If limiting molar conductivity of `Ca^(2+)` and `Cl^(-)` are 119.0 and 76.3 S `cm^2 mol^(-1)`, then the value of limiting molar conductivity of `CaCl_2` will be :

Limiting molar conductivity of NH_4OH is equal to

Define the following: Limiting molar conductivity?

The limiting equivalent conductivity of NaCl, KCl and KBr are 126.5,150.0 and 151.5 S cm^(2) eq^(-1) , respectively. The limiting equivalent ionic conductance for Br^(-) is 78 S cm^(2) eq^(-1) . The limiting equivalent ionic conductance for Na^(+) ions would be :

In infinite dilution of aqueous solution of BaCl_2 molar conductivity of Ba^(2+) and Cl^(-) ions are = 127.32 Scm^2 mol^-1 and 76.34Scm^2 mol^-1 respectively. What is Lambda_m for BaCl_2 at same 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 molar conductivity of 1.5 M solution of an electrolysis is found to be 138.9 S cm^2 mol^-1 . Calculate the conductivity of this solution?

Molar conductivity of a solution of an electrolyte AB_3 is 150 Scm^2mol^(-1) . If it ionises as AB_(3)toA^(3+)+3B^(-) , its equivalent conductivity will be :

A saturated solution in AgX(K_(sp)=3xx10^(-12)) and AgY(K_(sp)=10^(-12)) has conductivity 0.4xx10^(-6)Omega^(-1)cm^(-1) . Given: Limiting molar conductivity of Ag^+=60Omega^(-1)cm^2mol^(-1) Limiting molar conductivity of X^(-)=90Omega^(-1)cm^2mol^(-1) The conductivity of Y^(-) is (in Omega^(-1)cm^(-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.