Calculate the work done $w$ during the isothermal reversible expansion of $n=2\text{ mol}$ of an ideal gas from $V_1=10\text{ L}$ to $V_2=20\text{ L}$ at $T=300\text{ K}$. (Use $R=8.314{\text{ J K}}^{-1}{\text{ mol}}^{-1}$)

Solution

1. The formula for reversible isothermal work is $w=-nRT\ln (V_2/V_1)$.
2. Substitute the values: $w=-2\times 8.314\times 300\times \ln (20/10)$.
3. Calculate $$\begin{array}{rl}w& =-4988.4\times 0.693\\ & =-3456.9\text{ J}\end{array}$$.
4. Convert to kilojoules: $w\approx -3.46\text{ kJ}$.
5. Hence the answer is (A).