Given the equivalent conductance of sodium butyrate sodium chloride and hydrogen chloride as 83,127 and 426 mho `cm^(2)` at `25^(@)C` respectively the equivalent conductance of butyric acid at infinite dilution.

The equivalent conductances of an infinitely dilute solution NH_(4)CI is 150 and the ionic conductances of OH^(-) and CI^(-) ions are 198 and 76 respectively. What will be the equivalent conductance of the solution of NH_(4)OH at infinite dilution. if the equivalent conductance of a 0.01N solution NH_(4)OH is 9.6, what will be its degree of dissociation.

The ionization constant of a weak electrolyte is 2.5 xx 10^(-5) , while of the equivalent conductance of its 0.1 M solution is 19.6 s cm^(2) eq^(-1) . The equivalent conductance of the electrolyte at infinite dilution is :

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 equivalent and molar conductivity at infinite dilute of Al_(2)(SO_(4))_(3) .

0.04 N solution of a weak acid has a specific conductance 4.23 xx10^(-4)" mho.cm"^(-1) . The degree of dissociation of acid at this dilution is 0.0612. Calculate the equivalent conductance of weak acid at infinite solution.

The specific conductance of a 0.01 M solution of KCl is "0.0014 ohm"^(-1)" cm"^(-1) at 25^(@)C . Its equivalent conductance is ...............

The equivalent conductance of 0.10 N solution of MgCI_(2) is 97.1 mho cm^(2) eq^(-1) . A cell electrodes that are 1.50 cm^(2) in surface are and 0.50 cm apart is filled with 0.1N MgCI_(2) solution. How much current will flow when the potential difference between the electrodes is 5 volts?

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:

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.