This contains 4 solving equations activities of increasing difficulty. This encourages discussion and insists upon students showing their working.

Six "spiders" on six different sets of angle properties starting with "on a line", "around a point", "triangles", "polygons", "parallel lines" and "circle theorems". The final two require students to name the property used and I have left a couple of the parallel lines with the answers filled in so that students can draw their own diagram. The activity is designed to create discussion.

Five HCF and LCM functional questions using the characters from Phineas and Ferb. All put together in a PowerPoint and including answers. Now with a link to the Phineas and Ferb theme tune! Typos corrected.

This is designed to lead students through solving quadratic equations by completing the square from quite basic to difficult. The activity is also there to encourage discussion in class and helps them get into good habits regarding setting their solutions out.

Three spiders on transformations (both describing and drawing) that getting increasingly challenging from spider 1 to spider 3. Spider 1 contains reflections in the x and y axes, translations and rotations about the origin. Spider 2 contains reflections in horizontal and vertical lines (x=n or y=n), rotations around points away from the origin, and an enlargement. Spider 3 contains reflections in diagonal lines (y=-x), roattions away from the origin and fractional and negative enlargements where the centre is not the origin. They should encourage discussion and I hope the diagrams are large enough (they are as large as I can make them).

Eight matching activities, getting increasingly difficult, on various different formulae to rearrange. These are designed as plenaries or starters and should encourage discussion.

There are four "explosions" for students to deal with, each covering different types of algebraic fraction. The first slide involves simple indices and simplifying, the second involves adding and subtracting (find a common denominator), the third has algebraic expressions as denominators and the fourth involves factorising quadratics. These are designed to stop students getting in a rut of doing the same thing over and over again, plus they should (hopefully!) generate good mathematical discussions.

This is a set of 6 sheets of increasingly difficult simultaneous equations designed to make students think and discuss how to work through their solutions by giving them different parts of the process. They include simultaneous equations that involve a linear and a non-linear equation. This is also designed to stretch at GCSE or could be used at the start of A level.

This takes students through basic shapes (rectangles and triangles) to trapeziums and parallelograms and finally circles, including compound shapes. I use these as starters or plenaries but use them how you like.

A set of six spiders which encourage students to show every stage of their calculations as they tackle increasingly difficult questions. There are also some question where the answer is given and the workings shown so that students can work backwards; this is designed to avoid students getting stuck in a rut and not thinking about what they are doing in each case.

Six matching activities: 1 mode, 1 median, 1 mean, 1 mixture (all include frequency tables), 2 grouped data. These are designed to be starters or plenaries but could be used as a whole lesson activity if you wish.

This is designed to get students thinking rather than just blindly following a mathematical recipe. There a four sets of 4 problems which all have the same answer (given in the centre of the screen). Each question has a blank for the students to fill in and sometimes there is more than one answer for the blank. This particular one covers fractions, decimals, percentages, sequences, probability, expressions (algebra), quadratics, standard form, indices and other topics. I will be using these as starters to get students thinking.

I’ve called this an “Advent” calendar as I couldn’t think of a better name, but I have little intention of using it in the run up to Christmas only. There are 24 questions which you can choose to display; students have a go and can then check their solutions with the model answer slide. Topics include bearings, averages, expanding and simplifying brackets, angle problems, transformations, proportion, simultaneous equations, similar shapes, indices, surds, circle theorems, algebraic fractions amongst other topics. Questions are from Edexcel past papers.

I had this idea whilst driving home tonight thinking that I could do with some more stuff on bearings. The idea is for student to practice all the skills involved in bearings problems (angle properties on lines, around a point, triangles and parallel lines as well as scale) and then move on to solving some actual bearing problems. I have designed it in the shape of a wall to show that we build up to the summit. Obviously with this topic, scale is more of an issue but I hope it’s useful… (error corrected)

This covers from simple finding pairs of integers up to completing the square, including completing the square and the quadratic formula. I will put solving graphically on a another one as there wasn’t room here.

All the skills required for sequences up to and including summing arithmetic sequences and geometric sequences.

This takes students from fairly straightforward area and perimeter questions (trapeziums, circles etc) through compound shapes and on to cones, frustums and hemispheres including finding the height in terms of the radius for a cone. I have tried to cover all bases with it including density and capacity problems.

This (hopefully) covers circle theorems from basic up to one proof questions using circle theorems. There should be enough variety to cover all bases.

Work your way up to 3D Pythagoras and trigonometry…

This leads students through basic angle facts through parallel lines, polygons and then onto forming and solving equations or writing angles using algebra.