Chapter 073 The old saying goes

Mutual restraint is the opposite of mutual generation, which refers to the mutual restraint between two types of things with different five elements, specifically: wood restrains earth, earth restrains water, water restrains fire, fire restrains metal, and metal restrains wood.

Zhou Wenwen, who stands out from the crowd, summed up what he thinks of the five elements.

The five elements refer to the five elements or energy and power of metal, wood, water, fire and earth.

But the relationship between the five elements can be deduced from the representative of the power of the five elements.

Gold-metal, wood-plant, water-liquid, fire-heat, earth-earth.

The corresponding relationship is the mutual generation of the five elements, wood→fire→earth→metal→water→wood.

Wood produces fire, fire produces earth, earth produces gold, metal produces water, and water produces wood, in a reciprocating cycle.

Even Zhou Wenwen was able to find scientific arguments to prove it.

Gold is a solid metal such as gold, silver, iron, aluminum, and lead.

Wood, refers to cells in plants, such as chlorophyll a, b, c and d, as well as bacteriochlorophyll and chlorophyll chlorophyll, etc.

Water refers to a liquid. In a subdivision, it can also be called water composed of hydrogen and oxygen.

Why water can produce wood, because water is an important component of cell protoplasm

Water also acts as a solvent and transport in the body, can dissolve a variety of electrolytes, and can transfer nutrients, metabolic wastes and endocrine substances such as hormones.

Fire refers to thermal energy.

Zhou Wenwen believes that in this universe and the two similar worlds he was in before, any object has the highest temperature point—→melting point and lowest temperature point—→zero point properties from the moment of birth.

Only in this way can it be explained that no matter how hard the paper is, it will still soften when it encounters high temperature, and finally the elements that make up the paper cannot support it, and the cracking reaches the melting point.

Under this premise, the relationship between fire and water can be explained.

Because water has high thermal conductivity and specific heat, it can be used as a "heat carrier" to transfer heat between the body and the skin surface, helping the body to regulate body temperature.

Soil, representing the earth, is the land of the earth, and most of the elements that make up soil are carbon- and silicon-containing compounds, which just complements the relationship between soil and gold.

Yang wood overcomes fire, Yang fire overcomes earth, Yang earth overcomes metal, Yang metal overcomes living water, and Yang water overcomes wood.

To sum up, wood makes fire, and wood dryness makes fire.

Fire creates soil, fire burns wood to create soil.

Indigenous gold, soil reserves and mines produce gold.

Gold creates water, and gold condenses raw water.

Aquatic wood, water moist raw wood.

To sum up, wood makes fire because the dry wood reaches the ignition point to produce fire, and fire creates soil because the fire burns the wood to produce soil.

Gold is born from soil, because the soil will produce gold under the reaction of gravity and chemistry.

Gold produces water, because gold can become "water", or remove impurities to produce water.

Aquatic wood, because there is wood in the water.

Since there are five elements that produce each other, there are five elements that restrain each other.

The traditional five elements are metal → wood → soil → water → fire

Metal overcomes wood, wood overcomes earth, soil overcomes water, water overcomes fire, and fire overcomes metal.

Hardness beats softness, so gold beats wood, because knives can cut down trees.

Speciality overcomes scattered, so wood overcomes soil, because trees can take root in the soil.

Reality beats virtuality, and homeland beats water, because dams can stop the flow of water.

The multitude overcomes the few, so water is better than fire, because great water can extinguish the flame.

Essence beats hard, so fire beats gold, because fire can melt metal.

What seems to be mutual restraint is actually mutual.

Although Zhou Wenwen agrees, he also has his own understanding.

The reason is that there is nothing in the gold that can make the wood live. It is the gold that gives birth to water, but this "water" is also poisonous to the wood, such as copper water, aluminum water, gold water, etc. Silver water, like the nearby mercury metal.

And what about Muktu?

Zhou Wenwen thought about it, and in the end, only plants and cells need the elements in the soil, and even if the soil produces gold, plants also need a small amount of metal elements.

The best example is fertilizers.

Or the chlorophyll mentioned above.

Chlorophyll is a green pigment contained in higher plants and all other photosynthetic organisms.

There are many kinds of chlorophyll, such as chlorophyll a, b, c and d, as well as bacteriochlorophyll and chlorophyll of the genus Chlorophyll, etc. The food-related ones are mainly chlorophyll a and b in higher plants.

The common feature of its structure is that the structure includes a porphyrin ring composed of four pyrroles, and the four pyrroles are combined with metal magnesium elements.

So the remaining question is, how should we understand that soil controls water, water controls fire, and fire controls gold?

It is easy to understand that water overcomes fire and fire overcomes metal. As mentioned earlier, water can be used as a "heat carrier~lightnovelpub.net~" and also as a heat extinguisher because of its high thermal conductivity and specific heat.

The principle of the heat-extinguishing body is based on the laws of thermodynamics and the law of conservation of energy. In this process, the water transfers the heat energy of the fire away, so the fire can no longer continue to generate heat energy, because it is not a perpetual motion machine.

The first law of thermodynamics is the law of energy conservation and transformation in the field of thermal phenomena, reflecting that different forms of energy are conserved in the process of transfer and transformation.

Expressed as: the increase in the internal energy of an object is equal to the sum of the heat absorbed by the object and the work done on the object.

That is, heat can be transferred from one object to another, and can also be converted into mechanical energy or other energy, but during the conversion process, the total amount of energy remains the same.

Its generalization and essence is the famous law of conservation of energy, which is expressed as △U=Q+W.

This law goes through Meyer and Joule.

At the beginning of the 19th century, due to the further development of the steam engine, it was urgent to study the relationship between heat and work, and to make a theoretical analysis of the "output" of the steam engine, so the mutual conversion of heat and mechanical work was widely studied.

Evat studied the relationship between the heat generated by the combustion of coal and the "mechanical power" provided by it, establishing a quantitative connection.

The relationship between heat and work was also studied by Danish engineer and physicist Kirding.

He has been engaged in the experiment of frictional heat generation. In 1843, the Royal Danish Academy of Sciences signed the following comments on his paper: "The main idea of ​​this paper by Kolding is that the loss of mechanical action caused by friction, resistance, pressure, etc., causes actions such as heat, electricity, and the like in the body are proportional to the loss of force."

Hess of Russia got the idea of ​​energy conversion and conservation from chemical research earlier.

......

To be continued

Chapter 074 Predicting the Principle of Conservation of Energy