St. Dismas (33 AD); St. Margaret Clitherow (1586 AD)
Before I venture into the calculation of boson mixing angles, gravitons, etc., the neutrino oscillation angles have to be done. For comparison, I will use data from the year 2022 and 2024 since the earlier data have not much to show. Important – mixing/oscillation multiplication factors are absolutely necessary to be calculated. Without them the higher elements mixing angles such as bosons, gravitons, etc., cannot be obtained.
Next, the bosons mixing angles(!). All three of them including the running boson mixing angle (Weinberg angle). And then graviton, space, time and membranes (eight elements altogether). This will give an indirect mathematical ‘proof’ of the ‘other side’, beyond our Universe. Simple formulas for delta charge-parity violating phase angles will be included. And after that the forces (four plus four) and internal forces of all the elements such as quarks, neutrinos, bosons, etc.
Below are the recent results of official measurements of the neutrino oscillation angles.
In this article, I will show how to obtain 'transcendental fractions' for the multiplication factors needed to calculate the mixing angles of quarks using more precise data from the year 2022. These calculations are very similar to those in the previous article. They are super important in that sense that they are used to calculate by extrapolation the mixing/oscillation angles of bosons, gravitons, space, time, membrane internal and membrane external, as well as delta CP violation phase angles for the mentioned constituents of the Universe. The calculations, as I said, are very simple, the only difficulty is how to express those numbers in some nice formulas. As usual, the transcendental constants will be used: π, e, C0 and C5. I will provide the printout of these important constants. So, starting with the order of appearance in the main equation: theta13, theta23 and theta12 we will obtain more precise data (but I have to tell that the results will be slightly different as measurements progress in the future). What I mean is that there are some ‘correction factors’ needed to minimize the error of the calculations. However, these corrections are very small and the measurements are done very well.
St. Cyril of Jerusalem (386 AD); Our Lady of Mercy; St. Joseph (1st century AD)
In this article, I will show how to calculate three mixing angles of quarks using angles from main equations (‘visible’ and ‘invisible’ parts) and applying multiplication factors.
I take into consideration two sets of measurements, one from the year 2008 (Wikipedia) and the more recent one 2022 PDG (Particle Data Group).
The first set was beautifully simple, giving multiplication factors in the form of simple fractions (m/n). However, the 2022 measurements published by PDG complicated this simplicity. Transcendental fractions had to be introduced.
How to calculate the mixing angles of quarks using angles from the main equations and mixing angles?
I am about to start working again on mixing angles and CP Violation Phase angles of the elementary particles (bosons, gravitons, space, time, internal and external membranes in addition to known particles - quarks and neutrinos) using extrapolation and already calculated values in addition to official scientific data. Please, be patient.