Evaluating Experimental Evidence 66.2 Table 3. Number of moles of gas produced by decomposition 2. At the maximum volume of the airbag in the simulation, how many moles of gas are contained? Use all the collected and analyzed data to explain how you determined this value. #moles gas Substance sodium azide (NaN) 1 mole 2 moles ammonium nitrate (NHNO J 1 mole 2 moles nitroglycerin (CsHsN₂O₂) 1 mole 2 moles particles produced 1.5 moles 3 moles 3 moles 6 moles 7.25 moles 14.5 moles 33 cele 66 >06 2 NaNs 2 Na + 3 N₂ 166 166 Equation 2 decomposition of sodium azide NH.NONO + 2 H₂O 4CHNO 12 CO evidence! 10 H₂O + 6N+ O There is no formula to follow to answer this question! You must combine your experience and data analysis to learn something new!

hint; pay attention to the 66.2 L that's your evidence. 

At the maximum volume of the airbag in the simulation, how many moles of gas are contained? Use all the collected and analyzed data to explain how you determined this value.

answer using CER

 

Claim is your answer, evidence is from the data table, reasoning is your explanation for how you found the maximum amount of moles contained.

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Evaluating Experimental Evidence 66.26 Table 3. Number of moles of gas produced by decomposition 2. At the maximum volume of the airbag in the simulation, how many moles of gas are contained? Use all the collected and analyzed data to explain how you determined this value. #moles gas Substance sodium azide (NaNs) 1 mole 2 moles ammonium nitrate (NH_NG:) 1 mole 2 moles nitroglycerin (CH=N30₂) 1 mole 2 moles particles produced 1.5 moles 3 moles 3 moles 6 moles 7.25 moles 14.5 moles 33 cole 66 >06 1>6 to 2 NaN32 Na + 3 N₂ ما قال Equation 2. decomposition of sodium azide 4 CHNO, NHNO 2 NO+1HO Equation 3 decomposition of ammonium nitrate evidence! 12 CO₂ + 10HO + 6N + O Equation 4 decomposition of nitroglycerin There is no formula to follow to answer this question! You must combine your experience and data analysis to learn something new!