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Physics made simpler. An outstanding physics teacher who loves using data with a purpose. My resources allow for easy marking and tracking of information to further inform student progress. Fully explained answers also help with learning, whether you are a student or a teacher!

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Physics made simpler. An outstanding physics teacher who loves using data with a purpose. My resources allow for easy marking and tracking of information to further inform student progress. Fully explained answers also help with learning, whether you are a student or a teacher!
Momentum Calculations and Fully Worked Answers for GCSE Combined Science and Physics Higher tier
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Momentum Calculations and Fully Worked Answers for GCSE Combined Science and Physics Higher tier

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Just under a page of key revision notes with worked example followed by 10 stepped questions which increase in difficulty. Last few questions are based around the idea of the conservation of momentum. All questions have fully worked solutions with drawn diagrams (where necessary) showing what I believe to be the best method to follow when dealing with these tricky questions. Activity likely to take about 15-20 minutes to complete followed by marking time. Given in word document so that it is easily editable. You will therefore be able to change the questions quickly, following my method if you need to make any more for your students.
Electrical Power (Current) - GCSE Physics and/or Combined Science Differentiated Equation Worksheet
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Electrical Power (Current) - GCSE Physics and/or Combined Science Differentiated Equation Worksheet

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There are 14 differentiated questions around using a mixture of electrical power questions. The three equations required are P=IV, P=I2R and V=IR. Full answers (with method) are given for teacher/student use. Students feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method). It has been designed to build confidence as well as low-stakes competition into lessons. Like students do in maths, students will be able to apply equations and use the triangle method for rearranging. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions (some worksheets have around 14 questions) where Q1 is simplest and Q14 is hardest. Example: Q1 to 5 - 1 Chilli (Low demand). Focussed around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)
Speed Distance - Time Graphs - Multiple Choice Quiz Questions and answers -GCSE Physics/ IGCSE #SLOP
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Speed Distance - Time Graphs - Multiple Choice Quiz Questions and answers -GCSE Physics/ IGCSE #SLOP

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This resource is based on the topic of speed and distance-time graphs There are 20 questions, each multiple choice and answers provided at the end. The topics of the questions are as follows (on the front page of the exam style paper): • Graph describing motion • Average speed calculation • Equation recall • Units • Conversion • Speed calculation d-t graph • Speed calculation d-t graph • Average speed calculation • Distance calculation • Distance calculation • Time calculation • Distance calculation • Acceleration from d-t graph • Constant speed from graph • Speed from graph • Speed from graph • Speed from graph • Gradient understanding • Average speed • Stationary WARNING! Due to the nature of using graphs to make calculations, many questions take up one side of A4 and therefore will make it a large document when printed. I have used this for homework, but there is no reason that it couldn’t be used in lessons. I have included the word document so that you can edit the resource as you wish. The pdf is also there for quick printing. Students can write their answers on the front page. Easy marking for teachers, but lots of exam question exposure for students. This resource will give you more time to spend on the feedback and where students have made mistakes. I have used this to build confidence with my students, but also as part of continually revisiting earlier parts of the course that I have taught. Repetition, repetition, repetition! #SLOP - shed loads of practice
BUG Metacognition Strategy - Box, Underline, Go (and re check)
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BUG Metacognition Strategy - Box, Underline, Go (and re check)

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A picture that you can display outlining the BUG technique for answering questions. Box the command word Underline the key information / numbers (or highlight) Go (start the question but remember to check the answer at the end) I have been using this with my students and they are starting to plan their answers before they start.
Energy (work done), Charge, Potential Difference - E=QV - GCSE Physics / Combined Science Worksheet
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Energy (work done), Charge, Potential Difference - E=QV - GCSE Physics / Combined Science Worksheet

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There are 14 differentiated questions on the topic of Energy Transferred = Charge x Potential Difference (E=VQ). Student feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method). It has been designed to build confidence as well as low-stakes competition into lessons. Like students do in maths, students will be able to apply equations and use the triangle method for rearranging. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions where Q1 is simplest and the last is hardest (towards AS Level Physics). Example: Q1 to 5 - 1 Chilli (Low demand). Focused around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)
Momentum, Mass, Velocity - p=mv - GCSE Combined Science (physics) Differentiated Equation Worksheet
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Momentum, Mass, Velocity - p=mv - GCSE Combined Science (physics) Differentiated Equation Worksheet

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There are 14 differentiated questions on the topic of Momentum = mass x velocity (p=mv). This resources been written especially for combined science and does not go into the depth required for the separate physics gcse. Student feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method). It has been designed to build confidence as well as low-stakes competition into lessons. Like students do in maths, students will be able to apply equations and use the triangle method for rearranging. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions where Q1 is simplest and the last is hardest (towards AS Level Physics). Example: Q1 to 5 - 1 Chilli (Low demand). Focused around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)
National Grid & Transformers GCSE Physics and/or Combined Science Differentiated Equation Worksheet
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National Grid & Transformers GCSE Physics and/or Combined Science Differentiated Equation Worksheet

