26.Making Sense with Semi-Classical Gravity
For the past thirteen years, I have been working on the most important theories of physics from scratch without employing the methods of general relativity and quantum field theories and I have come up with promising results. I have deduced the Black hole thermodynamics from first principles, I have deduced the Wiedmann Franz law from scratch, the Stefan Boltzmann power law, The result for the earliest period of time in the history of the Universe, I have related the Chandrasker theory of white dwarfs with the Bohr theory of the Hydrogen atom-the results are suprising, the rest is history. This book gives a clear account of these fields of physics.
The truth is, I hate Einstein and Hawking. I don’t like them because I find it hard to use their mathematical ideas to deduce the theories I desire. It was that hard for me to classify where in the scientific community I fall, at first I thought that my ideas where into the quantum gravity field section but this was a lie. The quantum theory of gravity has not been fully settled. It was yesterday that I realized that my ideas fell into the Semi-Classical physical regime when I browsed it online;
“Semi-classical physics refers to a theory in which one part of a system is described quantum-mechanically whereas the other is treated classically” In general, it incorporates a development in powers of Planck’s constant, resulting in the classical physics of powers 0, and the first nontrivial approximation into the powers of -1. (Wikipedia)
I am sorry, Semi-classical physics hasn’t gained much interest, there are too many criticism about its meaning, researches into the field have been discouraged, few physicists have written about it and it is that unimportant. But anyway I am an amateur to venture into a field that is irrelevant. I don’t give a damn what you think.
My first insight into the field of Semi- classical physics is traced back in 2010 in my first paper I published on arXiv.org titled “A hypothetical investigation into the realm of the microscopic and macroscopic universes beyond the standard model" This paper clearly shows that I was into the field without knowing. For sure I thought I was dealing with the field of Quantum Gravity by then.
Well, if you don’t understand Semi-classical physics, Amateurs do. Below I show you why I think I understand the field and you surely do. I provide many ideas which I think the entire scientific community must investigate.
The meaning of semi-classical physics to an amateur
Assuming an experiment where the classical electric force
is balanced over the classical gravitational force
to determine their strength, the result will show that, the ratio of the two forces will follow a power law in powers of n of the gravitational coupling constant as,
The left hand side of the equation represents the classical part of the system while the right hand side represents the quantum mechanical part of the system.
Let the classical part be described by two constants;
G-The Universal gravitational constant
c- The constant speed of light
Into (G, c)
Let the Quantum mechanical part be described by two constants,
- The reduced Planck constant
c-The constant speed of light
Into (
, c)
Then from the above assumption Semi-classical physics will reduce results combining the constants above into (G, c,
)
From the above formula we can deduce the time and length units of measure formulas to help us understand the field better,
Time
Length
Where m denotes the mass of a particle or body and
is the gravitational coupling constant. You can also assume interactions involving the electromagnetic coupling constant.The different fields of physics resulting from the above classification for different powers of n from 0, 1, 2 and -1/2 are given below,
For n=0
Classical General Relativity
For n=1
Quantum mechanics
For n=2
Semi-classical gravity
For n= -1/2
Planck Units
The above derivation gives out a clear description of Semi-classical physics to a lay person.
One can decide to use n as a spatial dimension of space.
