According to the Debye-Hückel-Onsager equation for strong electrolytes, the variation of molar condu — Electrochemistry Chemistry Question
Question
According to the Debye-Hückel-Onsager equation for strong electrolytes, the variation of molar conductivity ($\Lambda_m$) with concentration ($C$) is $\Lambda_m = \Lambda_m^\circ - b\sqrt{C}$. For a weak electrolyte like aqueous acetic acid, how does the $\Lambda_m$ vs $\sqrt{C}$ curve behave as concentration approaches zero?
Answer: D
💡 Solution & Explanation
For weak electrolytes, the degree of dissociation ($\alpha$) increases significantly at extremely low concentrations. This causes a steep, non-linear increase in molar conductivity. As $C \rightarrow 0$, the curve becomes asymptotic (parallel) to the y-axis, meaning the limiting molar conductivity ($\Lambda_m^\circ$) cannot be found by direct graphical extrapolation, requiring Kohlrausch's law instead.
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