Standard Potential Question (1 Viewer)

mandog97 · Jul 2, 2015

Really struggling with this question from last year's HSC, please help me!!!!!!!!!!!

What is the standard cell potential for the reaction of 1.0 mol L−1 acidified potassium
dichromate (K2Cr2O7 (aq)) with aqueous sulfur dioxide (SO2 (aq)) under standard
conditions?
(A) 1.20 V
(B) 1.52 V
(C) 2.24 V
(D) 3.20 V

rand_althor · Jul 2, 2015

The acidified potassium dichromate ionises: $K_2Cr_2O_7 \rightarrow 2K^+ + Cr_2O_7^{2-}$ . As it is acidified, $H^+$ is also present. So, checking the Standard Potential Table, we see that the reaction involving $SO_2$ is above that involving $Cr_2O_7^{2-}$ . This means the sulfur dioxide is more likely to undergo oxidation, while the potassium dichromate is more likely to undergo reduction.

$\begin{align*}\textup{Oxidation: }& SO_{2(aq)}+2H_2O \rightarrow SO_4^{2-}+4H^++2e^- \\\textup{Reduction: }& Cr_2O_7^{2-}+14H^++6e^- \rightarrow 2Cr^{3+} +7H_2O \\E_{cell}&=E_{oxidation}+E_{reduction}\\&=-0.16+1.36\\&=1.20 V\end{align*}$

Therefore, the answer is A.

mandog97 · Jul 2, 2015

Thanks heaps!!!!!

unicorn_1698 · Jul 20, 2015

rand_althor said:
The acidified potassium dichromate ionises: $K_2Cr_2O_7 \rightarrow 2K^+ + Cr_2O_7^{2-}$ . As it is acidified, $H^+$ is also present. So, checking the Standard Potential Table, we see that the reaction involving $SO_2$ is above that involving $Cr_2O_7^{2-}$ . This means the sulfur dioxide is more likely to undergo oxidation, while the potassium dichromate is more likely to undergo reduction.

$\begin{align*}\textup{Oxidation: }& SO_{2(aq)}+2H_2O \rightarrow SO_4^{2-}+4H^++2e^- \\\textup{Reduction: }& Cr_2O_7^{2-}+14H^++6e^- \rightarrow 2Cr^{3+} +7H_2O \\E_{cell}&=E_{oxidation}+E_{reduction}\\&=-0.16+1.36\\&=1.20 V\end{align*}$

Therefore, the answer is A.

hi
but what about the potassium? why dont we include that when working out the standard potential??

BlueGas · Jul 21, 2015

unicorn_1698 said:
hi
but what about the potassium? why dont we include that when working out the standard potential??

Because the question isn't asking for potassium, it's asking for potassium dichormate and sulfur dioxide.

unicorn_1698 · Jul 21, 2015

but in the reduction half equation we're meant to use dichromate, why cant we use the potassium ion? and would that be the case with all similar questions?

porcupinetree · Jul 22, 2015

unicorn_1698 said:
but in the reduction half equation we're meant to use dichromate, why cant we use the potassium ion? and would that be the case with all similar questions?

The potassium ion has already been oxidised to its (effectively) maximum oxidation state by the acid, hence we can be confident that it won't oxidise again

unicorn_1698 · Jul 23, 2015

thank youu!

Standard Potential Question (1 Viewer)

mandog97

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rand_althor

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mandog97

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unicorn_1698

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BlueGas

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unicorn_1698

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porcupinetree

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unicorn_1698

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