| Select | | View | Download | | Chapter 51 | | |
| 51.1 Rate equation and rate constant | | |
| 51.2 Order of reaction | | |
| 51.3 Zeroth order reaction | | |
| 51.4 First order reaction | | |
| 51.5 Second order reaction | | |
| 51.6 Determining rate equations by method of initial rate | | |
| 51.7 Determining the rate equation for the reaction between sodium thiosulphate solution and dilute hydrochloric acid | | |
| 51.1 Rate equation and rate constant (bilingual version) | | |
| 51.2 Order of reaction (bilingual version) | | |
| 51.3 Zeroth order reaction (bilingual version) | | |
| 51.4 First order reaction (bilingual version) | | |
| 51.5 Second order reaction (bilingual version) | | |
| 51.6 Determining rate equations by method of initial rate (bilingual version) | | |
| 51.7 Determining the rate equation for the reaction between sodium thiosulphate solution and dilute hydrochloric acid (bilingual version) | | |
| Rate equation (combined version) | | |
| Rate equation (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 52 | | |
| 52.1 Activation energy and effective collision | | |
| 52.2 Energy profile | | |
| 52.3 Maxwell-Boltzmann distribution curve | | |
| 52.4 Explaining the effect of temperature change on reaction rate using Maxwell-Boltzmann distribution curves | | |
| 52.5 Arrhenius equation | | |
| 52.6 Calculating activation energy using Arrhenius equation | | |
| 52.7 Determining activation energy by graphical method | | |
| 52.1 Activation energy and effective collision (bilingual version) | | |
| 52.2 Energy profile (bilingual version) | | |
| 52.3 Maxwell-Boltzmann distribution curve (bilingual version) | | |
| 52.4 Explaining the effect of temperature change on reaction rate using Maxwell-Boltzmann distribution curves (bilingual version) | | |
| 52.5 Arrhenius equation (bilingual version) | | |
| 52.6 Calculating activation energy using Arrhenius equation (bilingual version) | | |
| 52.7 Determining activation energy by graphical method (bilingual version) | | |
| Activation energy (combined version) | | |
| Activation energy (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 53 | | |
| 53.1 Characteristics of catalysts | | |
| 53.2 Catalysts work by providing an alternative pathway with lower activation energy | | |
| 53.3 Effect of catalyst on reversible reactions | | |
| 53.4 Enzymes in the production of alcoholic drinks | | |
| 53.1 Characteristics of catalysts (bilingual version) | | |
| 53.2 Catalysts work by providing an alternative pathway with lower activation energy (bilingual version) | | |
| 53.3 Effect of catalyst on reversible reactions (bilingual version) | | |
| 53.4 Enzymes in the production of alcoholic drinks (bilingual version) | | |
| Catalysis and industrial processes (combined version) | | |
| Catalysis and industrial processes (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 54 | | |
| 54.1 Importance of fertilizers | | |
| 54.2 Manufacture of ammonia by the Haber process | | |
| 54.3 Compromise between reaction rate, yield and economic considerations in the Haber process | | |
| 54.4 Production of fertilizers from ammonia | | |
| 54.5 Importance of the chloroalkali industry | | |
| 54.6 Chemical principles involved in the chloroalkali industry | | |
| 54.7 Social, economic and environmental considerations of the chloroalkali industry | | |
| 54.8 Importance of methanol | | |
| 54.9 Manufacture of methanol | | |
| 54.1 Importance of fertilizers (bilingual version) | | |
| 54.2 Manufacture of ammonia by the Haber process (bilingual version) | | |
| 54.3 Compromise between reaction rate, yield and economic considerations in the Haber process (bilingual version) | | |
| 54.4 Production of fertilizers from ammonia (bilingual version) | | |
| 54.5 Importance of the chloroalkali industry (bilingual version) | | |
| 54.6 Chemical principles involved in the chloroalkali industry (bilingual version) | | |
| 54.7 Social, economic and environmental considerations of the chloroalkali industry (bilingual version) | | |
| 54.8 Importance of methanol (bilingual version) | | |
| 54.9 Manufacture of methanol (bilingual version) | | |
| Industrial processes (combined version) | | |
| Industrial processes (bilingual, combined version) | | |
| Select | | View | Download | | Chapter 55 | | |
| 55.1 Green chemistry and sustainable development | | |
| 55.2 Atom economy of chemical reactions | | |
| 55.3 Green chemistry practices in the Haber process | | |
| 55.4 Green chemistry practices in the manufacture of acetic acid | | |
| 55.5 Evaluating industrial processes using the principles of green chemistry | | |
| 55.1 Green chemistry and sustainable development (bilingual version) | | |
| 55.2 Atom economy of chemical reactions (bilingual version) | | |
| 55.3 Green chemistry practices in the Haber process (bilingual version) | | |
| 55.4 Green chemistry practices in the manufacture of acetic acid (bilingual version) | | |
| 55.5 Evaluating industrial processes using the principles of green chemistry (bilingual version) | | |
| Green chemistry for industrial processes (combined version) | | |
| Green chemistry for industrial processes (bilingual, combined version) | | |