A) 2
B) 3
C) 4
D) 5
Correct Answer: C
Solution :
[c] Work done by gas |
\[={{P}_{0}}(2{{V}_{0}}-{{V}_{0}})={{P}_{0}}{{V}_{0}}\] ...(i) |
Heat input to the gas |
= Work done + Change in internal energy |
\[={{P}_{0}}{{V}_{0}}+\frac{f}{2}nR\Delta T\] |
\[={{P}_{0}}{{V}_{0}}+\frac{3}{2}(nR{{T}_{f}}-nR{{T}_{i}})\] |
\[={{P}_{0}}{{V}_{0}}+\frac{3}{2}(2{{P}_{0}}{{V}_{0}}-{{P}_{0}}{{V}_{0}})\] |
\[\therefore \] Heat input \[=\frac{5}{2}{{P}_{0}}{{V}_{0}}\] ....(ii) |
Efficiency \[=\frac{\text{Work}\,\text{done}}{\text{Heat}\,\text{inpup}}\] |
\[=\frac{{{P}_{0}}{{V}_{0}}}{\frac{5}{2}{{P}_{0}}{{V}_{0}}}=\frac{2}{5}\] |
Efficiency \[=\frac{4}{10}=\frac{x}{10}\Rightarrow \,x=4\] |
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