One mole of n-butane is held in a varying-volume reactor where its gas and liquid phases are in equilibrium at 100°C. The saturated pressure of n-butane at this temperature is 15.41 bar. Select all correct statements below. O a. Using RK cubic equation of state, the compressibility factor of the saturated Liquid is Z = 0.074. O b. Using RK cubic equation of state, the compressibility factor of the saturated vapor is Z = 0.65. If 20% of the total n-butane is in the vapor phase, then the volume occupied by the system is approximately 422.31 cm³. d. Calculating using RK CEOS, the molar volume of the gas is 1515.93 cm³/g. C. e. At this saturated state, both the liquid and vapor volumes calculated from the cubic equation of state are physically meaningful. O f. Calculating using RK CEOS, the molar volume of the gas is 1308.59 cm³/g. Og. At this saturated state, the third root of the CEOS is given by the critical molar volume, Vc and is only physically metastable.

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One mole of n-butane is held in a varying-volume reactor where its gas and liquid phases are in equilibrium at 100°C. The saturated pressure of n-butane at this temperature is 15.41 bar. Select all correct statements below. O a. Using RK cubic equation of state, the compressibility factor of the saturated Liquid is Z = 0.074. O b. Using RK cubic equation of state, the compressibility factor of the saturated vapor is Z = 0.65. O c. If 20% of the total n-butane is in the vapor phase, then the volume occupied by the system is approximately 422.31 cm3. O d. Calculating using RK CEOS, the molar volume of the gas is 1515.93 cm³/g. O e. At this saturated state, both the liquid and vapor volumes calculated from the cubic equation of state are physically meaningful. O f. Calculating using RK CEOS, the molar volume of the gas is 1308.59 cm³/g. O g. At this saturated state, the third root of the CEOS is given by the critical molar volume, Vc and is only physically metastable.