An ideal monatomic gas in a container expands isobarically from an initial temperature of 315.00 K and volume of 2.12 m (Point A)to a final volume of 12.90 m (Point B). The initial pressure is 152000 Pa. It then decreases in pressure following an isochoric process to a pressure of 101000 Pa (Polnt C). At this point it decreased isobarically to Its Initial volume (Point D), followed by an isochoric retum to Its Initial point (Point A). (a) Calculate the number of moles of the gas in the container. 123.04 v moles (b) Caloulate the temperature of the gas at Point B. * *C -221.23 (c) Calculate the temperature of the gas at Point C. -63,89 . x °C (d) Calculate the temperature of the gas at Point D. -238.6 x °C (e) Calculate the work done by or on the gas between Points A and B. 1638560 23 (1) Calculate the energy entering ar leaving the gas between Points A and B. 1234836 (a) Calculate the energy entering or leaving the gas between Points B and C. 241748.7 23 (h) Caloulate the work done by ar on the gas between Points C and D. -1098780 (0 Calculate the energy entering or leaving the gas between Points C and D. -268387.48 x Calculate the energy entering or leaving the gas between Points D and A. 430561 (k) Calculate the net energy entering ar leaving the gas for the cycle. 1838559 x J Calculate the net work done by or on the gas for the cycle. 549780 (m) Calculate the efficency of the gas for the cycle. %23 (n) Draw a sketch of the pathways for the processes in the gas. Make sure to label ALL values and points as stated in the problem statement. Upload your sketch.(Submit a file with a maximum size of 1 MB.) am no file selected

An ideal monatomic gas in a container expands isobarically from an initial temperature of 315.00 K and volume of 2.12 m (Point A)to a final volume of 12.90 m (Point B). The initial pressure is 152000 Pa. It then decreases in pressure following an isochoric process to a pressure of 101000 Pa (Polnt C). At this point it decreased isobarically to Its Initial volume (Point D), followed by an isochoric retum to Its Initial point (Point A). (a) Calculate the number of moles of the gas in the container. 123.04 v moles (b) Caloulate the temperature of the gas at Point B. * *C -221.23 (c) Calculate the temperature of the gas at Point C. -63,89 . x °C (d) Calculate the temperature of the gas at Point D. -238.6 x °C (e) Calculate the work done by or on the gas between Points A and B. 1638560 23 (1) Calculate the energy entering ar leaving the gas between Points A and B. 1234836 (a) Calculate the energy entering or leaving the gas between Points B and C. 241748.7 23 (h) Caloulate the work done by ar on the gas between Points C and D. -1098780 (0 Calculate the energy entering or leaving the gas between Points C and D. -268387.48 x Calculate the energy entering or leaving the gas between Points D and A. 430561 (k) Calculate the net energy entering ar leaving the gas for the cycle. 1838559 x J Calculate the net work done by or on the gas for the cycle. 549780 (m) Calculate the efficency of the gas for the cycle. %23 (n) Draw a sketch of the pathways for the processes in the gas. Make sure to label ALL values and points as stated in the problem statement. Upload your sketch.(Submit a file with a maximum size of 1 MB.) am no file selected