Author: Liu Jiang
Date: October 22, 2021 first published in today's headlines
Copyright: All authors. It may not be published without permission and may be circulated electronically.
First, the origin of the golden section point
The spiral structure of the shell
Spiral motion structure of galaxies
Fiboratchi sequence
The shell spiral structure, the spiral motion structure of the galaxy, and the Fiboratsian sequence allow us to find a proportional relationship: the specific expression is to divide the whole into two, and the ratio of the larger part to the whole is equal to the ratio of the smaller part to the larger part.
Calculate the golden ratio: Let the length of a line segment AB be a, the C point is on the golden section near the B point, and the AC is b, then the ratio of b to a is the gold ratio.
As shown in the figure:
Second, directly give the golden section identity:
Proof Process:
Third, the equality of the left and right sides of the golden section identity conforms to the law of conservation of energy, according to the inherent properties of gravity in all things, and according to the smallest individual of real world energy is a single light quantum, so the golden section identity reveals to us the energy and gravitational wave distribution of single light quantum.
What if the gravitational waves of a single light quantum do not conform to the golden section identity, that is, the contraction of the gravitational waves is greater than or less than 1- (√5-1)/2?
1. When the contraction rate of gravitational waves increases from 1- (√5-1)/2 to X, and X > 0, the right side of the golden section identity is:
The conclusion is that when the shrinkage of the imaginary gravitational wave increases from 1- (√5-1)/2 to X, the real energy must be reduced accordingly, which will cause the virtual gravitational wave to be greater than the real part, which means that some gravitational waves are generated for no reason, and we know that the gravitational waves are derived from the real part of the light quantum, which cannot be generated for no reason, so this situation must not be true. (If the gravitational wave is circular, it means that the imaginary gravitational wave is separated from the real energy.)
2. When the shrinkage of gravitational waves decreases from 1-(√5-1)/2 to X, and X > 0, the right side of the golden section identity is:
The conclusion is that when the shrinkage of gravitational waves decreases from 1- (√5-1)/2 to X, the left side will also increase X accordingly, which will cause the real energy to be greater than the imaginary gravitational waves, which means that there is no gravitational wave in some energy, so this situation must not be true.
According to the above two points, the energy and gravitational wave distribution of the single light quantum can only conform to the golden section identity.