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5 August, 21:39

Chemists studied the formation of phosgene by sealing 0.96 atm of carbon monoxide and 1.15 atm of chlorine in a reactor at a certain temperature. The pressure dropped smoothly to 1.47 atm as the system reached equilbrium. Calculate Kp (in atm-1) for CO (g) + Cl2 (g) ↔ COCl2 (g)

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  1. 5 August, 21:52
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    3.9

    Explanation:

    Let's consider the following reaction at equilibrium.

    CO (g) + Cl₂ (g) ↔ COCl₂ (g)

    We can find the pressures at equilibrium using an ICE chart.

    CO (g) + Cl₂ (g) ↔ COCl₂ (g)

    I 0.96 1.15 0

    C - x - x + x

    E 0.96-x 1.15-x x

    The sum of the partial pressures is equal to the total pressure.

    pCO + pCl₂ + pCOCl₂ = 1.47

    (0.96-x) + (1.15-x) + x = 1.47

    2.11 - x = 1.47

    x = 0.64

    The pressures at equilibrium are:

    pCO = 0.96 - x = 0.32 atm

    pCl₂ = 1.15 - x = 0.51 atm

    pCOCl₂ = x = 0.64 atm

    The pressure equilibrium constant (Kp) is:

    Kp = pCOCl₂ / pCO * pCl₂

    Kp = 0.64 / 0.32 * 0.51

    Kp = 3.9
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