Biofuels
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Atoms, thier properties and how they bond togetherNew DP Chemistry Syllabus
Structure 1. Models of the particulate nature of matter 1.2 The nuclear atom 1.3 Electron configuration Structure 2. Models of bonding and structure 2.1 The Ionic model 2.2 Covalent model 2.3 Metallic model 2.4 From Models to Materials Structure 3. Classification of matter 3.1 Periodic table: Classification of elements |
Energetics and Kinetics of chemical reactions1.2 Mole concept
1.3 Reacting masses and volumes 5 Energetics/ thermochemistry 5.1 Measuring energy changes 5.2 Hess’s Law 5.3 Bond enthalpies 15 Energetics (HL) 15.1 Energy cycles 15.2 Entropy and spontaneity 6 Chemical Kinetics 6.1 Collision theory and rates of reaction 16 Chemical Kinetics (HL) 16.1 Rate expression 16.2 Activation Energy |
Acids, bases and redox reactions7 Equilibrium
7.1 Equilibrium 8 Acids and Bases 8.1 Theories of Acids and Bases 8.2 Properties of Acids and Bases 8.3 The pH scale 8.4 Strong and weak acids and bases 8.5 Acid deposition 18 Acids and Bases (HL) 18.1 Lewis acids and bases 18.2 Calculations involving acids and bases 18.3 pH curves 9 Redox Processes 9.1 Oxidation and reduction 9.2 Electrochemical cells 19 Redox Processes (HL) Electrochemical cells |
Organic and Medicinal Chemistry10 Organic chemistry
10.1 Fundamentals of Organic chemistry 10.2 Functional group chemistry 20 Organic Chemistry (HL) 20.1 Types of organic chemistry 20.2 Synthetic routes 20.3 Stereoisomers D Medicinal Chemistry D.1 Pharmaceutical Products and drug action D.2 Aspirin and penicillin D.3 Opiates D.4 pH regulation of the stomach D.5 Anti-viral medications D6. Environmental impact of some medications D Medicinal Chemistry (HL) D.7 Taxol - a chiral auxilliary case study D.8 Nuclear medicine D.9 Drug detection and analysis |