For the equilibrium, CO (g) + H2(g) + CH3OH (g) at 225 C, Kc is 10.2L?/mol. What is the concentration of CH3OH (g) in equilibrium with CO (g) at a concentration of 0.075 mol/L and H2(g) at a concentration of 0.060mol/L?

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For the equilibrium, CO (g) + H2(g) + CH3OH (g) at 225 C, Kc is 10.2L?/mol. What is the concentration of CH3OH (g) in equilibrium with CO (g) at a concentration of 0.075 mol/L and H2(g) at a concentration of 0.060mol/L?

10.13. If 0.0600 mol of SO3 (2) is placed in a 1.00-L container at 1000K, 36.7% of the SO3 (g) is
dissociated when equilibrium is established. 2SO3 (2) → 2SO2 (g) + O2(2)
a) What are the equilibrium concentrations of SO3 (2), SO2 (2) and O2 (2).
b) What is the value of Kc for the equilibrium at 1000K?
10.14. For the equilibrium, CO (e) + H2 (2) → CH3OH (e at 225 C, Kc is 10.2L²/mol. What is the
concentration of CH3OH (e) in equilibrium with CO (2) at a concentration of 0.075 mol/L and H2
(2) at a concentration of 0.060mol/L?
Transcribed Image Text:10.13. If 0.0600 mol of SO3 (2) is placed in a 1.00-L container at 1000K, 36.7% of the SO3 (g) is dissociated when equilibrium is established. 2SO3 (2) → 2SO2 (g) + O2(2) a) What are the equilibrium concentrations of SO3 (2), SO2 (2) and O2 (2). b) What is the value of Kc for the equilibrium at 1000K? 10.14. For the equilibrium, CO (e) + H2 (2) → CH3OH (e at 225 C, Kc is 10.2L²/mol. What is the concentration of CH3OH (e) in equilibrium with CO (2) at a concentration of 0.075 mol/L and H2 (2) at a concentration of 0.060mol/L?
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