This resource is based on the AQA GCSE Combined Science syllabus. It was designed for a lower set year 9 class and used as a support sheet throughout the unit. However, it was also used successfully with a higher ability year 11 class as a revision tool for upcoming exams. This resource is an A3 knowledge organiser that contains information about: How ionic bonds are formed The properties of ionic compounds (description and explanation) How covalent bonds are formed A brief overview of dot-and-cross diagrams The properties of small covalent molecules (description and explanation)

A resource containing: Five A3 information sheets on giant covalent molecules / allotropes of carbon (diamond, graphite, graphene, carbon nanotubes, Buckminsterfullerene) A structured template for an A4 fact sheet for students to fill in This resource works great for SEND classes that benefit from movement around the room. This is a great reading comprehension task and trains students to seek relevant information from chunks of text. This resource was designed for a low ability year 9 class as end of unit revision.

A revision placemat overviewing a topic on acids and alkalis, designed for a top set year 8 class. Could be used for a lower ability KS4 class. The revision placemat is double sided, with trickier content on the back e.g. symbol equations - could be printed single sided if needed. Topics covered: Examples of acids and alkalis pH scale Use of universal indicator and litmus paper Neutralisation reactions Word equations for neutralisation reactions Matching acids to their sources (from food and drink) Balanced symbol equations for neutralisation reactions

This resource is based on the AQA GCSE Combined Science syllabus, and was designed for a lower set year 9 group. It is useful as a support sheet throughout the topic, or as a revision tool at the end of the unit. The resource covers the structures and properties of: Diamond Graphite Graphene Buckminsterfullerene Carbon nanotubes

An A3 knowledge organiser on the Organic Chemistry topic from the AQA GCSE Combined Science syllabus. Also suitable for AQA GCSE Chemistry, although does not include the ‘more organic chemistry’ topic. The knowledge organiser includes information on: The structure and formula of alkanes The structure and formula of alkenes Tests for alkenes Complete combustion of hydrocarbons Incomplete combustion of hydrocarbons Trends in the properties of hydrocarbons Fractional distillation Cracking

A full 1 hour lesson designed for a mixed ability year 7 class. This is the 3rd lesson in “Chapter 1 - Particles and their behaviour” from Activate 1, Chemistry. This lesson is on ‘density’ from pages 82 and 83. This lesson should be suitable to teach to any KS3 Chemistry class, even by those where chemistry is not their specialism. This lesson (and all lessons in this unit) is designed to be interactive and engaging, with plenty of real world examples and independent tasks. From this lesson, students should be able to: Explain what is meant by the terms ‘density’, ‘mass’ and ‘volume’ Explain why some solids have different densities Explain why the same substance has different densities in different states All of my lesson resources contain: A 5-in-5 retrieval-style starter An interesting lesson hook, careers link, or retrieval practice to start the lesson Teacher input slides with dual coding and reduced cognitive load Teacher models Regular ‘check for understanding’ slides, such as hand signals quizzes Regular student independent practice slides, with optional scaffolds, challenges and answer slides A plenary task

A knowledge organiser / revision poster on the AQA GCSE Chemistry topic ‘electrolysis’. The knowledge organiser covers the key information on the following: The process of electrolysis Oxidation and reduction Electrolysis of aqueous solutions Extraction of aluminium using electrolysis Required practical on electrolysis Half equations in electrolysis

This lesson is designed for a year 7 class studying the KS3 Activate curriculum in science. This lesson is focused on ‘Chemical Formulae’ from ‘Chapter 2: Elements, atoms, and compounds’ from Activate 1. From this lesson, students should be able to: Name a familiar two-element chemical compound. Determine the chemical formula of a compound, given the relative numbers of atoms of the elements in it. All of my lesson resources contain: A 5-in-5 retrieval-style starter An interesting lesson hook, careers link, or retrieval practice to start the lesson Teacher input slides with dual coding and reduced cognitive load Teacher models Regular ‘check for understanding’ slides, such as hand signals quizzes Regular student independent practice slides, with optional scaffolds, challenges and answer slides A plenary task

