If conductivity of water used to make saturated of AgCl is found to be \(3.1\times10^{-5}Ω^{-1}cm^{-1}\) and conductance of the solution of AgCl = \(4.5\times10^{-5}Ω^{-1}cm^{-1}\)
If \(λ^θ\) AgNO3 = \(200 Ω^{-1}cm^{2}mole^{-1}\)
\(λ^θ\)NaNO3 = \(310 Ω^{-1}cm^{2}mole^{-1}\)
calculate Ksp of AgCl
If conductivity of water used to make saturated of AgCl is found to be \(3.1\times10^{-5}Ω^{-1}cm^{-1}\) and conductance of the solution of AgCl = \(4.5\times10^{-5}Ω^{-1}cm^{-1}\)
If \(λ^θ\) AgNO3 = \(200 Ω^{-1}cm^{2}mole^{-1}\)
\(λ^θ\)NaNO3 = \(310 Ω^{-1}cm^{2}mole^{-1}\)
calculate Ksp of AgCl
Solution and Explanation
Here, λ0Agcl = 140
Total conductance = 10-5
S = 140x4x10-5x1000/140
= 1.4x10-4/14
= 5.4x10-4
Now, S2 = 1x10-8
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