Redox Reactions MCQs With Answers – Part 5 (Class 11 Chemistry)
GKaim: Measure. Improve. Achieve.

Redox Reactions MCQs with Answers – Part 5 (Class 11 Chemistry)

Timer: Off
Random: Off

411. A voltmeter connected to a working \( \mathrm{Zn-Cu} \) galvanic cell shows a positive reading when the positive terminal is connected to the copper electrode. This is consistent with:
ⓐ. zinc electrode being the cathode
ⓑ. sulphate ions carrying electrons through the wire
ⓒ. copper electrode being the cathode
ⓓ. both electrodes undergoing oxidation
412. In an electrolytic cell, the anode is positive, but oxidation still occurs there. This shows that:
ⓐ. oxidation changes to reduction in electrolysis
ⓑ. cathode means oxidation in all cells
ⓒ. electrons are not involved in electrolysis
ⓓ. sign and process are separate
413. The phrase “standard conditions” in standard electrode potential most directly means that:
ⓐ. agreed reference conditions for comparison
ⓑ. the reaction must always occur at the same speed
ⓒ. every solution must be colourless
ⓓ. all electrodes must have the same mass
414. A slow reaction has a positive \(E^\circ_{\text{cell}}\). The correct interpretation is:
ⓐ. it must be impossible
ⓑ. it cannot be a redox reaction
ⓒ. thermodynamically favoured but kinetically slow
ⓓ. positive voltage always means instantaneous reaction
415. Study the statement set. I. More positive \(E^\circ\) for a reduction half-reaction means greater reduction tendency. II. In a galvanic cell, the cathode has the reduction half-reaction. III. When a half-reaction is doubled, its \(E^\circ\) value is doubled.
ⓐ. II and III only
ⓑ. I and II only
ⓒ. I and III only
ⓓ. I, II and III
416. A table gives cell notations and \(E^\circ_{\text{cell}}\) values.
RowCell notation\(E^\circ_{\text{cell}}\)Decision
P\( \mathrm{Zn|Zn^{2+}||Cu^{2+}|Cu} \)\(+1.10\,\mathrm{V}\)favoured as written
Q\( \mathrm{Cu|Cu^{2+}||Zn^{2+}|Zn} \)\(-1.10\,\mathrm{V}\)not favoured as written
R\( \mathrm{Fe|Fe^{2+}||Ag^+|Ag} \)\(+1.24\,\mathrm{V}\)favoured as written
S\( \mathrm{Ag|Ag^+||Fe^{2+}|Fe} \)\(+1.24\,\mathrm{V}\)favoured as written
Which row needs correction?
ⓐ. Row P
ⓑ. Row S
ⓒ. Row Q
ⓓ. Row R
417. A compact cell problem gives \(E^\circ_{\mathrm{X^+/X}}=+0.20\,\mathrm{V}\) and \(E^\circ_{\mathrm{Y^+/Y}}=+0.65\,\mathrm{V}\). The standard cell \( \mathrm{X|X^+||Y^+|Y} \) has:
ⓐ. \(E^\circ_{\text{cell}}=-0.45\,\mathrm{V}\)
ⓑ. \(E^\circ_{\text{cell}}=+0.85\,\mathrm{V}\)
ⓒ. \(E^\circ_{\text{cell}}=+0.45\,\mathrm{V}\)
ⓓ. \(E^\circ_{\text{cell}}=0.00\,\mathrm{V}\)
418. The reaction \( \mathrm{X+Y^+\rightarrow X^+ +Y} \) has \(E^\circ_{\text{cell}}=+0.45\,\mathrm{V}\). The oxidised and reduced species are respectively:
ⓐ. \( \mathrm{X} \) and \( \mathrm{Y^+} \)
ⓑ. \( \mathrm{Y^+} \) and \( \mathrm{X} \)
ⓒ. \( \mathrm{X^+} \) and \( \mathrm{Y} \)
ⓓ. \( \mathrm{Y} \) and \( \mathrm{X^+} \)
419. A cell-potential calculation gives \(E^\circ_{\text{cell}}=(+0.20)-(+0.65)=-0.45\,\mathrm{V}\) for the reaction \( \mathrm{Y+X^+\rightarrow Y^+ +X} \). The conclusion is:
ⓐ. the reaction is favoured because the magnitude is \(0.45\,\mathrm{V}\)
ⓑ. the reaction becomes favoured by doubling all coefficients
ⓒ. the reaction is non-redox because the value is negative
ⓓ. the reaction as written is not favoured under standard conditions
420. The most reliable sequence for solving a standard cell-potential problem is:
ⓐ. add all listed potentials, multiply by coefficients, then choose the larger formula mass
ⓑ. decide the answer from colour change, then ignore electrode notation
ⓒ. choose anode/cathode, use the cell-potential equation, interpret sign
ⓓ. choose the electrode with more atoms as cathode and the other as anode
Subscribe
Notify of
guest
0 Comments
Scroll to Top