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A full 1 hour lesson designed for a low ability year 10 class studying the AQA GCSE Combined Science syllabus. This is a theory lesson, so suitable for teaching random sampling with quadrats in the winter months! This lesson focuses on the method of random sampling, as well as the calculations. This resource includes: A ‘5 in 5’ retrieval-style starter A careers link (ecological consultant) Teacher input slides with dual coding and reduced cognitive load An embedded video An animated teacher model, helping students to visualise the method Model results A teacher model on calculating a mean / estimations, with answer slides Exam question on random sampling method, with optional scaffold, and answer slide Exam questions on calculations, with answer slides Written plenary

A revision placemat designed for a lower ability year 10 class for the ‘electrolysis’ topic. It is well scaffolded. The placemat covers: Labelling cathode, anode, cations, anions, electrolytes Reactivity series The general process of electrolysis Predicting the products of electrolysis of molten ionic compounds The general rules for the electrolysis of aqueous solutions Predicting the products of electrolysis of aqueous solutions

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

A color-coded worksheet to help students work through word equations for neutralisation reactions. Really useful to help lower ability or KS3 classes visualise where the products of neutralisation reactions come from. Includes a worked example and answer key.

This resource was designed for a higher ability year 7 class to revise our recent topic on reproduction. It could be used for a lower ability KS4 group. There are two different versions of this resource with slight variations - one is more open and challenging, the other is more scaffolded. These have been clearly identified for you. The areas covered in this revision placemat are: Labeling the male reproductive system Labeling the female reproductive system The function of each of the key reproductive organs Identifying the changes during puberty that occur in males and females The stages of the menstrual cycle Fertilisation A brief overview of pregnancy and childbirth

A revision mat for a KS3 class studying electricity and magnetism. This revision placemat is designed for a top set year 8 class. This revision placemat covers: Circuit symbols The role of each component in a circuit The rules for current in series and parallel circuits Potential difference Drawing voltmeters in parallel Resistance Static electricity in terms of electrons / distribution of charge Magnetism - attraction and repulsion Magnetic fields Electromagnetism (what is it, how can the strength be changed, what are the uses)

A full 1 hour lesson designed for a low ability year 10 class studying the AQA GCSE Combined Science syllabus. This is a theory lesson, so suitable for teaching random sampling with quadrats in the winter months! This lesson focuses on the method of systematic sampling using transect lines. This resource includes: A ‘5 in 5’ retrieval-style starter A retrieval practice (recalling method for random sampling) Teacher input slides with dual coding and reduced cognitive load Teacher model slides (examples) An animated teacher model, helping students to visualise the method Guided class discussions Multiple choice hand signals quiz ‘Fill in the blanks’ closed task with answer slide Exam questions, with optional scaffolds, and answer slides Written plenary

A revision placemat designed for a higher ability year 7 class based on using and interpreting periodic tables. It could be used for a lower ability KS4 class. The resource contains two different versions, a ‘challenge’ sheet and a ‘support’ sheet. There are only slight differences between the two. These words can be removed if you do not wish the student to know which sheet they are receiving. The placemat contains: Identifying the key groups in the periodic table (e.g. alkali metals, halogens, noble gases, transition metals) Identifying groups and periods in the periodic table Using the periodic table to find an element’s chemical symbol, mass number and atomic number Defining key terms that describe an element’s property, e.g. conductive, malleable, brittle The organisation of the periodic table Using an element’s melting point and boiling point to determine its state at room temperature History of the periodic table (Newlands and Mendeleev)

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

A colour-coded worksheet to scaffold writing word equations for displacement reactions. The worksheet contains a description of displacement reactions, a reactivity series for reference, an example of a completed word equation, and 15 questions for students to attempt ramped in difficulty. Eventually students should work up to writing word equations for displacement reactions without needing the colour coding.

This is a full 1 hour lesson designed for a mixed ability year 10 class studying the AQA GCSE Biology syllabus. This lesson covers the definition of a species, and the theory of speciation. This lesson PowerPoint contains: A “5-in-5” retrieval-style starter A lesson hook Direct instruction slides (dual coding, reduced cognitive load) An embedded youtube video on speciation Guided class discussions Regular checks for understanding (hand signals, true/false quizzes etc.) A guided teacher model of the theory of speciation An independent task for students (cut and stick flow chart / story board on speciation) An exam question with mark scheme included Worksheets included for the flow chart and exam question.

