Same amount of electric current is passed through solutions of Ag

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 Multiple Choice QuestionsMultiple Choice Questions

511.

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


512.

An example for a strong electrolyte is

  • urea

  • ammonium hydroxide

  • sugar

  • sodium acetate


513.

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.


514.

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


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515.

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


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516.

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


C.

112 cm3

According to Faraday's second law of electrolysis, we have

W1W2 = E1E2

 1.08x = 1081

 Weight of hydrogen (x) = 0.01 gm

Hence, the volume of hydrogen at STP 

22400 × 0.012 = 112 cm3


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517.

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)


518.

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


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519.

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


520.

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


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