Limiting molar conductivity for some ions is given below (in S `cm^(2) mol^(-1)` ) :
`Na^+ -50.1 , Cl^(-) - 76.3 , H^(+) - 349.6 , CH_3COO^(-) -40.9 , Ca^(2+) -119.0`
What will be the limiting molar conductivities `(Lambda_m^@)` of `CaCl_2, CH_3COONa ` and NaCl respectively ?

Limiting molar conductivity of CH_(3)COOH (i.e. ^^_(m(CH_(3)COOH))^(0) is equal to :-

The limiting molar conductivities Lambda^(@) for NaCl,KBr nd KCl are 126,152 and 150 S cm^(2) "mol"^(-1) respectively. The Lambda^(@) for NaBr is:

The conductivity of 0.02M solution of NaCl is 2.6 xx 10^(-2)" S cm"^(-1) . What is its molar conductivity ?

If conductivity of 0.1 mol / dm^3 solution of KCl is 1.3 * 10^(-2) S cm^(-1) at 298 K then its molar conductivity will be

(a) Calculate the degree of dissociation of 0.0024 M acetic acid if conductivity of this solution is 8.0 xx 10^(-5)" S "cm^(-1) . Given . lambda_(H^(+))^(@) = 349.6" S " cm^(2)" mol"^(-1), lamda_(CH_(3)COO^(-))^(@)= 40.9" S " cm^(2) " mol "^(-1) (b) Solutions of two electrolytes ‘A’ and ‘B’ are diluted. The limiting molar conductivity of ‘B’ increases to a smaller extent while that of ‘A’ increases to a much larger extent comparatively. Which of the two is a strong electrolyte? Justify your answer.

A saturated solution in AgA (K_(sp)=3xx10^(-14)) and AgB (K_(sp)=1xx10^(-14)) has conductivity of 375xx10^(-10) S cm^(-1) and limiting molar conductivity of Ag^(+) and A^(-) are 60S cm^(2) "mol"^(-1) and 80 S cm^(2) "mol"^(-1) respectively , then what will be the limiting molar conductivity of B^(-) (in S cm^(2) "mol"^(-1) )?

The molar conductivities at infinite dilution of KCl, KNO_(3) and AgNO_(3) at 298 K are 0.01499 mho m^(2) mol^(-1) , 0.01250 mho m^(2) mol^(-1) and 0.01334 mho m^(2) mol^(-1) respectively. What is the molar conductivity of AgCl at infinite dilution at this temperature ?

At T (K), the molar conductivity of 0.04 M acetic acid is 7.8 S cm^(2) mol^(-1) . If the limiting molar conductivities of H^(+) and CH_(3)COO^(-) at T (K) are 349 and 41 S cm^(2) mol^(-1) repsectively, the dissociation constant of acetic acid is :