Ionic conductances of hydrated `M^(+)` ions are in the order-

Specific conductance of pure water at 25^(@)C is 0.58 xx 10^(-7) mho cm^(-1) . Calculate ionic product of wter (K_(w)) if ionic conductances of H^(+) and OH^(-) ions at infinite are 350 and 198 mho cm^(2) respectively at 25^(@)C

The molar conductivity of NH_(4)Cl at infinite dilution is 149.7 "ohm"^(-)cm^(2)"mol"^(-1) and ionic conductances of hydroxyl ions and chloride ions are 198 and 76.3 respectively. Calculate the molar conductivity of NH_(4)OH at infinite dilution.

The ionic conductance of the following cations in a given concentration is in the order

The specific conductance of a saturated solution of silver bromide is kScm^(-1) . The limiting ionic conductivity of Ag^+ and Br^- ions are x and y respectively. The solubility of silver bromide in gL^(-1) is : (molar mass of AgBr=188)

Assertion: F^(-) ion has highest hydrated radius among the other halide ions. Reason: Ionic radius of F^(-) is smallest in the periodic table.

The limiting equivalent conductivity of NaCl, KCl and KBr are 126.5,150.0 and 151.5 S cm^(2) eq^(-1) , respectively. The limiting equivalent ionic conductance for Br^(-) is 78 S cm^(2) eq^(-1) . The limiting equivalent ionic conductance for Na^(+) ions would be :

The limiting equivalent conductivity of NaCl, KCl and KBr are 126.5,150.0 and 151.5 S cm^(2) eq^(-1) , respectively. The limiting equivalent ionic conductance for Br^(-) is 78 S cm^(2) eq^(-1) . The limiting equivalent ionic conductance for Na^(+) ions would be :

Conductivity increases in the order of

Why are ionic solids conducting in the molten state and not in the solid state ?

The ease of adsorption of the hydrated alkali metal ions on ion-exchange resins follows the order: