Calculate the molar conductance at infinite dilution `(lambda^om)` of `CaCl_2`,given that molar ionic conductance for `lambda^om(Ca^(2+)) 119.5 and Cl- (76.3) S cm^2mol^(-1)`

Calculate the molar conductance of a solution of MgCl_2 at infinite dilution, gievn that the molar ionic conductance of lambda^o (Mg^(2+))=126.1S cm^2mol^(-1) and lambda^o (Cl^(-))=56.3 Scm^2mol^(-1) .

The limiting molar condcutance of sodium chloride, potassium chloride and potassium bromide are 126.45, 149.86 and 151.92 ohm^-1 cm^2 mol^-1 respectively. Calculate the limiting molar ionic conductance of Na^+ given that limiting molar ionic conductance of Br^- ion is 76.34 ohm^-1 cm^2 mol^-1 .

The molar conductivity at infinite dilution of Al_2(SO_4)_3 is 858S cm^2 mol^-1 . Caclulate the molar ionic conductivity of Al^(3+) ion given that lambda^@(SO_4^(2-))=160 S cm^2 mol^-1 .

The molar conductivities at infinite dilution for sodium acetate, _hydrochloric acid and sodium cholride are 92.5,426.9 and 120.4 S cm^2mol^(-1) respectively at 298 K. Calculate the molar conductivity of acetic acid at infinite dilution.

The conductivity of a saturated solution of AgBr at 25^@C is 8.5xx10^-7 S cm^-1 . If the limiting molar ionic conductance of Ag^+ and Br^- ions are 62 and 78 S cm^2 mol^-1 , then calculate the solubility product of AgBr.

The conductivity of 0.001 mol L^-1 solution of CH_3COOH is 3.905xx10^-5 S cm^-1 . Calculate the molar conductivity and degree of dissociation Give that lambda^@(H^+)=349.65 S cm^2 mol^-1 and lambda^@(CH_2COO^-40.9 S cm^2 mol^-1 .