9. A mixture of ideal gases consists of 4 kg of nitrogen and 6 kg of carbon dioxide at a pressure of 4 bars and a temperature of 20°C. Find : i. ii. The equivalent molecular weight of the mixture, The equivalent gas constant of the mixture, The partial pressures and partial volumes, The volume and density of the mixture, and vi. The cp and cv of the mixture. If the mixture is heated at constant volume to 50°C, Find the changes in internal energy, enthalpy and entropy of the mixture if the heating is done at constant pressure. Take K : for CO2 1.286 and for N2 = 1.4. 111. iv. The mole fraction of each constituent, V.

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5. A mixture of ideal gases consists of 4 kg of nitrogen and 6 kg of carbon dioxide at a pressure
of 4 bars and a temperature of 20°C. Find :
i.
ii.
iii.
iv.
The mole fraction of each constituent,
The equivalent molecular weight of the mixture,
The equivalent gas constant of the mixture,
The partial pressures and partial volumes,
The volume and density of the mixture, and
vi.
The cp and cv of the mixture.
If the mixture is heated at constant volume to 50°C, Find the changes in internal energy,
enthalpy and entropy of the mixture if the heating is done at constant pressure. Take K : for
CO2 1.286 and for N2 = 1.4.
V.
Transcribed Image Text:5. A mixture of ideal gases consists of 4 kg of nitrogen and 6 kg of carbon dioxide at a pressure of 4 bars and a temperature of 20°C. Find : i. ii. iii. iv. The mole fraction of each constituent, The equivalent molecular weight of the mixture, The equivalent gas constant of the mixture, The partial pressures and partial volumes, The volume and density of the mixture, and vi. The cp and cv of the mixture. If the mixture is heated at constant volume to 50°C, Find the changes in internal energy, enthalpy and entropy of the mixture if the heating is done at constant pressure. Take K : for CO2 1.286 and for N2 = 1.4. V.
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