When a solution of conductance 1.342 mho...

When a solution of conductance 1.342 mho `"metre"^(-1)` was placed in a conductivity cell with parallel electrodes, the resistance was found to be 170.5 oh. The area of the electrodes is `1.86 xx 10^(-4)` sq metre. Calculate the distance between the two electrodes in metres.

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To solve the problem, we need to find the distance between the two electrodes in a conductivity cell. We are given the conductance, resistance, and area of the electrodes. Let's break down the steps to find the distance. ### Step 1: Understand the relationship between conductance, resistance, and specific conductance. Conductance (G) is related to resistance (R) by the formula: \[ G = \frac{1}{R} \] where \( G \) is the conductance in mho/meter and \( R \) is the resistance in ohms. ### Step 2: Calculate the specific conductance (κ). ...

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