This lesson is 1 in a series of 5 that expertly and fully delivers all the points within the NEW KS3 specification SoW on the “light” topic. I find that this powerpoint and the interesting activities keep lower level students engaged during the lesson while allowing differentiation for higher achievers. I’m sure you’ll find it useful. :-) For more lessons designed to meet the new KS3 and KS4 specifications please type Barclayfox into the tes resources search engine to see all my lessons. STARTER Pupils will start the lessons by thinking/working in pairs to solve a picture puzzle and discovering what the lesson is about. After revealing the title and lesson outcomes students self assess against their current understanding of this topic. Next there is a student lead laser light demonstration as they begin to identify the key properties of light. MAIN The slides then move on to lead the students in comparing light and sound. They will delve a little deeper into this by watching a video, discussing it and answering key questions. MAIN Next, the lesson focuses on numeracy questions based around the speed equation and the speed of light. Once this has been completed they can self assess their work using the answers provided. MAIN Students study a slide which shows the sun, an apple and a girl and asks them, how is it that the girl can see the apple? This leads to a discussion and the revealing of how rays of light move and reflect off the apple and into the girl’s eyes so that she can see the apple. MAIN The next activity involves the students grouping objects into luminous or non-luminous. There is differentiation via an activity sheet that can be provided to less able students if required. MAIN Students consider what a shadow is and how it is formed. This leads into a practical where students investigate how the size and position of shadows depends on the position of the light source and the distance to the object that creates the shadow. PLENARY In the plenary activity pupils complete a quiz which will uncover how much they have learnt during the lesson. Students who need further support set themselves homework to enhance learning of today’s lesson. EXTENSION ACTIVITIES These are provided just in case any group requires them. All resources are included in this great lesson, there is nothing for you to do but order the equipment for the demo and class practical (simply hand your technician the printed off kit list.doc) and if necessary photocopy the activity sheet. Thank you for looking, any feedback would be much appreciated :) Lesson 1 in a series of 5. Happy teaching, Barclayfox.

Geocentric and Heliocentric models of the solar system, planets, moons, dwarf planets. Complete lesson. This is lesson 2 in a series of 6 high quality lessons that fully and expertly delivers all the points within BOTH the NEW KS3 Department for Education ‘Space Physics’ National Curriculum and the AQA KS3 specification / syllabus sections ‘3.7.2 Universe’ and ‘3.1.2 Gravity’. STUDENT OUTCOMES - are noted further down. READY TO USE - no preparation required apart from (if you want) photocopying the work sheet (or you could simply project it and the students could write the answers in their books). The PPT guides you at every step! STARTER Pupils will start the lessons by thinking and working in pairs in a race to solve a picture puzzle and work out what today’s lesson is about. After discussion that leads to revealing the title and lesson outcomes students then self assess against their current understanding of this topic. MAIN and MAIN and MAIN… This lesson is ‘chunked’ into discrete sections to support learning and engender positive behaviour by keeping students interested and focused. All points of the specification are addressed. There are various student activities such as: gap fill, matching, a unique differentiated activity sheet, paired work, literacy activities, focused questions with answers and differentiation, picture puzzle, think/pair/share, quiz, mini test, sort into size order, homework, self-assessment opportunities, peer assessment opportunities etc. Lots of variety to keep learners happy, engaged and learning. PLENARY: In the plenary activity pupils complete a quiz and then peer assess it to uncover how much they have learnt during the lesson. They then self-assess themselves against the lesson outcomes. Students who need further support set themselves additional homework to enhance learning of today’s lesson. EXTENSION ACTIVITIES: These are provided just in case any group requires them. All resources are included in this excellent lesson, there is nothing for you to do but deliver it. OUTCOMES - AT THE END OF THIS LESSON STUDENTS ARE ABLE TO: * Understand the difference between moons, planets and dwarf planets. * Explain the geocentric model of the solar system. * Explain the heliocentric model of the solar system. * Understand why Galileo supported the heliocentric model. Thank you for looking, your positive feedback would be very much appreciated :) This lesson is one of a series of 6: 1. Solar system, stars and galaxies and the universe. 2. Geocentric and heliocentric solar system models 3. Seasons. 4. Gravity, weight and mass. 5. Exploring and observing the universe. 6. The moon’s phases. For more lessons that meet the new KS3 and KS4 specifications please type Barclayfox into the tes resources search engine to see all my lessons. Happy teaching ! Barclayfox.

