For a fuel cell, which statementis correct?
Hydrogen is oxidised to H2O at cathode
Oxygen is reduced to OH- at anode
Hydrogen is oxidised to H2O at anode
Hydrogen is oxidised to H+ at anode
2 × 10-5C charge on Zn2+ ions corresponds to
2 × 10-5 mol of Zn2+ ions
6.22 × 107 Zn2+ ions
0.64 mg of Zn2+ ions
1 × 10-10 mol Zn2+ ions.
What is the.standard potential of the Tl3+/ Tl electrode?
Tl3+ +2e- → Tl+, E°= 1.26V
Tl+ +e- → Tl, E°=-0.336V
0.924V
-0.924 V
0.728 V
-0.728V
One litre of 1 M CuSO4 solution is electrolysed. After passing 2F charge, the molarity of CuSO4 solution will be
M/2
Zero
M/4
M
B.
Zero
Given,
Molarity of CuSO4 solution (c) = 1 M, i.e 1 mol/L
1 mol of Cu2+ ions require 2F of charge for complete deposition by electrolysis.
On passing 2F charge, all Cu2+ ions deposited and no Cu2+ left in CuSO4 solution So, the molarity of CuSO4 solution will be zero.
Same amount of electric current is passed through solutions of AgNO3 and HCl. If 1.08 g of silver is obtained in the first case, the amount of hydrogen liberated at STP in the second case is
224 cm3
1.008 gm
112 cm3
22400 cm3
The standard reduction potentials of Zn and Ag in water at 298 K are, Zn2+ + 2e- Zn; E° = -0.76 V and Ag+ + e- Ag; E° = +0.80 V? Which of the following reactions take place?
Zn2+ (aq) + 2Ag (s) → 2Ag+ (aq) + Zn (s)
Zn (s) + 2Ag+ (aq) → Zn2+ (aq) + 2Ag (s)
Zn2+ (aq) + Ag+ (aq) → Zn (s) + Ag (s)
Zn (s) + Ag (s) → Zn2+ (aq) + Ag+ (aq)
In a galvanic cell, the electrons flow from
anode to cathode through the solution
cathode to anode through the solution
anode to cathode through the external circuit
cathode to anode through the external circuit
Aluminium displaces hydrogen from dilute HCl whereas silver does not. The e.m.f. of a cell prepared by combining Al / Al3+ and Ag/Ag+ is 2.46 V. The reduction potential of silver electrode is + 0.80 V. The reduction potential of aluminium electrode is
+ 1.66 V
-3.26 V
3.26 V
-1.66 V
The hydrogen electrode is dipped in a solution of pH 3 at 25°C. The potential would be (the value of 2.303 RT/F is 0.059 V)
0.177 V
0.087 V
0.059 V
- 0.177 V