Electricity is passed through an acidic solut | vedclass

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(C) Step $1$: Calculate $O_2$ evolved during $Cu$ deposition. $Eq$ of $Cu = Eq$ of $O_2$ $\frac{300 	imes 10^{-3}}{63.54 / 2} = n_{O_2(1)} 	imes 4$

Vedclass · Accepted Answer

$111$

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(C) Step $1$: Calculate $O_2$ evolved during $Cu$ deposition. $Eq$ of $Cu = Eq$ of $O_2$ $\frac{300 	imes 10^{-3}}{63.54 / 2} = n_{O_2(1)} 	imes 4$ $n_{O_2(1)} = \frac{0.3}{63.54 	imes 2} = 2.36 	imes 10^{-3} \ mol$. Step $2$: Calculate $O_2$ evolved during the additional $28 \ minutes$. $Q = I 	imes t = 0.6 \ A 	imes (28 	imes 60) \ s = 1008 \ C$. $n_{e^-} = \frac{1008}{96500} = 0.01044 \ mol$. Since $4 \ mol \ e^-$ produce $1 \ mol \ O_2$,$n_{O_2(2)} = \frac{0.01044}{4} = 2.611 	imes 10^{-3} \ mol$. Step $3$: Total $O_2$ volume at $STP$. $n_{total} = (2.36 + 2.611) 	imes 10^{-3} = 4.971 	imes 10^{-3} \ mol$. $V = n 	imes 22400 \ mL = 4.971 	imes 10^{-3} 	imes 22400 \approx 111.35 \ mL$. Rounding to the nearest integer,we get $111 \ mL$.

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