KCET · Chemistry · Electrochemistry
The equilibrium constant of the reaction \(\mathrm{A}(\mathrm{s})+2 \mathrm{~B}^{2+}(\mathrm{aq}) \rightleftharpoons \mathrm{A}^{2+}(\mathrm{aq})+2 \mathrm{~B}(\mathrm{~s})\)
\(\mathrm{F}_{\text {cell }}^{\circ}=0.0295 \mathrm{~V}\) is \(\left[\frac{2.303 \mathrm{RT}}{\mathrm{F}}=0.059\right]\)
- A \(2 \times 10^{2}\)
- B \(3 \times 10^{2}\)
- C \(2 \times 10^{5}\)
- D 10
Answer & Solution
Correct Answer
(D) 10
Step-by-step Solution
Detailed explanation
\(\mathrm{A}(\mathrm{s})+2 \mathrm{~B}^{+}(\mathrm{aq}) \rightleftharpoons \mathrm{A}^{2+}(\mathrm{aq})+2 \mathrm{~B}(\mathrm{~s}) ;\)
Here, \(\mathrm{n}=\) number of \(\mathrm{e}^{-}\)transfer \(=2\)
\(\quad \mathrm{E}_{\text {cell }}^{\circ}=0.295 \mathrm{~V}\)
\(\quad \mathrm{~K}_{\mathrm{c}}=?\)
\(\because \quad \mathrm{E}_{\text {cell }}^{0}=\frac{0.059}{\mathrm{n}} \log \mathrm{K}_{\mathrm{c}}\)
\(\therefore \quad 0.0295=\frac{0.059}{2} \log \mathrm{K}_{\mathrm{c}}\)
\(\therefore \quad \log \mathrm{K}_{\mathrm{c}}=1=\log 10\)
\(\Rightarrow \quad \mathrm{K}_{\mathrm{c}}=10\)
Here, \(\mathrm{n}=\) number of \(\mathrm{e}^{-}\)transfer \(=2\)
\(\quad \mathrm{E}_{\text {cell }}^{\circ}=0.295 \mathrm{~V}\)
\(\quad \mathrm{~K}_{\mathrm{c}}=?\)
\(\because \quad \mathrm{E}_{\text {cell }}^{0}=\frac{0.059}{\mathrm{n}} \log \mathrm{K}_{\mathrm{c}}\)
\(\therefore \quad 0.0295=\frac{0.059}{2} \log \mathrm{K}_{\mathrm{c}}\)
\(\therefore \quad \log \mathrm{K}_{\mathrm{c}}=1=\log 10\)
\(\Rightarrow \quad \mathrm{K}_{\mathrm{c}}=10\)
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