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31 July, 10:35

At a certain temperature, the K p for the decomposition of H 2 S is 0.739. H 2 S (g) - ⇀ ↽ - H 2 (g) + S (g) Initially, only H 2 S is present at a pressure of 0.215 atm in a closed container. What is the total pressure in the container at equilibrium?

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  1. 31 July, 13:00
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    The total pressure in the container is 0.389 atm

    Explanation:

    Step 1: Data given

    Kp = 0.739

    The initial pressure of H2S = 0.215 atm

    Step 2: The balanced equation

    H2S (g) ⇆ H2 (g) + S (g)

    Step 3: The initial pressures

    pH2S = 0.215 atm

    pH2 = 0 atm

    pS = 0 atm

    Step 4: The pressures at the equilibrium

    pH2S = 0.215 - X atm

    pH2 = X atm

    pS = X atm

    Step 5:

    Kp = 0.739 = (pS) * (pH2) / (pH2S)

    0.739 = X*X / (0.215 - X)

    0.739 = X² / (0.215 - X)

    X² = 0.739 * (0.215-X)

    X² = 0.1589 - 0.739X

    X² + 0.739X - 0.1589 = 0

    X = 0.174

    pH2S = 0.215 - 0.174 atm = 0.041 atm

    pH2 = 0.174 atm

    pS = 0.174 atm

    Step 6: Calculate the total pressure in the container

    Total pressure = 0.041 atm + 0.174 atm + 0.174 atm

    Total pressure = 0.389 atm

    The total pressure in the container is 0.389 atm
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