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State Kohlrausch's Law for the independe...

State Kohlrausch's Law for the independent migration of ions. Mention the applications of the Law.

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Kohlrausch’s law of independent migration of ions: It states that limiting molar conductivity of an electrolyte can be represented as the sum of the individual contributions of the anion and cation of the electrolyte.
If `lamda_(Na^(+))^(@)` and `lambda_(Cl^(-))^(@)` are limiting molar conductivities of the sodium and chloride ions respectively then the limiting molar conductivity for sodium chloride is given by `wedge_(m)^(@)(NaCl) = lambda_(Na^(+))^(@)+ lamda_(Cl^(-))^(@)`
Kohlrausch’s helps in the calculation of degree of dissociation of weak electrolyte like acetic acid. The degree of dissociation is given by `alpha = (wedge_(m))/(wedge_(m)^(@))`
where, `wedge_(m)` is the molar conductivity and `wedge_(m)^(@)` is the limiting molar conductivity.
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Kohlrausch Law Of Independent Migration Of Ions|Questions|Summary

State Kohlrausch law of independent migration of ions. Write an expression for the molar conductivity of acetic acid at infinite dilution according to Kohlrausch law. {:((b),"Calculate",:,wedge^(@)m" for acetic acid."),(,"Given that",:,wedge^(@)m(HCl)=426 " S " "cm"^(2)mol^(-1)),(,,,wedge^(@) m(NaCl)=126 " S " cm^(2) mol^(-1)),(,,,wedge^(@) m(CH_(3)COONa)=91 " S " cm^(2)mol^(-1)):}

Kohlrausch law of independent migration of ions applicable for __________.