I regularly upload resources that I have created during 30 years as a teacher. Most of these are maths, but there are some ICT/Computing and Tutor Time activities. All of the resources are my own and are not available from third-parties. The resources have been tweaked over time and I have had many happy lessons and shed-loads of happy and successful students.
At the end of 2017 the TES announced that I was the most downloaded new author and in 2018 another 2 million were added to the count.
I regularly upload resources that I have created during 30 years as a teacher. Most of these are maths, but there are some ICT/Computing and Tutor Time activities. All of the resources are my own and are not available from third-parties. The resources have been tweaked over time and I have had many happy lessons and shed-loads of happy and successful students.
At the end of 2017 the TES announced that I was the most downloaded new author and in 2018 another 2 million were added to the count.
This activity gives students practice at expanding a bracketed expression which has been multiplied by a single-digit number.
Click --> https://tes.com/.../Treasure Hunts for similar style Treasure Hunts on 30 other topics.
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Note that unlike most Treasure Hunts, this one has the added feature that the answers give an encrypted clue. Deciphering this clue reveals where the treasure is hidden!
A Treasure Hunt is a great activity which children love. They are ideal for revision, starters or plenaries. They are a really great way to get students to answer questions quickly and enjoy doing so.
These question cards have been prepared in two sizes. The large cards can be pinned around around the classroom and used for a whole class activity; the smaller (loop cards) can be used for group work or by individuals – they are particularly helpful for one-to-one tutorials and during interventions.
This activity helps students practice converting from Roman Numerals. These particular conversions are tricky, so students will need to have a good knowledge of Roman Numerals before you give them this task.
Click --> https://tes.com/.../Treasure Hunts for similar style Treasure Hunts on 40 other topics.
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Note that unlike most Treasure Hunts, this one has the added feature that the answers give an encrypted clue. Deciphering this clue reveals where the treasure is hidden!
A Treasure Hunt is a great activity which children love. They are ideal for revision, starters or plenaries. They are a really great way to get students to answer questions quickly and enjoy doing so.
These question cards have been prepared in two sizes. The large cards can be pinned around around the classroom and used for a whole class activity; the smaller (loop cards) can be used for group work or by individuals – they are particularly helpful for one-to-one tutorials and during interventions.
This is a fun interactive whiteboard game, created in PowerPoint, with triggered animations. All my students have loved this activity ('Sir, can we play the chain-game?'). It is enjoyable for both high and low ability – it not only reinforces the learning of the Roman Numerals, but students also need to remember where the numerals are hidden!
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I typically use this activity as a starter and then as a plenary at the end of the lesson. It gets the whole class involved – even when it's not a students turn, they are repeating the numbers in their head and they are desperate to say where the next number is!
The way that I play the game:
1. I go through the members of the sequence and ensure that the students are familiar with each of the numbers;
2. When the board is revealed, I give about 15 seconds to ‘peek’ at the uncovered board so that the students can try to learn where the first few numbers are;
3. I then call up the students one-at-a-time to try an uncover as many numbers as they can before they go wrong.
NOTES:
I encourage the students to call out the number that they are looking for because this reinforces the learning.
This activity works very well if you get two students to play against each other – either on the interactive whiteboard or on PCs.
This is a fun interactive whiteboard game, created in PowerPoint, with triggered animations. All my students have loved this activity ('Sir, can we play the chain-game?'). It is enjoyable for both high and low ability – it not only familiarises students with the Fibonacci Sequence, but they also need to remember where the numbers are hidden!
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I typically use this activity as a starter and then as a plenary at the end of the lesson. It gets the whole class involved – even when it's not a students turn, they are repeating the numbers in their head and they are desperate to say where the next number is!
The way that I play the game:
1. I go through the members of the sequence and ensure that the students are familiar with each of the numbers;
2. When the board is revealed, I give about 15 seconds to ‘peek’ at the uncovered board so that the students can try to learn where the first few numbers are;
3. I then call up the students one-at-a-time to try an uncover as many numbers as they can before they go wrong.
NOTES:
I encourage the students to call out the number that they are looking for because this reinforces the learning.
