Pressure, Volume & Temperature: Homework Solutions

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The discussion revolves around calculating the pressure changes in a gas bottle and the volume of an air bubble exhaled by a diver. Initially, the gas bottle holds air at 232 BAR and 30°C, and after cooling to 8°C, the pressure is calculated to be 215 BAR using the combined gas law. The diver, working at a depth of 40 meters, experiences an increased pressure, which is determined to be 492800 Pa. As the diver exhales a 0.5-liter bubble, the volume of the bubble when it reaches the surface is estimated to be 2.2 liters. Participants seek confirmation on their calculations and understanding of the pressure dynamics involved.
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Homework Statement



A 12 litre gas bottle is initially charged with air to 232 BAR at 30 C. What will be the new pressure in the bottle once it has cooled to 8 C?

A diver breathes from the gas bottle above, is working at a depth of 40m, and at a temperature of 8 C.

If the diver exhales a bubble of air with a volume of 0.5 litres, what will the volume of the bubble be when it reaches the surface?

Homework Equations



not sure...

The Attempt at a Solution



I know for the first part that using the combined gas law

(P1/T1) x T2 = 215 BAR

P = pressure
T = temperature in kelvin

However I'm stuck on where to go with the next part.

Any pointers/hints in the right direction would be really appreciated. thanks
 
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Since you know the diver's depth you can determine the pressure at that depth. You are also given the temperature and volume of the air bubble at that depth. As the bubble rises it will expand to a larger volume. You will need to determine a pressure and temperature at the surface to find the new volume.
 
Have ended up with the volume of the bubble at surface = 2.2L

anyone think this is correct?
 
ar202 said:
Have ended up with the volume of the bubble at surface = 2.2L

anyone think this is correct?

Not me.

What is a pressure at 40 meters? What is a pressure at the surface?
 
Pressure at 40m = 1000(p) x 9.81(g) x 40(h) + Atmospheric pressure (100'000) = 492800

Pressure at surface = 100'000 Pa

...
 

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