A compound `H_(2)X` with molar mass of `80 g` is dissolved in a solvent having density of `0.4 g mL^(-1)`. Assuming no change in volume upon dissolution, the molality of a `3.2` molar solution is

A compound H_(2)X with molar weigth of 80g is dissolved in a solvent having density of 0.4 g mol^(-1) . Assuming no change in volume upon dissolution, the molarity of a 3.2 molar solution is

A compound H_(2)X with molar mass of 80 g is dissolved in a solvent having density of 0.4 g mL^(-1) . Assuming no change in volume upon dissolution, what is the molality of 3.2 M solution of the compound ?

A compound MX_(2) with molar mass of 80 g is dissolved in a solvent having density 0.4 g mL^(-1) . Assuming that there is no change in volume upon dissociation, what is the molality of a 3.2 molar solution ?

4.5g mass of a substance (molar mass = 90g/mol) is dissolved in 250ml solution, the molarity of solution is

The molarity of 5 molal aqueous solution of NaOH having density 1.2g/cc is :

The molality of 49% by volume of H_(2)SO_(4) solution having density 1.49 g/mL is……