Consider the cell whose emf is 1.01 V. Pt, H | vedclass

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(D) The cell reaction is: $\frac{1}{2}H_{2(g)} + Ag^{+}_{(aq)} \rightarrow H^{+}_{(aq)} + Ag_{(s)}$ Here,$n = 1$. $E^o_{cell} = E^o_{Ag^{+}|Ag} - E^o_

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$0.31$

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(D) The cell reaction is: $\frac{1}{2}H_{2(g)} + Ag^{+}_{(aq)} \rightarrow H^{+}_{(aq)} + Ag_{(s)}$ Here,$n = 1$. $E^o_{cell} = E^o_{Ag^{+}|Ag} - E^o_{H^{+}|H_2} = 0.8 - 0 = 0.8 \ V$ Given $pH = 4$,so $[H^{+}] = 10^{-4} \ M$. Using the Nernst equation: $E_{cell} = E^o_{cell} - \frac{0.06}{n} \log \frac{[H^{+}]}{[Ag^{+}]}$ $1.01 = 0.8 - \frac{0.06}{1} \log \frac{10^{-4}}{x}$ $1.01 - 0.8 = -0.06 (\log 10^{-4} - \log x)$ $0.21 = -0.06 (-4 - \log x)$ $0.21 = 0.24 + 0.06 \log x$ $-0.03 = 0.06 \log x$ $\log x = -\frac{0.03}{0.06} = -0.5$ $x = 10^{-0.5} = 0.316 \approx 0.31 \ M$

Consider the cell whose $emf$ is $1.01 \ V$.
$Pt, H_2(1 \ atm) | H^{+}(pH = 4) || Ag^{+}(xM) | Ag$
What is the value of $x$? (Given: $E^o_{Ag^{+}|Ag} = +0.8 \ V$,$\frac{2.303 \ RT}{F} = 0.06$)

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Consider the cell whose $emf$ is $1.01 \ V$. $Pt, H_2(1 \ atm) | H^{+}(pH = 4) || Ag^{+}(xM) | Ag$ What is the value of $x$? (Given: $E^o_{Ag^{+}|Ag} = +0.8 \ V$,$\frac{2.303 \ RT}{F} = 0.06$)