For the following equation, how would you increase the amount of product? CO(g) + H2(g) ↔↔ C(s) + H2O(g) ΔΔH = -131.5 kJ/mole A) Decrease PH2O, increase temperature, increase PCO, increase PH2, decrease total pressure. B) Remove carbon, decrease PH2O, decrease temperature, increase PCO, increase PH2, increase total pressure. C) Decrease PH2O, decrease temperature, increase PCO, increase PH2, decrease total pressure. D) Remove carbon, decrease PH2O, increase temperature, increase PCO, increase PH2, decrease total pressure. E) Remove carbon, decrease PH2O, decrease temperature, increase PCO, increase PH2, decrease total pressure. F) Decrease PH2O, decrease temperature, increase PCO, increase PH2, increase total pressure. G) Decrease PH2O, increase temperature, increase PCO, increase PH2, increase total pressure. H) Remove carbon, decrease PH2O, increase temperature, increase PCO, increase PH2, increase total pressure.
For the following equation, how would you increase the amount of product?
CO(g) + H2(g) ↔↔ C(s) + H2O(g) ΔΔH = -131.5 kJ/mole
A) Decrease PH2O, increase temperature, increase PCO, increase PH2, decrease total pressure.
B) Remove carbon, decrease PH2O, decrease temperature, increase PCO, increase PH2, increase total pressure.
C) Decrease PH2O, decrease temperature, increase PCO, increase PH2, decrease total pressure.
D) Remove carbon, decrease PH2O, increase temperature, increase PCO, increase PH2, decrease total pressure.
E) Remove carbon, decrease PH2O, decrease temperature, increase PCO, increase PH2, decrease total pressure.
F) Decrease PH2O, decrease temperature, increase PCO, increase PH2, increase total pressure.
G) Decrease PH2O, increase temperature, increase PCO, increase PH2, increase total pressure.
H) Remove carbon, decrease PH2O, increase temperature, increase PCO, increase PH2, increase total pressure.
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