This activity works very well if you get two students to play against each other – either on the interactive whiteboard or on PCs.
This is a fun interactive whiteboard game, created in PowerPoint, with triggered animations. All my students have loved this activity ('Sir, can we play the chain-game?'). It is enjoyable for both high and low ability – it not only helps familiarise students with the triangle numbers, but they also need to remember where the numbers are hidden!
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I typically use this activity as a starter and then as a plenary at the end of the lesson. It gets the whole class involved – even when it's not a students turn, they are repeating the numbers in their head and they are desperate to say where the next number is!
The way that I play the game:
1. I go through the members of the sequence and ensure that the students are familiar with each of the numbers;
2. When the board is revealed, I give about 15 seconds to ‘peek��� at the uncovered board so that the students can try to learn where the first few numbers are;
3. I then call up the students one-at-a-time to try an uncover as many numbers as they can before they go wrong.
NOTES:
I encourage the students to call out the number that they are looking for because this reinforces the learning.
This activity works very well if you get two students to play against each other ��� either on the interactive whiteboard or on PCs.
This is a fun interactive whiteboard game, created in PowerPoint, with triggered animations. All my students have loved this activity ('Sir, can we play the chain-game?'). It is enjoyable for both high and low ability – it not only reinforces the learning of the prime numbers, but students also need to remember where the numbers are hidden!
--
I typically use this activity as a starter and then as a plenary at the end of the lesson. It gets the whole class involved – even when it's not a students turn, they are repeating the numbers in their head and they are desperate to say where the next number is!
The way that I play the game:
1. I go through the members of the sequence and ensure that the students are familiar with each of the numbers;
2. When the board is revealed, I give about 15 seconds to ‘peek’ at the uncovered board so that the students can try to learn where the first few numbers are;
3. I then call up the students one-at-a-time to try an uncover as many numbers as they can before they go wrong.
NOTES:
I encourage the students to call out the number that they are looking for because this reinforces the learning.
This activity works very well if you get two students to play against each other – either on the interactive whiteboard or on PCs.
This is a fun interactive whiteboard game, created in PowerPoint, with triggered animations. All my students have loved this activity ('Sir, can we play the chain-game?'). It is enjoyable for both high and low ability – it not only reinforces the learning of the square numbers, but students also need to remember where the numbers are hidden!
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I typically use this activity as a starter and then as a plenary at the end of the lesson. It gets the whole class involved – even when it's not a students turn, they are repeating the numbers in their head and they are desperate to say where the next number is!
The way that I play the game:
1. I go through the members of the sequence and ensure that the students are familiar with each of the numbers;
2. When the board is revealed, I give about 15 seconds to ‘peek’ at the uncovered board so that the students can try to learn where the first few numbers are;
3. I then call up the students one-at-a-time to try an uncover as many numbers as they can before they go wrong.
NOTES:
I encourage the students to call out the number that they are looking for because this reinforces the learning.
This activity works very well if you get two students to play against each other – either on the interactive whiteboard or on PCs.
This activity is a fun way to help students reinforce their skills in factorising quadratics. Click -->https://tes.com/.../Treasure Hunts for Treasure Hunts on more than 20 other topics.
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A Treasure Hunt is a great activity which children love. They are ideal for revision, starters or plenaries. They are a really great way to get students to answer questions quickly and enjoy doing so.
Unlike most Treasure Hunts, this one has the added feature that the answers to the questions give an encrypted clue. When students decipher this clue, it reveals where the treasure is hidden!
The question cards have been prepared in two sizes. The large version can be pinned around the room and used for a whole class activity. The smaller cards can be used for group work or by individuals. The smaller cards are particularly helpful during interventions.
Colour coding:
I have used colours to indicate the increasing difficulty of questions:
Red, Orange and Green (from primary up to GCSE Foundation)
Blue and Purple (GCSE Higher)
If you like this resource then please rate it and/or leave a comment by clicking here --> https://tes.com/.../Quick Comment
This workbook has detailed solutions and is great for learning about vectors.
Click 👉 tes.com/.../workbooks to download workbooks on other topics.
I have used this booklet extremely effectively with students in Y10 and Y11. It completely covers the requirements of GCSE and gives lots of good examples. It starts with column vectors and builds into vector diagrams, finishing with the most typical type of questions that are seen in GCSE exams. Using this booklet, my students have shown a better understanding of vectors than students in parallel classes that have worked through a text book.
Note that the booklet is designed to be printed as A4, but I usually reduce it to A5 and it still does the job.
👍If you like this resource, then please rate it and/or leave a comment💬.
If the rate-resource button on this page doesn’t work, then go to your ratings page by clicking 👉tes.com/.../rate-resources.
This is more than just finding words on a grid. The words are not given, they have to get them from the diagrams. There is a moderate and a 'difficult' version so the activity is accessible to all and there are many opportunities for extension. The PowerPoint reveals the solutions one word at a time so you can stop and discuss each shape as you go. Try it and you will see what I mean☺.
This has been used with classes from Year 6 to Year 11 and they have loved it and had many useful discussions.
The activity could be given as a homework as well as used in the classroom. With older students, when I go through the answers I use it as an opportunity to revise the properties of the shapes as well.
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You can give students as much help as you like, but if you leave them to it…
they have to think about the names of the shapes;
they have to think about the spelling of the names;
they have to look for names that are not represented by the diagrams.
Because the diagrams have been drawn for the students, there is the opportunity to talk about the use of little squares to indicate right-angles, the use of little lines to indicate equal length sides and the use of arrows to indicate parallel lines.
Three additional 2D shapes are hidden in the grid (these are nonagon, decagon and icosagon).
The 3D shapes that are hidden are cone, cube, cuboid, cylinder, pyramid, sphere & tetrahedron.
The solutions to the moderate version are contained within the pdf; the PowerPoint contains the solutions to the ‘difficult’ version.
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If you like this activity then look through the other resources that I have uploaded by clicking -->https://tes.com/Morse's-Resources.
At the moment, I am uploading about 10 new resources each week, if you want to be kept up-to-date, then click-->HERE and then follow me.
This carefully selected compilation of exam questions has fully-worked solutions designed for students to go through at home, saving valuable time in class.
Click--> tes.com/../Exam Question Practice… to download question compilations for more than 50 other topics.
I usually print these questions as an A5 booklet and issue them in class or give them out as a homework. I also make them available for a student who wants to do focused independent study on a topic.
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If you like this resource, then please rate it and/or leave a comment.
If the rate-resource button on this page does not work, then go to your ratings page by clicking here -->tes.com/.../rate-resources…
This activity is a fun way to help students reinforce their skills in multiplying two brackets.
Click-->https://tes.com/.../Treasure Hunts for Treasure Hunts on 30 other topics.
--
A Treasure Hunt is a great activity which children love. They are ideal for revision, starters or plenaries. They are a really great way to get students to answer questions quickly and enjoy doing so.
Unlike most Treasure Hunts, this one has the added feature that the answers to the questions give an encrypted clue. When students decipher this clue, it reveals where the treasure is hidden!
The question cards have been prepared in two sizes. The large version can be pinned around the room and used for a whole class activity. The smaller cards can be used for group work or by individuals. The smaller cards are particularly helpful during interventions.
Colour coding:
I have used colours to indicate the increasing difficulty of questions:
Red, Orange and Green (from primary up to GCSE Foundation)
Blue and Purple (GCSE Higher)
If you like this resource then please rate it and/or leave a comment by clicking here --> https://tes.com/.../Quick Comment
These reusable cards are excellent for one-to-one tutorials and interventions. They are also great when working with small groups or as a starter/plenary for a whole class. For Loop Cards on more than 50 other topics click 👉 www.tes.com/../more....
