Year 12 A Level Powerpoints (Edexcel)

Year 12 A Level Powerpoints (Edexcel)

Two Powerpoints: Pure Maths (560 slides) and Statistics/Mechanics (270 slides). Each presentation contains explanations, worked examples and questions for students to complete.
alutwyche
Year 12 A Level Statistics and Mechanics Powerpoint

Year 12 A Level Statistics and Mechanics Powerpoint

This 270 slide Powerpoint covers all of the first year of the single A Level Applied course (based upon the Edexcel course). It includes explanations, worked examples and questions for students to do. I have included everything, possibly more than you may need but I’d rather give people the option to skip a slide than have to make something up on the spot. Colleagues of mine used this during the first year of the new course.
alutwyche
Neat parallelograms for vectors, moments

Neat parallelograms for vectors, moments

Easy parallelogram drawing for Newtonian mechanics. This page here: http://www.ballooncalculus.org/mechanics For encouraging similar diagrams freehand or with a set-square. For helping get beyond vertical and horizontal decomposition… e.g. for parallel or perpendicular to an inclined plane. Interactive but all in the browser - no uploading or downloading but you can load and save work. Thanks for looking. Feedback welcome.
tomatballooncalculus
Maths A Level Year 2 Mechanics Applications of Forces

Maths A Level Year 2 Mechanics Applications of Forces

This is a free sample of the notes and examples I have produced for the new linear maths A Level. It covers the applications of forces topic in the second year mechanics specification. You will receive a student booklet with spaces for them to fill in the solutions to the examples along with a teacher booklet containing detailed worked solutions. You can purchase all of the second year mechanics topics by clicking here: https://www.tes.com/teaching-resource/maths-a-level-new-spec-year-2-mechanics-notes-and-examples-11924790 You can purchase all of the second year content (pure, mechanics and statistics) by clicking here: https://www.tes.com/teaching-resource/maths-a-level-complete-year-2-notes-and-examples-pure-statistics-and-mechanics-11924833 All of the first year content is available here: https://www.tes.com/teaching-resource/maths-a-level-new-spec-complete-year-1-notes-and-examples-11904465
Omega
Maths A Level Complete Year 2 Notes and Examples (Pure, Statistics and Mechanics)

Maths A Level Complete Year 2 Notes and Examples (Pure, Statistics and Mechanics)

This great value bundle contains complete notes and examples for all of the year 2 topics of the new linear maths A Level. You will receive 20 booklets in total: 12 for pure, 3 for statistics and 5 for mechanics. They are structured in the order of the Edexcel textbooks but would be suitable for any exam board. Separate teacher booklets are included for each topic with detailed worked solutions to the examples. Try before you buy! Get a free sample chapter here: https://www.tes.com/teaching-resource/maths-a-level-year-2-mechanics-applications-of-forces-11925137
Omega
Maths A Level New Spec Year 2 Mechanics Notes and Examples

Maths A Level New Spec Year 2 Mechanics Notes and Examples

These notes and examples cover all of the mechanics topics in the second year of the new linear mathematics A Level. There are five student booklets with gaps for them to fill in the solutions to the examples and separate teacher booklets with detailed worked solutions. The booklets are: Moments Forces and friction Projectiles Applications of forces Further kinematics Notes for all pure maths topics in year 2 are also available as a great value bundle: https://www.tes.com/teaching-resource/edexcel-a-level-maths-year-2-pure-notes-and-examples-11919023 and here are the statistics topics: https://www.tes.com/teaching-resource/maths-a-level-new-spec-year-2-statistics-notes-and-examples-11920603
Omega
Maths A Level New Spec Complete Year 1 Notes and Examples

Maths A Level New Spec Complete Year 1 Notes and Examples

This bundle of booklet covers all first year (AS) topics in the new linear maths A Level (Pure, Statistics and Mechanics). Each topic has a student booklet with gaps with them to fill in the solutions to the examples and a teacher’s booklet with detailed worked solutions.
Omega
Maths A Level New Spec Forces and Newton's Laws Notes and Examples (Year 1)

Maths A Level New Spec Forces and Newton's Laws Notes and Examples (Year 1)

These notes and examples are designed for the delivery of the new A Level Maths specification. You will receive an editable Word document that can be issued to students with gaps for them to fill in the solutions to the examples and make further notes. Full solutions to the examples are provided for the teacher in the form of a PDF document. This could be made available to students if they miss a lesson, reducing teacher workload. Each topic is available as a separate purchase, or you can download the entire set covering all the the Year 1 content. To purchase the complete set of Year 1 notes (for pure, mechanics and statistics) at a discounted price, click here: https://www.tes.com/teaching-resource/maths-a-level-new-spec-complete-year-1-notes-and-examples-11904465
Omega
Maths A Level New Spec Mechanics Year 1 Notes and Examples

