thermodynamics 1 Q4: Determine the specific volume ofrefrigerant-134a vapor at 0.9 MPa and 70°Cbased on (a) the ideal-gas equation, (b) thegeneralized compressibility chart, and (c) datafrom tables. Also, determine the error involvedin the first two cases according to the resultfound by the method in (c).

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Answered: Determine the specific volume of…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

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kg%2Fs%20debi%20ile%20hava%20soğutmali%20bir%20yoğuşturucunun%20borularından%20akarken%2.. Oto... Gmail YouTube 1 Çevir ps Community Downl.. Haritalar BOkuma li- SEL iş İÇİN Giriş yap ÇE İNGİLİZCE At 40 oC, saturated water vapor is condensed as it flows through the pipes of an air-cooled condenser with a flow rate of 0.2 kg/s. Condensation water Ileaves the pipes as saturated liquid at 40 oC. What is the heat transfer rate to the air? Çeviri yap: Google Bing D00
3. Find the coefficient of thermal expansion a and the isothermal compressibility k from each of the following p-v-T relations: RT (a) Ideal gas equation, p = (b) Dieterici equation, p = RT e-a/RTU RT aRTV In 2b (c) Saha-Bose equation, p = In the above equations R is the gas constant and a and b are specific constants. Verify that for large values of T and v all the expressions for and K go over into the corresponding expressions for an ideal gas.
Complete this table for refrigerant-134a: Р, КРа 600 h, kJ/kg 180 T, °C Phase Description -10 0.6 -14 500 1200 300.63 44 1.0
the mixture is initially at 101 kn/m2 and 32o c. afterward, the mixture is heated under constant pressure to the temperature of 120 o c. find for the mixture:  molecular weight.  gas constant  change in internal energy.  change in entropy.
Q4/Determine the specific volume of nitrogen gas at 10 MPa and 150K based on (a) the ideal-gas equation and (b) the generalized compressibility chart. Compare these results with the experimental value of 0.002388 m3/kg, and determine the error involved in each case.
● Determine the missing properties and the phase descriptions in the following table for water: T, °C 125 75 P, KPa 200 1000 500 800 u, kJ/kg 1600 2950 X 0.6 0.0 Phase Description
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Steam is at 100 bar, 400°C. Determine its specific volume by use of Am (a) by using perfect gas equation (b) by using generalised compressibility chart. Assume, R for steam as 462 Nm / kg K. Specific volume of steam from steam tables is 0.02641
Saturated water mixture in a piston cylinder arrangement is initially at 200 oC with a qualityof 50%. The mixture loses heat to the surrounding and contracts isothermally to half of theinitial volume.a- What is the final pressure and the specific work done during the process?b- Draw the process on P-v diagram.

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Determine the specific volume of refrigerant-134a vapor at 0.9 MPa and 70°C based on (a) the ideal-gas equation, (b) the generalized compressibility chart, and (c) data from tables. Also, determine the error involved in the first two cases according to the result found by the method in (c). Q4: