Introducing the Pearson Chemistry 11 Western Australia student book. Fully aligned to the WA Syllabus.
Author(s): Geoff Quinton, Erin Bruns, Simon Carrello, John Clarke, Chris Commons, Penny Commons, Phil Jones, Allan Knight, Claire Molinari, Bill Offer, Marguerite van der Klashorst, Lanna Derry, Bob Hogendoorn, Elissa Huddart, Pat O’Shea, Maria Porter, Bob Ross, Patrick Sanders, Robert Sanders
Edition: 1
Publisher: Pearson
Year: 2018
Language: English
Commentary: Pages pulled directly from pearsonplaces.com.au and converted to PDF using a Python script.
Pages: 584
City: Melbourne
1 Materials in Our World
1.1 Materials science
1.2 Nanomaterials
1.3 Purifying materials
2 Atoms: Structure and mass
2.1 Atomic theory
2.2 Describing atoms
2.3 Isotopes
2.4 Mass spectrometry
3 Electrons and the Periodic table
3.1 Electronic structure of atoms
3.2 Electron arrangement in the periodic table
3.3 Trends in the periodic table
3.4 Quantisation of energy
4 Metals
4.1 Properties of metals
4.2 Metallic bonding
4.3 Reactivity of metals
4.4 Modifying metals
5 Ionic compounds
5.1 Properties and structures of ionic compounds
5.2 Using the ionic bonding model to explain properties
5.3 Formation of ionic compounds
5.4 Chemical formulas of simple organic compounds
5.5 Writing formulas of more complex organic compounds
6. Covalent compounds
6.1 Properties of non- metallic substances
6.2 Covalent bonding
7 Carbon
7.1 Carbon lattices
7.2 Carbon nanomaterials
8 Organic compounds
8.1 Alkanes
8.2 Alkenes
8.3 Benzene
8.4 Reactions of hydrocarbons
9 The Mole
9.1 Masses of particles
9.2 Introducing the mole
9.3 Molar mass
9.4 Percentage composition
10 Energy changes in chemical reactions
10.1 Exothermic and endothermic reactions
10.2 Thermochemical equations, energy profile diagrams and enthalpy
11 Fuels and Stoichiometry
11.1 Types of fuels
11.2 Combustion reactions
11.3 Calculations involving fuels
12 Intermolecular forces
12.1 Shapes of molecules
12.2 Properties of covalent molecular substances
12.3 Types of intermolecular forces
13 Chromatography
13.1 Principles of chromatography
13.2 Advanced applications of chromatography
14 Gases
14.1 Introducing gases
14.2 The gas laws
14.3 Calculations involving reactions with gases
15 Properties and uses of water
15.1 Essential water
15.2 Properties of water
15.3 Water as a solvent
15.4 Water as a solvent of molecular substances
15.5 Water as a solvent of ionic compounds
15.6 Factors influencing solubility in water
16 Aqueous solutions
16.1 Water as a solvent
16.2 Precipitation reactions
16.3 Solubility
16.4 Crystallisation
16.5 Concentration of solutions
16.6 Molar concentrations
16.7 Dilution
16.8 Calculations involving reactions in solutions
17 Acids and bases
17.1 Introduction to acids and bases
17.2 Calculating pH
17.3 The Arrhenius theory of acids and bases
17.4 Reactions involving acids and bases
17.5 Calculations involving acids and bases
18 Rates of reactions
18.1 Investigating the rate of chemical reactions
18.2 Collision theory
18.3 Applying collision theory
19 Catalysts
19.1 Catalysts
20 Science inquiry skills in chemistry
20.1 Questioning
20.2 Planning investigations
20.3 Uncertainty and error in data
20.4 Processing data and information
20.5 Analysing data and information
20.6 Conclusions
20.7 Communicating
