Calculating energy changes in chemical reactions
The energy change in a reaction can be calculated using bond energyThe amount of energy needed to break one mole of a particular covalent bond.. A bond energy is the amount of energyThe capacity of a system to do work or the quantity required for mechanical work to take place. Measured in joules (J). For example, a man transfers 100 J of energy when moving a wheelbarrow. needed to break one moleThe amount of substance that contains the same number of particles as there are atoms in 12 g of carbon-12 (contains the Avogadro's constant 6.0 脳10虏鲁 number of particles). of a particular covalent bondA bond between atoms formed when atoms share electrons to achieve a full outer shell of electrons.. 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 reactantA substance that reacts together with another substance to form products during a chemical reaction. - this is the 鈥榚nergy in鈥
- add together the bond energies for all the bonds in the productA substance formed in a chemical reaction. - this is the 鈥榚nergy out鈥
- energy change = energy in - energy out
Example
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.
| Bond | Bond energy (kJ/mol) |
| 贬鈭扝 | 436 |
| 颁濒鈭扖濒 | 243 |
| 贬鈭扖濒 | 432 |
| Bond | 贬鈭扝 |
|---|---|
| Bond energy (kJ/mol) | 436 |
| Bond | 颁濒鈭扖濒 |
|---|---|
| Bond energy (kJ/mol) | 243 |
| Bond | 贬鈭扖濒 |
|---|---|
| Bond energy (kJ/mol) | 432 |
Energy in = 436 + 243 = 679 kJ/mol
Energy out = (2 脳 432) = 864 kJ/mol
Energy change = in - out
= 679 - 864
= -185 kJ/mol
The energy change is negative. This shows that the reaction is exothermic.
Example
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.
| Bond | Bond energy (kJ/mol) |
| 贬鈭払谤 | 366 |
| 贬鈭扝 | 436 |
| 叠谤鈭払谤 | 193 |
| Bond | 贬鈭払谤 |
|---|---|
| Bond energy (kJ/mol) | 366 |
| Bond | 贬鈭扝 |
|---|---|
| Bond energy (kJ/mol) | 436 |
| Bond | 叠谤鈭払谤 |
|---|---|
| Bond energy (kJ/mol) | 193 |
Energy in = 2 脳 366 = 732 kJ/mol
Energy out = 436 + 193 = 629 kJ/mol
Energy change = in - out
= 732 - 629
= +103 kJ/mol
The energy change is positive. This shows that the reaction is endothermic.
Question
Hydrogen reacts with oxygen to form water:
2 脳 (H-H) + O=O 鈫 2 脳 (H-O-H)
Use the bond energies in the table to calculate the energy change for this reaction.
| Bond | Bond energy (kJ/mol) |
| 贬鈭扝 | 436 |
| O=O | 498 |
| O-H | 464 |
| Bond | 贬鈭扝 |
|---|---|
| Bond energy (kJ/mol) | 436 |
| Bond | O=O |
|---|---|
| Bond energy (kJ/mol) | 498 |
| Bond | O-H |
|---|---|
| Bond energy (kJ/mol) | 464 |
Energy in = (2 脳 436) + 498
= 872 + 498
= 1370 kJ/mo
Energy out = 2 脳 2 脳 464
= 1856 kJ/mol (there are two O-H bonds in each water molecule)
Energy change = in - out
= 1370 - 1856
= -486 kJ/mol
The energy change is negative. This shows that the reaction is exothermic.