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Calculating energy changes

Using bond energies

The energy change in a reaction can be calculated using bond energies. A bond energy is the amount of energy needed to break one mole of a particular covalent bond.

Different bonds have different bond energies. These are given when they are needed for calculations.

To calculate an energy change for a reaction:

  • add together the bond energies for all the bonds in the reactants- this is the 'energy in'
  • add together the bond energies for all the bonds in the products - this is the 'energy out'
  • energy change = energy in - energy out

Example 1

Hydrogen and chlorine react to form hydrogen chloride gas:

贬鈭扝 + 颁濒鈭扖濒 鈫 2 脳 (贬鈭扖濒)

Use the bond energies in the table to calculate the energy change for this reaction.

BondBond energy
贬鈭扝436 kJ
颁濒鈭扖濒243 kJ
贬鈭扖濒432 kJ
Bond贬鈭扝
Bond energy436 kJ
Bond颁濒鈭扖濒
Bond energy243 kJ
Bond贬鈭扖濒
Bond energy432 kJ

Energy in = 436 + 243 = 679 kJ

Energy out = (2 脳 432) = 864 kJ

Energy change = in - out

= 679 - 864

= -185 kJ

The energy change is negative. This shows that the reaction is exothermic.

Example 2

Hydrogen bromide decomposes to form hydrogen and bromine:

2 脳 (贬鈭払谤) 鈫 贬鈭扝 + 叠谤鈭払谤

Use the bond energies in the table to calculate the energy change for this reaction.

BondBond energy
贬鈭払谤366 kJ
贬鈭扝436 kJ
叠谤鈭払谤193 kJ
Bond贬鈭払谤
Bond energy366 kJ
Bond贬鈭扝
Bond energy436 kJ
Bond叠谤鈭払谤
Bond energy193 kJ

Energy in = 2 脳 366 = 732 kJ

Energy out = 436 + 193 = 629 kJ

Energy change = in - out

= 732 - 629

= +103 kJ

The energy change is positive. This shows that the reaction is endothermic.