A mixture of 3.51 mol N, and 35.21 g NO is heated in a closed vessel to 2000 °C. After heating, the total pressure of the mixture at equilibrium is 3.14 atm. N₂(g) + O₂(g) 2 NO(g) In which direction does the reaction proceed after heating to 2000 °C? The reaction proceeds toward the reactants. The reaction is at equilibrium. The reaction proceeds toward the products. K₂ = 0.101 at 2000°C Calculate the equilibrium partial pressures of N₁, O₂, and NO at 2000 °C. PN, = Po, = atm atm

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A mixture of 3.51 mol N, and 35.21 g NO is heated in a closed vessel to 2000 °C. After heating, the total pressure of the
mixture at equilibrium is 3.14 atm.
N₂(g) + O₂(g) 2 NO(g)
In which direction does the reaction proceed after heating to 2000 °C?
The reaction proceeds toward the reactants.
The reaction is at equilibrium.
The reaction proceeds toward the products.
K₂ = 0.101 at 2000°C
Calculate the equilibrium partial pressures of N₁, O₂, and NO at 2000 °C.
PN, =
Po, =
atm
atm
Transcribed Image Text:A mixture of 3.51 mol N, and 35.21 g NO is heated in a closed vessel to 2000 °C. After heating, the total pressure of the mixture at equilibrium is 3.14 atm. N₂(g) + O₂(g) 2 NO(g) In which direction does the reaction proceed after heating to 2000 °C? The reaction proceeds toward the reactants. The reaction is at equilibrium. The reaction proceeds toward the products. K₂ = 0.101 at 2000°C Calculate the equilibrium partial pressures of N₁, O₂, and NO at 2000 °C. PN, = Po, = atm atm
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