5. A rigid tank of 1 m³ contains nitrogen gas (N2) at 600 kPa, 127 °C. By mistake someone let 0.5 kg of the gas flow out, the temperature dropped to 102 °C. MW = 28, k = 1.4 Determine the following a. The resulting pressure; 506.8259 kPa b. The remaining mass of N2 inside the tank. 4.5517 kg ME264 Problem Set 3 – Module 3; IDEAL GAS 6. Air in an internal-combustion engine has 440°F, 150 psia, with a volume of 3 ft. Combustion heats it to 2700°R in a constant-volume process. Determine the following: a. mass of air; 1.3498 lbm b. the final pressure; 450 psia c. the change in Enthalpy; 583.1052 BTU d. the heat transferred to the air; 416.434 BTU

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ul Smart VoWiFi 9:22 PM @ 37% cdn.fbsbx.com Done b. If 20 kJ of heat is added at constant pressure determine the final temperature; 39.7535°C nine, stored in a 2000-gallon tank is to be transferred in drums. Each drum is to be 2 of 2 i pressure of 20 psig and 90°F. The stored methylamine is initially at 50 psig and drum = 55 gal; MW of methylamine is 31) a. Total mass inside the tank; 90.8738 lbm b. Mass inside each drum; 1.3402 Ibm c. Number of drums that can be filled; 68 drums 5. A rigid tank of 1 m3 contains nitrogen gas (N2) at 600 kPa, 127 °C. By mistake someone let 0.5 kg of the gas flow out, the temperature dropped to 102 °C. MW = 28, k = 1.4 Determine the following a. The resulting pressure; 506.8259 kPa b. The remaining mass of N2 inside the tank. 4.5517 kg ME264 Problem Set 3 – Module 3; IDEAL GAS 6. Air in an internal-combustion engine has 440°F, 150 psia, with a volume of 3 ft. Combustion heats it to 2700°R in a constant-volume process. Determine the following: mass of air; 1.3498 lbm b. the final pressure; 450 psia c. the change in Enthalpy; 583.1052 BTU а. d. the heat transferred to the air; 416.434 BTU 7. 7 cu ft of air is compressed isothermally inside a compressor (T1 = T2) from a pressure of 70 psi to 300 psi. Determine the following a. The final volume of the air; 1.6333 ft3

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ul Smart VoWiFi 9:22 PM @ 37% cdn.fbsbx.com Done МЕ264 Problem Set 3 – Module 3; IDEAL GAS Instructions: Show your complete solution. Upload a digital copy of your answer before the deadline. BOX YOUR FINAL ANSWER, ROUND UP TO 4 DECIMAL PLACES. 1. Propane (MW = 44 ; k = 1.13) initially at 30 psia and 215°F, is stored inside a large spherical vessel having a diameter of 10 ft. If the temperature is increased to 635°F. Determine the following: a. Final pressure; 48.6667 psi b. Mass of propane; 95.4339 Ibm c. Constant Volume Specific heat; 0.3472 BTU/lbm.R d. Change in Internal Energy, AU; 13915.6961 BTU V1 2. Air at 2 bar and 50°C is compressed at a constant pressure. Compression ratio; = 3 V2 Determine the following a. T2; -165.3333°C b. Heat transfer during the process; -216.6684 kJ/kg 3. Given: 500 grams of air at STP. (STP or Standard Temperature Pressure; where in T = 0°C, Pabs = 1 atm). Determine the following a. Volume of the air; 0.3867 m³ b. If 20 kJ of heat is added at constant pressure determine the final temperature; 39.7535°C 4. Methylamine, stored in a 2000-gallon tank is to be transferred in drums. Each drum is to be filled at a pressure of 20 psig and 90°F. The stored methylamine is initially at 50 psig and 90°F. (1 drum = 55 gal; MW of methylamine is 31) a. Total mass inside the tank; 90.8738 lbm b. Mass inside each drum; 1.3402 Ibm c. Number of drums that can be filled; 68 drums 5. A rigid tank of 1 m3 contains nitrogen gas (N2) at 600 kPa, 127 °C. By mistake someone let 0.5 kg of the gas flow out, the temperature dropped to 102 °C. MW = 28, k = 1.4 Determine the following a. The resulting pressure; 506.8259 kPa b. The remaining mass of N2 inside the tank. 4.5517 kg ME264 Problem Set 3 – Module 3; IDEAL GAS 6. Air in an internal-combustion engine has 440°F, 150 psia, with a volume of 3 ft. Combustion heats it to 2700°R in a constant-volume process.