b. Suppose two cells containing different
electrolytes are connected in series. The same
quantity of electricity is passed through them.
The masses of the substances liberated at the
electrodes of the two cells are related as given
below :
The mass of the substance produced at
the electrode of first cell is given by
W 1 =
Q(C)
96500 (C/mol e)× (mole ratio) 1 × M 1Hence, Q(C)
96500 (C/mol e)
= W^1
(mole ratio) 1 × M 1
Similarly mass of substance liberated
at the electrode of second cell is W 2 in the
equation,
Q(C)
96500 (C/mol e)
=W 2
(mole ratio) 2 × M 2M 1 and M 2 are the molar masses of
substances produced at the electrodes of cells
1 and 2.
Because Q(C)
96500 (C/mol e)is the same
for both,
We have
W 1
(mole ratio) 1 × M 1= W^2
(mole ratio)^2 × M^2
(5.21)
Problem 5.6 : What is the mass of Cu
metal produced at the cathode during
the passage of 5 ampere current through
CuSO 4 solution for 100 minutes. Molar
mass of Cu is 63.5 g mol-1.
Solution :
i. Stoichiometry for the formation of Cu is
Cu^2 ⊕ (aq) + 2 e = Cu (s)
Hence,
mole ratio = 1 mol
2 mol eii. Mass of Cu formed,
W =
I (A) × t (s)
96500 (C/mol e)× mole ratio × molar mass
of Cu= 5 A × 100 × 60 s
96500 (C/mol e-)×1 mol
2 mol e-^
× 63.5 g mol-1
= 9.87 gProblem 5.7 : How long will it take to
produce 2.415 g of Ag metal from its salt
solution by passing a current of 3 ampere?
Molar mass of Ag is 107.9 g mol-1.
Solution :
i. Stoichiometry :
Ag⊕ (aq) + e Ag (s)mole ratio = 1 mol
1 mol e
ii. W =
I (A) × t (s)
96500 (C/mol e)× mole ratio × molar mass
of Ag
2.415 g = 3 A × t
96500 (C/mol e)×1 mol
1 mol e^× 107.9 g mol-1t = 2.415 × 96500 (C = As)
3 A × 107.9= 720 s = 12 min.Do you know?
Names, galvanic or voltaic
are given in honour of Italian
scientists L. Galvani and A. Volta for their
work in electrochemistry.