A complete, and ready to deliver, KS4 lesson. (For USA - this lesson is at 8th to 10th grade level). There is nothing for you to do but give it a quick look through and familiarise yourself with it. Lesson outomes: * I can name forces and identify the direction they act in (KS3 revision). * I understand Newton’s 3rd law. * I can analyse situations using N3L This carefully crafted lesson is over 30 slides long, and is full of learning activities as below: * Notes to help the teacher. * Starter - simple task where students self-assess against the objectives. * Activity sheet - unique to Barclayfox. * Activity sheet answers. * Questions – all answers are provided. * Self marking / Peer marking * Theory slides (carefully sculpted, interspaced with learning activities, not ‘death by powerpoint’). * Play ball. * Quiz Quiz Trade game. * Video clip link (carefully selected – this alone can save you 20+ minutes of searching). * Paired work activities – all answers are provided. * Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt. Please purchase this lesson, and leave a positive review. This lesson is part of a series, whilst they all work very well as standalone individual lessons you may wish to buy others from the series: 0. Bundles – contain 3 or more of these lessons at a discounted price (however please note not all my series are bundled). 1. Vectors and scalars. 2. Forces between objects (contact / non-contact and Newton’s 3rd law). 3. Forces and Newton’s third law (N3L). 4. Resultant forces, free body diagrams. 5. Forces and acceleration F=Ma 6. Required practical F=Ma 7 to 12 - please see list in this powerpoint Thank you, and happy teaching! Yours, Barclayfox.

A complete and ready to deliver high quality GCSE lesson. This is a complete lesson from start to end, you do not need to spend many hours carefully planning, creating, resourcing and improving this lesson after each use. I have already spent those hours preparing this lesson for my students and improving it over many years. There is nothing to do but give it a quick look through and familiarise yourself with it. Lesson objectives: * Know what radon gas is, where it comes from and why it is dangerous. * Understand power stations produce dangerous radioactive waste and explain disposal methods. * Form your own opinions about nuclear power and its safety after studying the Chernobyl and Fukushima incidents. This carefully crafted lesson is over 40 slides long, and is full of learning activities as below: * Notes to help the teacher. * Help sheet (can be given to all, or only to those that the plenary shows found the lesson difficult, or given later to students who missed the lesson). * Starter - simple task where students self-assess themselves against the objectives. * Sequencing activity. * Gap fill activity - all answers are provided. * Quiz with answers. * Questions – all answers are provided. * Theory slides (carefully sculpted, interspaced with learning activities, not ‘death by powerpoint’). * Video clip link (carefully selected – this alone can save you 20+ minutes of searching). * Play ball. * Paired work activities – answers are provided. * Scientific literacy activity. * Plenary formative/summative assessment quiz / activity. * Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt. As teachers we all work ridiculously long hours each week. Give yourself a break, spend some life with your wife / husband / children / friends / family by purchasing more lessons created by “Barclayfox” once they appear on TES. Please note: when searching for resources please type barclayfox into the search box/engine and it will show you all our resources. Please purchase this lesson, and leave a positive review. This lesson is part of a series, whilst they all work very well as standalone individual lessons you may wish to buy others from the series: 0. Bundle – contains all lessons (if available not all series are bundled) 1. Atoms, radiation and the discovery of the nucleus. 2. Isotopes and Mass number and Atomic number. 3. Alpha, Beta and Gamma – ionising radiation. 4. Changes in the nucleus – decay equations 5. Activity and half life 6. Activity and half life practicals 7. Dangers and precautions 8 to 14 - are listed in the powerpoint Thank you, and happy teaching! Yours, Barclayfox.

