- I Chemistry
- 1 Organic Molecules
- 1.1 What is organic chemistry?
- 1.2 Sources of carbon
- 1.3 Unique propertiesof carbon
- 1.4 Representing organic compounds
- 1.5 Isomerism in organic compounds
- 1.6 Functional groups
- 1.7 The Hydrocarbons.
- 1.8 The Alcohols
- 1.9 Carboxylic Acids
- 1.10 The Amino Group.
- 1.11 The Carbonyl Group
- 2 Organic Macromolecules
- 2.1 Polymers
- 2.2 How do polymersform?
- 2.3 The chemical properties of polymers
- 2.4 Types of polymers.
- 2.5 Plastics
- 2.6 Biological Macromolecules
- 3 Reaction Rates
- 3.1 Introduction
- 3.2 Factors affecting reaction rates
- 3.3 Reaction rates andcollision theory
- 3.4 Measuring Rates of Reaction
- 3.5 Mechanism of reaction and catalysis
- 3.6 Chemical equilibrium
- 3.7 The equilibrium constant
- 3.8 Le Chatelier’s principle
- 3.9 Industrial applications
- 4 Electrochemical Reactions CONTENTS CONTENTS
- 4.1 Introduction
- 4.2 The Galvanic Cell.
- 4.3 The Electrolytic cell
- 4.4 Standard ElectrodePotentials
- 4.5 Balancing redox reactions
- 4.6 Applications of electrochemistry
- 5 The Chemical Industry
- 5.1 Introduction
- 5.2 Sasol
- 5.3 The Chloralkali Industry
- 5.4 The Fertiliser Industry
- 5.5 Electrochemistry and batteries
- II Physics
- 6 Motion in Two Dimensions
- 6.1 Introduction
- 6.2 Vertical ProjectileMotion
- 6.3 Conservation of Momentum in Two Dimensions
- 6.4 Types of Collisions.
- 6.5 Frames of Reference
- 7 Mechanical Properties of Matter
- 7.1 Introduction
- 7.2 Deformation of materials
- 7.3 Elasticity, plasticity, fracture, creep
- 7.4 Failure and strength of materials
- 8 Work, Energy and Power
- 8.1 Introduction
- 8.2 Work
- 8.3 Energy
- 8.4 Power
- 9 Doppler Effect
- 9.1 Introduction
- 9.2 The Doppler Effect with Sound and Ultrasound
- 9.3 The Doppler Effect with Light
- 10 Colour CONTENTS CONTENTS
- 10.1 Introduction
- 10.2 Colour and Light
- 10.3 Addition and Subtraction of Light
- 10.4 Pigments and Paints
- 11 2D and 3D Wavefronts
- 11.1 Introduction
- 11.2 Wavefronts
- 11.3 The Huygens Principle
- 11.4 Interference
- 11.5 Diffraction
- 11.6 Shock Waves andSonic Booms
- 12 Wave Nature of Matter
- 12.1 Introduction
- 12.2 de Broglie Wavelength
- 12.3 The Electron Microscope
- 13 Electrodynamics
- 13.1 Introduction
- 13.2 Electrical machines - generators and motors
- 13.3 Alternating Current
- 13.4 Capacitance and inductance
- 14 Electronics
- 14.1 Introduction
- 14.2 Capacitive and Inductive Circuits
- 14.3 Filters and Signal Tuning
- 14.4 Active Circuit Elements
- 14.5 The Principles of Digital Electronics
- 14.6 Using and StoringBinary Numbers
- 15 EM Radiation
- 15.1 Introduction
- 15.2 Particle/wave nature of electromagnetic radiation
- 15.3 The wave nature of electromagnetic radiation
- 15.4 Electromagnetic spectrum
- 15.5 The particle natureof electromagnetic radiation
- 15.6 Penetrating abilityof electromagnetic radiation
- 16 Optical Phenomena; Properties of Matter CONTENTS CONTENTS
- 16.1 Introduction
- 16.2 The transmission and scattering of light
- 16.3 The photoelectriceffect
- 16.4 Emission and absorption spectra
- 16.5 Lasers
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