This particular set of cards allows students to practise working out the next two terms in a quadratic sequence.
Note that the questions have been carefully selected so that they provide good coverage of this topic and so that the opportunities for students to guess answers are minimised.
Colour coding:
All my loop cards are colour-coded to indicate the approximate level of the questions:
KS2 – red and orange
KS3/GCSE Foundation – orange and green
GCSE Higher – green, blue and purple
Further information:
In this download there are four sets of similar cards and a student chooses one of the sets and sorts them into order by answering the questions. Then they try to do it faster using a different set, which has the same questions, but a different sort order 😃
My favourite use of loop cards is for two students to have different versions of the cards and race each other. They then check their answers, shuffle, swap packs and race again (quickest overall time wins). More instructions are included in the download.
Cut out card size is approx. 65 x 90 mm.
👍If you like this resource, then please rate it and/or leave a comment💬.
If the rate-resource button on this page doesn’t work, then go to your ratings page by clicking 👉 https://tes.com/.../rate-resources…
This carefully selected compilation of exam questions has fully-worked solutions designed for students to go through at home, saving valuable time in class.
Click 👉 tes.com/../Exam Question Practice… to download question compilations for more than 50 other topics.
I usually print these questions as an A5 booklet and issue them in class or give them out as a homework. I also make them available for a student who wants to do focused independent study on a topic.
--
👍If you like this resource, then please rate it and/or leave a comment💬.
If the rate-resource button on this page does not work, then go to your ratings page by clicking here 👉tes.com/.../rate-resources…
This activity requires students spot the pattern in a quadratic sequence and then work out the next two terms.
Click -->https://tes.com/.../Treasure Hunts to download Treasure Hunts on 40 other topics.
--
A Treasure Hunt is a great activity which children love. They are ideal for revision, starters or plenaries. They are a really great way to get students to answer questions quickly and enjoy doing so.
Unlike most Treasure Hunts, this one has the added feature that the answers to the questions give an encrypted clue. When students decipher this clue, it reveals where the treasure is hidden!
The question cards have been prepared in two sizes. The large version can be pinned around the room and used for a whole class activity. The smaller cards can be used for group work or by individuals. The smaller cards are particularly helpful during interventions.
Colour coding:
I have used colours to indicate the increasing difficulty of questions:
Red, Orange and Green (from primary up to GCSE Foundation)
Blue and Purple (GCSE Higher)
If you like this resource then please rate it and/or leave a comment by clicking here --> https://tes.com/.../Quick Comment
These reusable cards are excellent for one-to-one tutorials and interventions. They are also great when working with small groups or as a starter/plenary for a whole class. For Loop Cards on more than 50 other topics click 👉 www.tes.com/../more....
This particular set of cards allows students to practise converting decimals into fractions. The conversions within these sets of cards are the most common ones, so it is totally acceptable for the student to learn them rather than work them out!
Note that the questions have been carefully selected so that they provide good coverage of this topic and so that the opportunities for students to guess answers are minimised.
Colour coding:
All my loop cards are colour-coded to indicate the approximate level of the questions:
KS2 – red and orange
KS3/GCSE Foundation – orange and green
GCSE Higher – green, blue and purple
Further information:
In this download there are four sets of similar cards and a student chooses one of the sets and sorts them into order by answering the questions. Then they try to do it faster using a different set, which has the same questions, but a different sort order 😃
My favourite use of loop cards is for two students to have different versions of the cards and race each other. They then check their answers, shuffle, swap packs and race again (quickest overall time wins). More instructions are included in the download.
Cut out card size is approx. 65 x 90 mm.
👍If you like this resource, then please rate it and/or leave a comment💬.
If the rate-resource button on this page doesn’t work, then go to your ratings page by clicking 👉 https://tes.com/.../rate-resources…
These reusable cards are excellent for one-to-one tutorials and interventions. They are also great when working with small groups or as a starter/plenary for a whole class. For Loop Cards on more than 50 other topics click 👉 www.tes.com/../more....