Dangers of radiation. A complete and ready to deliver high quality GCSE lesson from Barclayfox. There is nothing to do ! Even if you do not have time to look at it in advance it is not a problem as the PPT will lead you smoothly through the lesson. Lesson objectives: Understand the dangers of “ionising” radiation and the damage they can cause (ManKinD). Know how to safely handle radioactive sources and protect yourself (TarDiS) Understand contamination and irradiation. Explain how ideas about the world can change. Please note: This lesson does not cover “uses” as they are covered in the Barclayfox lesson 8 of this topic. This lesson is called “Nuclear radiation uses in medicine”. My lessons cover the whole of this “atomic structure” topic but do not blindly follow the textbook order instead they use a structure that has proved highly successful over many years. Uses in medicine lesson is here: https://www.tes.com/teaching-resource/nuclear-radiation-uses-in-medicine-sterilisation-diagnosis-treatment-tracers-radiotherapy-etc-11703961 This carefully crafted lesson is over 30 slides long, and is full of learning activities some are noted below: * ALL answers are provided throughout! * Starter - recaps previous lessons (with answers). * Paired work activities. * Scientific literacy activity. * Homeworks - 2 - you choose. * Questions. * Theory slides (carefully sculpted, interspaced with learning activities, not ‘death by powerpoint’). * Video clip link (carefully selected – this alone can save you a lot of searching). * Gap fill activity. * Unscramble the words race. * Plenary quiz. * Student self-assessment versus objectives activity. As teachers we all work ridiculously long hours each week. Give yourself a break, spend some life with your loved ones, press buy now! If you like this lesson please leave a review. This lesson is part of a Bundle/series, and you may wish to buy others from the series: 0. Bundle – contains all lessons (if available not all series are bundled) 1. History of the atom and the discovery of the nucleus. 2. Isotopes and Mass number and Atomic number. 3. Alpha, Beta and Gamma – ionising radiation. 4. Changes in the nucleus – decay equations 5. Half life, radioactivity and decay 6. Activity practicals 7. Radiation dangers, safety, risk and precautions 8. Nuclear radiation in medicine (uses in medicine) 9. Nuclear fission and chain reactions (nuclear power). 10. Electricity from nuclear power. 11. Nuclear Fusion and our sun. 12. Nuclear issues including waste 13. Hypotheses, theory acceptance and peer review. 14. Revision. Bundle gives you a near 50% discount! Here’s the link https://www.tes.com/teaching-resource/aqa-gcse-new-spec-atomic-structure-mega-pack-bundle-11795491 Thank you, and happy teaching! Happy days ! Barclayfox.

Latent Heat and Specific Heat Capacity - mix of questions for 9-1 spec. Both latent heat of vaporisation and latent heat of fusion plus SHC. Worksheets with differentiation plus all answers. In my mixed ability group I gave the low ability students the “silver” worksheet and the high ability the “gold” worksheet and they peer marked which worked really well. Interesting and engaging questions with some nice images. All answers provided for your convenience. 9-1 spec and suitable for all major exam boards. What you see in the images gives you clarity on the style and quality of the worksheets. Differentiated : “silver” worksheet. “gold” worksheet. Happy teaching, Barclayfox Key search words 9-1 spec, 9 - 1 spec, latent heat, latent heat of vaporisation, latent heat of fusion, Specific Heat Capacity, differentiated, with answers, LH, SHC, vaporisation, fusion, latent heat, energy, state change calculations, state change, heating and cooling.

Too many of my students were making mistakes with significant figures and writing answer to the wrong number of sig figs. This skill is more important under the 9-1 spec so I wrote this worksheet with answers to help fix this problem. Happy Teaching Barclayfox

A complete / full / ready to go AS/A level Physics lesson. It contains: Notes to help the teacher. Title and lesson objectives (see below). SI fundamental units activity. Questions with answers. Many numerical Questions with FULLY WORKED OUT answers. Definitions… Theory slides Homework (simple research) Video link (very cool) Assessment activity / plenary quiz Student self assessment versus objectives activity. Lesson objectives: * Explain what electric current is. * Define current, Amp and the Coulomb. * Understand and use the equation for charge. It also covers 7 Fundamental SI units. Please buy this lesson and leave positive feedback. Thank you for your time Barclayfox.

