Mizukawa took a bottle of mineral water and said, "Do you think the temperature in the water is the same or different?"

Liuzifeng said: Since it is all water, there is naturally no difference.

Dueñas immediately said: you did not take into account the specific situation! First of all, you don't think about the edge effect. The edge part is easy to absorb heat and dissipate heat, so the temperature here is variable. And the central part must have changed very little. However, this does not mean that water evaporation and endothermy are absent from the center. It's just that the heat of the water in the center changes very little, and it is not the same as the large amount at the edges.

In the interior of water, the ionization reversible reaction of water molecules is taking place. I guess that's why the water molecules flow. When water molecules flow, they transfer heat. The heat travels through the water and eventually disperses everywhere. However, the water molecules did not stop. As a result, the transfer of heat continues. Therefore, it can be said that the flow of water molecules is responsible for the different temperatures in the water. Of course, this difference is only in the range of one degree Celsius.

Liuzifeng thought about it and said: Well, it seems like this. He's talking about liquid water, I'm talking about boiling water. Some people think that when the water boils, the temperature is 100 degrees. Actually, this is wrong. The boiling point is just a temperature node, not a temperature limit. It is true that the temperature of water molecules will boil when it reaches 100 degrees. Doesn't water molecules lose heat? Absolutely. That being the case, it takes a long time to boil. And in the process, there is a slight difference in temperature everywhere in the water, as he said.

Margarita said: It has to do with the container. If the container is thermally conductive, then the surface of the water absorbs more heat from the walls of the container. If the container is insulated, the evaporation of the water and the absorption of heat are both minimal. However, in either case, the temperature difference is there.

I was thinking what would happen if the temperature difference was eliminated. Perhaps, this will trigger a butterfly effect. and even change the physical world.

Mizukawa was immediately interested: if this were the case, the shape of the container would change. And this shape may be a shape that does not exist in our current world, which means that it opens the door to other worlds for us.

We think that an object is ordinary, but in fact it may hide the mysteries of the entire universe

Temperature is a commonplace physical quantity in our lives, but what do we know about it? Anyone who has studied physics knows that the essence of temperature is to represent the amount of heat, and heat is the energy released by the irregular movement of water molecules. The question is, why do water molecules move? I think it's probably because of the special shape, which is dominoes.

Speaking of which, I wondered what obvious properties or phenomena would occur in water if the temperature difference was increased. I think it's a shunt, a visible trace of separation.

Movement is the reason for everything that happens. Without exercise, regularity is a pool of stagnant water. Only by making the object move, can we find more laws. Although motion is not a dimension of space, motion is a prerequisite for determining whether one dimensional space can reach another dimensional space.

Whether you eliminate or increase the temperature difference, it is clear that it can have an impact on the water or the surrounding area. In my opinion, studying the temperature differences in various parts of the water helps researchers to better understand the phenomenon of the interaction between variables.

Well, it's time to wrap it up.