(C) The formula for molar conductivity $(\Lambda_m)$ is given by: $\Lambda_m = \frac{\kappa \times 1000}{M}$ Here,$\kappa = 1.061 \times 10^{-4} \ S \

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(C) The formula for molar conductivity $(\Lambda_m)$ is given by: $\Lambda_m = \frac{\kappa \times 1000}{M}$ Here,$\kappa = 1.061 \times 10^{-4} \ S \ cm^{-1}$ and $M = 0.01 \ M$. Substituting the values: $\Lambda_m = \frac{1.061 \times 10^{-4} \times 1000}{0.01}$ $\Lambda_m = \frac{1.061 \times 10^{-1}}{10^{-2}}$ $\Lambda_m = 1.061 \times 10^1 = 10.61 \ S \ cm^2 \ mol^{-1}$.

Class 12 Chemistry Electrochemistry Conductor and Conductance and Cell constant

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The specific conductivity of a $0.01 \ M$ salt solution is $1.061 \times 10^{-4} \ S \ cm^{-1}$. The molar conductivity of this solution is:

A
$1.061 \times 10^{-4}$
B
$1.061$
C
$10.61$
D
$106.1$

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Conductor and Conductance and Cell constant

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The specific conductivity of a $0.01 \ M$ salt solution is $1.061 \times 10^{-4} \ S \ cm^{-1}$. The molar conductivity of this solution is:

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In an aqueous solution,how does specific conductivity of electrolytes change with the addition of water?

The equivalent conductances of $CH_3COONa$,$HCl$,and $CH_3COOH$ at infinite dilution are $91$,$426$,and $391 \ \Omega^{-1} \ cm^2 \ eq^{-1}$ respectively. What is the equivalent conductance of $NaCl$ at infinite dilution?

Calculate the molar conductivity of a $0.02 \, M$ solution if its conductivity is $2.06 \times 10^{-3} \, S \, cm^{-1}$.

Assertion : On increasing dilution,the specific conductance keeps on increasing.Reason : On increasing dilution,the degree of ionization of a weak electrolyte increases and the mobility of ions also increases.

If the resistance of $0.1 \ M \ KCl$ solution in a conductance cell is $300 \ \Omega$ and conductivity is $0.013 \ S \ cm^{-1}$,then the value of cell constant is

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Assertion : On increasing dilution,the specific conductance keeps on increasing.
Reason : On increasing dilution,the degree of ionization of a weak electrolyte increases and the mobility of ions also increases.