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14 September, 03:18

Given the bond dissociation enthalpies (bde) below, what is the approximate ∆hºf for h2o (g) ?

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  1. 14 September, 03:32
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    We can get ∆H for 2 H2 (g) + O2 (g) → 2 H2O (g) if the given bond dissociation enthalpies are

    Bond BDE, kJ mol-1 Bond BDE, kJ mol-1

    H-H 432 O-O 146

    O-H 467 O=O 495

    In the reactants, two H-H bonds require 2*432 kJ = 864 kJ and one O=O requires 1*495 kJ = 495 kJ

    In the products, four O-H bonds give off 4*467 kJ = 1868 kJ

    The enthalpy change of the reaction is

    ∆H = ∑ bond energy of reactants - ∑ bond energy of products

    = (864 kJ + 495 kJ) - 1868 kJ

    = 1359 kJ - 1868 kJ

    = - 509 kJ for 2 moles of H2O

    Therefore, the approximate ∆H for H2O (g) is - 254.5 kJ per mole
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