Maths A Level New Spec Mechanics Year 1 Notes and Examples

These notes and examples (with with full worked solutions) cover the entire mechanics content for the first year of the new linear maths A Level. There are 4 booklets, split by topic. To purchase the complete set of Year 1 notes (for pure, mechanics and statistics) at a discounted price, click here: https://www.tes.com/teaching-resource/maths-a-level-new-spec-complete-year-1-notes-and-examples-11904465
Omega
KS3 Science: Bloodhound SSC Supersonic Car: Speed of Sound Investigation 11-14/KS3

KS3 Science: Bloodhound SSC Supersonic Car: Speed of Sound Investigation 11-14/KS3

Using the ‘real-life’ science of BLOODHOUND SSC a rocket and jet car capable of travelling 1,000mph, we describe what the sound barrier is, show a video of our current land speed record car, Thrust SSC, breaking the sound barrier. we show how sound waves travel, how we measure speed, and plan an investigation using balloons, tape measure/ trundle wheel and stopwatches to investigate and calculate the speed of sound. **KS3: Curriculum links: ** Ask questions and develop a line of enquiry based on observations of the real world, alongside prior knowledge and experience. Make and record observations and measurements using a range of methods for different investigations; and evaluate the reliability of methods and suggest possible improvements. Apply mathematical concepts and calculate results. Use and derive simple equations and carry out appropriate. Speed and the quantitative relationship between average speed, distance and time (speed = distance ÷ time) The BLOODHOUND Project is a global Engineering Adventure, using a 1,000mph World Land Speed Record attempt to inspire the next generation to enjoy, explore and get involved in science, technology, engineering and mathematics. Objectives Inspire the next generation about science, technology, engineering and mathematics. Share an iconic research and development programme with a global audience. Set a new World Land Speed Record of 1,000mph. Mission statement Create a unique, high-technology project, focused around a 1,000mph World Land Speed Record attempt. Share this Engineering Adventure with a global audience and inspire the next generation by bringing science, technology, engineering and mathematics to life in the most exciting way possible. Please promote our aspirations by sharing our resources, give us feedback, and make suggestions about other resources we could create. Please see our website, www.BLOODHOUNDSSC.com, to see more resources, bespoke videos, and news about the progress of our Engineering Adventure.
Bloodhound_EDU
Edexcel New Maths A Level year 1 complete notes

Edexcel New Maths A Level year 1 complete notes

Try before you buy! A chapter is available as a free sample so that you can view the quality of my work: https://www.tes.com/teaching-resource/notes-and-examples-for-edexcel-a-level-maths-year-1-mechanics-topic-4-variable-acceleration-11900265 These notes and examples cover all of the content for the new linear Edexcel maths A Level: pure maths, statistics and mechanics. Answers are included to all worked examples. There are 12 pure maths booklets, 4 mechanics booklets and 7 statistics booklets, provided everything you need to teach the new specification.
Omega
Notes and Examples for Edexcel A Level Maths Year 1 (Mechanics) Topic 3: Forces and Newton's Laws

Notes and Examples for Edexcel A Level Maths Year 1 (Mechanics) Topic 3: Forces and Newton's Laws

These notes and examples are designed for the delivery of the new Edexcel A Level Maths Linear Specification. You will receive an editable Word document that can be issued to students with gaps for them to fill in the solutions to the examples and make further notes. Full solutions to the examples are provided for the teacher in the form of a PDF document. This could be made available to students if they miss a lesson, reducing teacher workload. Each topic is available as a separate purchase, or you can download the entire set covering all the the Year 1 mechanics content. To purchase all year 1 mechanics topics, click here: https://www.tes.com/teaching-resource/mechanics-notes-for-year-1-edexcel-new-spec-11847017 To purchase all year 1 applied topics (statistics and mechanics), including large data set resources, click here: https://www.tes.com/teaching-resource/edexcel-new-a-level-maths-year-1-applied-maths-11872409 To purchase the complete notes for the entire year 1 syllabus (pure, statistics, mechanics), including large data set activities, click here: https://www.tes.com/teaching-resource/edexcel-new-maths-a-level-year-1-complete-notes-11872425
Omega
M1 A Level Summary

M1 A Level Summary

“cheat sheet” covering all M1 topics for CCEA A Level. Use for revision classes/exercises as a guide or as a comfort blanket for a class test.
woodsam
Mechanics Notes for Year 1 Edexcel New Spec

Mechanics Notes for Year 1 Edexcel New Spec

These notes and examples are designed for the delivery of the new Edexcel A Level Maths Linear Specification. You will receive editable Word documents that can be issued to students with gaps for them to fill in the solutions to the examples and make further notes. Full solutions to the examples are provided for the teacher in the form of PDF documents. This could be made available to students if they miss a lesson, reducing teacher workload. The booklets cover the Mechanics content for year 1 of the new Edexcel A Level Maths. There are four separate booklets: Quantities and Units; Constant Acceleration; Forces and Newton’s Laws and Variable Acceleration.
Omega
Centripetal acceleration formula

