Find specific volume of Refrigerant R-12 under the circumstances of 400kPa of pressure and 43.9 °C...
Find specific volume of Refrigerant R-12 under the circumstances
of 400kPa of pressure and 43.9 °C of temperature:
a) Using ideal gas law, b) Using compressibility factor diagram, c)
Using Van der Waals equation of state, d) Using the relevant
tables. e) Calculate relative percentages of errors for (a), (b),
(c) acknowledging the option (d) is true (relative to (d)).
Homework Answers
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Find specific volume of Refrigerant R-12 under the circumstances
of 400kPa of pressure and 43.9 °C...
Please be eligible. Thank You 9. Check out the error map for water vapor when treating...
Please be eligible. Thank You
9. Check out the error map for water vapor when treating the steam as ideal gas and give comments 10. Solve this problem using Ideal Gas equation: Determine the specific volume of refrigerant R134a at 1 MPa and 50°C. The R of R-134a is 0.0815 (kPa.m3)/(kg.K), Per 4.059 MPa, Ter 374.2 K. The actual specific volume is 0.021796 m3/kg. 11. Solve the above problem using the generalized compressibility chart (meaning, use the Z factor) 12....
need help on part B a Calculate the pressure exerted by 20.0 g of Co, in...
need help on part B
a Calculate the pressure exerted by 20.0 g of Co, in a 600 ml. vessel at 298 K using the ideal gas equation. Then, recalculate the pressure using the van der Waals equation. Assuming that the pressure calculated from the van der Waals equation is correct, what is the percent error in the answer when using the ideal gas equation? Van der Waals constants for CO2 are: a = 3.50 -, and b=0.0427 L/mol; R...
Question 3 Determine the specific volume of refrigerant-134a vapour at 0 9 MPa and 70°C based...
Question 3 Determine the specific volume of refrigerant-134a vapour at 0 9 MPa and 70°C based on, (a) The ideal-gas equation (b) The generalızed compressibility chart, and (c) Data from tables Also, determine the error involved in the first two cases (7) (9) (2) [181 CON
IDEAL GAS with Compressibility Factor Z correction Problem 2) Find the specific volume of the gas...
IDEAL GAS with Compressibility Factor Z correction Problem 2) Find the specific volume of the gas in Problem 1A(=1.48ft^3/lbm) using the compressibility factor Z. IDEAL GAS STATE Problem 1) Air is at 200F and a pressure of 50 psia. Assuming ideal gas estimate the specific volume of this air at this condition. Air at a density of 1.2 kg/m3 is at a pressure of 150 Kpa. Find the temperature of the air assuming ideal gas. Find the specific volume of...
Experiment is done at the following conditions. Temperature of boiling water (°C) 99.2 Atmoshperic Pressure (torr)...
Experiment is done at the following conditions. Temperature of boiling water (°C) 99.2 Atmoshperic Pressure (torr) 759 Results Trial 1 Trial 2 Trial 3 Volume of flask (ml) 142.59 142.59 142.59 Mass of dry flask, foil, and rubber band (g) 74.448 74.733 74.45274.451 74.733 74.732 Mass of flask, foil, rubber band and vapor (9) Mass of vapor (9) 0.285 0.2800.281 Calculations Unknown number Number of moles using ideal gas law (g/mol) Molar mass using ideal gas law (g/mol) Average molar...
Do it with perfection... 4. Determine the pressure exerted by 10.00 lbm of steam at a...
Do it with perfection...
4. Determine the pressure exerted by 10.00 lbm of steam at a temperature of 1300 °F in a volume of 3.285 ft using a) The steam tables b) The ideal gas equation of state c) The van der Waals equation of state
Calculate the pressure of 7.0 mol CO2 in a sealed 2.00 L vessel at 50 °C...
Calculate the pressure of 7.0 mol CO2 in a sealed 2.00 L vessel at 50 °C using a) the Ideal Gas Equation b) The van der Waals equation
Calculate the pressure exerted by 10.5 moles of neon gas in a volume of 5.65 L...
