Electrolytic conduction differs from metallic conduction in that in the case of electrolytic conduction:
- AThe resistance increases with increasing temperature
- BThe resistance decreases with increasing temperature
- CThe flow of current does not generate heat
- DThe resistance is independent of the length of the conductor
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View SolutionDefine $\Lambda _m = \frac{\kappa \times 1000}{C}$ where $C$ is concentration in $mol \ L^{-1}$ and $\kappa$ is conductivity in $S \ cm^{-1}$.
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