Answer:
[NO] = 2.75 M
Explanation:
We determine the equilibrium:
2NO₂(g) ⇄ NO₃ (g) + NO(g)
We analyse the situations:
Initial: 2.8 moles - 1.8 moles
React: x x/2 1.8 + x/2
In the reaction x amount has reacted, so by stoichiometry we add x/2 to the NO₃ (initially we had nothing) and x/2 to NO (initially we had 1.8)
Eq: 2.8-x x/2 1.8+x/2
Let's make the expression for Kc
Kc = [NO₃] . [NO] / [NO₂]² → (x/2) (1.8+x/2) / (2.8-x)²
3.36 = (x/2) (1.8+x/2) / 7.84 - 5.6x + x²
3.36 (7.84 - 5.6x + x²) = (x/2) (1.8+x/2)
26.34 - 18.816x + 3.36x² = 0.9x + x²/4
26.34 - 18.816x + 3.36x² = 0.9x + x²/4 → (3.6x +x²) /4
4 (26.34 - 18.816x + 3.36x²) = 3.6x + x²
105.37 - 75.264x + 13.44x² - 3.6x + x² = 0
105.37 - 78.864x +12.44x² = 0 → A quadratic function
a = 12.44; b = -78.864 ; c = 105.37
(-b +- √(b² - 4ac)) / (2a)
x₁ = 4.42
x₂ = 1.91 → We consider this value, because x₂ give us negative concentration
[NO] = 1.8 + x/2 → 1.8 + 1.91 /2 = 2.75 moles
