problem is solved, objects can be decomposed indefinitely.

Dueñas nodded: I also agree that this is a mathematical problem, but it has to do with infinitesimals. We know that density can reach infinity, so can it reach infinitesimus? Is infinitesimal positive, zero, or negative? It is generally accepted that infinitesimal is a positive number, and it is greater than zero. From the particularity and correspondence of numbers, it can be seen that infinity and infinitesimal have a correspondence. Suppose r is infinite, then what is infinitesimal as small? One infinity of infinity. How to understand? r is 1000 and infinitesimal is 0.0001. That is to say, infinitesimal is transformed from infinity, and vice versa.

This is in mathematics, but what about in the universe? In the universe, infinity and infinitesimal have nothing to do with each other? Why? Because there are two infinities here. Aren't they all the same in infinity, and how can they be different? The objects of the universe do not satisfy the correspondence between each other and can develop freely.

Margarita looked angry: I don't know what you're talking about for a long time, I feel like your train of thought is confused.

I'm certainly looking at this mathematically, too. Actually, I'm going to talk about correspondence as well. If celestial bodies can become infinitely larger, then particles can decompose infinitely.

Mizukawa asked: I've never heard of a correspondence between celestial bodies and particles, and this must have been a fantasy of you, a mathematician, yourself. Are there triangles in mathematics, triangles in the universe?

Margarita continued: Didn't the six sons of the wind say it very clearly just now? There are no triangles in the universe, but we have them in our brains! If we are in the universe, doesn't that mean that there is one in the universe? Since there is correspondence in mathematics, why can't there be correspondence in the universe? I feel that celestial bodies can become infinitely larger, and particles can decompose infinitely. Is mathematics abstract? No, mathematics is the future, and the future will always become a reality. I have never been a mathematician, but I am a firm believer that mathematics is the future of humanity.

Mizukawa Mizukawa thoughtfully: It's a bit philosophical, or sophistry. It may sound earth-shattering, but it makes a little sense.

Well, everyone's doing well this time. Next time, we will continue to work hard.