At 565 K, the gas phase reaction shown below has an equilibrium constant Keq = 6.04 × 10⁰. N₂ (g) + O2(g) 2 NO(g) Assuming 0.850 bar of NO gas is placed in a sealed container at 565 K, answer each of the questions below. a) What direction will the reaction proceed? Forwards Po, Backwards b) Determine the partial pressure of O2 once the system reaches equilibrium. bar

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At 565 K, the gas phase reaction shown below has an equilibrium constant Keq = 6.04 x
10⁹.
N₂ (g) + O2(g) 2 NO(g)
Assuming 0.850 bar of NO gas is placed in a sealed container at 565 K, answer each of the
questions below.
a) What direction will the reaction proceed?
O Forwards
Backwards
b) Determine the partial pressure of O₂ once the system reaches equilibrium.
Po,
bar
Transcribed Image Text:At 565 K, the gas phase reaction shown below has an equilibrium constant Keq = 6.04 x 10⁹. N₂ (g) + O2(g) 2 NO(g) Assuming 0.850 bar of NO gas is placed in a sealed container at 565 K, answer each of the questions below. a) What direction will the reaction proceed? O Forwards Backwards b) Determine the partial pressure of O₂ once the system reaches equilibrium. Po, bar
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