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Maths / Physics A Level (Edexcel AQA OCR) Posters

Maths / Physics A Level (Edexcel AQA OCR) Posters

A large proportion of students are visual learners, this means bright colours, bold diagrams, and image repetition will help when studying. Enclosed are a range of posters for A Level Maths and Physics on any exam board. The posters are A4 documents, split into 4 boxes with bold colourful information in each. They are well used scattered around a room or the house, so constant viewing of the posters will help you remember the information that in on them. This is a technique that I have passed on to help many students through GCSE and A level. The topics included are: Circular Motion/Further Mechanics
brent_wheeldon123
Circuit Arcade

Circuit Arcade

In this project students gain an understanding of the engineering design process by building a cardboard arcade game where winning or losing completes an electrical circuit. Students will present their arcade game to an audience of middle school or elementary school students. This project was developed by Allen Distinguished Educators Rob Rambach and Patrick Dempsey. SUBJECTS: • Science — electrical circuits, Newton’s Laws • Engineering Design— diagrams, prototyping, user feedback • Social Studies—marketing OUTCOMES: Students will be able to: • Construct a working electrical circuit. • Explain how electrons move through their circuit. • Learn from failure. • Design and build an arcade game incorporating the circuit for a specific audience. • Explain force and motion concepts that relate to their game. • Effectively use the engineering design process. ACADEMIC STANDARDS: • CCSS.ELA-LITERACY.SL.8.1 • CCSS.ELA-LITERCY.SL.8.1.A • CCSS.ELA-LITERACY.SL.8.1.B • CCSS.ELA-LITERACY.SL.8.5 • CCSS.ELA-LITERACY.SL.8.6 • MS-PS2-3 • MS-PS3-1 • MS-PS3-2 • MS-PS3-5 • MS-ETS1-1 • MS-ETS1-2 • MS-ETS1-3 • MS-ETS1-4
AllenEducators
OCR Mechanics 2 (M2) Revision (Big Exam Style Questions PowerPoint)

OCR Mechanics 2 (M2) Revision (Big Exam Style Questions PowerPoint)

All the past paper questions from the Delphis practice papers. There are 10 papers, each having 7 questions. Questions are sorted by both paper and topic. Topics covered include: Projectiles Circular Motion Work, Energy and Power Moments Centre of Mass Impulse and Restitution For more revision resources, visit www.ParkerMaths,com Please note: This PowerPoint contains too many links for me to check them all individually. If you find any mistakes, please email admin@parkermaths.com and I'll try to correct them.
ParkerMaths
Deriving real life circular motion examples. Structured, independent worksheet.

Deriving real life circular motion examples. Structured, independent worksheet.

A structured resource that guides students through deriving the equations for circular motion in a range of examples as required in the 2450 AQA A2 Physics syllabus. E.g. a car on a banked track, a long swing, the big dipper, a car on a hill. I split the class into groups of 3/4 and students worked through independently, occasionally requiring some teacher direction.
PhysicsPGCE
Slope

Slope

Each slope means different ways. And so, slope of the sunshine is effective for People's traditional cloth, house, food and so on.
cnagayama
M2 Not-Formula Book and Essentials revision card

M2 Not-Formula Book and Essentials revision card

M2 Not-Formula Book: A helpful booklet detailing all the main facts, techniques and formulae that are required for the Mechanics 2 exam, but not provided in the formula book. Valuable for revision or as an additional resource during teaching of the module. M2 Essentials: Designed to fit on a single side of A4 (still readable when shrunk to A6 size as a pocket-sized revision card), this summarises all the key results, facts and formulae from the AQA Mechanics 2 Mathematics module.
thechalkface
Conservation of momentum spring pressing mass

Conservation of momentum spring pressing mass

JJtheTutor Video Tutorial: Conservation of momentum, two masses pressed against a spring, detailed worked example. Two identical 1.50-kg masses are pressed against opposite ends of a light spring of force constant 1.75 N/cm, compressing the spring by 20.0 cm from its normal length. Find the speed of each mass when it has moved free of the spring on a frictionless horizontal table.
JJTheTutor