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
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
The equivalent conductance at infinite dilution of a weak acid such as HF
can be determined by extrapolation of measurements on dilute solutions of HCl, HBr and HI
can be determined by measurement on very dilute HF solutions
can best be determined from measurements on dilute solutions of NaF, NaCl and HCl
is an undefined quantity
The number of Faradays needed to reduce 4 g equivalents of Cu2+to Cu metal will be
1
2
1/2
4
D.
4
Thus, to reduce 4 g equivalent of Cu2+ into Cu four Faradays are required.
Which one of the following cells can convert chemical energy of H2 and O2 directly into electrical energy?
Mercury cell
Daniell cell
Fuel cel
Lead storage cell