Calculate the molality of a solution by dissolving 0.850g of ammonia (`NH_3`) in 100g of water.

Calculate the molarity of KCl solution prepared by dissolving 7.45 g of KCl in 500 mL of the solution. (d_(sol) = 1.2 g mL^(-1))

Calculate the molality of an aqueous solution containing 3.0g of urea (mol.mass=60) in 250g of water.

The molality of a solution containing 0.1 mol of a substance in 100g of water is :

Calculate the molality of a solution obtained by dissolving 15.87 g ehtyl alcohol (C_(2) H_(5) OH) in 168 g of H_(2) O .

Calculate the molarity of KOH in solution prepared by dissolving 5.6 g in enough water to form 250 mL of the solution.

The density of a solution prepared by dissolving 120 g of urea (mol mass = 60 u) in 1000 g of water is 1.15 g/mL. The molarity of this solution is :

The boiling point of a solution made by dissolving 12.0 g of glucose in 100 g of water is 100.34^(@)C . Calculate the molecular weight of glucose, K_(b) for water = 0.52^(@)C//m .

The density of a solution prepared by dissolving 120 g of urea ( mol. "mass"= 60 u ) in 1000 g of water is 1.15 g/mL. The molarity of this solution is :