Two closed tanks are connected to each other by a valve. The first tank contains oxygen (O₂, m= 2.4 kg, T= 134 °C, p= 5 bar) andthe other carbon dioxide (CO₂, m= 2.4 kg, T = 33 °C, p = 1.0 bar). When the valve is opened, the gases are allowed to mix. Whenthe mixture reaches equilibrium, the temperature of the mixture is 73 °C. The gases can be assumed to be ideal gases.Calculatem³ (two decimal accuracy)1) Total volume of the tanks2) Final pressure of the mixture3) Molar fraction of oxygen in the mixture4) Molar fraction of carbon dioxide in the mixture5) Partial pressure of oxygen in the mixture6) Partial pressure of carbon dioxide in the mixture7) Average specific heat capacity of oxygen at constant volume8) Average specific heat capacity of carbon dioxide at constant volume9) Heat transferred from or to the processkPa (zero decimal accuracy)% (zero decimal accuracy)% (zero decimal accuracy)kPa (zero decimal accuracy)kPa (zero decimal accuracy)kJ/kgk (three decimal accuracy)kJ (one decimal accuracy)kJ/kgK (three decimal accuracy)

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Two closed tanks are connected to each other by a valve. The first tank contains oxygen (O₂, m= 2.4 kg, T= 134 °C, p = 5 bar) and the other carbon dioxide (CO₂, m= 2.4 kg, T= 33 °C, p = 1.0 bar). When the valve is opened, the gases are allowed to mix. When the mixture reaches equilibrium, the temperature of the mixture is 73 °C. The gases can be assumed to be ideal gases. Calculate 1) Total volume of the tanks 2) Final pressure of the mixture 3) Molar fraction of oxygen in the mixture m3 (two decimal accuracy) kPa (zero decimal accuracy) % (zero decimal accuracy)

Two closed tanks are connected to each other by a valve. The first tank contains oxygen (O₂, m= 2.4 kg, T= 134 °C, p = 5 bar) and the other carbon dioxide (CO₂, m= 2.4 kg, T= 33 °C, p = 1.0 bar). When the valve is opened, the gases are allowed to mix. When the mixture reaches equilibrium, the temperature of the mixture is 73 °C. The gases can be assumed to be ideal gases. Calculate 1) Total volume of the tanks 2) Final pressure of the mixture 3) Molar fraction of oxygen in the mixture m3 (two decimal accuracy) kPa (zero decimal accuracy) % (zero decimal accuracy)

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Question

Two closed tanks are connected to each other by a valve. The first tank contains oxygen (O₂, m= 2.4 kg, T= 134 °C, p= 5 bar) and
the other carbon dioxide (CO₂, m= 2.4 kg, T = 33 °C, p = 1.0 bar). When the valve is opened, the gases are allowed to mix. When
the mixture reaches equilibrium, the temperature of the mixture is 73 °C. The gases can be assumed to be ideal gases.
Calculate
m³ (two decimal accuracy)
1) Total volume of the tanks
2) Final pressure of the mixture
3) Molar fraction of oxygen in the mixture
4) Molar fraction of carbon dioxide in the mixture
5) Partial pressure of oxygen in the mixture
6) Partial pressure of carbon dioxide in the mixture
7) Average specific heat capacity of oxygen at constant volume
8) Average specific heat capacity of carbon dioxide at constant volume
9) Heat transferred from or to the process
kPa (zero decimal accuracy)
% (zero decimal accuracy)
% (zero decimal accuracy)
kPa (zero decimal accuracy)
kPa (zero decimal accuracy)
kJ/kgk (three decimal accuracy)
kJ (one decimal accuracy)
kJ/kgK (three decimal accuracy)

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