Question:

With reference to the variation of molar conductivity ($ \Lambda_m $) with concentration for a strong electrolyte in an aqueous solution, the CORRECT statement is

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The asymmetry effect tends to increase molar conductivity, while the electrophoretic effect tends to decrease it due to ion interactions in solution.

Updated On: Dec 12, 2025

The asymmetry effect contributes to decrease $ \Lambda_m $ whereas the electrophoretic effect contributes to increase $ \Lambda_m $
The asymmetry effect contributes to increase $ \Lambda_m $ whereas the electrophoretic effect contributes to decrease $ \Lambda_m $
Both asymmetry effect and electrophoretic effect contribute to decrease $ \Lambda_m $
Both asymmetry effect and electrophoretic effect contribute to increase $ \Lambda_m $

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Understanding molar conductivity (Λₘ) for strong electrolytes:

For strong electrolytes in aqueous solution, molar conductivity varies with concentration due to two main effects:

1. Asymmetry Effect (Relaxation Effect):

When an ion moves under an applied field, it creates an asymmetric distribution of surrounding ions
The ionic atmosphere is distorted and takes time to relax back to equilibrium
This asymmetry opposes ion movement
Decreases Λₘ

2. Electrophoretic Effect:

The ionic atmosphere moves in the opposite direction to the central ion
This creates a "drag" effect on the central ion
The movement of surrounding ions and solvent in opposite direction slows down the central ion
Decreases Λₘ

Concentration dependence:

As concentration increases:

Debye-Hückel-Onsager equation: $$\Lambda_m = \Lambda_m^0 - (A + B\Lambda_m^0)\sqrt{c}$$

where the negative term shows that both effects decrease Λₘ with increasing concentration.

Answer: (C) Both asymmetry effect and electrophoretic effect contribute to decrease Λₘ

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