Electrochemistry MCQs With Answers – Part 2 (Class 12 Chemistry)
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Electrochemistry MCQs with Answers – Part 2 (Class 12 Chemistry)

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111. Under standard conditions with kinetic effects neglected, metal M displaces N and P from solutions containing \(N^{2+}\) and \(P^{2+}\). Metal Q also displaces M from a solution containing \(M^{2+}\). The relation consistent with these observations is:
ⓐ. \(E^\circ_{M^{2+}/M}\gt E^\circ_{N^{2+}/N}\gt E^\circ_{Q^{2+}/Q}\) and \(E^\circ_{M^{2+}/M}\gt E^\circ_{P^{2+}/P}\gt E^\circ_{Q^{2+}/Q}\)
ⓑ. \(E^\circ_{Q^{2+}/Q}\gt E^\circ_{M^{2+}/M}\gt E^\circ_{N^{2+}/N}\) and \(E^\circ_{Q^{2+}/Q}\gt E^\circ_{M^{2+}/M}\gt E^\circ_{P^{2+}/P}\)
ⓒ. \(E^\circ_{N^{2+}/N}\gt E^\circ_{M^{2+}/M}\gt E^\circ_{Q^{2+}/Q}\) and \(E^\circ_{P^{2+}/P}\gt E^\circ_{M^{2+}/M}\gt E^\circ_{Q^{2+}/Q}\)
ⓓ. \(E^\circ_{N^{2+}/N}=E^\circ_{M^{2+}/M}=E^\circ_{P^{2+}/P}=E^\circ_{Q^{2+}/Q}\), so none of the stated displacements is favoured
112. The general Nernst equation for a cell reaction is:
ⓐ. \(E=E^\circ+\frac{nF}{RT}\ln Q\)
ⓑ. \(E=E^\circ-\frac{nF}{RT}\ln Q\)
ⓒ. \(E=E^\circ+\frac{RT}{nF}\ln Q\)
ⓓ. \(E=E^\circ-\frac{RT}{nF}\ln Q\)
113. In the Nernst equation, the symbol \(n\) represents:
ⓐ. the electron stoichiometry of the balanced reaction
ⓑ. the total number of ions present in the electrolyte
ⓒ. the number of electrode compartments in the cell
ⓓ. the concentration exponent of every reactant
114. The activity-based reaction quotient for the balanced reaction \(aA+bB\rightarrow cC+dD\) is:
ⓐ. \(Q=\frac{a(A)^a a(B)^b}{a(C)^c a(D)^d}\)
ⓑ. \(Q=\frac{a(C)+a(D)}{a(A)+a(B)}\)
ⓒ. \(Q=\frac{a(C)^c a(D)^d}{a(A)^a a(B)^b}\)
ⓓ. \(Q=\frac{a(CD)^{c+d}}{a(AB)^{a+b}}\)
115. The Daniell-cell reaction \(Zn(s)+Cu^{2+}(aq)\rightarrow Zn^{2+}(aq)+Cu(s)\) has the reaction quotient:
ⓐ. \(Q=\frac{[Cu^{2+}]}{[Zn^{2+}]}\)
ⓑ. \(Q=[Zn^{2+}][Cu^{2+}]\)
ⓒ. \(Q=\frac{[Zn^{2+}][Cu(s)]}{[Zn(s)][Cu^{2+}]}\)
ⓓ. \(Q=\frac{[Zn^{2+}]}{[Cu^{2+}]}\)
116. Pure solids and pure liquids are normally omitted from \(Q\) because:
ⓐ. they never participate in electrochemical reactions
ⓑ. their activities are unity in their pure standard states
ⓒ. they always appear with zero stoichiometric coefficients
ⓓ. their masses remain constant during every cell reaction
117. Assertion: The overall cell reaction must be balanced before the Nernst equation is applied. Reason: The balanced coefficients determine both the reaction-quotient powers and the electron number \(n\).
ⓐ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓑ. Assertion is true, but Reason is false
ⓒ. Both Assertion and Reason are true, and Reason explains Assertion
ⓓ. Assertion is false, but Reason is true
118. The balanced reaction \[ 2Fe^{3+}(aq)+Sn^{2+}(aq)\rightarrow2Fe^{2+}(aq)+Sn^{4+}(aq) \] has which electron number and reaction quotient?
ⓐ. \(n=1\), \(Q=\frac{[Fe^{2+}][Sn^{4+}]}{[Fe^{3+}][Sn^{2+}]}\)
ⓑ. \(n=4\), \(Q=\frac{[Fe^{3+}]^2[Sn^{2+}]}{[Fe^{2+}]^2[Sn^{4+}]}\)
ⓒ. \(n=2\), \(Q=\frac{[Fe^{3+}]^2[Sn^{2+}]}{[Fe^{2+}]^2[Sn^{4+}]}\)
ⓓ. \(n=2\), \(Q=\frac{[Fe^{2+}]^2[Sn^{4+}]}{[Fe^{3+}]^2[Sn^{2+}]}\)
119. At fixed temperature, an increase in \(Q\) for the forward cell reaction generally causes \(E_{\mathrm{cell}}\) to:
ⓐ. increase because the product activities become larger
ⓑ. remain unchanged because only \(E^\circ_{\mathrm{cell}}\) matters
ⓒ. become exactly zero under all conditions
ⓓ. decrease because the Nernst correction is subtracted
120. A reaction quotient equal to unity gives:
ⓐ. \(E=0\) under every condition
ⓑ. \(E=E^\circ\)
ⓒ. \(E=-E^\circ\)
ⓓ. \(E=\frac{RT}{nF}\)
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