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12 August, 21:53

Acetylene (c2h2) undergoes combustion in excess oxygen to generate gaseous carbon dioxide and water. given δh°f[co2 (g) ] = - 393.5 kj/mol, δh°f[h2o (g) ] = - 241.8 kj/mol, and δh°f[c2h2 (g) ] = 226.6 kj/mol, how much energy is released (kj) when 10.5 moles of acetylene is burned?

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  1. 12 August, 23:45
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    Answer is: 13181,7 kJ of energy is released when 10.5 moles of acetylene is burned.

    Balanced chemical reaction: C₂H₂ + 5/2O₂ → 2CO₂ + H₂O.

    ΔHrxn = sum of ΔHf (products of reaction) - sum of ΔHf (reactants).

    Or ΔHrxn = ∑ΔHf (products of reaction) - ∑ΔHf (reactants).

    ΔHrxn - enthalpy change of chemical reaction.

    ΔHf - enthalpy of formation of reactants or products.

    ΔHrxn = (2· (-393,5) + (-241,8)) - 226,6 · kJ/mol.

    ΔHrxn = - 1255,4 kJ/mol.

    Make proportion: 1 mol (C₂H₂) : - 1255,4 kJ = 10,5 mol (C₂H₂) : Q.

    Q = 13181,7 kJ.
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