The specific conductance of a saturated solution of AgCl at `25^@C` is `1.821xx10^(-5)` mho `cm^(-1)`. What is the solubility of AgCl in water (in g `L^(-1)` ) , if limiting molar conductivity of AgCl is 130.26 mho `cm^(2) mol^(-1)` ?

The specific conductance of a saturated solution of AgCl at 25^(@) C is 2.28 xx 10^(-6) S cm^(-1) . If solubility of AgCl " is " 2.35 xx 10^(-x) gL^(-1) ( lambda_(AgCl)^(@) = 138.3 S cm^(2) mol^(-1)) then x is

The concentration of Ag^(+) ion in a given saturated solution of AgCl at 25^(@)C is 1.06xx10^(-5)g ion per litre. Thus, the solubility product of AgCl is :

Solubility of AgCl at 20^(@)C is 1.435xx10^(-3) g per litre . The solubility product of AgCl is

The concentration of Ag^(+) ions in a given saturated solution of AgCl at 25^(@)C is 1.06 xx 10^(-5) g ion per litre. The solubility product of AgCl is

The specific conductance of saturated solution of CaF_(2) " is " 3.86 xx 10^(-5) mho cm^(-1) and that of water used for solution is 0.15 xx 10^(-5) . The specific conductance of CaF_(2) alone is

The specific conductance of a saturated solution of AgCl in water is 1.826xx10^(-6)"ohm"^(-1)cm^(-1) at 25^(@)C . Calculate its solubility in water at 25^(@)C . [Given Lambda_(m)^(oo)(Ag^(+))=61.92" ohm"^(-1)cm^(2)mol^(-1) "and" Lambda_(m)^(oo)(Cl^(-))=76.34" ohm"^(-1)cm^(2)mol^(-1)] .

The specific conductance of saturated solution of AgCl is found to be 1.86xx10^(-6) ohm^(-1) cm^(-1) and that of water is 6 xx 10^(-8) ohm^(-1) cm^(-1) . The solubility of agCl is ... . Given, Lambda_(AgCl)^(@)=137.2 ohm^(-1) cm^(2) eq^(-1)

The specific conductance of saturated solution of CaF_(2) " is " 3.86 xx 10^(-3) mho cm^(-1) and that of water used for solution is 0.15 xx 10^(-5) . The specific conductance of CaF_(2) alone is