MHT CET · Chemistry · Electrochemistry
Which from the following expression represents molar conductivity of an electrolyte \(\mathrm{A}_2 \mathrm{~B}_3\) type?
- A \(2 \lambda_{\mathrm{A}^{++}}^0+3 \lambda_{\mathrm{B}^{--}}^0\)
- B \(13 \lambda_{\mathrm{A}^{+++}}^0+2 \lambda_{\mathrm{B}^{-}}^0\)
- C \(2 \lambda_{\mathrm{A}^{+*+}}^0+\lambda_{\mathrm{B}^{-}}^0\)
- D \(\lambda_{\mathrm{A}^{4++}}^0+3 \lambda_{\mathrm{B}^{-}}^0\)
Answer & Solution
Correct Answer
(A) \(2 \lambda_{\mathrm{A}^{++}}^0+3 \lambda_{\mathrm{B}^{--}}^0\)
Step-by-step Solution
Detailed explanation
Molar conductivity at zero concentration for an electrolyte is given by
\(\Lambda_0=\mathrm{n}_{+} \lambda_{+}^0+\mathrm{n}_{-} \lambda_{-}^0\)
\(\mathrm{A}_2 \mathrm{~B}_3 \rightleftharpoons 2 \mathrm{~A}^{3+}+3 \mathrm{~B}^{2-}\)
\(\Lambda_0\left(A_2 B_3\right)=2 \lambda_{\mathrm{A}^{+++}}^0+3 \lambda_{\mathrm{B}^{--}}^0\)
\(\Lambda_0=\mathrm{n}_{+} \lambda_{+}^0+\mathrm{n}_{-} \lambda_{-}^0\)
\(\mathrm{A}_2 \mathrm{~B}_3 \rightleftharpoons 2 \mathrm{~A}^{3+}+3 \mathrm{~B}^{2-}\)
\(\Lambda_0\left(A_2 B_3\right)=2 \lambda_{\mathrm{A}^{+++}}^0+3 \lambda_{\mathrm{B}^{--}}^0\)
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