Centripetal acceleration formula

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.
Stu Billington
Key revision points for M1 Mechanics A-Level Maths

Key revision points for M1 Mechanics A-Level Maths

A collection of key points to remember for M1 Mechanics AS Maths/Further Maths. Prevents against silly mistakes and allows students to reach top marks! Possible mistakes collected from the questions and mark schemes from 20+ past papers. Relevant to M1 content: > Motion graphs > Velocity and acceleration > Displacement / position / distance > Distance and speed and time > Differentiation/integration > Bearings and angles > Unit vectors > Normal reaction > Free motion > Cartesian equations > Terminology - smooth, light, inextensible etc > Projectiles > Particles colliding > Force diagrams > Triangles of forces > Resolving forces Information divided into clear headings. Recommended for A-Level Maths students taking M1, especially relevant for OCR MEI exam board. An invaluable collection of points to have before an exam.
Louisa_Snape
M1 Mechanics Extension worksheets

M1 Mechanics Extension worksheets

The product contains a set of Mechanics (M1) Extension Worksheets from Edexcel AL Specification for the gifted learners. The worksheets contain topic based questions from the following topics. + Kinematics (questions involving more than one object; SUVAT formulae) + Connected particles (problems in which the motion changes, problems involving double wedges, problems involving lifts, pulley attached at two ends of a table, problems involving a helicopter) + Momentum and Impulse (Gun firing a bullet, Impulsive tension) + Moment of a force (Equilibrium under parallel forces) Suitable for all Examination Boards, teachers can use these worksheets to discover the potential of talented and gifted learners and push them to reach for an A/A* grade in Mechanics (M1) paper and get further practice. Answer keys are included for each worksheet.
mohdamir69
A Level Mechanics- Connected Particles

A Level Mechanics- Connected Particles

A presentation I use to help students come to terms with connected particles problems. The presentation starts with basic principles and builds to more complex problems. Several examples are included. Please add a review if you find this useful.
tonyg111160
SUVAT Equation practise tasks

SUVAT Equation practise tasks

This resource is in the form of a powerpoint which works through various problems involving applying the SUVAT equations. Designed with AS physics in mind the tasks are designed for the class to work through each problem.
doctorharves
M1 Revision (GCE and IAL)

M1 Revision (GCE and IAL)

M1 assignments consisting of recent past-paper questions. Given as revision after each topic. Answers are given at the top of each question for students reference.
abee1286
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
M1 Revision Clock

M1 Revision Clock

This is a revision activity for Edexcel M1 based on the ideas shared on Jo Morgan's brilliant website http://www.resourceaholic.com/. This was originally shared here http://justmaths.co.uk/2015/10/18/keeping-time/. This activity could be used to help improve students' timing by giving them 5 minutes for each of the 12 questions, to improve memory, or simply to produce a visual revision resource. Each student should be given an A3 copy of the clock with a set of questions. Answers are provided.
amwgauss
OCR M1 on a page

OCR M1 on a page

One page summary of OCR M1. Could be printed back to back as an aide-memoire, or on an A3 sheet for display.
ic_wilson
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
Gravity Investigation

Gravity Investigation

The Gravity Workshop is a self-contained Keystage 4 and 5 workshop where students can use an interactive simulator to investigate how gravity changes depending on where you are in the Solar System. During the workshop, students can make measurements using a simple stopwatch, and use their results to calculate the surface gravity of each planet. The workshop combines ICT, Physics and Maths into a fun hour of discovery.
schoolsobservatory
Advanced Higher Mechanics Notes (Linear and Parabolic Motion)

Advanced Higher Mechanics Notes (Linear and Parabolic Motion)

Notes for the Linear and Parabolic Motion Unit for the new Advanced Higher Mechanics course. Notes broken down into 4 topics: Rectilinear Motion; Relative Motion in 2D and 3D; Projectile Motion; Forces and Newton's Laws. Definitions, theorems and worked examples included.
Mpatel777
SUVAT Projectiles interactive simulation

SUVAT Projectiles interactive simulation

Reviews appreciated! This tool gives options for gravity strength and animation speed, initial height of ball (on a tower) and you choose initial velocity by dragging and releasing Angry Birds style. Practice and visualise SUVAT problems. KNOWN ISSUE ROUNDING: when previewing the file directly on TES. Please download or view on the website for nice rounded numbers :)
NextLevelMaths
Newton's Laws: Objects on Slopes part 1

Newton's Laws: Objects on Slopes part 1

This video looks at how to resolve the components of the weight of an object to explore the motion of an object on a slope. It looks at hot to calculate the normal reaction and the acceleration down the slope
MathsLearn
Newton's Law: Modelling Objects on Slopes part 2

Newton's Law: Modelling Objects on Slopes part 2

This video shows how to model the behaviour of an object on a slope which is connected to a piece of string at an angle. It discusses resolving the forces parallel and perpendicular to the slope to find the normal reaction force and the acceleration along the slope using Newton's second law, F=ma
MathsLearn