A complete and ready to deliver KS3 lesson. Lesson objectives: * Explain that radioactive elements are unstable and emit alpha or beta particles when they change into other elements. * Explain what happens to the nucleus during alpha decay and beta decay and gamma decay. * Successfully write decay equations / nuclear equations. This carefully crafted lesson is over 40 slides long, and is full of learning activities as below: * Notes to help the teacher. * Starter – activity sheet (built into this powerpoint just print this one slide for each student, or project it) * Starter - simple task where students self-assess themselves against the objectives. * Activity sheet - built into this powerpoint just print this one slide for each student - ore project it. * Gap fill activity - all answers are provided. * Quiz with answers. * Questions – all answers are provided. * Theory slides (carefully sculpted, interspaced with learning activities, not ‘death by powerpoint’). * Physical model build activity - various colours of plasticine are required. * Kinaesthetic activity (as above) – to aid recall. * Play ball * Paired work activities – answers are provided. * Plenary formative/summative assessment quiz / activity. * Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt. You’ve found what you need, waste no more of your valuable time! This lesson is part of a series, and you may wish to buy others from the series: 0. Bundle – contains all lessons (if available not all series are bundled) 1. Atoms, radiation and the discovery of the nucleus. 2. Isotopes and Mass number and Atomic number. 3. Alpha, Beta and Gamma – ionising radiation. 4. Changes in the nucleus – decay equations (THIS LESSON) 5. Activity and half life 6. Activity practicals 7. Dangers and precautions 8. Nuclear radiation in medicine (uses in medicine) 9 to 13. Etc etc please search for “Barclayfox” on TES. Happy teaching! Barclayfox.

Half life - complete KS4 lesson Lesson objectives: * Do a physical practical to deepen understanding of half life and decay. * Be able to plot and explain a decay curve. * Find half lives from a decay curves. half life half-life * Notes to help the teacher. * Starter - simple task where students self-assess themselves against the objectives. * Gap fill activity - all answers are provided. * Quiz with answers. * Questions – all answers are provided. * Up and about activity. * Theory slides (carefully sculpted, interspaced with learning activities, * Practical in groups – with scaffolding text and results table blank and expected results (as required) * Equipment list – to give to your technicians. * Kinaesthetic activity – to aid recall. * Differentiated questions with answers. * Play ball * Paired work activities – answers are provided. * Scientific literacy activity. * Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt. Thank you, and happy teaching! Yours, Barclayfox.

A complete and ready to deliver high quality GCSE lesson. This is a complete lesson from start to end, you do not need to spend many hours carefully planning, creating, resourcing and improving this lesson after each use. I have already spent those hours preparing this lesson for my students and improving it over many years. There is nothing to do but give it a quick look through and familiarise yourself with it. Lesson objectives: * Describe the function of the parts of a nuclear power station. * Describe how this is different to using fossil fuels. * Discuss the advantages & disadvantages of nuclear power. This carefully crafted lesson is over 40 slides long, and is full of learning activities as below: * Notes to help the teacher. * Starter - simple task where students self-assess themselves against the objectives. * Activity sheets “Big Picture” - built into this powerpoint just print these slides as described. * Gap fill activity - all answers are provided. * Quiz with answers. * Questions – all answers are provided. * Up and about activity - during “Big Picture” activity. * Theory slides (carefully sculpted, interspaced with learning activities, not ‘death by powerpoint’). * Play ball. * Paired work activities – answers are provided. * Scientific literacy activity. * Plenary formative/summative assessment quiz / activity. * Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt. As teachers we all work ridiculously long hours each week. Give yourself a break, spend some life with your wife / husband / children / friends / family by purchasing more lessons created by “Barclayfox” once they appear on TES. Please note: when searching for resources please type barclayfox into the search box/engine and it will show you all our resources. Please purchase this lesson, and leave a positive review. This lesson is part of a series, and you may wish to buy others from the series: 0. Bundle – contains all lessons (if available not all series are bundled) 1. Atoms, radiation and the discovery of the nucleus. 2. Isotopes and Mass number and Atomic number. 3. Alpha, Beta and Gamma – ionising radiation. 4. Changes in the nucleus – decay equations 5. Activity and half life 6. Activity and half life practicals 7. Dangers and precautions 8. Nuclear radiation in medicine (uses in medicine) 9. Nuclear fission and chain reactions (nuclear power). 10. Electricity from nuclear power. 11. Nuclear Fusion and our sun. 12. Nuclear issues including waste 13. Prediction, theory acceptance and peer review. 14. Revision Thank you, and happy teaching! Yours, Barclayfox.

