| Select | | View | Download | | Chapter 29 | | |
| 29.1 Simple chemical cells consisting of two metal electrodes and an electrolyte | | |
| 29.2 Measuring voltages of chemical cells | | |
| 29.3 The Electrochemical Series of metals | | |
| 29.4 Simple chemical cells consisting of two metal-metal ion half cells and a salt bridge | | |
| 29.5 Simple chemical cells consisting of two metal-metal ion half cells and a porous device | | |
| 29.1 Simple chemical cells consisting of two metal electrodes and an electrolyte (bilingual version) | | |
| 29.2 Measuring voltages of chemical cells (bilingual version) | | |
| 29.3 The Electrochemical Series of metals (bilingual version) | | |
| 29.4 Simple chemical cells consisting of two metal-metal ion half cells and a salt bridge (bilingual version) | | |
| 29.5 Simple chemical cells consisting of two metal-metal ion half cells and a porous device (bilingual version) | | |
| Simple chemical cells (combined version) | | |
| Simple chemical cells (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 30 | | |
| 30.1 Oxidation and reduction in terms of gain or loss of oxygen | | |
| 30.2 Oxidation and reduction in terms of gain or loss of hydrogen | | |
| 30.3 Oxidation and reduction in terms of gain or loss of electrons | | |
| 30.4 Trends of reducing power of metals and oxidizing power of metal ions | | |
| 30.5 Oxidation and reduction in terms of changes in oxidation numbers | | |
| 30.6 Common oxidizing agents and reducing agents | | |
| 30.7 Balancing redox equations | | |
| 30.8 Predicting the feasibility of a redox reaction | | |
| 30.9 Chlorine as an oxidizing agent | | |
| 30.10 Nitric acid of different concentrations as oxidizing agents | | |
| 30.11 Concentrated sulphuric acid as an oxidizing agent | | |
| 30.12 Aqueous solution of sulphur dioxide as a reducing agent | | |
| 30.1 Oxidation and reduction in terms of gain or loss of oxygen (bilingual version) | | |
| 30.2 Oxidation and reduction in terms of gain or loss of hydrogen (bilingual version) | | |
| 30.3 Oxidation and reduction in terms of gain or loss of electrons (bilingual version) | | |
| 30.4 Trends of reducing power of metals and oxidizing power of metal ions (bilingual version) | | |
| 30.5 Oxidation and reduction in terms of changes in oxidation numbers (bilingual version) | | |
| 30.6 Common oxidizing agents and reducing agents (bilingual version) | | |
| 30.7 Balancing redox equations (bilingual version) | | |
| 30.8 Predicting the feasibility of a redox reaction (bilingual version) | | |
| 30.9 Chlorine as an oxidizing agent (bilingual version) | | |
| 30.10 Nitric acid of different concentrations as oxidizing agents (bilingual version) | | |
| 30.11 Concentrated sulphuric acid as an oxidizing agent (bilingual version) | | |
| 30.12 Aqueous solution of sulphur dioxide as a reducing agent (bilingual version) | | |
| Redox reactions (combined version) | | |
| Redox reactions (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 31 | | |
| 31.1 Identifying the anode and cathode in chemical cells | | |
| 31.2 Redox reactions in chemical cells with inert electrodes | | |
| 31.3 Redox reactions in fuel cells | | |
| 31.1 Identifying the anode and cathode in chemical cells (bilingual version) | | |
| 31.2 Redox reactions in chemical cells with inert electrodes (bilingual version) | | |
| 31.3 Redox reactions in fuel cells (bilingual version) | | |
| Redox reactions in chemical cells (combined version) | | |
| Redox reactions in chemical cells (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 32 | | |
| 32.1 Electrolysis — a process involving redox reactions | | |
| 32.2 Electrolysis of molten sodium chloride | | |
| 32.3 Electrolysis of sodium chloride solution | | |
| 32.4 Electrolysis of copper(II) sulphate solution | | |
| 32.5 Electrolysis of dilute sulphuric acid | | |
| 32.6 Factors affecting preferential discharge of ions | | |
| 32.7 Electroplating: an application of electrolysis | | |
