3. A PVT cell containing pure water (H₂O) shows two equilibrium phases of vapor and liquid at 336.75°C. Answer the questions below by using Appendix A.III of Sandler, "steam table." What is the pressure (MPa) of the PVT cell? The visual window of the PVT cell shows 70 cm³ of vapor and 3 cm³ of liquid at What is the mass of water (a total of liquid water and vapor water) in the PVT cell? Since the water in the PVT cell shows two equilibrium phases at the temperature (and the corresponding pressure you answered in part a), it has no thermodynamic freedom (F = 0). When an additional heat is given to the system while keeping the temperature at 336.75°C and the pressure (that you answered in part a), the volume increases from 73 cm³ to 80 cm³. Note that the system is closed; hence, the total mass of water remains the same as Part b. What is the mass of liquid water, and what is the mass of vapor water? a. b. C. 336.75°C. a. 14 MPa 6₁ v ² = 1.611 cm ³ /g ML 3 cm³ = 1.8629 1.611 cm³/g Mwater = 1.862 g + 6,095g = 7.957g V = 11.485cm ³ /g = 3 my = 70cm³ 11.485 cm³/g = 6.0959

Can u do part c? I would appreciate if u could check parts a and b. Thanks

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3. A PVT cell containing pure water (H₂O) shows two equilibrium phases of vapor and liquid at 336.75°C. Answer the questions below by using Appendix A.III of Sandler, "steam table." What is the pressure (MPa) of the PVT cell? The visual window of the PVT cell shows 70 cm³ of vapor and 3 cm³ of liquid at What is the mass of water (a total of liquid water and vapor water) in the PVT cell? Since the water in the PVT cell shows two equilibrium phases at the temperature (and the corresponding pressure you answered in part a), it has no thermodynamic freedom (F = 0). When an additional heat is given to the system while keeping the temperature at 336.75°C and the pressure (that you answered in part a), the volume increases from 73 cm³ to 80 cm³. Note that the system is closed; hence, the total mass of water remains the same as Part b. What is the mass of liquid water, and what is the mass of vapor water? a. b. C. 336.75°C. a. 14 MPa мра 6. v² = 1.611 cm ³ /g m L 3 cm³ 1.8629 1.611 cm³/g Mwater = 1.862 g +6.095 g = 7.9579 = ^v ✓ = 11-485 cm ³ /g V = = 70cm³ 11-485cm³/g Mr = =6.0959

