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A gas storage cylinder in an ordinary chemical laboratory measures 4.2 cm wide and 17. cm high.This is the label on it.Contents: N₂ gasPressure: 28.6 atmIf the cylinder is opened and the gas allowed to escape into a large empty plastic bag, what will be the final volume ofnitrogen gas, including what's collected in the plastic bag and what's left over in the cylinder? Write your answer in liters.Round your answer to 2 significant digits.OLX3?ELEKolo

A gas storage cylinder in an ordinary chemical laboratory measures 4.2 cm wide and-example-1
User Paul Herber
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1 Answer

12 votes
12 votes

The following assumptions are made:

1. N2 gas behaves like an ideal gas throughout the process.

2. The final pressure will be equal to atmospheric pressure.

3. The temperature remains constant.

Taking into account the above, we can apply the Boyle-Marriott Law that relates the change in pressure and volume at a constant temperature. The equation tells us:


P_1V_1=P_2V_2

Where,

V2 is the final volume we want to find

P2 is the final pressure, atmospheric pressure= 1atm

P1 is the pressure of N2 inside the cylinder, 28.6atm.

V1 is the volume of the cylinder. To find the initial volume we will use the volume equation for a cylinder:


V_1=\pi r^2h

r is the radius, 4.2cm/2=2.1cm

h is the height, 17.cm

So, the volume of the cylinder will be:


\begin{gathered} V_1=\pi*(2.1cm)^2*(17.cm)=75cm^3 \\ V_1=75cm^3*(1L)/(1000cm^3)=0.075L \end{gathered}

We clear V2 and replace the known data:


\begin{gathered} V_2=(P_1V_1)/(P_2) \\ V_2=(28.6atm*0.075L)/(1atm)=2.1L \end{gathered}

The final volume of N2 will be 2.1L

Answer: 2.1

User Jporcenaluk
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