Electrochemistry's Question 18 | Chemistry XII - Part 1 | NCERT Exemplar Questions

MCQ (Multiple Correct Answer)

The positive value of the standard electrode potential of $\mathrm{Cu}^{2+} / \mathrm{Cu}$ indicates that ............ .

this redox couple is a stronger reducing agent than the $\mathrm{H}^{+} / \mathrm{H}_2$ couple

this redox couple is a stronger oxidising agent than $\mathrm{H}^{+} / \mathrm{H}_2$

Cu can displace $\mathrm{H}_2$ from acid

Cu cannot displace $\mathrm{H}_2$ from acid

MCQ (Multiple Correct Answer)

$\mathrm{E}_{\text {cell }}^{\mathrm{s}}$ for some half cell reactions are given below. On the basis of these mark the correct answer.

(a) $\mathrm{H}^{+}(\mathrm{aq})+\mathrm{e}^{-} \longrightarrow \frac{1}{2} \mathrm{H}_2(\mathrm{~g})\qquad; \mathrm{E}_{\text {cell }}^{\mathrm{s}}=0.00 \mathrm{~V}$

(b) $2 \mathrm{H}_2 \mathrm{O}(\mathrm{l}) \longrightarrow \mathrm{O}_2(\mathrm{~g})+4 \mathrm{H}^{+}(\mathrm{aq})+4 \mathrm{e}^{-}\qquad$; $\mathrm{E}_{\text {cell }}^{\mathrm{s}}=1.23 \mathrm{~V}$

(c) $2 \mathrm{SO}_4^{2-}(\mathrm{aq}) \longrightarrow \mathrm{S}_2 \mathrm{O}_8^{2-}(\mathrm{aq})+2 \mathrm{e}^{-} ; \quad \mathrm{E}_{\text {cell }}^{\mathrm{s}}=1.96 \mathrm{~V}$

In dilute sulphuric acid solution, hydrogen will be reduced at cathode

In concentrated sulphuric acid solution, water will be oxidised at anode

In dilute sulphuric acid solution, water will be oxidised at anode

In dilute sulphuric acid solution, $\mathrm{SO}_4^{2-}$ ion will be oxidised to tetrathionate ion at anode

MCQ (Multiple Correct Answer)

$\mathrm{E}_{\text {cell }}^{\circ}=1.1 \mathrm{~V}$ or Daniel cell. Which of the following expressions are correct description of state of equilibrium in this cell?

$1.1=K_C$

$\frac{2.303 R T}{2 F} \log K_C=1.1$

$\log K_C=\frac{2.2}{0.059}$

$\log K_C=1.1$

MCQ (Multiple Correct Answer)

Conductivity of an electrolytic solution depends on

nature of electrolyte

concentration of electrolyte

power of AC source

distance between the electrodes

MCQ (Multiple Correct Answer)

$\Lambda_{\mathrm{m}}^{\circ} \mathrm{H}_2 \mathrm{O}$ is equal to. ............... .

$\Lambda_{m(\mathrm{HCl})}^{\circ}+\Lambda_{m(\mathrm{NaOH})}^{\circ}-\Lambda_{m(\mathrm{NaCl})}^{\circ}$

$\Lambda_{m\left(\mathrm{HNO}_3\right)}^{\circ}+\Lambda_{m\left(\mathrm{NaNO}_3\right)}^{\circ}-\Lambda_{m(\mathrm{NaOH})}^{\circ}$

$\Lambda_{m\left(\mathrm{HNO}_3\right)}^{\circ}+\Lambda_{m(\mathrm{NaOH})}^{\circ}-\Lambda_{m\left(\mathrm{NaNO}_3\right)}^{\circ}$

$\Lambda_{m\left(\mathrm{NH}_4 \mathrm{OH}\right)}^{\circ}+\Lambda_{m(\mathrm{HCl})}^{\circ}-\Lambda_{m\left(\mathrm{NH}_4 \mathrm{Cl}\right)}^{\circ}$

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