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CALCULATION OF ENTHALPY CHANGE USING BOND ENERGY

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Presentation on theme: "CALCULATION OF ENTHALPY CHANGE USING BOND ENERGY"— Presentation transcript:

1 CALCULATION OF ENTHALPY CHANGE USING BOND ENERGY

2 It is possible to calculate the enthalpy change of a reaction if the bond enthalpies of the compounds are known. Consider the reaction between hydrogen and fluorine to form hydrogen fluoride.

3 H2(g) + F2(g) = 2HF(g) The equation for the reaction is:
This could be represented as:

4 H-H + F-F = H-F + H-F In order to perform the reaction it is necessary to break: 1x H-H bond – value 436 kJ mol-1 1 x F-F bond – value 158 kJ mol-1 Notice that breaking bonds is an endothermic process – values are positive

5 This gives a total of 436 + 158 = 594 kJ
At this stage all molecules have been broken up into free atoms in the gas phase. The atoms are now put together into the product molecules.

6 H-H + F-F = H-F + H-F In order to complete the reaction it is necessary to make: 2 x H-F bonds – value -562 kJ each Total energy released is kJ When a bond is formed energy is released so this is an exothermic process – values are negative

7 The overall energy change for the reaction is simply the difference between the energy needed to break bonds and the energy given out when bonds are made. Energy in = 594kJ Energy out = 1124 kJ

8 Energy change = 594 – 1124 kJ Energy change = -530 kJ

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