This revision powerpoint looks at worked examples for the topics of Completing the square and solving quadratics inequalities. The second revision lesson looks at iterative formulae and quadratic sequences. The idea is that the member of staff works through 2 or 3 examples before the student attempts one question at a time. The review of the question then reinforces the students understanding of the topics.

This short lesson I use with KS2/KS3 students when looking at converting Fractions into Percentages or Decimals into Percentages. The lesson is accompanied with a Worksheet for students to answer in class or as a piece of homework. It demonstrates the style I use in class which is to work through examples in class with students pitching in ideas of how to answer the question along the way. Followed by the student then tackling questions on their own. My shop is full of lessons like this (however longer than this lesson). Hence a bought lesson will give you plenty of worked examples as board work with a worksheet to conclude, lasting the student beyond your lesson. The shop is https://www.tes.com/teaching-resources/shop/sjcooper

These two revision lessons look at rearranging formulae for Foundation students and changing units. The changing units revision deals with cm, m, km and kg. It also looks at km/h to m/s and vice versa.

There are approximately four lessons of work here which include the knowledge of Prisms, Pyramids and Spheres. I tend to get the students to copy the examples into their books. Then when they start the worksheet they have something to look back at for guidance.

With my year 11 foundation group struggling with recent Best Buy questions I put these two slides together for further practice. I worked through the first example and then they attempted the following questions before we checked answers together. It is only a short piece but follows the same pattern as most of my other revision lessons. However the other revision lessons tend to last the length of a lesson.

GCSE Run around Game 6 This game is aimed at foundation students who have just been revising certain topics. Topics covered in this game are Sequences nth term Solving equations Dividing into a given ratio Factorising Decimals. This activity is aimed at Foundation students who are revising for their GCSE examination. Each round consists of four questions. Print the slides 8 to 13 on A4 paper and place one printed slide per table. Students are put into pairs (either by choice or teacher selection) and are given a copy of slide 14 and a few sheets of pieces of A4 paper. The pairs are designated a starting table and the timer (slide 2) is started. The students are then given 5 minutes to answer the four questions on that table. Once the five minutes is up the students move clockwise to the next table and start the next set of four questions and the timer of slide 3 is started. This continues until all students have completed the six tables worth of questions. The answering of the questions takes no more than 30 minutes. Students then remain at their final table, swap their answer sheet with the nearest table and the answers are produced. At this stage I go through the questions before revealing the answers. In this way the students have had a go at GCSE style foundation questions and have also seen a demonstration as to how they should have been answered. Finally, students add up their score and the highest score get a prize!

Here I have created a group of starter questions for my foundation students to tackle at the beginning of the lesson. This powerpoint includes questions on fractions into decimals sequences the nth term solving simple equations dividing into a given ratio simplifying expressions factorising multiplying decimals

This lesson is used in lower school to introduce students to the gradient of a straight line by calculation. The lesson then looks at the general equation of the line. Acknowledging that m stands for the gradient and c the y intercept. There is a worksheet attached to this lesson which can be used in class or as a piece of homework. Answers are included.

This document is a revision booklet I put together for my students over the years. It contains worked examples and notes describing how certain problems are solved.

This document is a revision booklet I put together for my students over the years. It contains worked examples and notes describing how certain problems are solved

This lesson is used to introduce students to perpendicular lines. Finding the gradient of a perpendicular line and the equation of such lines. The lesson is followed with a worksheet which can be used in class or as a piece of homework. Answers are included.

This revision is pitched mainly at foundation students, however it is also ideal for higher level students. Through worked examples the students revise the fact of multiplying "branches" together in order to obtain an outcome for two event. Further examples look at when there are more than two possible outcomes which would imply we add the solutions together. Nicely broken up for a student who is probably struggling with the grade 5 work. There are also several questions for the students to attempt in-between the examples. Answers are provided.

This lesson looks at rearranging formulae pitched at higher level. This lesson also includes the finding the inverse function of f(x) by rearrangement.

Each revision lessons last approximately an hour each with my classes. I work through the worked examples before students then attempt the set questions. We then discuss the answers and correct any mistakes made. The revision lessons in this collection are Transformations: Describing transformations that have been done. Fractions: Addition, Subtraction, Multiplication & division of..

Here are a three revision lessons I have used for my foundation students. The lessons consist of Area and Circumference of a circle. Solving Equations : letters on one side & letters on both sides. Probability of a single event. Dividing into a given ratio. This is easily 4 hours of work. I have used this with year 11 students revising topics in one hour blocks.

These two lessons teach students how to 1. Bisect a line 2. Bisect an Angle 3. Drop a perpendicular to a line 4. construct a 60 degree angle 5. construct a 90 degree angle 6. construct the 30 and 45 degree angle 7. construct 75 and 120 degree angles. The lessons also include worksheets for the students to attempt in class or as a piece of homework. Answers are included.

This activity is aimed at Foundation students who are revising for their GCSE examination. Each round consists of four questions. Print the slides 8 to 13 on A4 paper and place one printed slide per table. Students are put into pairs (either by choice or teacher selection) and are given a copy of slide 14 and a few sheets of pieces of A4 paper. The pairs are designated a starting table and the timer (slide 2) is started. The students are then given 5 minutes to answer the four questions on that table. Once the five minutes is up the students move clockwise to the next table and start the next set of four questions and the timer of slide 3 is started. This continues until all students have completed the six tables worth of questions. The answering of the questions takes no more than 30 minutes. Students then remain at their final table, swap their answer sheet with the nearest table and the answers are produced. At this stage I go through the questions before revealing the answers. In this way the students have had a go at GCSE style foundation questions and have also seen a demonstration as to how they should have been answered. Finally, students add up their score and the highest score get a prize!

This is an investigation I used to use in the early 1990's when coursework was all the rage! Ideal task for end of term. Keeps the students still focused and on task.

Following on from the lessons which introduce trigonometry to students. These two lessons consist of worked examples using the three trig ratios developed in either year 9 or 8. The introduction lessons are in my shop. I have used this lesson with year 10, having already introduced trigonometry to these students in year 9.