#### Equations of motion using superhero examples / kinematics / uniform acceleration / V2 - U2 = 2as

Student practice rearranging a = (v-u) /t and V2-U2 = 2as. All based on superhero examples

#### FSMQ revision questions

This bundle includes revision files for the FSMQ exam.

#### 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: &gt; Motion graphs &gt; Velocity and acceleration &gt; Displacement / position / distance &gt; Distance and speed and time &gt; Differentiation/integration &gt; Bearings and angles &gt; Unit vectors &gt; Normal reaction &gt; Free motion &gt; Cartesian equations &gt; Terminology - smooth, light, inextensible etc &gt; Projectiles &gt; Particles colliding &gt; Force diagrams &gt; Triangles of forces &gt; 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.

#### use derivatives in finding velocity and acceleration

IGCSE Mathematics

#### Differentiation

16 Powerpoints presentation for the following topics: Limits and convergence Basic rules for derivative The equations of tangent and normal lines Basic rules of derivatives The derivative of e^x and the derivative of ln x The product rule The quotient rule The chain rule for composite functions The second derivative and higher order derivatives Rate of change Velocity and acceleration functions Relative and global extrema Concavity Sketching a graph Optimisation problems

#### SUVAT Equations Starter and Worksheet

Now brought down to Maths GCSE from M1 - could be used with either.

#### Bundle - One and Two Dimensional Motion - (Freely Falling Objects & Projectile Motion)

This source contains; 1. Motion in One Dimension - Freely Falling Objects - PPT This resource contains 24 slides; - Freely Falling Objects; (Release, fall, drop, thrown or jumping directly downwards &amp; upwards questions) (Answer key) - Free Fall Problems solving strategies, - Physics around us… - Review, - HW. 2. Motion in Two Dimensions - Projectile Motion - PPT This resource contains 16 slides; - PROJECTILE; (Questions AND Answer key) - Physics around us… - Review, 3. Motion - One and Two Dimensional Motion - Freely Falling Objects &amp; Projectile Motion - Teachers Note This document has 4 pages New Teachers can use this document as a lesson plan. 4. Motion - One and Two Dimensional Motion - Freely Falling Objects &amp; Projectile Motion - Question Bank This Source contains 2 pages, (30 questions) Questions are about; - Motion in One Dimension - Free Falling Objects - Motion in Two Dimensions - Projectile Motion Everything is ready to be used or easily edited to suit your learners. To attract attention of students to the subject, daily life animations were used. You should install these Fonts for this document; (Marker Felt &amp; Tempus Sans ITC)

#### Physics A-level Mechanics Collection

A collection of my very resources for teaching forces and motion from AS and A2 A-level

#### 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.

#### Deriving the 5 equations of motion for constant acceleration SUVAT equations

Using a graph of velocity against time this presentation goes through the derivation of the 5 equations of motion for constant acceleration, in clear easy to visualise steps.

#### Mechanics revision pack

Revision pack for mechanics aspect of physics includes the topics: Circular motion, kinematics, conservation of energy, Kinetic Energy and Gravitational Potential energy, Newton's law of gravitation.

#### Conservation of Energy, potential energy and kinetic energy revision notes

Two page revision guide the conservation of energy. Types of energy, kinetic energy, gravitational potential energy. Includes practice question, worked questions, and answer page for practice questions.

#### Projectile Motion with Avenger's Hawkeye

PowerPoint slides and images from my article using Hawkeye from the Avengers to explain projectile motion. Read the full article at: http://www.richwrigley.com/blog/hawkeye

#### Vectors & Kinematics – QUIZ

This EXAM PAPER includes 15 questions with Answer Sheet, (6 pages) Questions are about; - Quantities (Scalar &amp; Vector Quantities), - How to add or subtract the VECTORS and FORCES - What are SCALAR &amp; VECTOR Quantities? (speed, velocity, distance, displacement, acceleration etc.) - Vector addition can be handled using the Tail-to-tip or parallelogram method. You should install these Fonts for this document; (Marker Felt &amp; Tempus Sans ITC)

#### Vectors & Kinematics – Exam

This EXAM PAPER includes 8 pages, (4 Groups) Questions are about; - Quantities (Scalar &amp; Vector Quantities), - How to add or subtract the VECTORS and FORCES - Phythagorean Theorem - What are SCALAR &amp; VECTOR Quantities? (speed, velocity, distance, displacement, acceleration etc.) - Vector addition can be handled using the Tail-to-tip or parallelogram method. You should install these Fonts for this document; (Marker Felt &amp; Tempus Sans ITC)

#### Motion - One and Two Dimensional Motion - Freely Falling Objects & Projectile Motion - Question Bank

This Worksheet has pages, (26 questions) Questions are about; - Motion in One Dimension - Free Falling Objects - Motion in Two Dimensions - Projectile Motion You should install these Fonts for this document; (Marker Felt &amp; Tempus Sans ITC)

#### Kinematics - Motion - Exam

This source includes; - 15 questions with Answer sheet (6 pages.) - Questions are about Distance, Displacement, Speed, Velocity, etc. You should install these Fonts for these documents; (Marker Felt &amp; Tempus Sans ITC)

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.

#### SUVAT Equations of Motion with Constant Acceleration - differentiated with answers

Task to practise using SUVAT equations with three levels of difficulty where pupils have to fill in the blanks using the other values.