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980 Appendix A.III: The Thermodynamic Properties of Water and Steam Saturated Steam: Pressure Table (Continued) Specific Volume Sat. Liquid VL Press. Temp (MPa) (°C) P T 0.001 127 0.001 133 0.001 139 1.00 179.91 1.10 184.09 1.20 187.99 1.30 191.64 1.40 195.07 1.50 198.32 0.001 144 0.001 149 0.001 177 0.001 154 1.75 205.76 0.001 166 212.42 218.45 223.99 233.90 0.001 187 0.001 197 0.001 217 0.001 235 242.60 250.40 0.001 252 263.99 0.001 286 275.64 0.001 319 0.001 351 285.88 295.06 0.001 384 0.001 418 303.40 311.06 0.001 452 318.15 0.001 489 324.75 0.001 527 0.001 567 330.93 336.75 0.001 611 342.24 0.001 658 347.44 0.001 711 352.37 0.001 770 357.06 0.001 840 361.54 0.001 924 365.81 0.002 036 0.002 207 369.89 373.80 0.002 742 0.003 155 22.09 374.14 V [=] m³/kg; Û, Ĥ [=] J/g = kJ/kg; 2.00 2.25 2.5 3.00 3.5 4 5 6 7 8 9 Sat. Vapor VV 10 11 12 13 14 15 16 17 18 19 20 21 22 0.194 44 0.177 53 0.163 33 0.151 25 0.140 84 0.131 77 0.113 49 0.099 63 0.088 75 0.079 98 0.066 68 0.057 07 0.049 78 0.039 44 0.032 44 0.027 37 0.023 52 0.020 48 0.018 026 0.015 987 0.014 263 0.012 780 0.011 485 0.010 337 0.009 306 0.008 364 0.007 489 0.006 657 0.005 834 0.004 952 0.003 568 0.003 155 Internal Energy Enthalpy Entropy Sat. Sat. Sat. Sat. Liquid Evap. Vapor Liquid Evap. Vapor ΔΗ ĤV ŚL Ŝv ĤL 762.81 2015.3 2778.1 2000.4 2781.7 761.68 1822.0 AS 2.1387 4.4478 6.5865 2.1792 4.3744 780.09 6.5536 1806.3 797.29 1791.5 2588.8 1986.2 2784.8 2.2166 4.3067 6.5233 813.44 1777.5 2591.0 2.2515 4.2438 6.4953 828.70 1764.1 2.2842 4.1850 6.4693 843.16 1751.3 6.4448 2583.6 2586.4 781.34 798.65 814.93 1972.7 2787.6 2592.8 830.30 1959.7 2790.6 2594.5 844.89 1947.3 2792.2 2.3150 4.1298 876.46 1721.4 2597.8 878.50 1917.9 2796.4 2.3851 4.0044 6.3896 906.44 1693.8 2600.3 908.79 1890.7 2799.5 2.4474 3.8935 6.3409 933.83 1668.2 2602.0 936.49 1865.2 2801.7 2.5035 3.7937 6.2972 959.11 1644.0 2603.1 962.11 1841.0 2803.1 2.5547 3.7028 6.2575 1004.78 1599.3 2604.1 1008.42 1795.7 2804.2 2.6457 3.5412 6.1869 1045.43 1558.3 2603.7 1049.75 1753.7 2803.4 2.7253 3.4000 6.1253 1082.31 1520.0 2602.3 1087.31 1714.1 2801.4 2.7964 3.2737 6.0701 1147.81 1449.3 2597.1 1154.23 1640.1 2794.3 2.9202 3.0532 5.9734 1205.44 1384.3 2589.7 1213.35 1571.0 2784.3 3.0267 2.8625 5.8892 1257.55 1323.0 2580.5 1267.00 1505.1 2772.1 3.1211 2.6922 5.8133 1305.57 1264.2 2569.8 1316.64 1441.3 2758.0 3.2068 2.5364 1350.51 1207.3 2557.8 1363.26 1378.9 2742.1 3.2858 2.3915 1393.04 1151.4 2544.4 1407.56 1317.1 2724.7 3.3596 2.2544 1433.7 1096.0 2529.8 1450.1 1255.5 2705.6 1473.0 1040.7 2513.7 1491.3 1193.6 2684.9 1511.1 985.0 2496.1 1531.5 1130.7 2662.2 3.5606 1.8718 5.4323 928.2 2476.8 1571.1 869.8 2455.5 1610.5 809.0 2431.7 1650.1 744.8 2405.0 1690.3 675.4 2374.3 1732.0 5.7432 5.6772 5.6141 3.4295 2.1233 5.5527 3.4962 1.9962 5.4924 1066.5 2637.6 3.6232 1.7485 5.3717 1000.0 2610.5 3.6848 1.6249 5.3098 930.6 2580.6 3.7461 1.4994 5.2455 856.9 2547.2 3.8079 1.3698 777.1 2509.1 3.8715 1.2329 5.1777 5.1044 1548.6 1585.6 1622.7 1660.2 1698.9 1739.9 1785.6 1842.1 1961.9 2029.6 598.1 2338.1 1776.5 5.0228 2409.7 4.0139 0.9130 4.9269 688.0 2464.5 3.9388 1.0839 583.4 446.2 143.4 507.5 2293.0 1826.3 388.5 2230.6 1888.4 125.2 2087.1 2022.2 2029.6 2099.3 2334.6 4.1075 0.6938 4.8013 2165.6 4.3110 0.2216 4.5327 0.0 4.4298 Ŝ [=] kJ/kg K Sat. Liquid ÛL Evap. AU Sat. Vapor ÛV 0.0 2099.3 4.4298 0.0