At infinite dilution, `Lambda_(m)^(@)` for `K_(2)SO_(4)` solution is x `"ohm"^(-1)."cm"^(2)."mol"^(-1)`, and ionic conductance `(lambda^(@))` for `SO_(4)^(2-)` is `"y ohm"^(-1)."cm"^(2)."mol"^(-1)`. Find the value of `lambda^(@)` for `K^(+)` ion.

The values of Lambda_(eq)^(@) of KI and KCl solutions are 150.30 and "149.90 ohm"^(-1)."cm"^(2)."g-equiv"^(-1) respectively. If lambda^(@) value of Cl^(-) ion is "76.34 ohm"^(-1)."cm"^(2)."g - equiv"^(-1) , find the value of lambda_(I^(-))^(@) .

Lambda_(m)^(@)(NaCl)-Lambda_(m)^(@)(NaNO_(3))="3.7 ohm"^(-1)."cm"^(2)."mol"^(-1) . Find the value of Lambda_(LiCl)^(@)-Lambda_(LiNO_(3))^(@) .

The values of Lambda_(m)^(@) for the aqueous solution of KCl and KNO_(3) are 149.86ohm^(-1)"cm"^(2)mol^(-1) and 145 ohm^(-1)cm^(2)mol^(-1) , respectively. If lambda_(m)^(@)(Cl^(-)) is "76.44 ohm"^(-1)."cm"^(2)."mol"^(-1) then lambda_(m)^(@)(NO_3^(-)) will be?

At 26^(@)C, Lambda_(m)^(@)(NH_(4)Cl)="129.8 ohm"^(-1)."cm"^(2)."mol"^(-1) and Lambda_(m)^(@)(NaCl)="126.5 ohm"^(-1)."cm"^(2)."mol"^(-1) . Apart from the values of Lambda_(m)^(@)(NH_(4)Cl) and Lambda_(m)^(@)(NaCl) , which of the following quantities should be known, to determine the value of Lambda_(m)^(@)(NH_(4)OH)-

Lambda_(m)^(@) for NaCl, HCl and NaAc are 126.4, 425.9 and "91 S.cm"^(2)."mol"^(-1) respectively. Calculate Lambda^(@) for Hac.

If equivalent conductivity of BaSO_(4) solution be "x ohm"^(-1)."cm"^(-1)."g-equiv"^(-1) , then calculate its molar conductivity.

At 25^(@)C , molar conductivity of 0.007 M HF acid is "150 ohm^-1.cm"^(2)."mol"^(-1) . Its Lambda_(m)^(@)="500 ohm^-1.cm"^(2)."mol"^(-1) . The value of the dissociation constant of the acid at the given concentration at 25^(@)C is -

At 25^(@)C molar conductivity of 0.1 molar aqueous of ammonium hydroxide is "9.54 ohm"^(-1)."cm"^(2)."mol"^(-1) and at infinite dilution its molar conductivity is "239 ohm"^(-1)."cm"^(2)."mol"^(-1) . The degree of ionisation of ammonium hydroxide at the same concentration and temperature is -

Lambda_(m)^(@) of NaCl, HCl and CH_(3)COONa are 126.4, 425.9 and "91.0 S.cm"^(2)."mol"^(-1) respectively. Lambda_(m)^(@) for CH_(3)COOH will be -

At infinite dilution, molar conductivity of acetic acetic acid solution at a given temperature is "390 ohm"^(-1)."cm"^(2)."mol"^(-1) . At the same temperature, molar conuctivity of 0.001(M) acetic acid solution is "55 ohm"^(1)."cm"^(2)."mol"^(-1) . What is the pH of 0.001(M) acetic acid solution?