A solution contains `410.3 g` `H_(2) SO_(4)` per litre of the solution at `20^(@)C`. If the density `= 1.243 g mL^(-1)`, what will be its molality and molarity?

Calculate the molality (m) of 3 M solution of NaCl whose density is 1.25 g mL^(-1) .

49 g of H_(2) SO_(4) is disslved in enough water to make one litre of a soltuion of density 1.049 g c c^(-1) . Find the molarity, normality, moality, and mole fraction of H_(2) SO_(4) in the solution.

What is would be the molality of a solution obtained by mixing equal volumes of 30% by weight H_(2) SO_(4) (d = 1.218 g mL^(-1)) and 70% by weight H_(2) SO_(4) (d = 1.610 g mL^(-1)) ? If the resulting solution has density 1.425 g mL^(-1) , calculate its molality.

Calculate molality of 1 litre solution of 93% H_(2) SO_(4) by volume. The density of solution is 1.84 g mL^(-1) .

Commercially available conc. HCl contains 38% HCl by mass. (a) What is the molarity of this solutions. The density is 1.10 g ML-1? (b) What volume of conc. HCl is resumed to make 1.00 L of 0.10 M HCl?

1 M solution of NaNO_(3) has density 1.25 g cm^(-3) . Calculate its molarity. (Mol. Weight of NaNO_(3) = 85 g mol^(-1)) .