Processing math: 35%

Different Equations for Calculating Napier’s Number from Earth’s Features	Equations Number
$e = \frac{\ln (E D / 10)}{0.56065834919309210862625764267195 \times \ln (X_{C - Earth})}$	(140)
$e = \ln (\frac{2 g_{0 - Old}}{(e^{X_{C - earth}_{_{OLD}}} - 1) \times 10^{10} \times þ})$	(141)
$e = 10^{\frac{\log (\frac{{TH}_{Old}}{100} + 1)}{X_{C - earth}_{_{OLD}}}}$	(142)
$e = \ln (\frac{2 g_{0}}{T H \times 10^{8} \times þ})$	(143)
$e = 10^{\frac{\log [\frac{1 parsecinmiles}{10^{13}}]}{X_{C - Earth}}}$	(144)
$e = \ln (\frac{2 g_{0}}{{Distance}_{Light ⇝ 1 year} \times 10^{- 3} \times þ})$	(145)
$e = 10^{\frac{\log (\frac{{Distance}_{Light ⇝ 1 year}^{Old}}{10^{13}} + 1)}{X_{C - earth}_{_{OLD}}}}$	(146)
$e = 10^{\frac{\log (\frac{{Distance}_{Light ⇝ 1 year}^{Old} \times 3.0739148433095432861689099115875}{1 Parsecinkm} + 1)}{X_{C - earth}_{_{OLD}}}}$	(147)
$e = 10^{\frac{\log (\frac{{Distance}_{Light ⇝ 1 year}^{Now} \times 3.2}{1 Parsecinkm} + 1)}{X_{C - Earth,Now}}}$	(148)
$e = \ln (\frac{g_{0 - Old} \times SLCER}{{ER}_{earth,Old}})$	(149)
$e = \ln (\frac{g_{0 - Now} \times SLCER}{{ER}_{earth,Now}})$	(150)
$e = A W_{C .C .F .P} \times X_{C - Earth} = [4 + ((\frac{V_{C .C .F .P - Now}}{C .C .F {.P}_{UV}}) - 3)] \times X_{C - Earth}$	(151)
$e = 10^{\frac{log [(\frac{({Ageoftheearth}_{Old}) \times {VVR}_{X_{C - Earth}}^{Old}}{PGCOTR}) + 1]}{X_{C - earth}_{_{OLD}}}}$	(152)
$e = 10^{\frac{log [(\frac{({Ageoftheearth}_{Exact}) \times {VVR}_{X_{C - Earth}}^{Now}}{PGCOTR}) + 1]}{X_{C - Earth,Now}}}$	(153)