On passing 'C ampere of current for time 't' sec through 1 L of 2 (M) CuSO4 solution (atomic weight of Cu= 63. 5), the amount 'm' of Cu (in gram) deposited on cathode will be
m = Ct / (63.5 x 96500)
m = Ct / (31.25 x 96500)
m = (C x 96500) / (31.25xt)
m = (31.25 X C x t) / 96500
When 96.5 C of electricity is passed through a solution of silver nitrate (at wt. of Ag = 107. 8 7 which is approx. 108), the amount of silver deposted is
5.8 mg
10.8 mg
15.8 mg
20.8 mg
The standard reduction potentials at 298 K for the following half reactions are given against each
Which is the strongest reducing agent ?
Zn(s)
Cr(s)
H2(s)
Fe2+ (aq)
On passing 3A of electricity for 50 min, 1.8 g metal is deposited, the equivalent mass of metal is
9.3
19.3
38.3
39.9
The hydrogen electrode is dipped in a solution of pH = 3 at 25°C. The potential of the cell would be [use value of = 0.59 V]
0.059 V
0.088 V
0.178 V
-0.177 V
D.
-0.177 V
Since, reduction potential for hydrogen electrode is
EH =
Given pH = 31; e - log = 3
EH = -0.059 × pH = -0.059 × 3
= -0.177 V
The equivalent conductivity of a solution containing 2.54 g of CuSO4, per L is 91.0 W-1 cm2eq-1. Its conductivity would be
Which of the following expressions correctly represents the equivalent conductance at infinite dilution of Al2(SO4)3 ? Given that and are the equivalent conductances at infinite dilution of the respective ions?
The equivalent conductances of two ions at infinite dilution in water at 25°C are given below
The equivalent conductance (in Scm2/equiv) of BaCl2 at infinite dilution will be
203
279
205.5
139.5