Answer:
[tex]p=p_{2}-p_{1}=2.9188atm[/tex]
Explanation:
First step
To calculate by how much the pressure has been increased we must find a relation between Vrms and the pressure p
[tex]V_{rms}=\sqrt{\frac{3RT}{M} } \\[/tex]
Where M is molar mass,R is gas constant and T is temperature
As R and M is constant so we obtain
Vrams∝√T
Second step
From Ideal gas law we know that
[tex]pV=nRT\\[/tex]
we will find that
p∝T
So from first and second step, we can obtain that
Vrms∝√p
And a relation between both of them could be given by:
[tex]\frac{V_{rms1} }{V_{rms2}}=\frac{\sqrt{p_{1} } }{\sqrt{p_{2}} }\\ p_{2}=[\frac{(V_{rms1})^{2} }{(V_{rms2})^{2} }]p_{1}\\ p_{2}=\frac{(276m/s)^{2} }{(176m/s)^{2} } (2atm)\\p_{2}=4.9188atm[/tex]
The pressure is increased to 4.1988 atm, so the amount will be given by:
[tex]p=p_{2}-p_{1}=4.9188atm-2atm\\p=p_{2}-p_{1}=2.9188atm[/tex]
