Pearson Chemistry 11 New South Wales eBook, 1st edition

Published by Pearson (November 9, 2018) © 2019

  • Drew Chan
  • Richard Hecker
  • Bob Hogendoorn
  • Kathryn Hillier
  • Louisa Lennard
  • Mick Moylan
  • Pat O'Shea
  • Maria Porter
  • Patrick Sanders
  • Jim Sturgiss
  • Paul Waldron

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$59.50 AUD
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ISBN-13: 9781488663468
Pearson Chemistry 11 New South Wales eBook
Published 2018

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Samples

Preview sample pages from Pearson Chemistry 11 New South Wales Student Book

Table of contents

  • Working scientifically
  • 1.1 Questioning and predicting
  • 1.2 Planning investigations
  • 1.3 Conducting investigations
  • 1.4 Processing data and information
  • 1.5 Analysing data and information
  • 1.6 Problem solving
  • 1.7 Communicating
  • Properties of matter
  • 2.1 Types of matter
  • 2.2 Physical properties and changes of state
  • 2.3 Separating mixtures
  • 2.4 Calculating percentage composition
  • 2.5 Elements and the periodic table
  • Atomic structure and atomic mass
  • 3.1 Atoms
  • 3.2 Classifying atoms
  • 3.3 Masses of particles
  • 3.4 Electronic structure of atoms
  • 3.5 Electronic configuration and the shell model
  • 3.6 The Schrodinger model of the atom
  • Periodicity
  • 4.1 The periodic table
  • 4.2 Trends in the periodic table – Part 1
  • 4.3 Trends in the periodic table – Part 2
  • Bonding
  • 5.1 Metallic bonding
  • 5.2 Ionic bonding
  • 5.3 Covalent bonding
  • 5.4 Intermolecular forces
  • 5.5 Covalent network lattices
  • Chemical reactions and stoichiometry
  • 6.1 Writing chemical equations
  • 6.2 Problems involving conservation of mass
  • The mole concept
  • 7.1 Introducing the mole
  • 7.2 Molar mass
  • 7.3 Percentage composition and empirical formulae
  • 7.4 Calculations based on the amount of a reactant or product
  • 7.5 Calculations based on the amounts of two reactants
  • Concentration and molarity
  • 8.1 Concentration of solutions
  • 8.2 Molar concentration
  • 8.3 Dilutions
  • 8.4 Standard solutions
  • Gas laws
  • 9.1 Introducing gases
  • 9.2 The gas laws
  • 9.3 The ideal gas law
  • 9.4 Stoichiometric calculations involving gases
  • Chemical reactions
  • 10.1 Chemical change
  • 10.2 Synthesis reactions
  • 10.3 Decomposition reactions
  • 10.4 Combustion reactions
  • 10.5 Precipitation reactions
  • 10.6 Reactions of acids and bases
  • 10.7 Removing toxins from food
  • Predicting reactions of metals
  • 11.1 Reactions of metals
  • 11.2 The activity series of metals
  • 11.3 Metal activity and the periodic table
  • Redox reactions and galvanic cells
  • 12.1 Introducing redox reactions
  • 12.2 Oxidation numbers
  • 12.3 Galvanic cells
  • 12.4 The table of standard reduction potentials
  • Rates of reactions
  • 13.1 Collision theory
  • 13.2 Measuring reaction rate
  • 13.3 Effect of concentration or pressure and surface area on reaction rate
  • 13.4 Effect of temperature on reaction rate
  • Energy changes in chemical reactions
  • 14.1 Endothermic and exothermic reactions
  • 14.2 Thermochemical equations and energy profile diagrams
  • 14.3 Heat of combustion
  • 14.4 Determining the heat of combustion
  • 14.5 Enthalpy of dissolution
  • 14.6 Catalysts
  • Enthalpy and Hess’s law
  • 15.1 Latent heat
  • 15.2 Enthalpy of formation
  • 15.3 Hess’s law

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