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2 March, 20:27

For the reaction: ch3oh (g) ⇌ co (g) + 2h2 (g), with the equilibrium concentrations for [ch3oh]=0.20 m, [co]=0.44 m, and [h2]=2.7 m, determine the gas phase equilibrium constant (kp) at 400 0c?

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  1. 3 March, 00:25
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    The concentration equilibrium constant is calculated as:

    Kc = [CO][H2]^2 / [CH3OH] = (0.44 M) (2.7 M) ^2 / (0.20 M) = 16.038 M^2

    The degree of the reaction is the sum of the product coefficients minus that of the reactants: n = 1 (CO) + 2 (H2) - 1 (CH3OH) = 2

    Then the pressure equilibrium constant is calculated as:

    Kp = Kc * (RT) ^ (n) = (16.038 M^2) * [ (0.08206 atm/M-K) (673.15 K) ]^ (2) = 48,936.95 atm^2

    Remember to use absolute temperature of 400+273.15 K, not the 400 C itself.
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