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Chemistry Forums for Students => High School Chemistry Forum => Topic started by: Rutherford on January 26, 2013, 12:42:27 PM

Title: Air bag chemistry
Post by: Rutherford on January 26, 2013, 12:42:27 PM
Most modern automobiles are equipped with air bags which are very effective in reducing the number of traffic fatalities. During a front-end collision, the air bag sensor sends an electric signal that triggers the rapid decomposition of an unknown compound X which releases a large amount of a certain gas. Within a very short period of time, the air bag inflates to protect the driver and passengers from frontal impact.

A 1.00 g sample of X is decomposed to release 507 mL (110 kPa, 18 C) of gas A, which is one of the components of air. The reaction also yields a solid residue. Treatment of the residue with an excess of water produces 172 mL (S.T.P.) of gas B. Determine X.

Attempt:
X :rarrow: a A :spinup: + b Y
Y + c H2O :rarrow: d B :spinup: + e Z
nA=0.0231mol
nB=0.0077mol
I also assumed that d=1, so ny=nB therefore the molar ration of A and Y produced by the decomposition of X is 3:1. Here I am stuck. What to do now?
Title: Re: Air bag chemistry
Post by: Rutherford on January 26, 2013, 01:27:17 PM
I think that there isn't enough data given, but I want someone to confirm it (or disprove).
Title: Re: Air bag chemistry
Post by: Borek on January 26, 2013, 02:52:55 PM
You either need to know what is put into air bags (and then it takes almost time to confirm the data given), or you need some trial and error. Gas A is most likely either oxygen or nitrogen, and there not that many solids that will react with water producing a gas.
Title: Re: Air bag chemistry
Post by: Rutherford on January 26, 2013, 03:09:50 PM
How did you guess that it is either oxygen or nitrogen?

For the solids I really don't know. It could be an alkali or earth alkali metal or an hydride of those or some transition metal compound (a transition metal alone won't react with water, right?).
Title: Re: Air bag chemistry
Post by: Borek on January 26, 2013, 03:24:13 PM
Quote from: Raderford on January 26, 2013, 03:09:50 PM
How did you guess that it is either oxygen or nitrogen?

Ar is out of the question (no stable compounds), and other gases are present only in very tiny amounts. Sure, one can argue it can be also carbon dioxide, but I would start with the main ones.
Title: Re: Air bag chemistry
Post by: Rutherford on January 26, 2013, 03:49:20 PM
I thought about CO and H2O vapors, too. Again, I don't know the number of moles of each compound produced and what is the solid compound  ???, so trial and error will only work. Huh, for this problem, one needs more luck than knowledge to solve, as guessing is the only way then :P.
Title: Re: Air bag chemistry
Post by: AWK on January 26, 2013, 04:58:45 PM
The only possibility for gas (one component of air) is nitrogen. Oxygen cannot leave an element or compound that evolves other gas with water.
Some problem comes from that solid residue in this case is the element (knowing this or just assuming anyone easily can identify this element).
The other problem is that this is a virtual bag since real bugs contains a mixture of X with KNO3 to avoid a formation of this element (instead of a less dangerous oxide is formed).
Title: Re: Air bag chemistry
Post by: Borek on January 26, 2013, 05:07:19 PM
Quote from: Raderford on January 26, 2013, 03:49:20 PM
for this problem, one needs more luck than knowledge to solve, as guessing is the only way then

You don't know what is in the air bags? I thought everyone interested in chemistry knows that.
Title: Re: Air bag chemistry
Post by: Rutherford on January 27, 2013, 04:36:58 AM
I know now, it's never late to find out  ;D. I will check the calculations.
Title: Re: Air bag chemistry
Post by: Rutherford on January 27, 2013, 08:03:47 AM
By calculation, the solid residue is sodium. And X is sodium-azide.

Quote from: AWK on January 26, 2013, 04:58:45 PM
The only possibility for gas (one component of air) is nitrogen. Oxygen cannot leave an element or compound that evolves other gas with water.
Can this be explained, or it is a common fact?

Quote from: AWK on January 26, 2013, 04:58:45 PM
The other problem is that this is a virtual bag since real bugs contains a mixture of X with KNO3 to avoid a formation of this element (instead of a less dangerous oxide is formed).
What is the reaction? Is Na2O formed?
Title: Re: Air bag chemistry
Post by: billnotgatez on January 27, 2013, 08:14:59 AM
http://en.wikipedia.org/wiki/Airbag#Inflation

is it cheating to look up what was used and start from there

EDIT

I think I can answer my own question

One might have to assume this is a test question and you can not look up stuff.
Title: Re: Air bag chemistry
Post by: Rutherford on January 27, 2013, 09:15:04 AM
It was on a competition, so the ones that competed couldn't just look up the answer or search on the net while they are solving it.
Title: Re: Air bag chemistry
Post by: AWK on January 27, 2013, 10:07:50 AM
Quote from: Raderford on January 27, 2013, 08:03:47 AM
By calculation, the solid residue is sodium. And X is sodium-azide.

Quote from: AWK on January 26, 2013, 04:58:45 PM
The only possibility for gas (one component of air) is nitrogen. Oxygen cannot leave an element or compound that evolves other gas with water.
Can this be explained, or it is a common fact?

Quote from: AWK on January 26, 2013, 04:58:45 PM
The other problem is that this is a virtual bag since real bugs contains a mixture of X with KNO3 to avoid a formation of this element (instead of a less dangerous oxide is formed).
What is the reaction? Is Na2O formed?
Imagine reactive oxygen and vapors of elemental sodium in air bag!.
Na2O + K2O from potassium nitrate.
Title: Re: Air bag chemistry
Post by: Rutherford on January 27, 2013, 10:28:17 AM
Okay, thanks for the help.