151.The potential of a hydrogen electrode in a solution of unknown [H+] is 0.29 V at 298 k measured against a standard hydrogen electrode. Calculate the pH of the solution.
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152.The measured resistance of a conductance cell containing 7.5 x 10–3 M solution of KCl at 25° C was 1005 ohms. Calculate (a) specific conductance (b) molar conductance of the solution cell constant = 1.25 cm–1.
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153.Estimate the minimum potential difference needed to reduce Al2O3 at 500° C. The free energy change for the decomposition reaction.
154.Two students use same stock-solution of ZnSO4 and solution of CuSO4. The emf of one cell is 0.03 V higher than the other. The conc. of CuSO4 in the cell with higher emf value is 0.5 M. Find out the concentration of CuSO4 in the other cell (2.303 RT/F = 0.06).
The cell may be represented as
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Long Answer Type
155.The measured resistance of a conductance cell containing 7.5 x 10–3 M solution of KCl at 25° was 1005 ohms. Calculate (a) specific conductance (b) Molar conductance of the solution. Cell constant = 1.25 cm–1.
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Short Answer Type
156.Molar conductance of a 1.5 M solution of an electrolyte is found to be 138.9 S cm2mol–1. What would be the specific conductance of this solution.
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157.The emf (E°cell) of the cell reaction : 3Sn4+ + 2Cr → 3Sn2+ + 2Cr3+ is 0.89 V. Calculate ΔG° for the reaction. (F = 96,500 (mol–1 and VC ≡ J)
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Long Answer Type
158.Calculate emf of the following cell at 298 K Mg(s) | Mg2+ (0.001 M) || Cu2+ (0.0001 M) | Cu(s) (Given : E°Cu2/Cu = + 0.34 V; E° Mg2+/Mg = – 2.37 V)
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Short Answer Type
159.If E° for copper electrode is + 0.34 V how will you calculate its emf value when the solution in contact with it is 0.1 M in copper ions? How does emf for copper electrode change when concentration of Cu2+ ions in the solution is decreased?
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160.
The half reactions are: (i) Fe3+ + e– → Fe2+, E° = 0.76 V (ii) Ag++ e– → Ag,E° = 0.80 V Calculate Kc for the following reaction at 25° C: