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A solution of concentration $C g$ equiv/L has a specific resistance $R$. The equivalent conductance of the solution is
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Verified Answer
The correct answer is:
$\frac{1000}{R C}$
Equivalent conductivity,
$\wedge_{\mathrm{eq}}=\frac{\text { specific conductance } \times 1000}{\text { concentration }(\text { in g equiv } / \mathrm{L})}$
$\because$ Specific conductance
$=\frac{1}{\text { specific resistance }}$
(Given, concentration $=C$ g equiv $/ \mathrm{L})$
$\therefore \quad \wedge_{\mathrm{eq}}=\frac{1}{R} \times \frac{1000}{C}$
or $\quad=\frac{1000}{R C}$
$\wedge_{\mathrm{eq}}=\frac{\text { specific conductance } \times 1000}{\text { concentration }(\text { in g equiv } / \mathrm{L})}$
$\because$ Specific conductance
$=\frac{1}{\text { specific resistance }}$
(Given, concentration $=C$ g equiv $/ \mathrm{L})$
$\therefore \quad \wedge_{\mathrm{eq}}=\frac{1}{R} \times \frac{1000}{C}$
or $\quad=\frac{1000}{R C}$
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