| 32.8 Environmental impact of the electroplating industry | | |
| 32.1 Electrolysis — a process involving redox reactions (bilingual version) | | |
| 32.2 Electrolysis of molten sodium chloride (bilingual version) | | |
| 32.3 Electrolysis of sodium chloride solution (bilingual version) | | |
| 32.4 Electrolysis of copper(II) sulphate solution (bilingual version) | | |
| 32.5 Electrolysis of dilute sulphuric acid (bilingual version) | | |
| 32.6 Factors affecting preferential discharge of ions (bilingual version) | | |
| 32.7 Electroplating: an application of electrolysis (bilingual version) | | |
| 32.8 Environmental impact of the electroplating industry (bilingual version) | | |
| Electrolysis (combined version) | | |
| Electrolysis (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 33 | | |
| 33.1 System, surroundings and the Law of conservation of energy | | |
| 33.2 Enthalpy change of a reaction | | |
| 33.3 Exothermic and endothermic reactions in terms of enthalpy change | | |
| 33.4 Exothermic and endothermic reactions in terms of forming and breaking of chemical bonds | | |
| 33.1 System, surroundings and the Law of conservation of energy (bilingual version) | | |
| 33.2 Enthalpy change of a reaction (bilingual version) | | |
| 33.3 Exothermic and endothermic reactions in terms of enthalpy change (bilingual version) | | |
| 33.4 Exothermic and endothermic reactions in terms of forming and breaking of chemical bonds (bilingual version) | | |
| Energy changes in chemical reactions (combined version) | | |
| Energy changes in chemical reactions (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 34 | | |
| 34.1 Standard enthalpy change and thermochemical equation | | |
| 34.2 Standard enthalpy change of combustion, ΔHcꝋ | | |
| 34.3 Determining enthalpy changes of combustion using simple calorimetric methods | | |
| 34.4 Standard enthalpy change of neutralization, ΔHnꝋ | | |
| 34.5 Determining enthalpy changes of neutralization using simple calorimetric methods | | |
| 34.6 Determining enthalpy change of reaction from experimental results | | |
| 34.7 Standard enthalpy change of formation, ΔHfꝋ | | |
| 34.1 Standard enthalpy change and thermochemical equation (bilingual version) | | |
| 34.2 Standard enthalpy change of combustion, ΔHcꝋ (bilingual version) | | |
| 34.3 Determining enthalpy changes of combustion using simple calorimetric methods (bilingual version) | | |
| 34.4 Standard enthalpy change of neutralization, ΔHnꝋ (bilingual version) | | |
| 34.5 Determining enthalpy changes of neutralization using simple calorimetric methods (bilingual version) | | |
| 34.6 Determining enthalpy change of reaction from experimental results (bilingual version) | | |
| 34.7 Standard enthalpy change of formation, ΔHfꝋ (bilingual version) | | |
| Standard enthalpy changes of reactions (combined version) | | |
| Standard enthalpy changes of reactions (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 35 | | |
| 35.1 Hess’s Law and enthalpy change cycle | | |
| 35.2 Calculations involving enthalpy change cycle | | |
| 35.3 Calculating the standard enthalpy change of a reaction from standard enthalpy changes of formation | | |
| 35.4 Calculating the standard enthalpy change of a reaction from standard enthalpy changes of combustion | | |
| 35.5 Calculating the standard enthalpy change of a reaction by summation of thermochemical equations | | |
| 35.1 Hess’s Law and enthalpy change cycle (bilingual version) | | |
| 35.2 Calculations involving enthalpy change cycle (bilingual version) | | |
| 35.3 Calculating the standard enthalpy change of a reaction from standard enthalpy changes of formation (bilingual version) | | |
| 35.4 Calculating the standard enthalpy change of a reaction from standard enthalpy changes of combustion (bilingual version) | | |
| 35.5 Calculating the standard enthalpy change of a reaction by summation of thermochemical equations (bilingual version) | | |
| Hess’s Law (combined version) | | |
| Hess’s Law (bilingual, combined version) | | |