Arsenic can be extracted from its ores by first reacting the ore with oxygen (called roasting) to form solid As4O6, which is then reduced using carbon: As4O6(s) + 6C(s) ⇌ As4(g) + 6CO(g) Predict the direction of the shift of the equilibrium position in response to each of the following changes in conditions. a. Addition of carbon monoxide b. Addition or removal of carbon or tetraarsenic hexoxide (As4O6) c. Removal of gaseous arsenic (As4)
Arsenic can be extracted from its ores by first reacting the ore with oxygen (called roasting) to form solid As4O6, which is then reduced using carbon: As4O6(s) + 6C(s) ⇌ As4(g) + 6CO(g) Predict the direction of the shift of the equilibrium position in response to each of the following changes in conditions. a. Addition of carbon monoxide b. Addition or removal of carbon or tetraarsenic hexoxide (As4O6) c. Removal of gaseous arsenic (As4)
Chapter13: Chemical Equilibrium
Section: Chapter Questions
Problem 90AE: Methanol, a common laboratory solvent, poses a threat of blindness or death if consumed in...
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Arsenic can be extracted from its ores by first reacting the ore with oxygen (called
roasting) to form solid As4O6, which is then reduced using carbon:
As4O6(s) + 6C(s) ⇌ As4(g) + 6CO(g)
Predict the direction of the shift of the equilibrium position in response to each of the
following changes in conditions.
a. Addition of carbon monoxide
b. Addition or removal of carbon or tetraarsenic hexoxide (As4O6)
c. Removal of gaseous arsenic (As4)
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