3. Potassium chlorate decomposes into potassium chloride and oxygen gas when heated. _KCIO₂ (s)→→KCI (s) +_ O₂ (g) a. Calculate the theoretical yield of oxygen from the decomposition of 5.00 g KCIO. b. Calculate the percent yield of oxygen if 1.78 g O₂ were actually produced. C. How much O₂ is actually produced if the % yield were 75.2% instead of what was calculated in part b?

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3. Potassium chlorate decomposes into potassium chloride and oxygen gas when heated.
___KCIO₂ (s) → ____ KCI (s) +_____ O₂(g)
a. Calculate the theoretical yield of oxygen from the decomposition of 5.00 g KCIO.
b. Calculate the percent yield of oxygen if 1.78 g O₂ were actually produced.
C. How much O₂ is actually produced if the % yield were 75.2% instead of what was calculated in part b?
Transcribed Image Text:3. Potassium chlorate decomposes into potassium chloride and oxygen gas when heated. ___KCIO₂ (s) → ____ KCI (s) +_____ O₂(g) a. Calculate the theoretical yield of oxygen from the decomposition of 5.00 g KCIO. b. Calculate the percent yield of oxygen if 1.78 g O₂ were actually produced. C. How much O₂ is actually produced if the % yield were 75.2% instead of what was calculated in part b?
Left over = initial-consumed
% Yield = (Actual/Theoretical)*100
Avogadro's # = 6.023 * 10² molecules/1 mol
STP Volume = 1 mol/22.4 L
Transcribed Image Text:Left over = initial-consumed % Yield = (Actual/Theoretical)*100 Avogadro's # = 6.023 * 10² molecules/1 mol STP Volume = 1 mol/22.4 L
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