In the atmosphere, small water droplets are suspended in the air, forming an aerosol. N2O5 (9) can form HNO3 (aq) under these conditions, as shown in reaction 2, represented below. Reaction 2: N2O5 (9) + H2O(1) → 2 HNO3(aq) Which of the following predicts the effect that the formation of HNO3(aq) will have on the equilibrium shown in reaction 1, and why?

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In the atmosphere, small water droplets are suspended in the air, forming an aerosol. N2O5(g) can
form HNO3 (ag) under these conditions, as shown in reaction 2, represented below.
Reaction 2: N2O5 (9) + H2O(1) → 2 HNO3 (aq)
Which of the following predicts the effect that the formation of HNO3(aq) will have on the
equilibrium shown in reaction 1, and why?
The equilibrium of reaction 1 will shift toward the formation of more product, because N2O5 (9) is
removed when it reacts to form HNO3 (aq).
The equilibrium of reaction 1 will shift toward the formation of more product, because H20(1) acts
as a catalyst for reaction 1.
The equilibrium of reaction 1 will shift toward the formation of more reactants, because the product
N2O5 (9) is removed when it reacts to form HNO3(ag).
The equilibrium of reaction 1 is not affected, because neither H20(1) nor HNO3(aq) are gases.
A
В
C
O D
Transcribed Image Text:In the atmosphere, small water droplets are suspended in the air, forming an aerosol. N2O5(g) can form HNO3 (ag) under these conditions, as shown in reaction 2, represented below. Reaction 2: N2O5 (9) + H2O(1) → 2 HNO3 (aq) Which of the following predicts the effect that the formation of HNO3(aq) will have on the equilibrium shown in reaction 1, and why? The equilibrium of reaction 1 will shift toward the formation of more product, because N2O5 (9) is removed when it reacts to form HNO3 (aq). The equilibrium of reaction 1 will shift toward the formation of more product, because H20(1) acts as a catalyst for reaction 1. The equilibrium of reaction 1 will shift toward the formation of more reactants, because the product N2O5 (9) is removed when it reacts to form HNO3(ag). The equilibrium of reaction 1 is not affected, because neither H20(1) nor HNO3(aq) are gases. A В C O D
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