Chat with AIExam 13: Gas Mixtures
Exam 1: Introduction and Basic Concepts10 Questions
Exam 2: Energy, Energy Transfer, and General Energy Analysis5 Questions
Exam 3: Properties of Pure Substances10 Questions
Exam 4: Energy Analysis of Closed Systems17 Questions
Exam 5: Mass and Energy Analysis of Control Volumes20 Questions
Exam 6: The Second Law of Thermodynamics14 Questions
Exam 7: Entropy21 Questions
Exam 8: Exergy: A Measure of Work Potential10 Questions
Exam 9: Gas Power Cycles16 Questions
Exam 10: Vapor and Combined Power Cycles13 Questions
Exam 11: Refrigeration Cycles10 Questions
Exam 12: Thermodynamic Property Relations5 Questions
Exam 13: Gas Mixtures10 Questions
Exam 14: Gas-Vapor Mixtures and Air-Conditioning10 Questions
Exam 15: Chemical Reactions10 Questions
Exam 16: Chemical and Phase Equilibrium10 Questions
Exam 17: Compressible Flow10 Questions
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One compartment of an insulated rigid tank contains 3 kmol of CO2 at 20°C and 140 kPa while the other compartment contains 5 kmol of H2 gas at 35°C and 280 kPa. Now the partition between the two gases is removed, and the two gases form a homogeneous ideal gas mixture. The temperature of the mixture is
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An ideal gas mixture of helium and argon gases with identical mass fractions enters a turbine at 1500 K and 1 MPa at a rate of 0.25 kg/s, and expands isentropically to 200 kPa. The power output of the turbine is
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A piston-cylinder device contains an ideal gas mixture of 3 kmol of He gas and 7 kmol of Ar gas at 35°C and 420 kPa. Now the gas expands at constant pressure until its volume doubles. The amount of heat transfer to the gas mixture is
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An ideal gas mixture consists of 4 kg of Ar and 6 kg of CO2 gases. The mixture is now heated at constant volume from 275 K to 325 K. The amount of heat transfer is
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(32) An ideal gas mixture consists of 3 kmol of N2 and 7 kmol of CO2. The mass fraction of CO2 in the mixture is
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(32) A 100-L rigid tank contains an ideal gas mixture of 5 g of O2 and 5 g of CO2 at a specified pressure and temperature. If O2 were separated from the mixture and stored at mixture temperature and pressure, its volume would be
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(42) An ideal gas mixture whose apparent molar mass is 48 kg/kmol consists of nitrogen N2 and three other gases. If the mole fraction of nitrogen is 0.24, its mass fraction is
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(38) An ideal gas mixture consists of 35% helium and 65% argon gases by mass. The mixture is now expanded isentropically in a turbine from 400°C and 1.2 MPa to a pressure of 150 kPa. The mixture temperature at turbine exit is
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(35) A rigid tank is divided into two compartments by a partition. One compartment contains 2 kmol of N2 at 500 kPa pressure and the other compartment contains 8 kmol of CO2 at 200 kPa. Now the partition is removed, and the two gases form a homogeneous mixture at 300 kPa. The partial pressure of N2 in the mixture is
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(36) An ideal gas mixture consists of 4 kmol of N2 and 6 kmol of CO2. The apparent gas constant of the mixture is
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