The correct option is D 2λ0A++λ0B2−
Kohlrausch law:
At infinite dilution, when all the interionic effects disappear and dissociation of electrolyte is complete, each ion makes a definite contribution towards equivalent conductance of the electrolyte irrespective of the nature of the ion with which it is associated.
At infinite dilution, the ion becomes totally independent of other ions. At this point, it contributes maximum towards the conductance of the solution. This value of molar conductance is known as limiting molar conductivity. It is also called as molar conductivity at infinite dilution. It is represented by Λ0m
Kohlrausch law of independent migration of ions:
Λ0m=λ0++λ0−
λ0+→Limiting molar conductivity of cation
λ0−→Limiting molar conductivity of anion
Dissociation of A2B electrolyte,
A2B→2A++B2−
According to Kohlrausch law, the limiting value of molar conductivity of an electrolyte A2B is given by:
2λ0A++λ0B2−