#### Kinematics recap

Kinematics recap covering questions on constant acceleration equations, vertical motion under gravity and motion graphs with a past paper exam question at the bottom for an extension. Answers for the main questions included.

#### A-level Physics top resources

These are all my published resources for teaching A-level Physics. There are some really fun and engaging activities. Worked answers are always given to question sheets.

#### GCSE Physics: Forces and Motion

Resources for teaching forces and motion for GCSE Physics. There are lots of interactive games and fun tasks in this bundle.

#### Velocity and acceleration functions

Power Point presentation, 10 slides, Explaining how to use the derivative of displacement to calculate the instantaneous velocity. How to use the derivative of velocity to calculate the instantaneous acceleration, based on IB Mathematics Standard Level Syllabus. For a preview of the power point copy the following link on your browser: https://drive.google.com/file/d/0B8z00qLZV7OlWGxNRUdQbF9MNlk/view?usp=sharing

Oil rig

#### SUVAT Uniform acceleration formula

Lesson 1 introducing the uniform acceleration formulae including a starter on speed, distance time and example problems.

#### Applications of integration to kinematics.

Examples of applications of integration to kinematics.

#### Velocity-Time graphs

This power point has a series of worked examples to demonstrate how students can find the distance traveled or the acceleration of an object by means of finding the (approximate) area under the curve or the gradient of the tangent drawn to the curve.

#### FSMQ maths revision questions

This is a **FREE SAMPLE**. Find the full version here. A pdf file containing 10 random questions to revise topics for the FSMQ exam (additional maths). They include algebra, calculus, division of polynomials, kinematics, etc. Best used as revision, this pdf file can be used in lessons or as personal revision on a laptop or even a mobile phone (might need pen and paper at some point too!)

#### Kinematics (FSMQ / Additional maths)

This is a **FREE SAMPLE**. Find the full version here. A pdf file containing 5 random questions to revise kinematics for the FSMQ (Additional maths) exam. Best used as revision, this pdf file can be used in lessons or as personal revision on a laptop or even a mobile phone.

#### Kinematics (FSMQ / Additional maths)

Get a free sample here. Now with 200 questions! A pdf file containing 200 random questions to revise kinematics for the FSMQ (Additional maths) exam. ****************************************************************** Also available in this BUNDLE at a reduced price! ****************************************************************** Best used as revision, this pdf file can be used in lessons or as personal revision on a laptop or even a mobile phone.

#### 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.

#### Kinematics with Vectors

A couple of tough A level Maths questions on the topic of Kinematics. They address the fact that this specific style of question on this topic is not particularly well catered for in many texts. Certainly appropriate for module Mechanics 1 with AQA.

#### M1_Velocity-time graph

Some exam questions for velocity-time graph only, from Edexcel M1 paper, with solutions.

#### Distance-Time & Speed-Time Graph Bingo

A bingo game designed to get the whole class using their brains to consolidate this topic. There are 22 graph-based questions, the answer and method is shown after each question. The questions are in difficulty order. Surprisingly competitive.

#### Kinematics consolidation game - Space Race

I like to play games with the students for consolidation lessons. This one is intended to consolidate learning on Kinematics (plus a bit of Core 1) through group work. All questions have been adapted to match the theme and split into different stages of rocket testing. The aim of the game is for the team to build the highest tower - each correct answer submitted wins a flag block for the team, to be collected by dragging from the side of the Notebook file to the ground. The teacher needs only check the answer against the provided solutions, though may provide hints if teams submit a 'help token' (these aren't completely necessary to the game but provide an extra incentive for student discussion on difficult points). I tend to print help tokens on coloured card to make it more fun (colour = fun). I had some music attached to make it a bit more interesting but it was too large to upload - Star Wars music throughout works well and is apt now with the renewed interest in the franchise. I have made other forms of this game based around other themes (including holidays - Christmas, Easter), any of which can be applied to any topic. I will upload others at some point. Please comment and leave a rating if you download. I would appreciate any feedback. Let me know if there's anything unclear, as I am aware there is quite a bit in there. (I promise, they do like it!)

#### Graphical Representation of Motion (with answers)

A set of questions on graphing speed, velocity and acceleration. I initially wrote this for my A level classes but have been increasingly using it for my Year 10s doing the AQA unit 2 section on motion.

#### GCSE Maths Takeaway 69 - Distance Time Graphs

A 5 question quiz to assess one of the GCSE Maths Takeaway topics. Visit http://www.mrbartonmaths.com/gcsetakeaway.htm for exam questions, videos and solutions to GCSE Maths Takeaway.These free Diagnostic Questions quizzes allow you and your students to identify, understand and resolve key misconceptions. Your students can answer them on their mobiles, tablets or computers. If they get a question wrong, they can access 100s of explanations written by students from all around the world until they find one that makes sense to them. As a teacher, you are presented with the data from each quiz, together with your students' explanations, and the option to compare results with any other cohort, thus giving you deep insight into your students' level of understanding.To learn more about the many exciting features available on Diagnostic Questions, please watch our tutorials.

#### 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 :)

#### Ex: average rate of change application - hot air balloon function

This video explains how to find the average rate of change given the equation of a function rule that models the height of an air balloon as it rises. Site: http://mathispower4u.com Blog: http://mathispower4u.wordpress.com