1.7.5kg of nitrogen is heated from 40C to 600C. Calculate the change in internal energy using...
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1.7.5kg of nitrogen is heated from 40°C to 600°C. Calculate the change in internal energy using the ideal gas tables in Appendix F 1.8. Air is heated from 0°C to 400°C, determine the change in enthalpy using the specific heats at the average temperature from table B-6 2. A rigid tank, with a volume of 10m³ contains 3kg helium at 300K. Calculate the pressure in the container, in kPa 2.1. Using the ideal gas law 2.2. Using the compressibility factor 2.3. Using the Van der Waals equation 2.4. Using the Beattie-Bridgeman equation 2.5. Using the Virial Equation. (Use a 2nd virial coefficient = 0.012 4/mol The Virial Equation The most fundamental of the virial equations multiplies the right side of the ideal gas law by a power series: 1.7.5kg of nitrogen is heated from 40°C to 600°C. Calculate the change in internal energy using the ideal gas tables in Appendix F 1.8. Air is heated from 0°C to 400°C, determine the change in enthalpy using the specific heats at the average temperature from table B-6 2. A rigid tank, with a volume of 10m³ contains 3kg helium at 300K. Calculate the pressure in the container, in kPa 2.1. Using the ideal gas law 2.2. Using the compressibility factor 2.3. Using the Van der Waals equation 2.4. Using the Beattie-Bridgeman equation 2.5. Using the Virial Equation. (Use a 2nd virial coefficient = 0.012 4/mol The Virial Equation The most fundamental of the virial equations multiplies the right side of the ideal gas law by a power series:
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Thermodynamics for Engineers
ISBN: ?978-1133112860
1st edition
Authors: Kenneth A. Kroos, Merle C. Potter
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