The diagram below depicts an ideal monatomic gas which is compressed isobarically at p = 1.38×10° Pa from state A (V=7.04x10 m) to state B (V=3.69x10 m) where its temperature becomes T = 311°C. Its pressure is then increased at constant volume from state B to C and finally expanded isothermally until it returns to its initial state A. How much work is done by the gas and what is its temperature when it expanded during the isothermal process? Pc B PA = PB VB = VC VA O The temperature of the gas during the isothermal process is 320.2 K and the work done by the gas is 3.289 kJ. O The temperature of the gas during the isothermal process is 593.3 K and the work done by the gas is 1670 kJ. O The temperature of the gas during the isothermal process is 1114°C and the work done by the gas is 3137 kJ. O The temperature of the gas during the isothermal process is 841.3°C and the work done by the gas is 6.276 kJ.

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-3 The diagram below depicts an ideal monatomic gas which is compressed isobarically at p = 1.38×10° Pa from state A (V₂ = 7.04×10²³ m³) to ³m³) to state B (V₂ = 3.69×10 m³) where its temperature becomes T₂ = 311°C. Its pressure is then increased at constant volume from state B to C and finally expanded isothermally until it returns to its initial state A. How much work is done by the gas and what is its temperature when it expanded during the isothermal process? Pc B PA PB VB =VC VA O The temperature of the gas during the isothermal process is 320.2 K and the work done by the gas is 3.289 kJ. O The temperature of the gas during the isothermal process is 593.3 K and the work done by the gas is 1670 kJ. O The temperature of the gas during the isothermal process is 1114°C and the work done by the gas is 3137 kJ. O The temperature of the gas during the isothermal process is 841.3°C and the work done by the gas is 6.276 kJ.