To determine which type of molecule represents water, H2O or H2O2, you can use a combination of the stoichiometry of the reaction and the molar masses of hydrogen and oxygen.
1. Start by decomposing water into hydrogen gas (H2) and oxygen gas (O2) using a suitable method or apparatus.
2. Collect and measure the volume of both gases produced.
3. Since we know that one water molecule (H2O) contains two hydrogen atoms and one oxygen atom, we can set up a ratio based on the stoichiometry of the reaction.
2H2O → 2H2 + O2
(Two water molecules produce two hydrogen molecules and one oxygen molecule).
4. Now, let's consider the mass ratio. The mass of an oxygen atom is approximately 16 grams per mole, whereas the mass of a hydrogen atom is approximately 1 gram per mole.
5. Since the mass of an oxygen atom is 8 times that of a hydrogen atom, the total mass of oxygen would be 16 times greater than the total mass of hydrogen for the same number of atoms.
6. Calculate the total mass of the collected gases:
- For hydrogen (H2), multiply the volume of hydrogen gas collected by the molar mass of hydrogen (2 g/mol).
- For oxygen (O2), multiply the volume of oxygen gas collected by the molar mass of oxygen (32 g/mol).
7. Compare the ratio of the total masses of hydrogen and oxygen. If the ratio is approximately 1:8, then the sample collected represents water (H2O). This is because the total mass of oxygen is expected to be approximately 16 times greater than the total mass of hydrogen.
If the ratio is not 1:8, it means that there is an incorrect amount of either hydrogen or oxygen, indicating that the sample collected is not pure water.
By measuring the volume of hydrogen and oxygen gases produced and comparing their total masses, you can determine if the sample represents water (H2O) or a different molecule like hydrogen peroxide (H2O2).