NaN3(s) → Na(s) + N2(g) --- - 1. Balance the equation above. 2. An average airbag contains 130 g of sodium azide (NaN3). Solve for the number of grams of nitrogen gas produced when an airbag inflates.

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The decomposition of sodium azide, NaN3(s), is used to inflate
airbags. On impact, the NaN3(s) is ignited by an electrical spark,
producing N2(g) and Na(s). The N,(g) inflates a nylon bag at a
velocity of 150 to 250 miles per hour. This process, from the initial
impact of the crash to full inflation of the airbags, takes only about
40 milliseconds. The equation showing this reaction is below.
NaN3(s) →
Na(s) +
N2(g)
--- ----
---
1. Balance the equation above.
2. An average airbag contains 130 g of sodium azide (NaN3). Solve
for the number of grams of nitrogen gas produced when an airbag
inflates.
Transcribed Image Text:typing in the text box or sending a picture of work habits. The decomposition of sodium azide, NaN3(s), is used to inflate airbags. On impact, the NaN3(s) is ignited by an electrical spark, producing N2(g) and Na(s). The N,(g) inflates a nylon bag at a velocity of 150 to 250 miles per hour. This process, from the initial impact of the crash to full inflation of the airbags, takes only about 40 milliseconds. The equation showing this reaction is below. NaN3(s) → Na(s) + N2(g) --- ---- --- 1. Balance the equation above. 2. An average airbag contains 130 g of sodium azide (NaN3). Solve for the number of grams of nitrogen gas produced when an airbag inflates.
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