As a highly skilled teacher with four years of experience, I have been recognized as a TES recommended author for my interactive resources that make Maths easier to plan and engage with. Many of my resources involve the use of Powerpoint or Excel to create engaging and progressively difficult exercises that foster calm lessons and encourage excitement in learning. I am committed to designing resources that are repetitive yet engaging, and I am always looking for new and innovative ways to help m
As a highly skilled teacher with four years of experience, I have been recognized as a TES recommended author for my interactive resources that make Maths easier to plan and engage with. Many of my resources involve the use of Powerpoint or Excel to create engaging and progressively difficult exercises that foster calm lessons and encourage excitement in learning. I am committed to designing resources that are repetitive yet engaging, and I am always looking for new and innovative ways to help m
This is a worksheet generator for deducing a missing length of a right angle triangle, given the length of one side and the size of one angle. The worksheet is set up in a way such that all of the variables used in each of the questions are completely unique to the questions. Additionally, there is a variety of different units used within these questions (both metric and imperial) in order to create variety). By the click of a button, such as ‘F9’ or by clicking on the tab which says ‘new worksheet’ and then clicking on the ‘new worksheet’ button a whole new worksheet is generated with matching answers. The answers are given in two forms: unrounded answers, and answers rounded to one decimal place. Every time you generate a new worksheet the variables for each question, unit of measurement and type of problem will differ. This worksheet is great to measure progress over a few lessons, and demonstrate practise makes perfect. Problems include sin, cos, and tan, as well as finding the a variety of missing sides, including the hypotenuse, adjacent and opposite side.
This worksheet GENERATOR contains 11 different fraction grids which you need to find the missing fractions in. There are a range of easy, medium, and hard resources, as well as use of all four operations. At a click of a button you can generate a whole new set of 11 worksheets.
Each worksheet is a 5x5 grid, where the first row and column provide different fractions as headers. You have to apply different operations to these fractions in order to fill out the remaining 4x4 grid, which falls between these row and column headers. All solutions are included.
The easy worksheets for the operation ‘adding’ involve the column and row headers being added together, given the denominator of the resulting fraction. The medium worksheets involve adding the column and row headers, without the hint of the given denominator of the resulting fraction. The hard worksheets, involving having to solve an equation, to work out the resulting fractions which are the row and column headers.
For a free sample visit: https://www.tes.com/teaching-resource/a-15-page-free-fraction-grid-worksheet-4-operations-solutions-differentiation-11871744
Please review if you have found helpful :D.
A 144 Powerpoint presentation which I have made to include all teh times tables 1-12. You can choose specific times tables, such as the ‘7 times table’ OR you can test on all the times tables in a random order. Great for using as a whole class activity or for individual use as a homework activity. Every slide includes an answer.
For a free LIMITED version of this resource see: https://www.tes.com/teaching-resource/interactive-random-times-tables-resource-for-starter-plenary-or-independent-revision-11849949
This is based on my free resource ‘angles within shapes’, and is a very useful generator. Comes with optional ‘hints’ which helps with differentiation. Increasing in difficulty. Been used sucessfully with many classes, including bottom set year 8 (whom of which a student managed to remember this topic within an exam scenario).
For a free sample of this please visit:
https://www.tes.com/teaching-resource/forming-equations-using-algebra-within-a-shape-11907165
This problem works such that the inside ring contains the numbers 1-8, and the outside ring contains the numbers 1-8. Every number outside the flower represents the product of the petal numbers.
This is a puzzle activity involving the four operations used as a starter or a plenary. I have used this with top set year 7 and bottom set year 8, because there are many different difficulty levels as seen by the video. This task acts as a puzzle as the students need to begin at the ‘start’ number and find the finish number, which requires 15 steps. The children start with a number such as ‘23’ and need to apply 15 operations to it, often involving all four operaitons, in order to obtain the finish number. Alternatively another type of worksheet contained within this resource requires children to work out the missing operations between these 16 numbers.
There are so many different types of worksheets, generally graded as an easy, medium or hard (green, orange, red) provided at the top of the screen. In addition to this the worksheets provided include negative numbers, positive numbers, large and very small numbers.
For a free sample of this resource please see:
https://www.tes.com/teaching-resource/number-snake-four-operations-worksheet-4-free-worksheets-medium-and-difficult-11989019
The idea of this game is for students to put the numbers 1-15 in their exercise book, and write the number 1 on line 1 and the number 1000 on line 15. They are then revealed numbers one by one, and their aim is to try and fit all the numbers onto the number line in a chronological order. Once this process is complete you can ask the class who obtained the largest number of correctly ordered numbers.
You can change the maximum number to something greater i.e. ‘10000’ or something smaller i.e. ‘300’. Also due to this being an excel worksheet generator there are an infinite number of answers that can be available.
This is a great game to end the lesson with and always engages students.
This is a worksheet generator, each sheet containing one question repeated twice (to fit easily onto one side of A4). Each question has 8 sub questions regarding finding a fraction of the given amount. The given amount is always a highly composite number, and the fractional amounts that you have to find are always integers, and are a mix of proper, imporper, simplified and not simplified fractions. The denominator of some of the fractions can be as large as twenty. Therefore, some of the sub questions require you to find ‘3 twentieths’ of the original value given.
If you want a free sample of this resource see:
https://www.tes.com/teaching-resource/ks3-fractions-of-amounts-bubbles-16-sub-questions-easy-to-print-answers-11871907
If you found useful please leave a review :D.
This worksheet is designed for KS3 and KS4 to understand length scale factor problems, which typically involve using a calculator. The worksheet is suitable for most types of children, but is targetted for the more able learner. Children need to use the numbers already provided for the dimensions of the photographs to work out the scale facctor of enlargement. To make this worksheet more challenge written dimensions can be removed, and children can measure the pictures themselves.
Workhseet contains 6 problems, multiple extension questions, and links to real life such as Instagram. In addition to this the worksheet has an example on how to complete the questions.
I often find teaching the topic of scale factor quite dull. As a result I have tried to make it more exciting by using images I have taken from various trips to different countries, and relating the worksheet to real life experiences of the students. Comes with DETAILED solutions.
Length scale factor requires you to work out what is the multiplicative factor you need in order to get from one length to another.
6 differing worksheet tabs are included
Printing is simple
All answers included
This is a worksheet generator testing students’ knowlege on angles within a polygon. There are 6 different worksheet tabs testing on different areas, 5 test on unique questions, and the 6th worksheet tab randomly combines questions from all previous 5 tabs. There are an infinite number of questions, and corresponding answers available, as at the click of a macro button you can generatre a new worksheet.
Questions include:
‘If a regular polygon has an exterior angle of…, name the shape?’
‘If a regular three sided shape has an interior angle of …, what are the remaining interior angles and their exterior angles if they are the same?’
‘If the angles within a four sided shape are…, what is the other interior angle?’
14 slide powerpoint presentation, in which every other slide includes a video. Every other slide is a video of a venn diagram being shaded in, and the remaining slides are videos of the notational answers. You could use this resource in several ways. Firstly you could use the turquoise colour slides to give a Venn diagram notation, such as P(AnB’) and then you could get students to demonstrate their answers in their book. Alternatively you could use the pictoral videos, and ask the students what you think the equivalent notation is.
This worksheet is designed for pi day for low ability year 8s. The idea is each number is assigned a picture, which is given in the key, and this should help students derive a story which will help them memorise the first several digits of pi.
Students must find all answers to the 8 questions in a grid. All answers will form a snake like pattern. Students then must write down the section of the loop (the loop starts top left of the page and finshes bottom right). This reveals a ‘magic code’.
This is a worksheet generator for an infinite number of worksheets.
This is a fun, angle pile up which involves understanding the information regarding angles in quadrilaterals and triangles. It´s a worksheet generator so there is an infinite number of questions available.
This is a worksheet generator for an infinite number of worksheets.
https://www.tes.com/teaching-resource/ks3-angle-pile-up-problems-25-questions-angles-in-a-quadrilateral-triangle-11872728
A whole lesson I designed for an interview lesson for year 10 state school in the UK, 3rd set. A great visual way for introducing students into the topic of cumulative frequency.
Running total; quartiles, interquartile range and other descriptors described.
The most engaging part of this lesson is the gifs used during the lesson, and the opportunity for students to really master the topic through the use of pictures. Slideshow is many slides long and includes an easy starter.
This resource includes:
Lesson plan
Worksheet
Powerpoint
A whole lesson I designed for an interview lesson for year 10 state school in the UK, second set. A great visual way for introducing students into the topic of circle theorems. This lesson specifically focuses on two circle theorems:
Angles in the same segment are equal
Angle at the center is twice the angle at the circumference.
The most engaging part of this lesson is the gifs used during the lesson, and the opportunity for students to really master the topic through the use of pictures. Slideshow is many slides long and includes a very nice linked starter. Please watch video for lesson in full.
This resource includes:
Lesson plan
Worksheet
Powerpoint
This is a collection of 8 different resources and approximately 60 different Excel tabs. I use these as a premise for my starters with a mix of abilities from year 7-9. Each worksheet is differentiated, so you can give students varying sheets, or request they work from varying sections of the interactive whiteboard, whilst still providing them with the same answers. They foster a calm start to the lesson, and students always seem excited to learn when the lesson is started in this manner. The addition pyramids contain a self-check tool, so children can usefully self mark. The multiplication grid generator, includes an exciting ‘challenge’ sheet in which students have to work backwards to work out the row and column headers (using similiar skills to Sudoku). In addition to this the Cross number, and the times table grid excitingly contain a magic number extension. This involves students having to collate their answers, i.e. summing certain values, to obtain a magic numbers and perhaps win a small prize (sticker, or sweet, or just simple praise).
Please review if you found helfpul. Thanks