Answer to Question #173672 in Chemistry for Uhan

Question #173672

Analytical Chemistry

Calculate the molarity of a 30.0% hydrogen peroxide solution. The reported density of 30% hydrogen peroxide is 1.135 g/cm3. (H2O2 = 34.0147 g/mol)

Expert's answer

Solution:

Assume that the mass of H₂O₂ solution is 100 g.

Thus:

Mass of H₂O₂= (%H₂O₂ × Mass of solution) / 100% = (30.0% × 100 g) / 100% = 30.0 g

Moles of H₂O₂= Mass of H₂O₂ / Molar mass of H₂O₂ = 30.0 g / 34.0147 g mol^-1 = 0.88197 mol

Solution volume = Mass of solution / Density of solution = 100 g / 1.135 g cm^-3 = 88.1057 cm^-3

Solution volume = 88.1057 cm^-3= 88.1057 mL = 0.088106 L

Molarity of H₂O₂= Moles of H₂O₂ / Solution volume

Molarity of H₂O₂= 0.88197 mol / 0.088106 L = 10.01 mol/L = 10.0 M

Molarity of H₂O₂= 10.0 M

OR (short form solution):

(1.135 g soln/1 mL soln) × (30 g H₂O₂/100 g soln) × (1 mol H₂O₂/34 g H₂O₂) × (1000 mL/1 L) = 10.0 M

Answer: The molarity of a 30.0% hydrogen peroxide solution is 10.0 M.

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