First, a multiplication operator (my best guess, anyway) is missing:
((alfa*Vt*Vmpp*(2*Impp-Isc))/((Vmpp*Isc+Voc*(Impp-Isc))*(Vmpp-Impp*R)-alfa*Vt(Vmpp*Isc-Voc*Impp)))-exp((Vmpp+Impp*R-Voc)/(alfa*Vt)) = 0
↑ ← HERE
That threw an error when I initially ran it.
None of the variable values are supplied.
syms alfa Vt Vmpp Impp Isc Voc R
Eqn = ((alfa*Vt*Vmpp*(2*Impp-Isc))/((Vmpp*Isc+Voc*(Impp-Isc))*(Vmpp-Impp*R)-alfa*Vt*(Vmpp*Isc-Voc*Impp))) - exp((Vmpp+Impp*R-Voc)/(alfa*Vt))
The expression will not simplify further, and an analytic (symbolic) solution in terms of R is not possible.
If the objective is to find the root or roots of the equation, as fzero and fsolve are designed to provide, it is possible that with the (unknown) supplied values (assumed to be scalar), no roots exist. One option is to supply ‘Rguess’ as a complex random variable, since this will cause fsolve to consider complex roots. However without knowing more, it is not possible to address this.
If the range of ‘R’ is known, even approximately, plotting the equation as a function of ‘R’ would immediately reveal any real roots that might exist. Plotting ‘R’ as a complex matrix (using surf) would be a bit more of a challenge, however likely possible.
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