(B) For a weak base,the dissociation constant $K_b$ is given by the formula $K_b = C \alpha^2$,where $C$ is the concentration and $\alpha$ is the degr

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(B) For a weak base,the dissociation constant $K_b$ is given by the formula $K_b = C \alpha^2$,where $C$ is the concentration and $\alpha$ is the degree of dissociation.Given: Concentration $C = 0.1 \ M$ and degree of dissociation $\alpha = 2 \% = 0.02$.Substituting the values into the formula:$K_b = 0.1 \times (0.02)^2$$K_b = 0.1 \times 0.0004$$K_b = 4 \times 10^{-5}$.

Class 11 Chemistry 6-2.Equilibrium-II (Ionic Equilibrium)pH of weak Acids and weak Bases

Medium

Calculate the value of the dissociation constant $(K_b)$ of a weak monoacidic base if it dissociates to $2 \%$ in a $0.1 \ M$ solution.

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A
$6 \times 10^{-5}$
B
$4 \times 10^{-5}$
C
$2 \times 10^{-5}$
D
$1 \times 10^{-5}$

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6-2.Equilibrium-II (Ionic Equilibrium)

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pH of weak Acids and weak Bases

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Calculate the value of the dissociation constant $(K_b)$ of a weak monoacidic base if it dissociates to $2 \%$ in a $0.1 \ M$ solution.

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Calculate the $[H^{+}]$ ion concentration in a $1.00 \ M$ $HCN$ solution $(K_a = 4 \times 10^{-10})$.

At $27^{\circ} C$,the degree of dissociation of a weak acid $(HA)$ in its $0.5 \ M$ aqueous solution is $1 \%$. Its $K_{a}$ value is approximately:

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