At 25C, the molar conductances at infinite dilution for the strong electrolytes NaOH, NaCl and BaCl2 are 248 10-4, 126 x 10-4 and 280 x 10-4 Sm2 mol-1 respectively, Ba(OH)2 in Sm2 mol-1 is
52.4 10-4
524
402
262
The molar conductivities of KCl, NaCl and KNO3 are 152, 128 and 111 S cm2mol-1 respectively. What is the molar conductivity of NaNO3?
101 S cm2mol-1
87 S cm2mol-1
-101 S cm2mol-1
-39 S cm2mol-1
The electrochemical cell stops working after sometime because
electrode potential of both the electrodes becomes zero
electrode potential of both the electrodes becomes equal
one of the electrodes is eaten away
the cell reaction gets reversed
The amount of electricity required to produce one mole of copper from copper sulphate solution will be
1 F
2.33 F
2 F
1.33 F
How long (in hours) must a current of 5.0 A be maintained to electroplate 60 g of calcium from molten CaCl2 ?
27 h
8.3 h
11 h
16 h
For strong electrolytes the plot of molar conductance vs is
parabolic
linear
sinusoidal
circular
If the molar conductance values of Ca2+ and Cl- at infinite dilution are respectively 118.88 X 10-4 m2 ho mol-1 and 77.33 X 10-4m2 ho mol-1 then that of CaCl2 is ( in m2 ho mol-1):
118.88 X 10-4
154.66 X 10-4
273.54 X 10-4
196.21 X 10-4
The ionic conductance of Ba2+ and Cl- are respectively 127 and 76 ohm-1 cm2 at infinite dilution. The equivalent conductance (in ohm-1cm2) of BaCl2 at infinite dilution will be
139.5
203
279
101.5
The reduction electrode potential, E of 0.1 M solution of M+ ions (ERP = -2.36 V) is
-4.82 V
-2.41 V
+2.41 V
None of these
The amount of silver deposited on passing 2 F of electricity through aqueous solution of AgNO3
54g
108g
216g
324g
C.
216g
According Faraday law's