Using your knowledge from the Unit 11, Gas stoichiometry solve the following problem. ( Show your work to receive a full credit.) Car airbags inflate when sodium azide (NaN3) located in the airbags explodes during collision. Calculated the volume of gas produced at STP conditions if 41.0 g of NaN 3 was used to inflate airbag. 1) Write a balanced equation when NaN3 decomposes into sodium (s) and nitrogen g). 2) Calculate moles of sodium azide. 3) Use mol-mol ratio to find moles of nitrogen gas produced from the given amount of NaN3.

Chemistry
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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Using your knowledge from the Unit 11, Gas stoichiometry solve the following
problem. (Show your work to receive a full credit. )
Car airbags inflate when sodium azide (NaN3) located in the airbags explodes during
collision. Calculated the volume of gas produced at STP conditions if 41.0 g of NaN3
was used to inflate airbag.
1) Write a balanced equation when NaN3 decomposes into sodium (s) and nitrogen (
g).
2) Calculate moles of sodium azide.
3) Use mol-mol ratio to find moles of nitrogen gas produced from the given amount
of NaN3.
4) Calculate the volume of gas produced at STP.
Transcribed Image Text:Using your knowledge from the Unit 11, Gas stoichiometry solve the following problem. (Show your work to receive a full credit. ) Car airbags inflate when sodium azide (NaN3) located in the airbags explodes during collision. Calculated the volume of gas produced at STP conditions if 41.0 g of NaN3 was used to inflate airbag. 1) Write a balanced equation when NaN3 decomposes into sodium (s) and nitrogen ( g). 2) Calculate moles of sodium azide. 3) Use mol-mol ratio to find moles of nitrogen gas produced from the given amount of NaN3. 4) Calculate the volume of gas produced at STP.
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