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  4. An engine takes in 5 moles of air at 20° C and 1 atm , and compresses it adiabaticaly to 1 / 10 th of the original volume. Assuming air to be a diatomic ideal gas made up of rigid molecules, the change in its internal energy during this process comes out to be X kJ. The value of X to the nearest integer is

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Q. An engine takes in $5$ moles of air at $20^{\circ} C$ and $1\, atm ,$ and compresses it adiabaticaly to $1 / 10^{ th }$ of the original volume. Assuming air to be a diatomic ideal gas made up of rigid molecules, the change in its internal energy during this process comes out to be $X \, kJ$. The value of $X$ to the nearest integer is

JEE MainJEE Main 2020Thermodynamics

Solution:

Diatomic :
$f=5$
$\gamma=7 / 5$
$T_{i}=T=273+20=293 K$
$V_{i}=V$
$V_{f}=V / 10$
Adiabatic $ TV ^{\gamma-1}=$ constant
$T _{1} V _{1}^{\gamma-1}= T _{2} V _{2}^{\gamma-1}$
$T.V ^{7 / 5-1}= T _{2}\left(\frac{ V }{10}\right)^{7 / 5-1}$
$\Rightarrow T _{2}= T. 10^{2 / 5}$
$\Delta U =\frac{{nfR}\left( T _{2}- T _{1}\right)}{2}$
$=\frac{5 \times 5 \times \frac{25}{3} \times\left( T .10^{2 / 5}- T \right)}{2}$
$=\frac{25 \times 25 \times}{6} T \left(10^{2 / 5}-1\right)$
$=\frac{625 \times 293 \times\left(10^{2 / 5}-1\right)}{6}$
$=4.033 \times 10^{3} \approx 46.1 kJ$