One mole of an ideal mono-atomic gas undergoes quasi-static process AzB→C→A that is shown in the figure, where C is molar heat capacity of the gas and 0 is temperature of the gas. Find amount of heat Q received by the gas from the heater heating the gas, work done W by the * CI(J-mol1-K) 3.0R 1.5R tas in the entire cycle and efficiency n of the cycle? Molar gas constant is R = 8.31 J/(mol·K). Ano: Q = 9R (0c-&A)=1.9 KJ; W:3Rl&c -A A 50 100 150

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39. One mole of an ideal mono-atomic gas undergoes quasi-static process received by the gas from the heater heating the gas, work done W by the A→B→C-→A that is shown in the figure, where C is molar heat capacity Thermal Physics 8.19 CI(J-mol 1-K !) B→C→→A that is shown in the figure, where C is molar heat capacity of the gas and 0 is temperature of the gas. Find amount of heat gas veceived by the gas from the heater heating the gas, work done W by the tos in the entire cycle and efficiency ŋ of the cycle? Molar gas constant is R = 8.31 J/(mol·K). Ano: Q = 9R (Oc-&A)=1.9 KJ; W:3Rl&c -. B 3.0R 1.5R A C. 100 150 Ano: Q = 9R (Oc-&A)=1.g KJ; W:3K 1Oc) 50