Calculate the pressure exerted by 10.5 moles of neon gas in a volume of 5.65 L at 25 ° C using (a) the ideal gas equation and (b) the van der Waals equation. (For neon, a = 0.211 atm · L2/mol2 and b = 0.0171 L/mol.) (a) atm (b) atm
Experiment is done at the following conditions Temperature of boiling water (C) 99.8 1755 Atmoshperic Pressure...
Experiment is done at the following conditions Temperature of boiling water (C) 99.8 1755 Atmoshperic Pressure (torr) Results Trial Trial 2 Trial 3 Volume of flask (ml) 141.62 141.62 75.649 Mass of dry flask, foil, and rubber band (9) 75.655 141.62 75.653 75.865 0.212 75.868 Mass of flask, foil, rubber band and vapor (@) 75.864 Mass of vapor (9) 0.215 Calculations 0.212 2 M Unknown number Number of moles using ideal gas law g/mol) Molar mass using ideal gas law...
U20 9. Using the van der Waals equation, calculate the pressure for a 1.25 mol sample...
U20 9. Using the van der Waals equation, calculate the pressure for a 1.25 mol sample of xenon contained in a volume of 1.000L at 75°C: a = 4.194 L'atm/mol and b = 0.05105 L/mol for Xe. Compare these results to that predicted by the ideal gas law.
Please be eligible. Thank You
9. Check out the error map for water vapor when treating the steam as ideal gas and give comments 10. Solve this problem using Ideal Gas equation: Determine the specific volume of refrigerant R134a at 1 MPa and 50°C. The R of R-134a is 0.0815 (kPa.m3)/(kg.K), Per 4.059 MPa, Ter 374.2 K. The actual specific volume is 0.021796 m3/kg. 11. Solve the above problem using the generalized compressibility chart (meaning, use the Z factor) 12....
need help on part B
a Calculate the pressure exerted by 20.0 g of Co, in a 600 ml. vessel at 298 K using the ideal gas equation. Then, recalculate the pressure using the van der Waals equation. Assuming that the pressure calculated from the van der Waals equation is correct, what is the percent error in the answer when using the ideal gas equation? Van der Waals constants for CO2 are: a = 3.50 -, and b=0.0427 L/mol; R...
Question 3 Determine the specific volume of refrigerant-134a vapour at 0 9 MPa and 70°C based on, (a) The ideal-gas equation (b) The generalızed compressibility chart, and (c) Data from tables Also, determine the error involved in the first two cases (7) (9) (2) [181 CON
Experiment is done at the following conditions. Temperature of boiling water (°C) 99.2 Atmoshperic Pressure (torr) 759 Results Trial 1 Trial 2 Trial 3 Volume of flask (ml) 142.59 142.59 142.59 Mass of dry flask, foil, and rubber band (g) 74.448 74.733 74.45274.451 74.733 74.732 Mass of flask, foil, rubber band and vapor (9) Mass of vapor (9) 0.285 0.2800.281 Calculations Unknown number Number of moles using ideal gas law (g/mol) Molar mass using ideal gas law (g/mol) Average molar...
Do it with perfection...
4. Determine the pressure exerted by 10.00 lbm of steam at a temperature of 1300 °F in a volume of 3.285 ft using a) The steam tables b) The ideal gas equation of state c) The van der Waals equation of state
Experiment is done at the following conditions Temperature of boiling water (C) 99.8 1755 Atmoshperic Pressure (torr) Results Trial Trial 2 Trial 3 Volume of flask (ml) 141.62 141.62 75.649 Mass of dry flask, foil, and rubber band (9) 75.655 141.62 75.653 75.865 0.212 75.868 Mass of flask, foil, rubber band and vapor (@) 75.864 Mass of vapor (9) 0.215 Calculations 0.212 2 M Unknown number Number of moles using ideal gas law g/mol) Molar mass using ideal gas law...
U20 9. Using the van der Waals equation, calculate the pressure for a 1.25 mol sample of xenon contained in a volume of 1.000L at 75°C: a = 4.194 L'atm/mol and b = 0.05105 L/mol for Xe. Compare these results to that predicted by the ideal gas law.
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