Answer:
1406 balloons
Explanation:
First of all, we calculate the number of moles of helium gas contained in the 25.0 L cylinder, by using the equation of state for an ideal gas:
[tex]pV=nRT[/tex]
where
p = 132 atm is the pressure
V = 25.0 L is the volume
[tex]R=0.082 atm\cdot L / (mol \cdot K)[/tex] is the gas constant
[tex]T=19^{\circ}C+273=292 K[/tex] is the temperature
Solving for n, we find the number of moles:
[tex]n=\frac{pV}{RT}=\frac{(132)(25.0)}{(0.082)(292)}=137.8 mol[/tex]
Now we can find using the same equation how many moles of gas can be contained in 1 balloons, which has:
V = 2.50 L (volume)
[tex]p=732 mm Hg =0.963 atm[/tex] is the pressure
[tex]T=27^{\circ}C+273=300 K[/tex] is the temperature
Therefore,
[tex]n_1 = \frac{pV}{RT}=\frac{(0.963)(2.50)}{(0.082)(300)}=0.098 mol[/tex]
So, the total number of balloon that can be filled is:
[tex]N=\frac{n}{n_1}=\frac{137.8}{0.098}=1406[/tex]