A complete ’ AS / A level Physics lesson on “Physical quantities and units”. Lesson objectives: * Explain that some physical quantities consist of a numerical magnitude and a unit. * Correctly use important units. * Derive units e.g. units of Force, Energy etc Activities this lesson contains: Notes to help the teacher. Starter task - picture puzzle. Literacy / SPaG Questions (with answers) Boggle game Gap fill Quiz questions with answers. Etc All answers are provided to make things easy for you. As science teachers we all work ridiculously long hours each week. Give yourself a break, spend some life with your wife / husband / children / friends / family by purchasing more lessons created by ‘Barclayfox’ once they appear on TES. Please note: when searching for resources please type barclayfox into the search box/engine and it will show you all my resources. I hope you will purchase this excellent lesson and please leave positive feedback. This lesson is part of a series, and you may wish to buy others from the series: 1. Physical quantities and units. 2. Prefixes and making estimates. 3. Scalar and vector quantities, resultants and resolving. 4. More on vectors – resultants and resolving. 5. Definitions in kinematics. 6. DT & VT graphs of motion. 7. Constant acceleration (SUVAT) equations. 8. Free fall. 9. Measurement of g. Thank you for your time. Yours, Barclayfox.

A complete, and ready to deliver, high quality KS4 / GCSE lesson from Barclayfox, no work required! Can be used by the teacher or for home learning - the Powerpoint easily navigates you thro’ the lesson even if you have not had time to review it before the lesson! Lesson objectives: - Understand what “nuclei” and “radioactivity” and “decay”etc mean. - Explain and understand “half life”. - Use radioactive decay graphs to find half life. - Use maths / numbers to find half life. The lesson contains: Animation (unique). Differentiated activity sheets (HA and MA/LA). Activity sheet answers. Notes to help the teacher. Starter task where students self-assess themselves against each objective. Scientific literacy activities. Homework (capable groups could do this in class). Questions (lots and lots) – all answers are provided. Paired work activities with answers. Gap fills Theory slides (minimal and carefully sculpted – not ‘death by powerpoint’) Video clip links x 2 (carefully selected – this alone can easily save you 20+ minutes). Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt BONUS materials: A ppt for students to go on your VLE / shared area. A short version of the master lesson. Don’t waste any more time searching, you’ve found an excellent lesson - buy it now! Thank you for your time, happy teaching. Yours, Barclayfox.

A complete KS4 lesson. Fusion, fission, hydrogen, proton, repulsion, repel, nuclei. Lesson objectives: * Explain the difference between nuclear “fusion” and nuclear “fission”. * Explain why nuclear fusion needs high temperatures and pressures. *Explain why mankind is finding it hard to make a practical and profitable fusion power station - a sun here on earth!!! This carefully crafted lesson is over 40 slides long, and is full of learning activities as below: * Notes to help the teacher. * Help sheet (can be given to all, or only to those that the plenary shows found the lesson difficult, or given later to students who missed the lesson). * Starter – unscramble. * Matching task – answers are provided. * Unscramble the words race. * Gap fill activity - all answers are provided. * Quiz with answers. * Questions – all answers are provided. * Up and about activity. * Theory slides (carefully sculpted, interspaced with learning activities, * Video clip link (carefully selected – this alone can save you 20+ minutes of searching). * Play ball. * Paired work activities – answers are provided. * Scientific literacy activity. * Homework, you choose whether your learners need to do it (if a worksheet answers are provided). * Plenary formative/summative assessment quiz / activity. * Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt. Please purchase this lesson, and leave a positive review. This lesson is part of a series, whilst they all work very well as stand alone individual lessons you may wish to buy others from the series: 0. Bundle – contains all lessons (if available not all series are bundled) 1. Atoms, radiation and the discovery of the nucleus. 2. Isotopes and Mass number and Atomic number. 3. Alpha, Beta and Gamma – ionising radiation. 4. Changes in the nucleus – decay equations 5. Activity and half life 6. to 14 - see list in this powerpoint Thank you, and happy teaching! Yours, Barclayfox.

