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12 Dec 2019

1. Consider this reaction at equilibrium:

2 BrNO (g) <---> 2 NO (g) + Br2 (g)

Predict whether the reaction shift left, shift right, or remain unchanged after each disturbance. Explain in terms of reaction rates and collisions.

a. NO is added to the reaction mixture

b. BrNO is added to the reaction mixture

c. Br2 is removed from the reaction mixture

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Consider this reaction at equilibrium:

C (s) + H2O (g) <---> CO (g) + H2 (g)

Predict whether the reaction will shift left, shift right, or remained unchange after each disturbance. Explain.

a. C is added to the reaction mixture

b. H2O is condendsed and removed from the reaction mixture.

c. CO is added to the reaction mixture

d. H2 is removed from the reaction mixture

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Jamar Ferry
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13 Dec 2019

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Related questions

The following is exothermic
2H2S(g) + 3O2(g) = 2H2O(g) + 2SO2(g)
Predict if reaction will shift left, right, or remain unchanged upon each disturbance:
A. Removing H2O from the mixture
B. Raising the temperature of the mixture
C. Decreasing the volume of the container
D. Adding a catalyst to the mixture

Consider the following exothermic reaction:

2HI (g) รขย‡ย† H2 (g) + I2 (g)

A) What will happen to the reaction mixture at equilibrium if an inert gas is added?
[1] The equilibrium will shift to the left.
[2] The equilibrium will shift to the right.
[3] There is no effect on the equilibrium.
[4] The reaction will stop.
[5] None of the above.

B) What will happen to the reaction mixture at equilibrium if the volume of the container is increased?
[1] The equilibrium will shift to the left.
[2] The equilibrium will shift to the right.
[3] There is no effect on the equilibrium.
[4] The reaction will stop.
[5] None of the above.

C) What will happen to the reaction mixture at equilibrium if the pressure is increased?
[1] The equilibrium will shift to the left.
[2] The equilibrium will shift to the right.
[3] There is no effect on the equilibrium.
[4] The reaction will stop.
[5] None of the above.

D) What will happen to the reaction mixture at equilibrium if some H2 (g) is removed?
[1] The equilibrium will shift to the left.
[2] The equilibrium will shift to the right.
[3] There is no effect on the equilibrium.
[4] The reaction will stop.
[5] None of the above.

E) What will happen to the reaction mixture at equilibrium if the temperature is increased?
[1] The equilibrium will shift to the left.
[2] The equilibrium will shift to the right.
[3] There is no effect on the equilibrium.
[4] The reaction will stop.
[5] None of the above.

Can you please explain how to get to the answer?

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