The law of symmetry and its application

The law of symmetry is fit with any field of science, but it cannot be used wrongly. For example,’1+1’ paradox: if it`s known that a+b=2, can we conclude a=b=1? The wrong answer is yes, because a and b are of the same attribute, if we suppose a>b, we conclude a<b, so a=b. The lead to this wrong answer is that we do not realize a and b are not certain, the premise of the law of symmetry is that the answer is certain. For another example, Rabbit paradox: if the 2 identical twin rabbits are fed in the same condition, can we conclude that their blood pressure is the same? The wrong answer is yes, because the 2 rabbits are of the same attribute, and the starting condition is the same, so their blood pressure is the same. The lead to this wrong answer is that we do not realize the factors that affect blood pressure are very complex, but we simply think that they are in the same condition.


INTRODUCTION
Since modern times, more and more scientific laws have been discovered.These laws usually fit one or a few aspects.Is there any relationship between these laws?Is there a law that is obeyed by all fields of science?The law of symmetry is the law of this kind.

THE CONTENT OF THIS LAW
The law of symmetry contains several sub laws: Translation invariant: if the conditions are the same, no matter when and where it happens, the results are the same.Geometrical symmetry: if the starting condition is symmetrical, the result is symmetrical.Rotational symmetry: if 2 objects are of the same attributes, and the starting conditions are the same, the results of the 2 objects are the same.

THE 2 DESCENDABLE LAWS
(1) For any group of given conditions, there must be only one result.
(2) If all functions in a process are linear, the result function must be linear.

NOTICE
The law of symmetry is fit with any field of science, but it cannot be used wrongly.For example,'1+1' paradox: if it`s known that a+b=2, can we conclude a=b=1?The wrong answer is yes, because a and b are of the same attribute, if we suppose a>b, we conclude a<b, so a=b.The lead to this wrong answer is that we do not realize a and b are not certain, the premise of the law of symmetry is that the answer is certain.For another example, Rabbit paradox: if the 2 identical twin rabbits are fed in the same condition, can we conclude that their blood pressure is the same?The wrong answer is yes, because the 2 rabbits are of the same attribute, and the starting condition is the same, so their blood pressure is the same.The lead to this wrong answer is that we do not realize the factors that affect blood pressure are very complex, but we simply think that they are in the same condition.that is so easy.2A= , we can easily know the value of A.

Results
If the area of D is 1, that is 2A=1, so we can know A=0.5.The answer is easy to get.

Discussion
From the above example, if we do not use this law, it is very hard to solve the problem.But if we use this law, the problem is very easy to solve.So we can see, using this law can make some problem easier to solve.
We can prove some models are not exact For example, as shown in Figure 1 (Xiyou, 2013), the electric current of the 2 powers` wires can be any value.It contracts the 1st descendable law, so it is wrong.In fact, any electric power source has resistance.

Results
For the electric current of the 2 powers` wires to be any value, this model isn`t exact.

Discussion
We sometimes use the model shown in Figure 1, but this model is not exact.If we do not know this law, we may draw the wrong conclusion.This law can correct people`s wrong idea.

THE PROBLEM THAT CANNOT BE SOLVED NOW
The only thing that cannot be proved now is this one.Material wave is a kind of probability wave.Until now, we can only discuss its probability.It seems to contradict the 1st sublaw, but Einstein said that the god does not play the game which throws the dice.The real fact may not be known now.