The equivalent conductivity of `CH_(3)COOH` at `25^(@)C` is `"80 ohm"^(-1) cm^(2) eq^(-1)` and at infinite dilution `400" ohm"^(-1)" cm"^(2) eq^(-1)`. The degree of dissociation of `CH_(3)COOH` is ...............

At 25^(@) C molar conductance of 0.1 molar aqueous solution of ammonium hydroxide is 9.54 ohm^(-1) cm^(2) mol^(-1) and at infinite dilution its molar conductance is 238 ohm^(-1) cm^(2) mol^(-1) . The degree of ionisation of ammonium hydroxide at the same concentration and temperature is :

The equivalent conductance of M/32 solution of a work monobasic acid is 8 mho cm^(2) and at infinite dilution is 400 mho cm^(2) . The dissociation constant of this acid is

The molar conductance of NH_(4)OH at 0.01 M concentration is 11.3ohm^(-1)cm^(2)"mol"^(-1) . The degree of dissociation of NH_(4) OH is ( molar conductance at infinite dilution =271.1 ) :

The molar conductance of CH_(3)COONa , HCl and NaCl at infinite dilution are 91, 426 and 126 S cm^(2)"mol"^(-1) respectively at 25^(@)C . The molar conductance at infinite dilution for CH_(3)COOH would be

The molar conductance at infinite dilution of aluminium sulphate is 858 "ohm"^(-1)"cm"^(2)"mol"^(-1) . Given the molar ionic conductance of sulphate ions as 160"ohm"^(-1)"cm"^(2)"mol"^(-1) , the molar ionic conductance of Al^(3+) ion is :

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).

Equivalent conductivity of acetic acid at infinite dilution is 39.7 and for 0.1 M acetic acid the equivalent conductance is "5.2 mho.cm"^(2)."gm.equiv."^(-1) . Calculate degree of dissociation, H^(+) ion concentration and dissociation constant of the acid.