A full 1 hour lesson designed for a mixed ability year 7 class. This is the third lesson in “Chapter 2 - Reactions” from Activate 1, Chemistry. This lesson is on ‘oxidation reactions’. This lesson should be suitable to teach to any KS3 Chemistry class, even by those where chemistry is not their specialism. This lesson (and all lessons in this unit) is designed to be interactive and engaging, with plenty of real world examples and independent tasks. This lesson also involves a practical demonstration where magnesium is burnt. From this lesson, students should be able to: State what a fuel is Recall that fossil fuels are non-renewable State what a combustion reaction is Predict the products of combustion reactions Write word equations for combustion reactions Recall the definition for the term ‘oxidation reaction’ Explain the difference between the terms ‘combustion’ and ‘oxidation’ All of my lesson resources contain: A 5-in-5 retrieval-style starter An interesting lesson hook, careers link, or retrieval practice to start the lesson Teacher input slides with dual coding and reduced cognitive load Teacher models Regular ‘check for understanding’ slides, such as hand signals quizzes Regular student independent practice slides, with optional scaffolds, challenges and answer slides A plenary task

A full 1 hour lesson designed for a mixed ability year 7 class. This is the 6th and penultimate lesson in “Chapter 2 - Reactions” from Activate 1, Chemistry. This lesson is on ‘conservation of mass’. This lesson should be suitable to teach to any KS3 Chemistry class, even by those where chemistry is not their specialism. This lesson (and all lessons in this unit) is designed to be interactive and engaging, with plenty of real world examples and independent tasks. From this lesson, students should be able to: State what the law of conservation of mass is Explain why mass is conserved during a chemical reaction (no atoms are created or destroyed, only rearranged) Use the conservation of mass to calculate the mass of a reactant or product Balance simple formula equations All of my lesson resources contain: A 5-in-5 retrieval-style starter An interesting lesson hook, careers link, or retrieval practice to start the lesson Teacher input slides with dual coding and reduced cognitive load Teacher models Regular ‘check for understanding’ slides, such as hand signals quizzes Regular student independent practice slides, with optional scaffolds, challenges and answer slides A plenary task

A knowledge organiser based on the AQA GCSE Combined Science topic ‘Chemistry of the Atmosphere’. This knowledge organiser covers: Chemistry of the atmosphere - early atmosphere vs. current atmosphere. How did it change over time? Greenhouse gases and the greenhouse effect Sulfur dioxide how it is formed and the problems it causes Oxides of nitrogen how it is formed and the problems it causes Carbon monoxide how it is formed and the problems it causes Particulate carbon how it is formed and the problems it causes Acid rain

A full 1 hour lesson designed for a mixed ability year 7 class. This is the 4th lesson in “Chapter 1 - Particles and their behaviour” from Activate 1, Chemistry. This lesson is on ‘melting and freezing’. This lesson should be suitable to teach to any KS3 Chemistry class, even by those where chemistry is not their specialism. This lesson (and all lessons in this unit) is designed to be interactive and engaging, with plenty of real world examples and independent tasks. From this lesson, students should be able to: Explain what is meant by the terms ‘melting’, ‘freezing’ and ‘change of state’ To describe what happens to the particles in a substance when it melts or freezes. To state the factor in the particle model that explains why different substances have different melting points Estimate the melting point of a substance from its temperature-time graph All of my lesson resources contain: A 5-in-5 retrieval-style starter An interesting lesson hook, careers link, or retrieval practice to start the lesson Teacher input slides with dual coding and reduced cognitive load Teacher models Regular ‘check for understanding’ slides, such as hand signals quizzes Regular student independent practice slides, with optional scaffolds, challenges and answer slides A plenary task

