(A) Given: Cell constant $(G^*) = \frac{l}{a} = 0.5 \ cm^{-1}$,Resistance $(R) = 50 \ \Omega$,Normality $(N) = 1 \ N$. Conductivity $(\kappa) = \frac{

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(A) Given: Cell constant $(G^*) = \frac{l}{a} = 0.5 \ cm^{-1}$,Resistance $(R) = 50 \ \Omega$,Normality $(N) = 1 \ N$. Conductivity $(\kappa) = \frac{1}{R} \times \frac{l}{a} = \frac{1}{50} \times 0.5 = 0.01 \ \Omega^{-1} \ cm^{-1}$. Equivalent conductivity $(\Lambda_{eq}) = \frac{1000 \times \kappa}{N} = \frac{1000 \times 0.01}{1} = 10 \ \Omega^{-1} \ cm^2 \ (g \ eq)^{-1}$.

Class 12 Chemistry Electrochemistry Conductor and Conductance and Cell constant

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The cell constant of a cell is $0.5 \ cm^{-1}$ and the resistance $R = 50 \ \Omega$. If the normality is $1 \ N$,then the equivalent conductivity of the electrochemical cell is ...... $\Omega^{-1} \ cm^2 \ (g \ eq)^{-1}$.

A
$10$
B
$20$
C
$300$
D
$100$

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Conductor and Conductance and Cell constant

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The cell constant of a cell is $0.5 \ cm^{-1}$ and the resistance $R = 50 \ \Omega$. If the normality is $1 \ N$,then the equivalent conductivity of the electrochemical cell is ...... $\Omega^{-1} \ cm^2 \ (g \ eq)^{-1}$.

Similar Questions

The molar conductivities $\Lambda_{NaOH}^o$ and $\Lambda_{HCl}^o$ at infinite dilution in water at $25 ^\circ C$ are $91.0$ and $426.2 \ S \ cm^2/mol$ respectively. To calculate $\Lambda_{CH_3COOH}^o$,the additional value required is:

State Kohlrausch's law of independent migration of ions and explain its applications.

Which among the following aqueous salt solutions is used in a conductivity cell to determine the cell constant?

Which one of the following solutions will have the highest conductivity?

$A$ conductivity cell containing $5 \times 10^{-4} \ M \ NaCl$ solution develops a resistance of $14000 \ \Omega$ at $25^{\circ} C$. Calculate the conductivity of the solution if the cell constant is $0.84 \ cm^{-1}$.

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