Question 19 Some of the H2 used in the Haber-Bosch process is produced by the water-gas shift reaction: Cog) + H2O(g) 5 CO2 (g)+ H2 (g) If a reaction vessel at 335 °C is filled with an equimolar mixture of CO and H20 each with an initial concentration of 0.662 M, calculate the concentration of H2 (in M) at equilibrium at this same temperature. The equilibrium constant K-10.0 at 335 °C. 1.03 0.327 0,679 0.376 0.503 Question 20 Some of the H2 used in the Haber-Bosch process is produced by the water-gas shift reaction: Cog) + H2O(g) 5 CO2 + H2 (8) If a reaction vessel at 259 °C is filled with initial concentrations of [CO)=0.755 M and [H2O]=0.395 M, calculate the concentration of H2 (in M) at equilibrium at this same temperature. The equilibrium constant K-10.0 at 259 °C. 0.932 0.206 0.635 0.362 0.208

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Question 19
Some of the H2 used in the Haber-Bosch process is produced by the water-gas shift reaction:
Colg) + H2O(g) CO2 (g)+ H2 (g)
If a reaction vessel at 335 °C is filled with an equimolar mixture of CO and H20 each with an initial
concentration of 0.662 M, calculate the concentration of H2 (in M) at equilibrium at this same
temperature. The equilibrium constant K=10.0 at 335 °C.
1.03 0.327 0,679 0.376 0.503
O O
Question 20
Some of the H2 used in the Haber-Bosch process is produced by the water-gas shift reaction:
Cog) + H2O(g) 5 CO2 (g)+ H2 (g)
If a reaction vessel at 259 °C is filled with initial concentrations of [CO]=0.755 M and [H2O]=0.395 M,
calculate the concentration of H2 (in M) at equilibrium at this same temperature. The equilibrium
constant K=10.0 at 259 °C.
0.932 0.206 0.635 0.362 0.208
Transcribed Image Text:Question 19 Some of the H2 used in the Haber-Bosch process is produced by the water-gas shift reaction: Colg) + H2O(g) CO2 (g)+ H2 (g) If a reaction vessel at 335 °C is filled with an equimolar mixture of CO and H20 each with an initial concentration of 0.662 M, calculate the concentration of H2 (in M) at equilibrium at this same temperature. The equilibrium constant K=10.0 at 335 °C. 1.03 0.327 0,679 0.376 0.503 O O Question 20 Some of the H2 used in the Haber-Bosch process is produced by the water-gas shift reaction: Cog) + H2O(g) 5 CO2 (g)+ H2 (g) If a reaction vessel at 259 °C is filled with initial concentrations of [CO]=0.755 M and [H2O]=0.395 M, calculate the concentration of H2 (in M) at equilibrium at this same temperature. The equilibrium constant K=10.0 at 259 °C. 0.932 0.206 0.635 0.362 0.208
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