CHEMISTRY PROGRAMME

Contents

Chemistry
  • Atoms and elements
  • Compounds
  • Chemical equations
  • Mixtures and chromatography
  • Separation techniques
  • Distillation
  • History of the atom
  • Electronic structure
  • Development of periodic table
  • Metals and non-metals
  • Group 1,7, and 0
  • Formation of ions
  • Ionic bonding
  • Ionic compounds
  • Covalent bonding
  • Simple molecular substances
  • Polymers and giant covalent structures
  • Allotropes of carbons
  • Metallic bonding
  • States of matter
  • Changing state
  • Nanoparticles
  • Relative formula mass
  • The mole
  • Conservation of mass
  • Limiting reactants
  • Gases and solutions
  • Concentration
  • Atom economy
  • Percentage yield
  • Acids and bases
  • Titrations
  • Strong and weak acids
  • Reactivity series
  • Redox reactions
  • Electrolysis
  • Exothermic and endothermic
  • Bond energies
  • Cells and batteries
  • Fuel cells
  • Rates of reaction
  • Two rates experiments
  • Reversible reactions
  • Le chatelier’s principle
  • Hydrocarbons
  • Fractional distillation
  • Uses and cracking of crude oil
  • Alkenes
  • Addition polymers
  • Alcohols
  • Carboxylic acids
  • Condensation polymers
  • Naturally occurring polymers
  • Purity and formulations
  • Paper chromatography
  • Tests for gases, anions and cations
  • Flame emission spectroscopy
  • Evolution of atmosphere
  • Greenhouse gases and climate change
  • Carbon footprints
  • Air pollution
  • Ceramics, composites and polymers
  • Properties of materials
  • Corrosion
  • Finite and renewable
  • Recycling
  • Life cycle assessments
  • Potable water
  • Waste water treatment
  • Haber process
  • NPK fertilisers

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