4) Hydrogen peroxide decomposes spontaneously slowly to form water and oxygen gas according to the following chemical equation: 2 H2O2 (1) → 2 H,O (I)+ O2 (g) This decomposition can be sped up with the addition of a catalyst. If 198 mL of H2O2 decomposes and the amount of oxygen gas collected over water is 72.5 L at 756 mmHg and 23°C, calculate the gas constant, R. (assume: PH,02 1.0 ) %3D mL'
4) Hydrogen peroxide decomposes spontaneously slowly to form water and oxygen gas according to the following chemical equation: 2 H2O2 (1) → 2 H,O (I)+ O2 (g) This decomposition can be sped up with the addition of a catalyst. If 198 mL of H2O2 decomposes and the amount of oxygen gas collected over water is 72.5 L at 756 mmHg and 23°C, calculate the gas constant, R. (assume: PH,02 1.0 ) %3D mL'
General Chemistry - Standalone book (MindTap Course List)
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Chapter5: The Gaseous State
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Transcribed Image Text:4) Hydrogen peroxide decomposes spontaneously slowly to form water and oxygen gas
according to the following chemical equation:
2 H,0, () — 2 Н,0 ()+ Oz (g)
2 H2O (I)+ O2 (g)
This decomposition can be sped up with the addition of a catalyst. If 198 mL of H2O2
decomposes and the amount of oxygen gas collected over water is 72.5 L at 756 mmHg and
23°C, calculate the gas constant, R. (assume: PH,0,
= 1.0
mL
-9-)
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