First, what do all the terms mean? Most of these are unrelated to the question but you need to know (presumably) the concepts for the rest of the question.
Charge (Q in C): just a way of counting electrons - each Coulomb is some big number of electrons
1 Coulomb = 1 / (1.6e-19) electrons
Current (I in A): charge / second - basically, how many electrons go past each second
I = Q / T
Voltage (V in V): energy / charge - basically how much energy each electron has at that point.
V = E / Q
(Note it is a relative number to 0V, so 10V means each electron at 10V has 10 units more voltage than at 0V. Correctly, each coulomb of electrons at 10 V has 10 J more energy than at 0 V.)
and finally, each mole of electrons has 1 F = 96500 C / mol charge (by definition of a Faraday)
as an equation:
Q = n * F, where n is the number of moles of electrons, F = 96500 C / mol
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To solve, it work out what do we know?
We know that we have
1 mol 2 mol of copper. Each copper reduction reaction uses 1 electron
So the total number of electrons, n = (1 mol copper) * (2 mol electron / mol copper) = 2 mol electron
so total charge needed = n * F = 2 mol electron * 96500 C / (mol electron)
EDIT: fixed mistake
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