This is a revision lesson that makes use of many games, activities, work sheets and loop puzzles to revise the following:- Radioactivity, radiation, atoms, isotopes, activity, half life, alpha, beta, gamma, the discovery of the nucleus, changes in the nucleus, alpha scattering. Rutherford, how our model of the atom has changed over time, radiation uses and dangers, nuclear radiation in medicine, fission and fusion. Excellent tried and tested resources which are ready to be used, and some of which are differentiated. Answer sheets are also provided to allow student independence and peer or self assessment. As teachers we all work ridiculously long hours each week. Give yourself a break, spend some life with your wife / husband / children / friends / family by purchasing more lessons created by “Barclayfox” once they appear on TES. Please note: when searching for resources please type barclayfox into the search box/engine and it will show you all our resources. Please purchase this lesson, and leave a positive review. This lesson is part of a series, whilst they all work very well as standalone individual lessons you may wish to buy others from the series: 0. Bundle – contains all lessons (if available not all series are bundled) 1. Atoms, radiation and the discovery of the nucleus. 2. Isotopes and Mass number and Atomic number. 3. Alpha, Beta and Gamma – ionising radiation. 4. Changes in the nucleus – decay equations 5. Activity and half life 6. Activity and half life practicals 7. Dangers and precautions 8. Nuclear radiation in medicine (uses in medicine) 9. Nuclear fission and chain reactions (nuclear power). 10. Electricity from nuclear power. 11. Nuclear Fusion and our sun. 12. Nuclear issues including waste 13. Prediction, theory acceptance and peer review 14. Revision Lesson - THIS ONE Thank you, and happy teaching! Yours, Barclayfox.

A complete and ready to deliver high quality GCSE lesson from Barclayfox. This is a complete lesson from start to end, you do not need to spend many hours carefully planning, creating, resourcing and improving this lesson after each use. I have already spent those hours preparing this lesson for my students and improving it over many years. There is nothing to do but give it a quick look through and familiarise yourself with it. Lesson objectives: * Explain key words and phrases including “hypothesis”, “peer review”, “theory” and the “prediction”. * Explain the scientific method and how new hypotheses are validated by other scientists before they are accepted. * Understand trial by evidence. This carefully crafted lesson is over 40 slides long, and is full of learning activities as below: * Notes to help the teacher. * Starter 1 - unscramble the words. * Starter 2 - simple task where students self-assess themselves against the objectives. * Matching task - answers are provided. * Activity sheet - built into the powerpoint simply print this slide for each student. * Unscramble the words race. * Sequencing activity. * Gap fill activity - all answers are provided. * Quiz with answers. * Questions – all answers are provided. * Up and about activity * Theory slides (carefully sculpted, interspaced with learning activities, not ‘death by powerpoint’). * Differentiated questions with answers (ACTIVITY SHEETS built into powerpoint simply print them). * Play ball. * Paired work activities – answers are provided. * Scientific literacy activity. * Homework * Plenary is the activity sheets. * Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt. As teachers we all work ridiculously long hours each week. Give yourself a break, spend some life with your wife / husband / children / friends / family by purchasing more lessons created by “Barclayfox” once they appear on TES. Please note: when searching for resources please type barclayfox into the search box/engine and it will show you all our resources. Please purchase this lesson, and leave a positive review. This lesson is part of a series, whilst they all work very well as standalone individual lessons you may wish to buy others from the series: 0. Bundle – contains all lessons (if available not all series are bundled) 1. History of the atom, discovery of the nucleus, Thompson and Rutherford. 2. Isotopes and Mass number and Atomic number. 3. Alpha, Beta and Gamma – ionising radiation. 4. Changes in the nucleus – decay equations 5-14. See this powerpoint for the list. Thank you, and happy teaching, Barclayfox.