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, drawing tables A lesson hook - funny graphs showing that correlation does not equal causation A guided student discussion - name the different types of graph and chart Direct instruction on categoric vs. discrete data A checkpoint task on categoric vs. discrete data - which is which? A fill in the blanks task, with answers direct instruction - rules for drawing a graph Spot the mistakes task in various graphs Guided teacher model (visualiser required) - students draw graph along with teacher Independent task - students draw their own line graph from a results table A written plenary task

A full 1 hour lesson based on the Biology Required Practical 6 from AQA GCSE Combined Science (reaction times). Also suitable for students studying AQA GCSE Biology. This resource was designed for a lower ability year 11 class, but could easily be adapted for other year groups or abilities. This resource includes: A fully guided PowerPoint, with chunked practical instructions A student worksheet with practical instructions, results tables, and application questions A conversion table for reaction times The PowerPoint includes: A ‘5-in-5’ retrieval-style starter A lesson hook - an online reaction time game Chunked practical instructions (slow practical) with use of colour coding and dual coding / imagery for ease of understanding Models (e.g. a model results table showing how to find an anomaly) Application questions Model answers A written plenary (an exam question, with a scaffold, a mark scheme, and a model answer)

A knowledge organiser from the KS3 Activate 2 physics topic on ‘energy’. Makes a good summary sheet for revision at the end of the topic. I used this resource with a mixed ability year 8 class, they used it to make flashcards. Contains summary information on the following areas: Energy resources (non-renewable and fossil fuels) Energy stores Conduction Convection Radiation Work done Simple machines Power

A full 1-hour lesson designed for a mixed ability year 10 class studying the AQA GCSE Chemistry topic on “Electrolysis”. This lesson focuses on the electrolysis of aqueous solutions, with a specific focus on identifying the products formed at each electrode. This PowerPoint includes: A ‘5-in-5’ retrieval-style starter A retrieval practice task recapping the reactivity series (with varying levels of difficulty / scaffold to choose from) Guided class discussions Introduction slides outlining the rules at each electrode Teacher model slides to practice naming the product at each electrode Hand signal quizzes with answers, to check pupils’ understanding Table for students to copy and complete, practising naming the products at each electrode (varying levels of scaffold to choose from) Exam Questions for students to practise, with varying levels of scaffold to choose from Answer slides A game of ‘splat’ for students to play as a plenary task

A full 1 hour lesson designed for a mixed ability year 8 class. This is the 5th lesson in “Chapter 1 - Electricity and Magnetism” from Activate 2, Physics. This lesson should be suitable to teach to any KS3 Physics class, even by those where physics is not their specialism. This lesson contains a class practical investigating how increasing the number of bulbs in a circuit affects the current flowing through the circuit. From this lesson, students should be able to: Define the term ‘resistance’ Recall that resistance is measured in ohms and give its symbol Explain what causes resistance in a wire Calculate resistance using the formula: Resistance (Ω) = potential difference (V) ÷ current (A) Investigate how increasing the number of bulbs in a circuit affects the current flowing through the circuit. 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

This lesson was designed for a lower ability year 10 class studying the AQA GCSE Combined Science specification. This lesson covers the Linnaean classification system, the binomial naming system, and the three-domain system of classification. This is a full 1 hour lesson which contains: A 5-in-5 retrieval style starter A lesson hook Direct instruction slides on classification An embedded video (catchy song!) Guided student discussions Plenty of checkpoints (e.g. multiple choice hand signal questions) Visual teacher-led models Student written tasks Exam questions with scaffolds, and modeled answers A written plenary

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

A full 1-hour lesson designed for a mixed ability year 10 class studying the AQA GCSE Chemistry topic “Electrolysis”. This lesson focuses on the electrolysis of molten ionic compounds, with a specific focus on predicting the products at each electrode. OIL RIG (oxidation and reduction) is discussed in regards to the reactions at each electrode. This lesson contains: A ‘5-in-5’ retrieval-style starter A retrieval practice (class discussion on ion formation) A brief recap on the process of electrolysis Guided teacher model practising naming the products at each electrode Hand signal quizzes with answers to check for student understanding A table for students to copy and complete, predicting products at each electrode Answer slide Slides explaining OIL RIG Flow chart for students to complete, with answer slide Printable exam questions from ExamPro for students to practise, with answer slides Written plenary