Having taught in the UK and abroad, I've experienced teaching many different syllabi including SABIS, AQA, WJEC and Cambridge. I develop resources to help teachers model key concepts, provide practice for students and include answers to help students self-assess their work. Planning for a 27 lesson week can be stressful to say the least, so I hope you find my resources useful. Thank you for choosing my lesson/s, I hope they enrich your teaching practice and make your life easier.
Having taught in the UK and abroad, I've experienced teaching many different syllabi including SABIS, AQA, WJEC and Cambridge. I develop resources to help teachers model key concepts, provide practice for students and include answers to help students self-assess their work. Planning for a 27 lesson week can be stressful to say the least, so I hope you find my resources useful. Thank you for choosing my lesson/s, I hope they enrich your teaching practice and make your life easier.
PowerPoint that covers health and disease. Includes questions, answers and a mind-map to complete.
The following learning objectives are covered:
Describe health as a state of physical and mental wellbeing.
State some causes of ill health.
Describe how diseases can interact.
This is made for a GCSE KS4 science class.
PowerPoint made for a KS4 science class. Includes questions, answers, diagrams and a 6 mark exam question.
The following learning objectives are covered:
Describe what fractional distillation is and how it works.
Name the different fractions from crude oil.
State a use for each fraction from crude oil.
To apply knowledge to exam questions on how fractional distillation is used to separate crude oil into fractions.
PowerPoint that covers states of matter (solids, liquids and gases) for a KS3 level class.
Includes questions, answers and assessment for learning opportunities.
Describe the difference between balanced and unbalanced forces and give examples for both.
Identify and calculate resultant forces.
Describe situations that are in equilibrium.
Explain why the speed or direction of motion of objects can change.
State the position of the Earth and the Moon with respect to the Sun in solar and lunar eclipses.
Draw simple ray diagrams of solar and lunar eclipses.
Describe evidence that led to a change in the model of the Solar System.
Learning objectives:
• State the factors that affect the elastic potential energy store of a spring.
• Calculate the elastic potential energy store of a stretched spring.
• Perform calculations involving the rearrangement of the elastic potential energy equation.
Learning Objectives:
• State the factors that affect the change in the gravitational potential energy store of a system.
• Calculate the gravitational potential energy store of a system using the mass, gravitational field strength, and height.
• To investigate how the gravitational potential energy store of different objects is affected by their mass and height.
Learning Objectives:
• Describe closed and open systems and the changes to energy stores within them.
• Investigate the effect of friction from different surfaces on energy dissipation and work done.
Learning Objectives:
• State the factors that affect the size of a kinetic energy store of an object.
• Calculate the kinetic energy store of an object.
• Investigate how mass and speed affect the kinetic energy store.
This GCSE physics resource bundle offers a complete introduction to the fascinating world of atomic structure and radioactivity. With seven detailed lessons, students will explore the fundamentals of atoms and isotopes, radioactive decay, and the practical applications of radiation. This bundle is designed to align with the GCSE physics curriculum, making it an essential tool for effective teaching and learning.
The bundle includes:
Atoms and Isotopes: Introduces the structure of atoms, isotopes, and their differences, with clear explanations and engaging examples.
Radioactive Decay: Explains the concept of unstable nuclei and how radioactive decay results in the emission of radiation.
Alpha, Beta, and Gamma Radiation: Examines the properties and differences of the three types of radiation, with visual aids and practical examples.
Nuclear Decay Equations: Teaches students how to write and balance nuclear equations for alpha and beta decay, linking theory to exam requirements.
Activity and Half-Life: Explores how to measure radioactive activity and understand half-life, with examples of real-world applications.
Working with Half-Life: Guides students through calculations involving half-life, providing plenty of practice opportunities.
Uses of Radiation: Discusses the practical and beneficial uses of radiation in medicine, industry, and power generation, as well as the associated risks.
How to use:
Each lesson features engaging activities, clear explanations, and exam-style questions to reinforce learning. Teachers can use the materials for structured lessons, revision sessions, or interventions. With this bundle, students will develop a deep understanding of atomic physics and radiation, preparing them for exams and sparking their curiosity about the natural world.
Lesson 1 Atoms and Isotopes
Lesson 2 Radioactive Decay
Lesson 3 Alpha Beta and Gamma
Lesson 4 Nuclear Decay Equations
Lesson 5 Activity and Half Life
Lesson 6 Working with Half Life
Lesson 7 Uses of Radiation
Learning objectives:
To label the structure of an atom.
To describe the charge, relative mass and location of the subatomic particles.
To explain what isotopes are.
Learning objectives:
To be able to define osmosis.
To be able to apply knowledge of osmosis to predict whether water will enter or leave cells by osmosis.