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The air pressure is the same, inside or outside the paper bag.
This depends on the type of bag, temperature etc.
increases
NaN3 decomposed to form nitrogen gas (N2) and sodium. 2NaN3 --> 2Na + 3N2
you break the bag into four pieces
Funny, I hadn't noticed that before. But if they appear inflated, it is because they are bagged and sealed on the ground, probably pretty close to sea level. However, the cabins of airliners are pressurized to 8000 feet. So the air pressure outside the bag, being lower than the pressure inside the bag, causes the air inside to expand and inflate the bag.
If it remained inflated then you would have difficulty getting out.
The bag's internal pressure, when fully inflated is about 10 to 30 kPa, which is comparatively low but sufficient to safeguard the driver if dashed against it. The drivers thrust on the air-bag pushes gas to escape through two large outlet holes in the rear of the bag to further cushion the impact.
The bag of a bagpipe is inflated by blowing through a blowpipe.
Bags of chips (crisps) can expand in an airplane. A bag of chips on the ground doesn't appear to be inflated because the outside air pressure is high. As the elevation increases (like in an airplane) the outside air pressure decreases, which means that there is also less pressure in the bag. As the pressure decreases in the bag, the gas inside wants to take up more room and it expands (similar to what happens when the pressure is released from a can of soda). However, the cabins of most airplanes are pressurized, so you would not be able to see any expansion.
It decreases the impulse of force.
As the bag of balloon rises, the pressure inside the bag of balloon decreases. Air pressure generally decreases as the altitude increases.
The air pressure is the same, inside or outside the paper bag.
A deflated ziploc bag should hit first due to less air resistance. If it was not for air resistance they would hit at the same time
WHen a person collides with an inflated air bag, the impact forces the molecules of gas in the bag closer together. The compression of the gas absorbs the energy of the impact.
The pressure inside the bag is the same as the pressure outside.
This depends on the type of bag, temperature etc.