Final lesson designed for a year 7 class on an ‘introduction to science’ unit. Students bring together everything they have learned to design their own investigation on how the volume of water affects how long it takes to boil. The PowerPoint is fully guided with answers and requires students to: Write an aim and prediction for their investigation List the apparatus they will need, and draw their 2D diagrams Write a method for their investigation Design their own results table for their investigation Draw a line graph from model results

A full 1-hour lesson designed for a mixed ability year 10 class studying the AQA GCSE Chemistry topic ‘Electrolysis’. This lesson introduces the topic ‘electrolysis’ and focuses on the process of electrolysis. This PowerPoint resource includes: A ‘5-in-5’ retrieval-style starter A recap of ionic bonding, featuring a ‘choose the word’ written task Guided class discussions Multiple choice hand signal quizzes to check for understanding, with answers Teacher models, including animations Mnemonic devices to help students remember the names of the ions and electrodes A printed diagram for students to label of an electrolysis cell A “fill in the blanks” style task for students to complete Answer slides A written plenary task, matching up key definitions from the lesson

This lesson is designed for a mixed ability year 9 class studying the AQA GCSE Combined Science Trilogy specification, at the start of the topic ‘Quantitative Chemistry’. This lesson is focused on isotopes and calculating relative atomic mass. From this lesson, students should be able to: Define the term ‘isotope’ Define the term ‘relative atomic mass’ Calculate the relative atomic mass All of my lesson resources contain: A 5-in-5 retrieval-style starter An interesting lesson hook, careers link, or retrieval practice to start the lesson Teacher input slides with dual coding and reduced cognitive load Teacher models Regular ‘check for understanding’ slides, such as hand signals quizzes Regular student independent practice slides, with optional scaffolds, challenges and answer slides A plenary task

This lesson is designed for a year 7 class studying the KS3 Activate curriculum in science. This lesson is focused on ‘compounds’ from ‘Chapter 2: Elements, atoms, and compounds’ from Activate 1. From this lesson, students should be able to: State the meaning of ‘compound’ Explain whether a molecule diagram shows an element or compound Explain why a compound has different properties to the elements whose atoms are in it All of my lesson resources contain: A 5-in-5 retrieval-style starter An interesting lesson hook, careers link, or retrieval practice to start the lesson Teacher input slides with dual coding and reduced cognitive load Teacher models Regular ‘check for understanding’ slides, such as hand signals quizzes Regular student independent practice slides, with optional scaffolds, challenges and answer slides A plenary task

This lesson is designed for a mixed ability year 9 class studying the AQA GCSE Combined Science Trilogy specification, at the start of the topic ‘Quantitative Chemistry’. This lesson is focused on changes in mass during a chemical reaction where a product is a gas. This lesson contains a guided practical activity (the reaction between calcium carbonate marble chips and hydrochloric acid). A risk assessment is included. There are also plenty of independent practice tasks, as well as exam questions with modelled answers. This lesson also briefly recaps state symbols and balancing symbol equations. All of my lesson resources contain: A 5-in-5 retrieval-style starter An interesting lesson hook, careers link, or retrieval practice to start the lesson Teacher input slides with dual coding and reduced cognitive load Teacher models Regular ‘check for understanding’ slides, such as hand signals quizzes Regular student independent practice slides, with optional scaffolds, challenges and answer slides A plenary task

A worksheet on writing chemical formulae, with answers. Two versions are included, PowerPoint and Word. In this worksheet, students will develop the skills of: Using a particle diagram to identify which elements are in a compound, and the relative numbers of atoms of each element in the compound Using particle diagrams and/or written information to write the chemical formulae for compounds Naming familiar two-element compounds Drawing particle diagrams for compounds This worksheet is scaffolded with some gaps filled in to model how to correctly complete the table. This is based on the KS3 Activate curriculum, from Chapter 2 “Elements, atoms and compounds” from Activate 1. However, this should be suitable for any KS3 class or lower ability KS4 class studying chemical formulae.