The ionic conductance at infinite dilution for `Ba^(2+)` and `Cl^(-)` ions are `127 "ohm"^(-1)cm^(-1)"mol"^2` and `76 "ohm"^(-1)cm^(-1)"mol"^2` respectively. What will be the molar conductance of `BaCl_2` at infinite dilution?

The specific conductance of a 0.01 M solution of acetic acid at 298 K is 1.65 xx 10^(-4) "ohm"^(-1)cm^(-1) . The molar conductance at infinite dilution for H^(+) ion and CH_(3)COO^(-) ion are 349.1 "ohm"^(-1) cm^(2 )"mol"^(-1) and 40.9 "ohm"^(-1) cm^(2) "mol"^(-1) respectively. Calculate : (i) Molar conductance of solution (ii) Degree of dissociation of acetic acid (iii) Dissociation constant for acetic acid.

The specific conductance of a 0.01 M solution of acetic acid at 298K is 1.65xx10^(-4)ohm^(-1)cm^(-1) . The molar conductance at infinite dilution fo H^(+) ion and CH_(3)COO^(-) ion are 349.1 ohm^(-1)cm^(2)mol^(-1) and 40.9ohm^(-1)cm^(2)mol^(-1) respectively. Calculate : Molar conductance of the solution.

The molar conductance of NaCl varies with the concentration as shown in the following table and all values follows the equation. lambda_(m)^(c)=lambda_(m)^(oo)-bsqrt(C) where lambda_(m)^(c) = molar specific conductance lambda_(m)^(oo)= molar specific conductance at infinite dilution C=molar concentration When a certain conductivity cell (C) was filled with 25 xx10^(-4)(M) NaCl solution, the resistance of the cell was found to be 1000 ohm. At infinite dilution, conductance of Cl^(-) and SO_(4)^(2-) are 80ohm^(-1) cm^(2) "mole"^(-1) and 160ohm^(-1) cm^(2) "mole"^(-1) respectively. What is the molar conductance of NaCl at infinite dilution?

The molar conducatance of Ba^(2+) and Cl^(-) are 127 and 76 ohm^(-1) cm^(-1) mol^(-1) respectively at infinite dilution. The equivalent conductance of BaCl_(2) at infinte dilution will be

The specific conductance of a 0.01 M solution of acetic acid at 298K is 1.65xx10^(-4)ohm^(-1)cm^(-1) . The molar conductance at infinite dilution fo H^(+) ion and CH_(3)COO^(-) ion are 349.1 ohm^(-1)cm^(2)mol^(-1) and 40.9ohm^(-1)cm^(2)mol^(-1) respectively. Calculate : Dissociation constant for acetic acid.

The equivalent conductance of Ba^(2+) and Cl^(-) are 76ohm^(-1) cm^(2) eq^(-1) and 63.5 ohm^(-1) cm^(2)eq^(-1) , respectively, at infinite dilution . The equivalent conductance ( in ohm^(-1) cm^(2)eq^(-1)) of BaCl_(2) at infinite dilution will be

The specific conductance of a 0.01 M solution of acetic acid at 298K is 1.65xx10^(-4)ohm^(-1)cm^(-1) . The molar conductance at infinite dilution fo H^(+) ion and CH_(3)COO^(-) ion are 349.1 ohm^(-1)cm^(2)mol^(-1) and 40.9ohm^(-1)cm^(2)mol^(-1) respectively. Calculate : Degree of dissociation of CH_(3)COOH .

At infinite dilution the molar conductance of Al^(+3) and SO_(4)^(-2) ion are 189 and 160 Omega^(-1) cm^(2) "mole"^(-1) respectively. Calculate the equilvalent and molar conductance at infinite dilution of Al_(2)(SO_(4))_(3) .

The molar conductance of NaCl varies with the concentration as shown in the following table and all values follows the equation. lambda_(m)^(c)=lambda_(m)^(oo)-bsqrt(C) where lambda_(m)^(c) = molar specific conductance lambda_(m)^(oo)= molar specific conductance at infinite dilution C=molar concentration When a certain conductivity cell (C) was filled with 25 xx10^(-4)(M) NaCl solution, the resistance of the cell was found to be 1000 ohm. At infinite dilution, conductance of Cl^(-) and SO_(4)^(2-) are 80ohm^(-1) cm^(2) "mole"^(-1) and 160ohm^(-1) cm^(2) "mole"^(-1) respectively. What is the cell constant of the conductivity cell (C)?

The molar conductance at infinite dilution for electrolytes BA and CA are 140 and 120 ohm^(-1) Cm^(2) mol^(-1) respectively. If the molar conductance at infinite dilution of BX is 198 ohm^(-1) cm^(2) mol^(-1) , then then at infinite dilution, the molar conductance of is: