Consider the following endothermic reaction system at equilibrium: 2SO3(g) # 2SO2(g) + O2(g) Predict how the following changes affect the number of moles of each component of the system after equilibrium is reestablished by completing the table below: Note: Use I for increase, D for decrease, NC for no change SO3 SO2 O2 Add SO3(g) Remove SO2(g) Add O2(g) Add He(g) Increase the temperature (constant P) Decrease the volume (constant T) Add a catalyst

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Consider the following endothermic reaction system at equilibrium:
2SO3(g) # 2SO2(g) + O2(g)
Predict how the following changes affect the number of moles of each component of the system after equilibrium is reestablished by completing the table below:
Note: Use I for increase, D for decrease, NC for no change
SO3
SO2
O2
Add SO3(g)
Remove SO2(g)
Add O2(g)
Add He(g)
Increase the temperature (constant P)
Decrease the volume (constant T)
Add a catalyst
Transcribed Image Text:Consider the following endothermic reaction system at equilibrium: 2SO3(g) # 2SO2(g) + O2(g) Predict how the following changes affect the number of moles of each component of the system after equilibrium is reestablished by completing the table below: Note: Use I for increase, D for decrease, NC for no change SO3 SO2 O2 Add SO3(g) Remove SO2(g) Add O2(g) Add He(g) Increase the temperature (constant P) Decrease the volume (constant T) Add a catalyst
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