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There are 14 differentiated questions around using the topics linked to the National Grid. The harder questions allow students to demonstrate their knowledge of rearranging the power equation for the primary and secondary coils of a transformer. Student feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method - this worksheet has 9 additional pages of notes). It has been designed to build confidence as well as low-stakes competition into lessons. Like students do in maths, students will be able to apply equations and use the triangle method for rearranging. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions where Q1 is simplest and the last is hardest (towards AS Level Physics). Typical example: Q1 to 5 - 1 Chilli (Low demand). Focussed around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)
Wave speed, frequency, wavelength, period (v=fw)- GCSE Physics / Combined Science Equation Worksheet
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Wave speed, frequency, wavelength, period (v=fw)- GCSE Physics / Combined Science Equation Worksheet

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There are 14 differentiated questions on the topic of Wave speed = frequency x wavelength (v=fλ). The final question requires students to use the frequency = 1/period equation. Student feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method). It has been designed to build confidence as well as low-stakes competition into lessons. Like students do in maths, students will be able to apply equations and use the triangle method for rearranging. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions where Q1 is simplest and the last is hardest (towards AS Level Physics). Example: Q1 to 5 - 1 Chilli (Low demand). Focused around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)
Moments, Force, Perpendicular Distance - GCSE Physics or Combined Science Differentiated Equation
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Moments, Force, Perpendicular Distance - GCSE Physics or Combined Science Differentiated Equation

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There are 14 differentiated questions on the topic of Moment = Force x Distance Student feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method). It has been designed to build confidence as well as low-stakes competition into lessons. Like students do in maths, students will be able to apply equations and use the triangle method for rearranging. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions where Q1 is simplest and the last is hardest (towards AS Level Physics). Example: Q1 to 5 - 1 Chilli (Low demand). Focused around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)
Pressure, Force, Area, Height, Density Equation - GCSE Physics Combined Science Differentiated
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Pressure, Force, Area, Height, Density Equation - GCSE Physics Combined Science Differentiated

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There are 14 differentiated questions on the topic of Pressure = Force ÷ Area and Pressure = height x density x gravitational field strength. Student feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method). It has been designed to build confidence as well as low-stakes competition into lessons. Like students do in maths, students will be able to apply equations and use the triangle method for rearranging. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions where Q1 is simplest and the last is hardest (towards AS Level Physics). Example: Q1 to 5 - 1 Chilli (Low demand). Focused around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)
Density, Mass, Volume, Particle Model Theory -GCSE Physics, Combined Science Differentiated Equation
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Density, Mass, Volume, Particle Model Theory -GCSE Physics, Combined Science Differentiated Equation

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There are 14 differentiated questions on the topic of Density = Mass ÷ Volume, ρ = m / V, and particle theory/model. Student feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method). It has been designed to build confidence as well as low-stakes competition into lessons. Like students do in maths, students will be able to apply equations and use the triangle method for rearranging. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions where Q1 is simplest and the last is hardest (towards AS Level Physics). Example: Q1 to 5 - 1 Chilli (Low demand). Focused around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)
Nuclear Decay Equations, Half-life & Radiation - GCSE Physics / Combined Science Worksheet
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Nuclear Decay Equations, Half-life & Radiation - GCSE Physics / Combined Science Worksheet

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There are 16 differentiated questions on the topic of Nuclear Equations, including half-life and radiation . Student feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method). It has been designed to build confidence as well as low-stakes competition into lessons. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions where Q1 is simplest and the last is hardest (towards AS Level Physics). Example: Q1 to 5 - 1 Chilli (Low demand). Focused around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)
Charge, Current, Time Q=It - GCSE Physics and/or Combined Science Differentiated Equation Worksheet
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Charge, Current, Time Q=It - GCSE Physics and/or Combined Science Differentiated Equation Worksheet

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There are 14 differentiated questions on the topic of Charge = Current x Time (Q=It). Student feedback says that they love the layout. They can measure their own progress and it is easy and quick to mark and leave specific feedback (the answers include a full method). It has been designed to build confidence as well as low-stakes competition into lessons. Like students do in maths, students will be able to apply equations and use the triangle method for rearranging. The font used is “OpenDyslexic” - this helps students with dyslexic tendencies to access the work easier. More information can be found on their open dyslexic website. This is saved as a pdf to keep the font working (if you have not got it installed). The word version is also included so that you can choose your own font and edit the document. Typical layout of questions where Q1 is simplest and the last is hardest (towards AS Level Physics). Example: Q1 to 5 - 1 Chilli (Low demand). Focused around remembering equations (students should use mini whiteboards or scrap paper for repetition) Q6 to 8 - 2 Chilli’s (Low/Middle Demand). Focused around using the equation - e.g. simple conversion or having to rearrange the equation. Q9 to 11 - 3 Chilli’s (Middle/High Demand). Rearranging the equation and using conversions. Q12 to 14 - 4 Chilli’s (High Demand). Stretch questions, e.g. towards Year 12 or short written answers. Designed so that students can choose where to start, although the highest ability will want to complete all of the questions. Questions answered from the 1st column give you 1 chilli each. Column 2, each question is worth 2 chillis etc. At the end, count the chilli’s that the student has and this suggests a current working at grade. Perfect for: • Assessing prior knowledge • Homework (easy to mark and suggest how to move forward as focused around skills of using equations). • Starters / plenaries - part of “low stake” tests - build up a series of “mini-marks” on a tracker sheet before larger tests so students can identify their strengths and weaknesses. • Recall and Retrieval • Metacognition • Self-monitoring • Revision • Cover lessons (fully explained mark scheme that can support students and non-specialist teachers)