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Stu Billington

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High quality classroom-ready Physics resources for GCSE and A-level

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High quality classroom-ready Physics resources for GCSE and A-level
GCSE Physics Equations Posters (low-res version for students' phones)
Stu BillingtonStu Billington

GCSE Physics Equations Posters (low-res version for students' phones)

(5)
A set of four posters showing the Physics equations that students need to memorise for the GCSE Physics / GCSE Combined Science exams. These are presented as four small .jpg images suitable for students to put on their phones. Convince them to change their wallpaper?! A1 resolution print versions suitable for your classroom/corridor displays are also available here: https://www.tes.com/teaching-resource/gcse-physics-equations-posters-11832243
Getting Started with Google Classroom
Stu BillingtonStu Billington

Getting Started with Google Classroom

(7)
A short training presentation for teachers. It introduces Classroom to those unfamiliar to it, and also, when used with a school’s whole staff (experienced with Classroom or not), it can help to bring consistency to implementation and thereby make the students’ experience of using Classroom a little smoother. This updated version reflects the changes made to Classroom in August 2018.
Beta decay for A-level Physics
Stu BillingtonStu Billington

Beta decay for A-level Physics

(0)
A PowerPoint presentation introducing A-level students to the concept of beta minus decay, beta plus decay, electron capture, neutrinos and the weak interaction. Following the OCR Physics A specification, but physics is physics, so suitable for all courses! One of a bundle of presentations on different aspects of nuclear physics. Please note that TES’s software doesn’t always seem to generate accurate thumbnail images of PPTs with background images, so if the preview images look odd on your display they aren’t indicative of what the slides actually look like.
Ultrasound (A-level Medical Physics)
Stu BillingtonStu Billington

Ultrasound (A-level Medical Physics)

(1)
One of six PowerPoint presentations for the Medical Physics unit of A-level OCR Physics A, matched to the Oxford OCR A-Level Physics A textbook. This PPT covers the production and use of ultrasound. Please note that the TES software that produces thumbnail images doesn’t always seem to handle background images in PPT slides very well. If the thumbnails look odd on your display, that is not how they really look! See it in use: https://youtu.be/Dvqbopuajb0
Centripetal acceleration formula
Stu BillingtonStu Billington

Centripetal acceleration formula

(0)
A simple yet rigorous mathematical derivation of the centripetal acceleration formula, a=(v^2)/r, including that the direction is towards the centre of the circle. Use as a handout for A-level students who want to push themselves a little beyond the specification without getting out of their depth.
Derivation of the Equations of Motion (SUVAT)
Stu BillingtonStu Billington

Derivation of the Equations of Motion (SUVAT)

(0)
6-minute video leading students through the derivation of the four Equations of Motion for objects moving with constant acceleration (SUVAT), starting from a velocity-time graph and then using the gradient and the area under the graph (and a little algebraic manipulation) to arrive at the set of four. Great for some flipped learning, a little revision or some consolidation.
CAT scans (A-level Medical Physics)
Stu BillingtonStu Billington

CAT scans (A-level Medical Physics)

(0)
One of six PowerPoint presentations for the Medical Physics unit of A-level OCR Physics A, matched to the Oxford OCR A-Level Physics A textbook. This PPT covers what a CAT scanner is and how it works. Please note that the TES software that produces thumbnail images doesn’t always seem to handle background images in PPT slides very well. If the thumbnails look odd on your display, that is not how they really look! Please take a look at the Ultrasound presentation instead. See it in action: https://youtu.be/n16_S6cr4do
MAGNETISM & ELECTROMAGNETISM unit summary/checklist for AQA GCSE Physics
Stu BillingtonStu Billington

MAGNETISM & ELECTROMAGNETISM unit summary/checklist for AQA GCSE Physics

(0)
A summary of the AQA GCSE Physics "Magnetism and Electromagnetism" topic, presented in a student-friendly and attractive form. Students can use it as a concise revision checklist or as a "what to expect" introduction. Teachers can use it as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for this topic. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt. Required practicals and equations are emphasised and Higher Tier and Physics-only concepts are clearly highlighted.
SPACE PHYSICS unit summary/checklist for AQA GCSE Physics
Stu BillingtonStu Billington

SPACE PHYSICS unit summary/checklist for AQA GCSE Physics

(0)
A summary of the AQA GCSE Physics "Space Physics" topic, presented in a student-friendly and attractive form. Students can use it as a concise revision checklist or as a "what to expect" introduction. Teachers can use it as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for this topic. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt.
ENERGY/PARTICLES/FORCES unit summaries/checklists for AQA GCSE Combined Science: Trilogy (Physics)
Stu BillingtonStu Billington

ENERGY/PARTICLES/FORCES unit summaries/checklists for AQA GCSE Combined Science: Trilogy (Physics)

