3. The following equilibrium process has been studied at 458°c.NażCO; (s) + S02 (g) +02 (g) )2 NazSO4 (s) + CO2 {g)In one experiment, the amount of the reacting species at equilibrium are found to be [NA2CO3]= 0.645 mole; [SQ2] = 0.65 mole; [O2] = 0.67 mole; [N22SO4] = 1.3 moles; andmole. Assuming that the volume of the gas in the container is 988 ml at 498°C, what is thereaction quotient of the reaction? At what side will the equilibrium shift if the equilibriumconstant of the reaction is 1.3 at that temperature?(CO2] = 0.015%3D%3D

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3. The following equilibrium process has been studied at 458°C. NazCO3 (s) + SO2 (g) +02 (g) ) NazsO, (s) + COz {g) In one experiment, the amount of the reacting species at equilibrium are found to be [Na2CO3] = 0.645 mole; [SO2] = 0.65 mole; [O2] = 0.67 mọole; [NazSO4] = 1.3 moles; and mole. Assuming that the volume of the gas in the container is 988 ml at 498°C, what is the reaction quotient of the reaction? At what side will the equilibrium shift if the equilibrium constant of the reaction is 1.3 at that temperature? [CO2] = 0.015 %3D

3. The following equilibrium process has been studied at 458°C. NazCO3 (s) + SO2 (g) +02 (g) ) NazsO, (s) + COz {g) In one experiment, the amount of the reacting species at equilibrium are found to be [Na2CO3] = 0.645 mole; [SO2] = 0.65 mole; [O2] = 0.67 mọole; [NazSO4] = 1.3 moles; and mole. Assuming that the volume of the gas in the container is 988 ml at 498°C, what is the reaction quotient of the reaction? At what side will the equilibrium shift if the equilibrium constant of the reaction is 1.3 at that temperature? [CO2] = 0.015 %3D

Chemistry: The Molecular Science

5th Edition

ISBN:9781285199047

Author:John W. Moore, Conrad L. Stanitski

Publisher:John W. Moore, Conrad L. Stanitski

Chapter12: Chemical Equilibrium

Section: Chapter Questions

Problem 61QRT

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