1 August 2022 AD

St. Alphonsus Liguori (1787 AD); 7 Holy Maccabees (150 BC); St. in Chains (6^th Century); Sts. Faith, Hope, and Charity (2^nd Century AD)

 

New Explanation:

 

The Graphs in this article are primarily to show the reader:

 

1.  the shape of the Real Part of the Equation, i.e., when the Main Equation is scanned with a complex number (C_(π/e) , 0i) and Imaginary Part is scanned with (0, i*(C_(π/e)).

 

2. The shape of the Imaginary part

3. The graph of the sum of the Real and Imaginary parts

 

I will come back to this critical topic in subsequent articles.

 

 Old Description:

6 October 2017 AD; Feast of St Bruno

 

Here are some graphs with short descriptions.

 

Graph 1 - Figure 1 – Semi-log. Showing the Real part of the function alpha vs. constant (and theta vs. constant.) 

Graph 2 - Figure 2 - Semi-log. Showing the Imaginary part of the function alpha vs. constant (and theta vs. constant.)

Graph 3 - Figure 3 - Semi-log. Showing the sum of the Imaginary and Real parts of the function alpha vs. constant (and theta vs. constant.)

 

Please do not pay attention to the detailed descriptions on the graphs. The only important thing here is the shape of the functions (errors of the ‘work in progress’).

As you can see the clearest graph is Real part.

 

The Imaginary part and the sum of the Real and Imaginary parts is a wave function. In the ‘Real part’ graph at the position of constant C16 (right bottom corner) you can see the Fine Structure Constant with the exact value calculated before. At the constant C17 position, the value equals the Weak Nuclear Force Constant. I will explain all these findings in future articles.

 

The function described by Real part graph (Figure 1), contains a wealth of information. The structure of our universe and beyond, mixing angles of quarks, oscillation angles of neutrinos, and so on for bosons and gravitons, etc., charge-parity-time violating phase angles for all elements, and other undiscovered yet properties.

 

I will go on into the details of these facts in next articles. Thank you for your patience.

 

Figure 1 – Semi-log. Showing the Real part of the function alpha vs. constant (and theta vs. constant.)

 

 

 

 

 

 

 

Figure 2 - Semi-log. Showing the Imaginary part of the function alpha vs. constant (and theta vs. constant.)

Figure 3 - Semi-log. Showing the sum of the Imaginary and Real parts of the function alpha vs. constant (and theta vs. constant.)

This fourth part in a series of articles concludes the calculation of universal equation of Cosmology and Quantum Mechanics.

 

 

This series contains five articles that are related. Links to them are below:

 

1. Exact value of the fine structure constant   >>>   https://luxdeluce.com/29-book-3-calculation-of-exact-value-of-fine-structure-constant.html

 

 

2. Derivation of the Universal Equation of Cosmology and Quantum Mechanics part I   >>>   https://luxdeluce.com/42-book-6-derivation-of-general-formula-for-constants-of-the-cosmology-and-quantum-mechanics-part-i.html

 

 

3. Derivation of the Universal Equation of Cosmology and Quantum Mechanics part II   >>>   https://luxdeluce.com/43-book-6-derivation-of-general-formula-for-constants-of-the-cosmology-and-quantum-mechanics-part-ii.html

 

 

4. Graphs of the Universal Function of Cosmology and Quantum Mechanics   >>>    https://luxdeluce.com/48-book-7-here-are-the-graphs-only-ii.html

 

https://luxdeluce.com/492-279-23a-book-7-here-are-the-graphs-only-iii.html