`8.0575xx10^(-2) kg` of Glauber's slat is dissolved in water to obtain `1 dm^(3)` of a solution of density `1077.2 kg m^(-3)`. Calculate the molarity, molality and mole fraction of `Na_(2)SO_(4)` in solution.

8.0575 xx 10^(-12) kg of Glauber's salt are dissolved in water to obtain 1 dm^3 of a solution of density 1077.2 kg m^(-3) . Calculate the molarity.

When 0.575 xx 10^(-2) kg of Glaube's salt is dissolved in water, we get 1 dm^(3) of a solution of density 1077.2 kg m^(-3) . Calculate the molarity, molality, and mole fraction of Na_(2)SO_(4) in the solution.

When 0.575 xx 10^(-2) kg of Glaube's salt is dissolved in water, we get 1 dm^(3) of a solution of density 1077.2 kg m^(-3) . Calculate the molarity, molality, and mole fraction of Na_(2)SO_(4) in the solution.

8.0575xx10^-2 kg of Glauber's salt is dissolved in water to obtain 1dm^3 of solution of density 1077.2 kgm^-3 . Calculate the molarity?

8.0575xx10^-2 kg of Glauber's salt is dissolved in water to obtain 1dm^3 of solution of density 1077.2 kgm^-3 . Calculate the molality?

'8.0575 xx 10^-2 kg' of Glauber's salt is dissolved in water to obtain '1 dm^3' of a solution of density '1077.2 kgm^-3'. Calculate the molarity, molality and mole tion of 'Na_2 SO_4' in solution

40.25g of Glauber's salt (Na_(2)SO_(4).10H_(2)O) is dissolved in water to obtain 500mL of solution of density 1077.5gdm^(-3) . The molality of Na_(2)SO_(4) in solution is about:

40.25g of Glauber's salt (Na_(2)SO_(4).10H_(2)O) is dissolved in water to obtain 500mL of solution of density 1077.5gdm^(-3) . The molality of Na_(2)SO_(4) in solution is about: