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We know, $$\lambda_c = \frac{(\text{Specific Conductivity})}{1000 \times c}$$ $$\alpha\lambda_\infty = \lambda_c$$ (where $c$ is concentration in moles per litres of the electrolyte and $\alpha$ is degree of dissociation of the electrolyte) $\lambda_{\infty}$ of water (the electrolyte) is the sum of $\lambda_{\infty}$ of $\ce{H+}$ and $\ce{OH-}$. From ...


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