`wedge_(m)^(@)` for `NaCl,HCl`, and `NaAc` are`126.4, 425.9,` and `91.0 S cm^(2) mol^(-1)` , respectively . Calculate `wedge ^(@)` for `Hac.`

lambda_(m)^(@) for NaCl, HCl and CH_(3)COONa are 126.4,425.9 and "91.0 S cm"^(2)//"mol" respectively. Calculate lambda_(m)^(@)" for "CH_(3)COOH .

The ionic molar conductivities of C_(2)O_(4)^(2-),K^(o+) , and Na^(o+) ions are x^('),y^('), and z^(')S cm^(2) mol ^(-1) , respectively. Calculate wedge_(m)^(@) and wedge_(eq)^(@) of (NaOOC-COO) .

The ionic equivalent conductivities of C_(2)O_(4)^(2-),K^(o+), and Na^(o+) ions are x,y, and z S cm^(2) Eq^(-1) respectively. Calculate wedge_(eq)^(@) of (NaOOC-COOK).

Lambda_(m)^(@) for NH_(4)Cl, NaOH and NaCl are 130, 248 and 126.5 "ohm"^(-1)cm^(2)"mol"^(-1) respectively. The Lambda_(m)^(@) of NH_(4)OH will be,

The equivalent conductances at infinite dilution of HCl, CH_(3)COONa and NaCl are "426.16, 91.0 and 126.45 ohm"^(-1) cm^(2)" gm.equivalent"^(-1) respectively.. Calculate the lambda_(oo) of acetic acid.

The ionic equivalent conductivities of K^(o+), Al^(3+) , and SO_(4)^(2-) ions are x,y, and z S cm^(2) Eq^(-1) , respectively. Calculate wedge_(m)^(@) and wedge_(eq)^(@) for (K_(2)SO_(4).Al_(2)(SO_(4))_(3).24H_(2)O)( Potash alum ).