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5.4 Bond enthalpies. 5.4.1 Define the term average bond enthalpy 5.4.2 Explain, in terms of average and enthalpies, why some reactions are exothermic and others are endothermic. Average Bond Enthalpy.
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5.4Bond enthalpies 5.4.1 Define the term average bond enthalpy 5.4.2 Explain, in terms of average and enthalpies, why some reactions are exothermic and others are endothermic.
Average Bond Enthalpy • The standard molar enthalpy change of bond dissociation is the energy change when 1 mole of bonds is broken. • At a gas state at 298 K and a pressure of 100 kPa. • Use a data table for values
You have to be able to draw the structural chemical formula to see all the bonds and add them up properly. • Bond strength is associated with how much energy it takes to break the bond
Breaking bonds requires energy (Endothermic) • Making bonds releases energy (Exothermic) • Reactants – products this time!
∆H = [ (5 x O=O) + ( 8 x C-H) + (2 x C-C)] – [(3 x 2 x C=O) + (4 x 2 x H-O)] ∆H = [(5 x 498) + (8 x 413) + (2 x 347)] – [ (3 x 2 x 805) + (4 x 2 x 464)] ∆H = -2054 kJ
CH4 + Cl2 CH3Cl + HCl • This reaction is overall exothermic because the final product is lower in energy than the reactants. • Calculate the ∆Hrxn using bond enthalpies. • Look them up on the table.
Practice: • H2 + Cl2 2HCl • CH4 + 2O2 CO2 + 2H2O • N2 + 3H2 2NH3
http://www.matter.org.uk/Schools/Content/Reactions/BE_enthalpyH2O.htmlhttp://www.matter.org.uk/Schools/Content/Reactions/BE_enthalpyH2O.html • Try this site to practice at home