(0)
Summaries of the AQA GCSE Combined Science: Trilogy (Physics) "Energy", "Particle model of matter" and "Forces" topics, presented in a student-friendly and attractive form. Students can use them as concise revision checklists or as "what to expect" introductions. Teachers can use them as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for these topics. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt. In particular, some of the "Energy" and "Particles" topics have been relocated to the "Forces" topic, where they make more sense alongside related concepts. Required practicals and equations are emphasised and Higher Tier concepts are clearly highlighted.
ATOMIC STRUCTURE unit summary/checklist for AQA GCSE Physics
Stu BillingtonStu Billington

ATOMIC STRUCTURE unit summary/checklist for AQA GCSE Physics

(0)
A summary of the AQA GCSE Physics "Atomic Structure" topic, presented in a student-friendly and attractive form. Students can use it as a concise revision checklist or as a "what to expect" introduction. Teachers can use it as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for this topic. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt. Higher Tier and Physics-only concepts are clearly highlighted.
ELECTRICITY unit summary/checklist for AQA GCSE Combined Science: Trilogy (Physics)
Stu BillingtonStu Billington

ELECTRICITY unit summary/checklist for AQA GCSE Combined Science: Trilogy (Physics)

(0)
A summary of the AQA GCSE Combined Science: Trilogy (Physics) "Electricity" topic, presented in a student-friendly and attractive form. Students can use it as a concise revision checklist or as a "what to expect" introduction. Teachers can use it as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for this topic. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt. Required practicals and equations are emphasised and Higher Tier concepts are clearly highlighted.
ATOMIC STRUCTURE unit summary/checklist for AQA GCSE Combined Science: Trilogy (Physics)
Stu BillingtonStu Billington

ATOMIC STRUCTURE unit summary/checklist for AQA GCSE Combined Science: Trilogy (Physics)

(0)
A summary of the AQA GCSE Combined Science: Trilogy (Physics) "Atomic Structure" topic, presented in a student-friendly and attractive form. Students can use it as a concise revision checklist or as a "what to expect" introduction. Teachers can use it as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for this topic. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt. Higher Tier concepts are clearly highlighted.
MAGNETISM & ELECTROMAGNETISM unit summary/checklist for AQA GCSE Combined Science: Trilogy (Physics)
Stu BillingtonStu Billington

MAGNETISM & ELECTROMAGNETISM unit summary/checklist for AQA GCSE Combined Science: Trilogy (Physics)

(0)
A summary of the AQA GCSE Combined Science: Trilogy (Physics) "Magnetism and Electromagnetism" topic, presented in a student-friendly and attractive form. Students can use it as a concise revision checklist or as a "what to expect" introduction. Teachers can use it as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for this topic. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt. Required practicals and equations are emphasised and Higher Tier concepts are clearly highlighted.
WAVES unit summary/checklist for AQA GCSE Combined Science: Trilogy (Physics)
Stu BillingtonStu Billington

WAVES unit summary/checklist for AQA GCSE Combined Science: Trilogy (Physics)

(0)
A summary of the AQA GCSE Combined Science: Trilogy (Physics) "Waves" topic, presented in a student-friendly and attractive form. Students can use it as a concise revision checklist or as a "what to expect" introduction. Teachers can use it as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for this topic. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt. Required practicals and equations are emphasised and Higher Tier concepts are clearly highlighted.
ENERGY/PARTICLES/FORCES unit summaries/checklists for AQA GCSE Physics
Stu BillingtonStu Billington

ENERGY/PARTICLES/FORCES unit summaries/checklists for AQA GCSE Physics

(0)
Summaries of the AQA GCSE Physics "Energy", "Particle model of matter" and "Forces" topics, presented in a student-friendly and attractive form. Students can use them as concise revision checklists or as "what to expect" introductions. Teachers can use them as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for these topics. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt. In particular, some of the "Energy" and "Particles" topics have been relocated to the "Forces" topic, where they make more sense alongside related concepts. Required practicals and equations are emphasised and Higher Tier and Physics-only concepts are clearly highlighted.
ELECTRICITY unit summary/checklist for AQA GCSE Physics
Stu BillingtonStu Billington

ELECTRICITY unit summary/checklist for AQA GCSE Physics

(0)
A summary of the AQA GCSE Physics "Electricity" topic, presented in a student-friendly and attractive form. Students can use it as a concise revision checklist or as a "what to expect" introduction. Teachers can use it as a more useful starting point than the original specification for writing a medium-term plan of the scheme of work for this topic. The order of the statements has been altered and the wording changed in places compared to the specification, to reflect how the concepts might be better taught and learnt. Required practicals and equations are emphasised and Higher Tier and Physics-only concepts are clearly highlighted.