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%I #29 Jan 11 2020 15:57:47
%S 8,6,1,7,3,3,3,2,6,2,1,4,5,1,7,7,4,3,3,6,6,3,6,5,9,3,3,4,0,8,0,6,3,9,
%T 2,0,1,2,3,3,0,3,9,5,7,7,5,8,2,5,5,5,1,0,7,9,6,5,7,0,5,1,0,9,6,4,0,2,
%U 3,9,5,7,9,2,2,7,3,1,7,5,7,9,2,6,7,6,0
%N Decimal expansion of R/F, where R is the molar gas constant and F is Faraday's constant according to the 2019 SI system.
%C In eV/K.
%C This is the constant found in the Nernst equation: E = Eo + (R/F)*(T/n)*log(a_ox/a_rid), where Eo is the standard electric potential, E is the actual electric potential, T is the temperature, n is the amount of substance of transferred electron, a_ox is the activity of the oxidant and a_rid is the activity of the reductant.
%C From _Jianing Song_, Jul 06 2019:
%C The constants R and F have been updated according to the 2019 SI system.
%C As this constant can also be represented as 6903245/801088317 * 10^(-2) (see below), this sequence is purely periodic with period 778716. (End)
%H NIST, <a href="http://physics.nist.gov/cgi-bin/cuu/Value?r">molar gas constant R</a>.
%H NIST, <a href="http://physics.nist.gov/cgi-bin/cuu/Value?f">Faraday constant F</a>.
%H Wikipedia, <a href="https://en.wikipedia.org/wiki/Nernst_equation">Nernst Equation</a>.
%F Equals A070064/A163999.
%F Equals k/e = A070063/A081823 = (1.380649*10^(-23))/(1.602176634*10^(-19)) (exact). - _Jianing Song_, Jul 06 2019
%e 8.617333262...*10^(-5) eV/K.
%Y Cf. A070063, A070064, A081823, A163999.
%K nonn,cons,easy
%O -4,1
%A _Natan Arie Consigli_, Nov 30 2016
%E Updated to the May 20 2019 redefinition of the SI base units and offset corrected by _Jianing Song_, Jul 06 2019
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