The mass percent of H 2 O 2 in the commercial hydrogen peroxide solution is to be calculated. Concept Introduction: In balanced redox reaction , each of the atom on both sides of reactions is equal. Relation between density ( d ) and volume ( V ) is: d = m V Here, m is mass. The expression of mass percent in terms of mass solution is: Mass percent = Mass solute Mass solution × 100 % In this solution, first the given equation is balanced and then, with the help of a balance chemical equation, the no. of moles of hydrogen peroxide that reacts with potassium permanganate are to be calculated by applying stoichiometric mole-mole relationships that can be obtained from the balanced chemical equation. The calculated moles are converted into their corresponding mass by the use of molar mass as a conversion factor.

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Chapter 16, Problem 101E

Interpretation Introduction

Interpretation: The mass percent of H2O2 in the commercial hydrogen peroxide solution is to be calculated.

Concept Introduction: In balanced redox reaction, each of the atom on both sides of reactions is equal.

Relation between density (d) and volume (V) is:

d=mV

Here, m is mass.

The expression of mass percent in terms of mass solution is:

Mass percent=Mass soluteMass solution×100%

In this solution, first the given equation is balanced and then, with the help of a balance chemical equation, the no. of moles of hydrogen peroxide that reacts with potassium permanganate are to be calculated by applying stoichiometric mole-mole relationships that can be obtained from the balanced chemical equation. The calculated moles are converted into their corresponding mass by the use of molar mass as a conversion factor.

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