Calculate the mass percent of 60 g H2SO4 dissolved in the solution of 180 mL of water.

What is the mass percent of the solute in the solution obtained by dissolving 5 g of the solute in 50 g of water ?

Calculate the mass percent (w//w) of sulphuric acid in a solution prepared by dissovles 4 g of sulphur trixoide in a 100ml of sulphuric acid solution containing 80 mass percent (w//w) of H_2SO_4 and having a density of 1.96 g/ml. (Molecular weight of H_2SO_4=98 gm ) Taken reaction SO_3+H_2OtoH_2SO_4

Calculate the molality of solution containing 3 g glucose dissolved in 30 g of water . (molar mass of glucose = 180)

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

Calculate the mass of potassium sulphate required to prepare its 10 percent (mass percent) solution in 100 g of water.

(a) 5.85g of NaCl is dissolved in 200mL of water. What will be the molarity of this solution ? (b) Calculate the molarity of the solution obtained by dissolving 20.6g NaBr in 500mL of water.

Converting molarity to mole fraction, mass percent and molality: A 0.750 M solution of H_(2)SO_(4) in water has a density of 1.049 g mL^(-1) at 20 ^(@)C . What is the concentration of this solution in (a) mole fraction, (b) mass percent. And (c ) molality? Strategy: To solve this problem, we need to know the mass of solute as well as mass of solvent. There is 0.750 mol H_(2)SO_(4) per liter of solution. Let's pick an arbitrary amount of the solution that will make the calculations easy, say 1.00 L . Consider 1 L (=1000 ml) of solution and calculate its mass, using the density. We can then calculate the mass of H_(2)SO_(4) and find the mass of H_(2)O by difference. Now we can calculate the mole fraction, mass precent and morality.

If 100 mL of H_(2) SO_(4) and 100 mL of H_(2)O are mixed, the mass percent of H_(2) SO_(4) in the resulting solution (d_(H_(2)SO_(4)) = 0.09 g mL^(-1), d_(H_(2)O) = 1.0 mL^(-1))

A solution is prepared by dissolving 5.64g of flucose in 60g of water. Calculate the following : (i) mass percent of each of glucose and water (ii) molality of the solution (iii) mole fraction of each of glucose and water.