Molar conductance of 2 `M H_(2)A` acid is 10 S `cm^(2) mol^(-1)` Molar conductance of `H_(2)A` at infinite dilution is 400 S `cm^(2) mol^(-1)` which statement is/are correct?

Specific conductance of 0.1M nitric acid is 6.3xx10^(-2)ohm^(-1)cm^(-1) . The molar conductance of the solution is:

A 0.05 M NH_(4)OH solution offers the resistance of 50 ohm to a conductivity cell at 298 K. If the cell constant is 0.50cm^(-1) and molar conductance of NH_(4)OH at infinite dilution is 471.4ohm^(-1)cm^(2)mol^(-1) , calculate : Molar conductance

A 0.05 M NH_(4)OH solution offers the resistance of 50 ohm to a conductivity cell at 298 K. If the cell constant is 0.50cm^(-1) and molar conductance of NH_(4)OH at infinite dilution is 471.4ohm^(-1)cm^(2)mol^(-1) , calculate : Specific conductance

A 0.05 M NH_(4)OH solution offers the resistance of 50 ohm to a conductivity cell at 298 K. If the cell constant is 0.50cm^(-1) and molar conductance of NH_(4)OH at infinite dilution is 471.4ohm^(-1)cm^(2)mol^(-1) , calculate : Degree of dissociation

The molar conductivity of 0.05 M solution of weak acid is 16.6Omega^(-1)cm^(-2)mol^(-1). Its molar conductivity at infinite dilution is 390.7Omega^(-1)cm^(-2)mol^(-1) . The degree of dissociation of weak acid is

Specific conductance of 10^(-4)M n -Butyric acid aqueous solution is 1.9 xx 10^(-9)S m^(-1) . If molar conductance of n-Butyric acid at infinite dilution is 380 xx 10^(-4) S m^(2) mol^(-1) , then K_(a) for n-Butyric acid is:

What will be the molar conductivity of Al 3+ ions at infinite dilution if molar conductivity of Al^(2) (SO_(4))_(3) is 858 S cm^(2) "mol" ^(-1) and ionic conductance of SO_(4)^(2-) is 160 S cm^(2) "mol" ^(-1) at infinite dilution ?

If the equivalent conductance of (M/20) solution of a weak monobasic acid is 25.0 S cm^2 eq^(-1) and at infinite dilution is 500 Scm^2eq^(-1) , then the dissociation constant of the acid is

For the strong electrolytes NaOH, NaCl and BaCl_(2) the molar ionic conductivities at infinite dilution are 250, 125 and 300 "mho cm"^(2)"mol"^(-1) respectively. The molar conductivity of Ba(OH)_(2) at infinite dilution ("mho cm"^(2)"mol"^(-1)) is .

The dissociation constant of a weak acid is 1.6xx10^(-5) and the molar conductivity at infinite dilution is 380xx10^(-4) S m^2mol^(-1) . If the cell constant is 0.01 m^(-1) then conductace of 0.1M acid solution is :