Energy is conserved in chemical reactions. The amount of energy in the universe at the end of a chemical reaction is the same as before the reaction takes place
Exothermic reaction
A reaction where energy is transferred to the surroundings so that the surroundings temperature increases
Exothermic reactions
Combustion
Oxidation reactions
Neutralisation (acid + alkali) reactions
Endothermic reaction
A reaction where energy is taken in from the surroundings so the surroundings temperature decreases
Endothermic reactions
Thermal decomposition
Reaction of citric acid and sodium hydrogencarbonate
Activation energy
Minimum amount of energy that particles need to react
Reaction profile
A graph which shows the relative energies of reactants and product, as well as activation energy of the reaction
Chemical reactions in terms of bond energies
Energy is supplied to break bonds and energy is released when bonds are made
Exothermic - energy released from forming bonds is greater than that needed to break the bonds
Endothermic - energy needed to break bonds is greater than energy released making them
Cell
Composed of two electrodes dipped in an electrolyte solution. It produces electricity from a chemical reaction.
Battery
Consists of two or more cells connected in series
Voltage obtained from a cell
Determined by the identities of metals used as electrodes and the identity and concentration of an electrolyte
Advantages and disadvantages of using cells and batteries
Advantages: more or less cheap, some are rechargeable, a convenient source of electrical energy
Disadvantages: harmfulchemicals
Rechargeable and non-rechargeable cells
Rechargeable - chemical reactions are reversed when an externalcurrent is supplied
Non-rechargeable - reactants are used up, cannot be recharged
Fuel cell
Supplied by fuel and oxygen to oxidise the fuel to generate electricity
Overall reaction in a hydrogen fuel cell
1. Cathode: 2 H2 → 4 H+ + 4 e−
2. Anode: O2 + 4 H+ + 4 e−→ 2 H2O
3. Overall: 2 H2 + O2 → 2 H2O
Advantages and disadvantages of hydrogen fuel cells
Advantages: no pollutants, no recharging
Disadvantages: flammable, H2 difficult to store, fossil fuel production, toxic chemicals, expensive production of H2 by electrolysis