(C) The degree of dissociation $(\alpha)$ is given by the ratio of molar conductivity at a specific concentration $(\Lambda_c)$ to the molar conductiv

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(C) The degree of dissociation $(\alpha)$ is given by the ratio of molar conductivity at a specific concentration $(\Lambda_c)$ to the molar conductivity at infinite dilution $(\Lambda_0)$: $\alpha = \frac{\Lambda_c}{\Lambda_0}$ Given: $\Lambda_c = 3.3 \ \Omega^{-1} \ cm^2 \ mol^{-1}$ and $\Lambda_0 = 132 \ \Omega^{-1} \ cm^2 \ mol^{-1}$. $\alpha = \frac{3.3}{132} = 0.025$ Percentage dissociation $= \alpha \times 100 = 0.025 \times 100 = 2.5 \%$.

Class 11 Chemistry 6-2.Equilibrium-II (Ionic Equilibrium)Electrical conductors and Ostwald’s dilution law

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Calculate the percentage dissociation of a $0.05 \ M$ solution of a weak electrolyte if its molar conductivity and molar conductivity at infinite dilution are respectively $3.3 \ \Omega^{-1} \ cm^2 \ mol^{-1}$ and $132 \ \Omega^{-1} \ cm^2 \ mol^{-1}$. (in $\%$)

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$3.5$
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6-2.Equilibrium-II (Ionic Equilibrium)

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Electrical conductors and Ostwald’s dilution law

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Calculate the percentage dissociation of a $0.05 \ M$ solution of a weak electrolyte if its molar conductivity and molar conductivity at infinite dilution are respectively $3.3 \ \Omega^{-1} \ cm^2 \ mol^{-1}$ and $132 \ \Omega^{-1} \ cm^2 \ mol^{-1}$. (in $\%$)

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