An aqueous solution of `H_(2)SO_(4)` has density `1.84" g"//"ml"`. Solution contains 98% `H_(2)SO_(4)` by mass.Calculate
(i) Molarity of solution
(ii) Molar volume of solution
(iii) Relative lowering of vapour pressure w.r.t. water, assuming `H_(2)SO_(4)` as non-electrolyte at this high concentration.

An aqueous solution of H_(2)SP_(4) has density 1.84 g/mL. Solution containso 98% H_(2)SO_(4) by mass. Calculate : (i) molarity of solution (ii) overall molarity of solution (iii) molar volume (iv) specific volume (v) relative, decrease in vapour pressure with respect to water, assuming H_(2)SO_(4) as non-electrolyte at his high concentration.

Concentrated sulphuric acid has density of 1.9 g/mL and 99% H_(2)SO_(4) by mass. Calculate the molarity of the acid.

75 ml of H_(2)SO_(4) (specific gravity is 1.18) containing 49% H_(2)SO_(4) by mass is diluted to 590 ml. Calculate molarity of the diluted solution , [S = 32]

What is the molarity of H_(2)SO_(4) solution that has a density of 1.84g//cc and contains 98% by mass of H_(2)SO_(4) ?

0.8g of H_(2)SO_(4) is present in 2 litres of a solution. The molarity of the solution is

If the density of a 1-ltre solution of 98% H_(2)SO_(4) (wt.//vol.) is 1.88 g mol^(-1) , the molality of the solution will be