Pearson Physics 11 Western Australia Student Book with eBook, 1st edition

Published by Pearson (November 1, 2017) © 2018

  • Greg Moran
  • Geoff Lewis
  • Elke McKay
  • Tracey Fisher
  • Doug Bail

Paperback

$103.50 AUD
Free delivery
ISBN-13: 9781488617713
Pearson Physics 11 Western Australia Student Book with eBook
Published 2017

Title overview

Introducing the Pearson Physics 11 Western Australia student book. Fully aligned to the WA Syllabus.

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Samples

Preview sample pages from Pearson Physics 11 Western Australia

Table of contents

  • 1 Heating Processes
  • 1.1 The Kinetic Particle Model
  • 1.2 Specific Heat Capacity
  • 1.3 Latent Heat
  • 1.4 Heating and Cooling
  • 2 Moving Heat Around
  • 2.1 Work and Efficiency
  • 2.2 Conduction
  • 2.3 Convection
  • 2.4 Radiation
  • 3 Radioactivity and Radiation
  • 3.1 Atoms, Isotopes, Radioisotopes, and Artificial Transmutation
  • 3.2 Radioactivity
  • 3.3 Properties of Alpha, Beta, and Gamma Radiation
  • 3.4 Half-life and Activity of Radioisotopes
  • 3.5 Radiation Dose and its Effect on Humans
  • 4 Fission and Fusion
  • 4.1 Nuclear Fission and Energy
  • 4.2 Chain Reactions and Nuclear Reactions
  • 4.3 Nuclear Fusion
  • 5 Electrical Physics
  • 5.1 The Behaviour of Charged Particles
  • 5.2 Electrical Currents and Circuits
  • 5.3 Energy in Electric Circuits
  • 5.4 Resistance
  • 5.5 Circuit Design
  • 6 Scalars and Vectors
  • 6.1 Scalar and Vector Quantities
  • 6.2 Adding Vectors in One and Two Dimensions
  • 6.3 Subtracting Vectors in One and Two Dimensions
  • 6.4 Vector Components
  • 7 Linear Motion
  • 7.1 Displacement, Speed, and Velocity
  • 7.2 Acceleration
  • 7.3 Graphing Displacement, Velocity and Acceleration Over Time
  • 7.4 Equations for Uniform Acceleration
  • 7.5 Vertical Motion
  • 8 Momentum and Forces
  • 8.1 Momentum and Conservation of Momentum
  • 8.2 Change in Momentum and Impulse
  • 8.3 Inertia and Newton’s First Law
  • 8.4 Newton’s Second Law
  • 8.5 Newton’s Third Law
  • 8.6 Impulse and Force
  • 8.7 Mass and Weight
  • 9 Work Energy and Power
  • 9.1 Energy and Work
  • 9.2 Kinetic Energy
  • 9.3 Elastic and Inelastic Collisions
  • 9.4 Gravitational Potential Energy
  • 9.5 Law of Conservation of Energy
  • 9.6 Power
  • 10 The Nature of Waves
  • 10.1 Longitudinal Wave
  • 10.2 Representing Waves
  • 10.3 Wave Behaviours: Reflection and Refraction
  • 10.4 Wave Interactions - Superposition
  • 10.5 Standing Waves
  • 10.6 Wave Intensity
  • 11 Practical Investigation
  • 11.1 Designing and planning the investigation
  • 11.2 Conducting investigations and recording and presenting data
  • 11.3 Discussing investigations and drawing evidence-based conclusions
  • Appendix

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