Question:

Equilibrium constant, Kc?

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Consider the following reaction:

Fe^3+(aq) + SCN^-(aq) <---> FeSCN^2+(aq)

A solution is made containing an initial [Fe^3+] of 1.2×10−3 M and an initial [SCN^-] of 7.9×10−4 M. At equilibrium, [FeSCN^2+] = 1.8×10−4 M.

Calculate the value of the equilibrium constant (Kc).

Any help would be appreciated. Thanks.

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  1. Kc=[Fe(SCN)^2+]/[Fe^3+][SCN-]

    =[1.8x10^-4]/[1.2x10^-3-1.8x10^-4] [7.9x10^-4-1.8x10^-4]

    =289


  2. I used a reaction table to solve this one.

    .................. Fe3+(aq).... +..... SCN-(aq)... --&gt;..... FeSCN2+(aq)

    Initial........ 1.2*10^-3M ........ 7.9*10^-4M ................. 0

    Reacting....... -x ......................... -x ........................... +x

    Equilibrium 1.2*10^-3 -x ..... 7.9*10^-4 -x .............. 1.8*10^-4M

    They give you x so its all good.

    x = 1.8*10^-4

    [Fe3+] = 1.2*10^-3 - x

    [Fe3+] = 1.2*10^-3 - 1.8*10^-4

    [Fe3+] = 1.02*10^-3M

    [SCN-] = 7.9*10^-4 - x

    [SCN-] = 7.9*10^-4 - 1.8*10^-4

    [SCN-] = 6.1*10^-4M

    Now use the equation to write the equilibrium expression and plug in the values.

    Kc = [FeSCN2+]/([Fe3+][SCN-])

    Kc = (1.8*10^-4) / ((1.02*10^-3)(6.1*10^-4))

    Kc = 289
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