Mizukawa Mi hugged the cat and said: I really don't know what happened to Schrödinger, and he actually made a black hand to the cat. Put a bottle of liquid with radiation in the box, and put the cat in it as well. It's strange that cats don't die, what else does he say about the state of both death and life? What do you have to say about that?

Liuzifeng looked at the cat: how can probability be equated with facts? I was in my mother's womb, was I still dead in the past? And when I was born, I actually lived again. This is clearly confusion. Like paradoxes, always put the other and the math. There is no doubt that the probabilities are certainly there. However, it would be a mistake to emphasize the state of uncertainty. Some people say to think about the observer effect, and I don't know what it is. But I know that what is observed is not necessarily the truth. People look at something in the distance and think it's small, but it's actually big. If you say it's small, aren't you distorting the facts?

Probabilities are possible and are not the same as events. In fact, there is a probability and there is not necessarily an event, but there must be a probability if there is an event. Probability is the basis of events, so some people can't tell the difference between probability and event.

Duenas said: Actually, everyone is wrong. Schrödinger wanted to talk about quantum, not the macroscopic world. Since humans can't directly construct the quantum world, there is Schrödinger's cat. Cats are in the macrocosm, and of course there is no such thing as being both dead and alive. Schrödinger just wanted to use this experiment to illustrate the entangled state of the yin quantum world. Although physicists developed quanta more than 100 years ago, how to find quanta is a major problem for physicists.

Quantum entanglement is an important phenomenon in quantum mechanics. There must be a reason why they are entangled. I love math and feel connected to it. Perhaps the quantum is because it contains special numbers such as cyclic decimals, and the cyclic decimals cause the quanta to become entangled.

Margarita said: Who said it has only two states: life and death? Can't it be half-dead and escape? Probabilities mean possible, and there are many kinds of possibilities. You think it's like this, but it might be that.

It may be the same as numbers, which depend on objects and cannot exist on their own. That is, there is no such thing as uncertainty at all.

Mizukawa was a little impatient: I know you all think that counting is just counting and cannot exist in the world independently. However, I thought it was possible. Because I firmly believe that the end of science is mathematics, and mathematics has no end. That said, I'm not sure that probabilities can stand on their own. Dueñas is right that the key here is quantum. Only by distinguishing the difference between the quantum world and the macrocosm can we truly understand the essence of Schrödinger's cat.

Suppose a cat exists in a state of both death and life, when did this state begin? Was it the moment it was placed in the airtight container, or was it any moment inside it? If the cat is smart enough, what should be the explanation for escaping?

Actually, in my heart, I don't believe in the existence of uncertainties. Scientific theories have limitations, and quantum mechanics is no exception. Schrödinger's cat said that there are still many problems to be solved in yin quantum mechanics, otherwise quantum mechanics will always be questioned.

My brother said that if you want to understand quantum mechanics, you need to know mathematics. The answer that physicists have been thinking about may be in mathematics. I won't say more, let's rest and prepare!