Automobile airbags inflate following a collision. The impact triggers the follow
ID: 806015 • Letter: A
Question
Automobile airbags inflate following a collision. The impact triggers the following chemical reaction (shock sensitive reaction), during which a large volume of gas is produced to fill the airbag. 2 NaN3 (s) ? 2 Na (s) + 3 N2 (g)
a. What is the volume of N2 gas generated when 1.0 mol of NaN3 is used to inflate an airbag? Assume a temperature of 25 oC and a pressure of 1.0 atm inside the airbag after inflation.
b. How much work is done (in Joules) when 1.0 mol of NaN3 is consumed under these conditions?
c. Is this work done by the system or on the system?
d. Given the following enthalpies of formation, determine the standard enthalpy change for the reaction (?Ho) per mol of NaN3 reacted.
?Hof
NaN3 (s)
21.7 kJ/mol
N2 (g)
0 kJ/mol
Na (s)
0 kJ/mol
e. What is the change in internal energy for the reaction when 1.0 mol of NaN3 is consumed?
f. Calculate w, q and ?E if 2.0 mol of NaN3 were consumed in a given experiment.
Explanation / Answer
a)
2 NaN3 ? 2 Na + 3 N2
(1.0 mol NaN3) x (3/2) x (22.414 L/mol) x ((25 + 273) / 273) = 37 L N2
b) V = nRT/P = 1.5 mol x 0.08205 l atm/mol K x 298 K / 1 atm = 38 L
d)
You would take the products and subtract them from the reactants.
Delta H = [(2 x 0 kJ/mol) + (3 x 0 kJ/mol)] - [2 x 21.7 kJ/mol] = - 43.4 kJ/mol
e)
Hi DPfkd,
2 NaN3 --> 2 Na + 3 N2 . . . . . . . . . ?H = - 43,4 kJ
a. What is the change in internal energy for the reaction when 1.0 mol of NaN3 is consumed ?
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