Bestseller!
Cracking Key Concepts in Secondary Science
- Adam Boxer - Secondary science teacher, UK
- Heena Dave - Secondary science teacher, UK
- Gethyn Jones - Secondary science teacher, UK
June 2021 | 336 pages | Corwin UK
The perfect companion to help you crack some of secondary science’s most challenging concepts in your teaching.
Secondary science teaching is a heroic task, taking some of humanity’s greatest discoveries and explaining them to the next generation of students. Cracking some of the trickiest concepts in biology, chemistry and physics, with walkthrough explanations and examples inspired by direct instruction, this book will bring a fresh perspective to your teaching.
· 30 key concepts explored in depth
· Understand what students should know before and after the lesson
· Tips and tricks offer detailed advice on each topic
· Checks for understanding so you can test your students’ knowledge
Adam Boxer is Head of Science at The Totteridge Academy in North London.
Heena Dave was Head of Science at Bedford Free School.
Gethyn Jones is a teacher of physics at an independent school in London
Secondary science teaching is a heroic task, taking some of humanity’s greatest discoveries and explaining them to the next generation of students. Cracking some of the trickiest concepts in biology, chemistry and physics, with walkthrough explanations and examples inspired by direct instruction, this book will bring a fresh perspective to your teaching.
· 30 key concepts explored in depth
· Understand what students should know before and after the lesson
· Tips and tricks offer detailed advice on each topic
· Checks for understanding so you can test your students’ knowledge
Adam Boxer is Head of Science at The Totteridge Academy in North London.
Heena Dave was Head of Science at Bedford Free School.
Gethyn Jones is a teacher of physics at an independent school in London
Chapter 1: Cracking the Concepts: the components of an effective explanation
Part 1: Biology
Chapter 2: Understanding Cellular Structure and Function
Chapter 3: Biological Organisation within Complex Multicellular Organisms
Chapter 4: Magnification
Chapter 5: Enzyme Function
Chapter 6: Cellular Respiration
Chapter 7: Photosynthesis
Chapter 8: Immunity and the Immune System
Chapter 9: The heart
Chapter 10: Evolution by Natural Selection
Part 2: Chemistry
Chapter 11: Balancing equations
Chapter 12: The development of the periodic table
Chapter 13: Bonding, structure and properties
Chapter 14: The mole
Chapter 15: Electrolysis
Chapter 16: Energy changes
Chapter 17: Rates of reaction
Chapter 18: Dynamic Equilibrium
Chapter 19: Fractional distillation
Chapter 20: Life Cycle Assessment (LCA)
Part 3: Physics
Chapter 21: Introducing Energy Stores and Pathways
Chapter 22: Electric current
Chapter 23: Introduction to Forces
Chapter 24: Current and Potential Difference
Chapter 25: Waves
Chapter 26: Vectors and Compnents
Chapter 27: Pressure
Chapter 28: Forces and Newton's Laws of Motion
Chapter 29: Internal Energy and Heat Capacity
Chapter 30: Magnetism and Electromagnetism
Brilliant book with lots of ideas to support teachers in each topic. Lots of ideas to apply evidence based practice strategies to help pupils build upon their knowledge. Very useful for teachers to easily apply explanations and check students understanding.
Education, The Manchester College
August 3, 2022