100cm^(3) of an aqueous solution of BaCIU_(2)2H_(2)O is found to contain 6.022xx10^(22)CI^(-1)ilos. Calculate the molarity of the solution.

100cm^(3) of an aqueous solution of BaCIU_(2)2H_(2)O is found to conta

1.	100cm^(3) of an aqueous solution of BaCIU_(2)2H_(2)O is found to contain 6.022xx10^(22)CI^(-1)ilos. Calculate the molarity of the solution.
Answer» Solution :STEP I. Calculation of mass of `BaCI_(2)2H_(2)O` in the solution. Barium chloride is a strong electrolyte. It is completely ionised in solution. The number of different species in the solution may be represented as : `BaCI_(2)2H_(2)O(s)OVERSET(("aq"))toBa^(2+)("aq")+ 2CI^(-)("aq")+aH_(2)O` `(3.011xx10^(22)"molecules")""(3.011xx10^(22))""(6.022xx10^(22))` `"Gram molecular mass of "BaCI_(2)2H_(2)O=137.5+2xx35.5+2xx18=244" g mol"^(-1)` `6.022xx10^(23)" molecules of "BaCI_(2).2H_(2)O" correspond to mass"=244.5 g.` `6.022xx10^(23)" molecules of "BaCI_(2).2H_(2)O" correspond to mass"=((3.011xx10^(22)))/((6.022xx10^(23)))xx244.5 g=12.225 g.` Step II. Calculation of MOLARITY of the solution. `"Molarity of soltuion (M)"=("Mass of "BaCI_(2).2H_(2)O"/Molar mass")/("Volume of solution in Litres")=((12.225g)//(244.5"g mol"^(-1)))/((0.1 L))` `o.5 "mol L"^(-1)=0.5 M.`