91Ó°ÊÓ

1. Initial pressure is$P=10\text{ P²¹}$
2. Initial volume is$V_i=1.0{\text{″¾}}^{\text{3}}$
3. Final volume is$V_f=2.0{\text{″¾}}^{\text{3}}$
4. Equation of the pressure-volume relation,$P=a{V}^2$
5. Value of a is $a=10{\text{ N/³¾}}^{\text{8}}$.

By expanding or contracting against a steady external pressure, gases can perform work. We use the concept of work done by gas. Using the equation of work done we can integrate it from initial volume to final volume.

Formula:

The work done by the system in thermodynamic cycle $W=∫PdV$,. …(i)

We can write the equation of work done by the gas during expansion using equation (i) and the given equation as

$\begin{array}{c}W=\underset{V_i}{\overset{V_f}{}}a{V}^{2}dV\\ =a{\left|\frac{V^3}{3}\right|}_{V_i}^{V_f}\\ =\frac{a}{3}(V_f^3−V_i^3)\end{array}$

Plugging the values in the above equation, we get the work done by the gas as

$\begin{array}{c}W=\frac{10{\text{ N/³¾}}^{\text{8}}}{3}({2.0}^3−{1.0}^3){\text{m}}^9\\ =23.33\text{ J}\end{array}$

Hence, the value of the work done by the gas is$23.33\text{ J}$