$$F\left(x,\cdots,x_n\right)\equiv1\equiv{m_e}{e^4\over8c\epsilon_0^2h^3R_H}-{{\pi r_pcm_e}\over2h}$$
$r_p= proton\;radius$
Google Calculator Check
(thanks, Google, for working this out for me while I now go to work!!!)
calculation for electron mass - check ✔️✔️✔️
Exact equation (EE) for the mass of the electron:
$${1\over{m_e}}\equiv{e^4\over8c\epsilon_0^2h^3R_H}-{{\pi r_pc}\over2h}$$
$${m_e}\equiv{1\over{e^4\over8c\epsilon_0^2h^3R_H}-{{\pi r_pc}\over2h}}$$
$${m_e}\equiv{{8c\epsilon_0^2h^3R_H}\times{2h}\over{e^42h}-{8c\epsilon_0^2h^3R_H}{\pi r_pc}}$$
$${m_e}\equiv{{8c\epsilon_0^2h^3R_H}\over{e^4}-{4c^2\epsilon_0^2h^2R_H}{\pi r_p}}$$
$4=Fore!!!$ <~~~ Best Golfing Here Mr. President!!!
$\epsilon_0= electric\;constant$
$h = Planck's\;Constant$
$e=elementary\;charge$
$R_H=Rydberg\;constant\;for\;the\;_1^1Hydrogen\;atom$
$\pi= 3.14159265...$$R_H=Rydberg\;constant\;for\;the\;_1^1Hydrogen\;atom$
$r_p= proton\;radius$
Google Calculator Check
(thanks, Google, for working this out for me while I now go to work!!!)
calculation for electron mass - check ✔️✔️✔️
(The interesting thing about Gooogle Calculator is it only gives an answer when the untis are consistently correct! So, GooG is a check of sorts.)
Compare to Wikipedia's electron rest mass (mainstream, western, cabal):
$$m_e={2R_\infty h\over c\alpha^2}$$
Electron_Mass / m_e = 1.00054489
Compare to Wikipedia's electron rest mass (mainstream, western, cabal):
$$m_e={2R_\infty h\over c\alpha^2}$$
Electron_Mass / m_e = 1.00054489
((8 * c * (electric constant^2) * (h^3) * Rydberg constant) / ((elementary charge^4) - (4 * (c^2) * (electric constant^2) * (h^2) * Rydberg constant * pi * (0.841199715091e-15 m)))) / m_e =
1.00054489 <~~~ need to use re-calc'd constants, for a later paper/post... using The Oracle's computed algorythmically constants!!! 
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