| Standard Symbols for Units of Measure (in USA) | Times2220 | ||||||||
| Conversions | Scale up | ||||||||
| SYMBOL | Name of the CONSTANT | SI [unit] | cgs [unit] | Angstroms | Times H21 | ^| | nano meter | ||
| c | Speed of Light (in vacuum) | 2.99792458×108 [m/s] | 3.00E+10 | cm/sec | 3.00E+18 | | | |||
| G | Gravitational constant | 6.67259×10-11 [Nm2/kg2] | 6.67E-08 | dyne cm^2/gm^2 | 6.67E+00 | | | |||
| g | Gravitational acceleration | 9.80665 [m/s2] | 980.665 | cm/sec^2 | 9.81E+10 | | | |||
| m | Magnetic moment | 1 [Vsm] = 1 [Tm3] | Bitmap
|
emu | |||||
| me | Electron mass | 9.1093879×10-31 [kg] | 9.11E-28 | gm | } | ||||
| mp | Proton mass | 1.6726231×10-27 [kg] | 1.67E-24 | gm | |||||
| mn | Neutron mass | 1.6749286×10-27 [kg] | 1.67E-24 | gm | | | ||||
| u | Atomic mass unit | 1.6605402×10-27 [kg] | 1.66E-24 | gn | |||||
| e | Electron charge | 1.60217733×10-19 [C] | 1.60E-19 | Coulomb | | | ||||
| h | Planck constant | 6.6260755×10-34 [Js] | 6.63E-27 | erg sec | |||||
| k | Boltzmann constant | 1.380658×10-23 [J/K] | | | ||||||
Bitmap
|
Magnetic permeability | 1.256637061×10-6 [H/m] | |||||||
Bitmap
|
Dielectric permittivity | 8.854187817×10-12 [F/m] | DWG DIM | A Scale | in nm | ||||
| re | Classical electron radius | 2.81794092×10-15 [m] | 2.82E-13 | cm | 2.82E-05 | 0.0625 | 2.22E+03 | 0.00625 | |
| Bitmap
|
Fine structure constant | 7.29735308×10-3 [-] | 7.30E-03 | ||||||
| a0 | Bohr radius | 5.29177249×10-11 [m] | 5.29E-09 | cm | 5.29E-01 | 1.17E+03 | 117.3679 | ||
| R | Rydberg constant | 1.097373153×107 [1/m] | |||||||
Bitmap
|
Fluxoid quantum | 2.06783461×10-15 [Wb] | |||||||
Bitmap
|
Bohr magneton | 9.2740154×10-24 [J/T] | |||||||
Bitmap
|
Electron magnetic moment | 9.2847701×10-24 [J/T] | |||||||
Bitmap
|
Nuclear magneton | 5.0507866×10-27 [J/T] | |||||||
Bitmap
|
Proton magnetic moment | 1.41060761×10-26 [J/T] | |||||||
Bitmap
|
Neutron magnetic moment | 9.6623707×10-27 [J/T] | |||||||
Bitmap
|
Compton wavelength (electron) | 2.42631058×10-12 [m] | 2.43E-10 | cm | 2.43E-02 | 5.38E+01 | |||
Bitmap
|
Compton wavelength (proton) | 1.32141002×10-15 [m] | 1.32E-13 | cm | 1.32E-05 | 2.93E-02 | |||
| Bitmap
|
Stefan-Boltzmann constant | 5.67051×10-8 [W/m2K4] | Ratio L/r | RatioEl/Pr | |||||
| NA | Avogadro’s constant | 6.0221367×1023 [1/mol] | 6.02E+23 | 1/mol | 8.61E+02 | 1.84E+03 | |||
| Vm | Ideal gas volume at STP | 2.24141×10-2 [m3/mol] | |||||||
| R | Universal gas constant | 8.31451 [J/(mol K)] | |||||||
| F | Faraday constant | 9.6485309×104 [C/mol] | |||||||
| RH | Quantum Hall resistance | 2.58128056×104 [Ohm] | |||||||
| Gamma WL J_Wv | in m | 1.77E-11 | 1.77E-11 | m | 1.77E-03 | 3.93E+00 | 0.392699 | ||
| Gamma J_Wv Radius | 1.52E-08 | cm | 1.52E-16 | 3.38E-13 | 3.38E-14 | ||||
“Chapter 2 The electric charge distribution inside of the electron; copied here from What is Electron Spin on the Internet by Jack L. Doan researching the Equations below modified for J_Electron-Wave in Mathematica 5 then Paint before uploading with the value of the radius of J_Wv at the crest of its torus equation at the top of the box below as well at the bottom.
“We no longer regard the electron as a point-like particle. The electron has an internal structure, and the electric charge inside the electron-has continuum distribution.”
The 2 equations below the data input of r = (5.29 10^-19) cm Bohr radius used in these Equations the first is referred to in next part of quote.
” Here is one of our most basic assumptions about the electron; the electric charge distribution inside of the electron has the following equation:” Modified by me in this research study.
The Greek symbol Gamma above is the of J_Electron J_Wv crest of its tours.
d 
The first part of chapter 2 below is above for equations (2.2 ) & (2.3) and further above the first equation (2.1) which I moved to just above I will research here.starting with equations (2.1), (2.2 ) & (2.3) :
“ Chapter 2 The electric charge distribution inside of the electron ” What is Electron Spin from internet copy to Mathematica 5 then to MS Paint JLD
” We no longer regard the electron as a point-like particle. The electron has an internal structure, and the electric charge inside the electron has continuum distribution. “
J_Electron concept is formed by the J_Gamma Waves which have a higher frequency as they come out from a atoms neucleus in a string of J_Wvs with the J_Ether string segments of these J_Wvs moving in to the J_Protons’ and Neutrons’ J_Quarks in the direction oposite to the J_Wvs’ Crest at the speed of light. 137 J_Gamma J_Wvs quanta creates 1 J_Electron in the atom’s inner orbit and the quantum of electrical charge of the tiny strings of “The String Theory” is one electron volt distributed through the J_Electron. When the quantum is exceeded electromagnetic J_Photons in this quantum of energy and mass plus charge is radiated from the J_Electron’s J_Wv Crest if the Electron cannot move uot to a hier orbit or when it moves in to an inner orbit giving up J_Photons in the number of 137 J_Gamma waves for one J_Energy orbit level change.
” Here is one of our most basic assumptions about the electron; the electric charge distribution inside the electron has the following equatin :
Ρe (γe, Θ) = (- e / Π^2 ae^2 γ) exp(- γ / ae )sin Θ “
γ = e Exp Sin Θ / Π^2 ae^2
” w = E / h “ = 5.111E+5 = 1.602E-19 / 6.626E-34
” and radius of the ring is equal to
γe = (Ee / me*we)^.5 ”
December 29, 2007 at 9:24 pm |
Edit this post to take out the gapes in the copy of chapter 2 of “What is Electron Spin” from the internet and correct as modified by Jack L. Doan