Two moles of an ideal gas are allowed to expand from a volume of $10 \, dm^3$ to $ 2m^3$ at 300 K against a
pressure of 101.325 KPa. Calculate the work done.
- - 20.16 kJ
- 13.22 kJ
- - 810.6 J
- -18.96 kJ
The Correct Option is A
Solution and Explanation
Number of moles $(n)=2$
Initial volume $\left(V_{1}\right)=10\, dm ^{3}=0.01 \,m ^{3}$
$\left(\because 1 \,dm ^{3}=\frac{1}{1000} m ^{3}\right)$
Final volume $\left(V_{2}\right)=2 \,m ^{3}$
$p_{\text {ext }}=101.325 \,kPa$
Temperature $(T)=300 \,K$
$\because$ Work done due to change in volume against a constant pressure is given by
$W=-p_{\text {ext }}\left(V_{2}-V_{1}\right)$
$\therefore W=-101.325 kPa \times(2-0.01) m ^{3}$
$=-201.636 kPa m ^{3}$ or $-201.6 kJ$
$\left(\because 1 kJ =1 kPa m ^{3}\right)$
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Concepts Used:
Work Done Thermodynamics
In thermodynamics, work is a way of energy transfer from a system to surroundings, under the influence of external factors such gravity, electromagnetic forces, pressure/volume etc.
Energy (ΔU) can cross the boundary of a system in two forms -> Work (W) and Heat (q). Both work and heat refer to processes by which energy is transferred to or from a substance.
ΔU=W+q
Work done by a system is defined as the quantity of energy exchanged between a system and its surroundings. It is governed by external factors such as an external force, pressure or volume or change in temperature etc.
Work (W) in mechanics is displacement (d) against a resisting force (F).
Work has units of energy (Joule, J)