KS4 F=Ma, Newton’s 2nd Law. There is nothing for you to do but give it a quick look through and familiarise yourself with it. Lesson objectives: * I can draw “free body diagrams” * I can calculate the resultant force on an object. * I can rearrange and use F = M a * I can explain why an object travelling around a corner at constant speed is accelerating. * Understand what inertia is This carefully crafted lesson is over 40 slides long, and is full of learning activities as below: * Notes to help the teacher. * Starter - unscramble the words. * Starter - simple task where students self-assess against the objectives. * Activity sheet - differentiated and unique, all answers are provided. * Gap fill activity - all answers are provided. * Questions – all answers are provided. * Differentiated questions – all answers are provided. * Peer marking * Theory slides (carefully sculpted, interspaced with learning activities, not ‘death by powerpoint’). * Play ball. * Video clip link (carefully selected – this alone can save you 20+ minutes of searching). * Paired work activities – all answers are provided. * Scientific Literacy activity. * Scientific Numeracy via the many questions. * Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt. As teachers we all work ridiculously long hours each week. Give yourself a break, spend some life with your wife / husband / children / friends / family by purchasing more lessons created by “Barclayfox” once they appear on TES. Please note: when searching for resources please type barclayfox into the search box/engine and it will show you all our resources. Please purchase this lesson, and leave a positive review. This lesson is part of a series, whilst they all work very well as standalone individual lessons you may wish to buy others from the series: 0. Bundles – contain some or even all lessons (if available, not all my series are bundled) 1. Vectors and scalars. 2. Forces between objects (contact / non-contact and Newton’s 3rd law). 3. Resultant forces – part 1 4. Resultant forces – part 2 5 to 12 - please see list in this powerpoint Thank you, and happy teaching! Yours, Barclayfox.

A complete, 3 tier differentiated KS4 lesson This is a complete lesson from start to end, with Differentiated resources and a Practical, There is nothing for you to do but give it a quick look through and familiarise yourself with it. Lesson objectives: * I understand what momentum is a measure of. * I can explain that momentum is a vector. * I am able to calculate momentum in lots of scenarios. * I can rearrange and use the momentum equation. In short this lesson contains: theory, differentiated worksheet with all answers, and a practical activity - for full details please see below. * Notes to help the teacher. * Starter - choice of two. * Short Starter - simple task where students self-assess against the objectives. * Activity sheet - Differentiated with ANSWERS. * Quiz with answers. * Questions – all answers are provided, students get lots of practice. * Up and about activity * Theory slides (carefully sculpted, interspaced with learning activities, not ‘death by powerpoint’). * Differentiated questions with answers. * Paired work activities T/P/S – answers are provided. * Homework * Scientific literacy activity. * Optional Practical Activity. * Plenary formative/summative assessment quiz / activity. * Student self-assessment versus objectives activity – so learners can judge for themselves how much they have learnt. Please note: when searching for resources please type barclayfox into the search box/engine and it will show you all our resources. This lesson is part of a series, whilst they all work very well as standalone individual lessons you may wish to buy others from the series: 0. Bundle – contains all lessons (if available not all my series are bundled) 1. Momentum. 2. Conservation of momentum, collisions, elastic and inelastic events. 3. Momentum, impulse, crumple zones and safety. Thank you, and happy teaching! Yours, Barclayfox. Search words: Momentum, momentum, momentum, miss spellings: mementum, momenyum, monentum, mimentum, mmomentum, momentum, what is momentum, mass, velocity, inertia, physics, p = m x v, p=mv, p=mxv, kgm/s, kg m/s, momentum, momentum, vector quantity, vector, mom, p=, units, AQA, edexcel, WJEC, OCR, Momentum, GCSE, N5, 10th grade 10 grade, grade 10, grade 9, 9th grade, 9 grade, 8th grade, 8 grade, grade 8.