A full hour lesson designed for year 7 as part of an ‘introduction to science’ unit, teaching key science skills to new students in KS3. This full hour lesson resource contains: A ‘5 in 5’ style retrieval starter recapping key concepts from primary school, plus questions on lab safety An embedded animated video showing and naming key scientific apparatus in the lab A scavenger hunt activity, for students to find key practical equipment in the science lab Introduction slides on 2D drawings of apparatus Whiteboard quiz on naming / drawing apparatus, with answers An independent task on drawing apparatus, with answers A written plenary task

A full hour lesson designed for year 7 as part of an ‘introduction to science’ unit, teaching key science skills to new students in KS3. This full hour lesson resource contains: A ‘5 in 5’ style retrieval starter recapping key concepts from primary school, lab safety, scientific apparatus, and measuring A lesson hook about fireworks Retrieval practice - recap Bunsen burner safety Direct instruction on how to light a Bunsen burner A health and safety slide An apparatus slide Clear practical instructions on how to light a Bunsen burner Clear practical instructions on how to do flame tests A written plenary task

A full hour lesson designed for year 7 as part of an ‘introduction to science’ unit, teaching key science skills to new students in KS3. This full hour lesson resource contains: A ‘5 in 5’ style retrieval starter recapping key concepts from primary school, lab safety, scientific apparatus, measuring, Bunsen burners, writing methods A lesson hook - activity where students try to remember information from a chunk of text compared to information from a table Direct instruction on how to draw a table A worked example for drawing a results table A ‘spot the mistake’ task - students find the errors in various results tables Independent tasks with answers - students draw their own results tables A written 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 7 class. This is the 5th and final lesson in “Chapter 4 - Acids and Alkalis” from Activate 1, Chemistry. This lesson should be suitable to teach to any KS3 Chemistry class, even by those where Chemistry is not their specialism. This lesson includes a practical demo (a magic trick with “water” into “wine”) and a class practical activity (using litmus paper to test different household solutions). From this lesson, students should be able to: Recall the general word equation for a neutralisation reaction Name the salts produced in reactions with acids Complete word equations for specific neutralisation reactions Complete word equations for the reactions between a metal and an acid 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 3rd lesson in “Chapter 4 - Acids and Alkalis” from Activate 1, Chemistry. This lesson should be suitable to teach to any KS3 Chemistry class, even by those where Chemistry is not their specialism. This lesson includes a class practical, where students test common household substances with universal indicator solution. It also includes a printable worksheet. From this lesson, students should be able to: Identify acids, alkalis and neutral solutions on the pH scale Describe the colour change of universal indicator in strong acids, weak acids, neutral solutions, weak alkalis, and strong alkalis 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 4th lesson in “Chapter 4 - Acids and Alkalis” from Activate 1, Chemistry. This lesson should be suitable to teach to any KS3 Chemistry class, even by those where Chemistry is not their specialism. This lesson includes a practical demo (universal indicator rainbow). From this lesson, students should be able to: Define the term ‘base’ and identify bases by name (metal oxides, metal hydroxides and metal carbonates) Describe how pH changes during a neutralisation reaction Explain how antacids work 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

An end of year science quiz suitable for all secondary school science pupils, designed for years 7-10. There are six rounds. Each round is in the style of a classic television game show. The rounds are: Round One - Who wants to be a millionaire? Students answer multiple choice questions from a range of topics (Biology, Chemistry and Physics). Students can unanimously decide to use one of the lifelines available. Round Two - Are you smarter than a 10 year old? Students answer multiple choice questions from the primary school science curriculum, from school years 3-6. Round Three - The price is right! Students make numerical estimates based on scientific questions, e.g. how many times your heart beats a day. The team closest to the correct answers wins. Points are deducted if students go over the correct answer. Round Four - Wheel of fortune. Scientific key terms are displayed on the board with most of the letters missing. A short clue is given. Students have to figure out what the key terms are. Round Five - Pointless. Students are asked a scientific question where they need to name something. Points are given for the most obscure answer. Round Six - Countdown. Students are given eight letters in a jumble, and a brief clue. Students have until the end of the countdown clock to solve the jumbled science key word.

A full 1 hour lesson designed for a mixed ability year 7 class introducing them to acids and alkalis. This is an introduction lesson to “Chapter 4 - Acids and Alkalis” from Activate 1, Chemistry. This lesson should be suitable to teach to any KS3 Chemistry class, even by those where Chemistry is not their specialism. From this lesson, students should be able to: Know that alkalis are the chemical opposites of acids Give examples of common acidic and alkaline solutions Describe the hazards of using acids and alkalis State how to control the risks of using acids and alkalis Compare concentrated and dilute solutions 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 second lesson in “Chapter 4 - Acids and Alkalis” from Activate 1, Chemistry. This lesson should be suitable to teach to any KS3 Chemistry class, even by those where Chemistry is not their specialism. This lesson includes a practical demo (a magic trick with “water” into “wine”) and a class practical activity (using litmus paper to test different household solutions). From this lesson, students should be able to: Determine whether a solution is acidic or alkaline, given its colour in indicator Describe the colour changes that occurs when red litmus paper and blue litmus paper are added to acidic, alkaline or neutral solutions 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 is a full 1 hour lesson resource designed for a mid-ability year 9 class studying the AQA GCSE Combined Science specification. This class were at the end of the “Quantitative Chemistry” topic, on the spec point “chemical measurements”. However, this should be suitable for any GCSE class studying errors and uncertainty. By the end of this lesson, students should be able to: Recall the terms systematic error, random error, zero error and parallax error and explain what they mean Identify which type of error is shown from an example Know what ‘uncertainty’ means Calculate uncertainty from a range of results about a mean This lesson is designed to be teachable by a non subject specialist, with all answers and content on the slides. The intention of each slide is made very clear. This lesson contains a range of concrete examples, including a model where students will need to use stopwatches. The mathematical section of this lesson is presented in an “I do, we do, you do” manner with scaffolded examples. Exam questions are included with mark schemes, and plenty of AFL is planned and included. This lesson includes a printable worksheet, with answers. 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 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 introducing them to mixtures and solutions. This lesson is designed to be interactive and engaging, with plenty of AFL and independent tasks. The lesson contains interesting links such as to George’s Marvellous Medicine and skittles! This lesson resource is designed so it should be teachable by non-specialists. From this lesson, students should be able to: Explain what is meant by the term ‘mixture’ in Chemistry Identify mixtures from particle diagrams Define the key terms ‘solution’, ‘solute’ and ‘solvent’ Identify solutions, solvents and solutes from given examples 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 ‘Atoms’ from ‘Chapter 2: Elements, atoms, and compounds’ from Activate 1. From this lesson, students should be able to: State the meaning of ‘atom’ State the meaning of ‘element’ (in terms of its atoms) 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 ‘Elements’ from ‘Chapter 2: Elements, atoms, and compounds’ from Activate 1. From this lesson, students should be able to: State the definition of an element and list some examples of elements Describe what the Periodic Table shows and use it to find a named element. 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

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 calculating relative formula mass. From this lesson, students should be able to independently calculate relative formula 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 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

A full 1-hour lesson resource designed for a mixed ability year 10 class studying the AQA GCSE Chemistry topic of electrolysis. This lesson focuses on writing half equations This lesson includes detailed teacher models and worked examples with animations and specific questions to support students’ metacognition. Many practice questions are included which are ramped in difficulty to build confidence, and contain answer slides. Students work up to completing exam questions at the end of the lesson. My lesson resources always 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