Calculate `A^(oo)` (in `Scm^(2)"mol"^(-1)`) for `NH_(4)OH`, given that value of `A^(oo)` for `Ba(OH)_(2),BaCl_(2)` and `NH_(4)Cl` as 523.28.280.0 and 1298 `Scm^(2)"mol"^(-1)` respectively.

Calculate lamda_(m)^(@) for NH_(4)OH given that values of lamda_(m)^(@) for Ba(OH)_(2), BaCl_(2) and NH_(4)Cl as 523.28, 280.0 and 129.8 S cm^(2) mol^(-1) respectively.

Calculate lambda_(m)^(@) for NH_(4)OH given that values of lambda_(m)^(@) for Ba(OH)_(2), BaCl_(2) and NH_(4)Cl as 523.28, 280.0 and 129.8 S cm^(2) mol^(-1) respectively

Calculate molar conductance for NH_(4)OH , given that molar conductance for Ba(OH)_(2), BaCI_(2) and NH_(4)CI are 523.28, 280.0 and 129.8 ohm^(-1) cm^(2) mol^(-1) respectively.

The value of mu^(prop) for NH_(4)CI, NaOH and NaCI are 129.8, 248.1 and 126.4 ohm^(-1) cm^(2) mol^(-1) respectively. Calculate mu^(prop) for NH_(3)OH solution.

From the following molar conductivities at infinite dilution, Lamda_(m)^(@) " for " Al_(2) (SO_(4))_(3) = 858 S cm^(2) mol^(-1) Lamda_(m)^(@) " for " NH_(4)OH = 238.3 S cm^(2) mol^(-1) Lamda_(m)^(@) " for " (NH_(4))_(2)SO_(4) = 238.4 S cm^(2) mol^(-1) Calculate Lamda_(m)^(@) " for " Al(OH)_(3)

At 298 K the molar conductivities at infinite dilution (^^_(m)^(@)) of NH_(4)Cl, KOH and KCl are 152.8, 272.6 and "149.8 S cm"^(2)"mol"^(-1) respectively. The ^^_(m)^(@) of NH_(4)OH in "S cm"^(2)"mol"^(-1) and % dissociation of 0.01 M NH_(4)OH with ^^_(m)="25.1 S cm"^(2)"mol"^(-1) at the same temperature are

If x is specific resistance (in Scm^2mol^(-1) ) given by: