(C) The formula for molar conductivity is $\Lambda_{m} = \frac{\kappa \times 1000}{M}$.Given:Conductivity $\kappa = 0.0627 \ S \ cm^{-1}$Molarity $M =

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(C) The formula for molar conductivity is $\Lambda_{m} = \frac{\kappa \times 1000}{M}$.Given:Conductivity $\kappa = 0.0627 \ S \ cm^{-1}$Molarity $M = 0.3 \ M$Substituting the values:$\Lambda_{m} = \frac{0.0627 \times 1000}{0.3}$$\Lambda_{m} = \frac{62.7}{0.3} = 209 \ S \ cm^2 \ mol^{-1}$.

Class 12 Chemistry Electrochemistry Conductor and Conductance and Cell constant

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The conductivity of $0.3 \ M$ solution of $KCl$ at $298 \ K$ is $0.0627 \ S \ cm^{-1}$. What is its molar conductivity?

MHT CET 2021 All MHT CET

A
$104 \ S \ cm^2 \ mol^{-1}$
B
$188 \ S \ cm^2 \ mol^{-1}$
C
$209 \ S \ cm^2 \ mol^{-1}$
D
$109 \ S \ cm^2 \ mol^{-1}$

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The conductivity of $0.3 \ M$ solution of $KCl$ at $298 \ K$ is $0.0627 \ S \ cm^{-1}$. What is its molar conductivity?

Similar Questions

The resistance of a conductivity cell of $0.1 \ M$ $KCl$ solution is $120 \ \Omega$ and conductivity is $1.64 \times 10^{-4} \ S \ cm^{-1}$. What is the value of cell constant (in $cm^{-1}$)?

Which one of the following graphs between molar conductivity $(\Lambda_m)$ versus $\sqrt{C}$ is correct?

The dissociation constant of $n$-butyric acid is $1.6 \times 10^{-5}$ and the molar conductivity at infinite dilution is $380 \times 10^{-4} \ S \ m^2 \ mol^{-1}$. The specific conductance of the $0.01 \ M$ acid solution is

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The conductivity of $0.005 \ M$ $NaI$ solution at $25^{\circ} C$ is $6.07 \times 10^{-4} \ \Omega^{-1} \ cm^{-1}$. Calculate its molar conductivity.

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