How Does an Air Bag Utilize Physics to Save Lives?

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An airbag consists of three main components: the nylon bag, a collision sensor, and an inflation system that uses a chemical reaction to produce nitrogen gas for rapid inflation. The sensor activates the airbag upon detecting a collision force equivalent to hitting a brick wall at 10 to 15 mph. The inflation system operates similarly to a solid rocket booster, allowing the bag to deploy quickly and then deflate through designed holes. Understanding the physics behind airbags involves applying Newton's laws, particularly how they reduce acceleration and force during a crash, thereby enhancing safety. This explanation effectively combines technical details with fundamental physics concepts.
daisy_polly
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Hi,

How does an air bag work?

I know a lot about how an air bag work as I am a physics grade11 student but I am confused how to really answer the question.Should I answer it techanically or use Newtons law to answer it.


Thanks in advance.
An early reply is appreciated.
Daisy.
 
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There are three parts to an air bag. First, there is the bag itself, which is made of thin, nylon fabric and folded into the steering wheel or the dash board. Then there is the sensor that tells the bag to inflate. It detects a collision force equal to running into a brick wall at 10 to 15 miles per hour (16 to 24 kph).

Finally, there is the inflation system. Air bags are actually inflated by the equivalent of a solid rocket booster. Sodium azide (NaN3) and potassium nitrate (KNO3) react very quickly to produce a large pulse of hot nitrogen gas. This gas inflates the bag, which literally bursts out of the steering wheel or dashboard as it expands. About a second later, the bag is already deflating (it has holes in it) in order to get out of your way.


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thanks

Thanks!:smile:

how should I answer the question as my teacher is not actually teaching us all that about the air bag but gave us this question.
We are learning about Newtons laws.
 


Originally posted by daisy_polly
how should I answer the question as my teacher is not actually teaching us all that about the air bag but gave us this question.
We are learning about Newtons laws.
Try this line of reasoning: When you crash, your speed is changing from X miles per hour to zero. Thus you are being accelerated, which means a force is being applied to you. Without the airbag, you smack into the dashboard which brings you to a stop rather quickly---high acceleration, high force: not good! The airbag slows your acceleration---lower acceleration, lower force: good!

Make some sense?
 
Thanks so much for your help.
 
Same impulse; different maximum force.
 

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