Enter your answer in the provided box. Even at high temperatures, the formation of NO is not favored: (K.-4.10 x 10 at 2000°C) N2(g) + 0,(g)=2 NO(g) What is [NO] when a mixture of 0.20 mol of N,(g) and 0.22 mol of O,(g) reach equilibrium in a 1.0-L container at 2,000°C? 0.0000 M

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**Equilibrium and the Formation of NO**

**Enter your answer in the provided box.**

Even at high temperatures, the formation of NO is not favored:

\[
(K_c = 4.10 \times 10^{-4} \text{ at } 2000^\circ \text{C})
\]

\[
\text{N}_2(g) + \text{O}_2(g) \rightleftharpoons 2 \text{NO}(g)
\]

**Question:**

What is \([\text{NO}]\) when a mixture of 0.20 mol of \(\text{N}_2(g)\) and 0.22 mol of \(\text{O}_2(g)\) reach equilibrium in a 1.0–L container at 2000°C?

The answer is to be provided in the box: \[ \boxed{0.0000} \, M \]
Transcribed Image Text:**Equilibrium and the Formation of NO** **Enter your answer in the provided box.** Even at high temperatures, the formation of NO is not favored: \[ (K_c = 4.10 \times 10^{-4} \text{ at } 2000^\circ \text{C}) \] \[ \text{N}_2(g) + \text{O}_2(g) \rightleftharpoons 2 \text{NO}(g) \] **Question:** What is \([\text{NO}]\) when a mixture of 0.20 mol of \(\text{N}_2(g)\) and 0.22 mol of \(\text{O}_2(g)\) reach equilibrium in a 1.0–L container at 2000°C? The answer is to be provided in the box: \[ \boxed{0.0000} \, M \]
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