A gas in a piston–cylinder assembly undergoes a process for which the relationship between pressure and volume is pVn = constant. The initial pressure is 1 bar, the initial volume is 0.12 m3, and the final pressure is 9 bar. The value of the polytropic exponent is n = 1.9. Determine the final volume, in m3, and the work for the process, in kJ.

The equation given for a polytropic process [tex]P*V^{n}=C[/tex] when n and C are constants. First we determine the C with the initial conditions:[tex]100000*0.12^{1.9}=C= 1780[/tex], we need to remember that 1 bar is the same to 100000 Pascals. Then we can calculate the final volume solving the equation given to:[tex]Vfinal=\sqrt[n]{\frac{C}{Pfinal}}[/tex] so we get:[tex]Vfinal=\sqrt[1.9]{\frac{1780}{900000} } = 0.038(m3)[/tex]. Now using the integration for work:[tex]Wb=\int\limits^2_1 {P}\,dV=\int\limits^2_1 {CV^{-n} } \, dV=C\frac{V2^{-n+1}-V1^{-n+1}}{-n+1} =\frac{P2*V2-P1*V1}{1-n}[/tex], replacing data we find the work process like:[tex]Wb=\frac{(900000*0.038)-(100000*0.12)}{1-1.9} =\frac{33977.46-12000}{-0.9} =-24419.4 (Joules)=-24.42 KJ[/tex]