This particular set of cards allows students to practise typing expressions into a calculator. The expressions include fractions, squares, cubes and simple roots. Bracketed expressions are included in ‘Using a Calculator: Part 2’.
Note that the questions have been carefully selected so that they provide good coverage of this topic and so that the opportunities for students to guess answers are minimised.
Colour coding:
All my loop cards are colour-coded to indicate the approximate level of the questions:
KS2 – red and orange
KS3/GCSE Foundation – orange and green
GCSE Higher – green, blue and purple
Further information:
In this download there are four sets of similar cards and a student chooses one of the sets and sorts them into order by answering the questions. Then they try to do it faster using a different set, which has the same questions, but a different sort order 😃
My favourite use of loop cards is for two students to have different versions of the cards and race each other. They then check their answers, shuffle, swap packs and race again (quickest overall time wins). More instructions are included in the download.
Cut out card size is approx. 65 x 90 mm.
👍If you like this resource, then please rate it and/or leave a comment💬.
If the rate-resource button on this page doesn’t work, then go to your ratings page by clicking 👉 https://tes.com/.../rate-resources…
These reusable cards are excellent for one-to-one tutorials and interventions. They are also great when working with small groups or as a starter/plenary for a whole class. For Loop Cards on more than 50 other topics click 👉 www.tes.com/../more....
This particular set of cards allows students to practise calculating unknown angles in triangles. Students will need to use the angle properties of scalene triangles as well as angles on a straight line and around a point.
Note that the questions have been carefully selected so that they provide good coverage of this topic and so that the opportunities for students to guess answers are minimised.
Colour coding:
All my loop cards are colour-coded to indicate the approximate level of the questions:
KS2 – red and orange
KS3/GCSE Foundation – orange and green
GCSE Higher – green, blue and purple
Further information:
In this download there are four sets of similar cards and a student chooses one of the sets and sorts them into order by answering the questions. Then they try to do it faster using a different set, which has the same questions, but a different sort order 😃
My favourite use of loop cards is for two students to have different versions of the cards and race each other. They then check their answers, shuffle, swap packs and race again (quickest overall time wins). More instructions are included in the download.
Cut out card size is approx. 65 x 90 mm.
👍If you like this resource, then please rate it and/or leave a comment💬.
If the rate-resource button on this page doesn’t work, then go to your ratings page by clicking 👉 https://tes.com/.../rate-resources…
These reusable cards are excellent for one-to-one tutorials and interventions. They are also great when working with small groups or as a starter/plenary for a whole class. For Loop Cards on more than 50 other topics click --> www.tes.com/../more....
This particular set of cards allows students to practise multiplying, dividing and ‘simplifying’ surds.
Note that the questions have been carefully selected so that they provide good coverage of this topic and so that the opportunities for students to guess answers are minimised.
Colour coding:
All my loop cards are colour-coded to indicate the approximate level of the questions:
KS2 – red and orange
KS3/GCSE Foundation – orange and green
GCSE Higher – green, blue and purple
Further information:
In this download there are four sets of similar cards and a student chooses one of the sets and sorts them into order by answering the questions. Then they try to do it faster using a different set, which has the same questions, but a different sort order
My favourite use of loop cards is for two students to have different versions of the cards and race each other. They then check their answers, shuffle, swap packs and race again (quickest overall time wins). More instructions are included in the download.
Cut out card size is approx. 65 x 90 mm.
These reusable cards are excellent for one-to-one tutorials and interventions. They are also great when working with small groups or as a starter/plenary for a whole class. For Loop Cards on more than 50 other topics click 👉 www.tes.com/../more....
This particular set of cards allows students to practise calculating areas and perimeters of circles, semi-circles and quadrants.
Note that the questions have been carefully selected so that they provide good coverage of this topic and so that the opportunities for students to guess answers are minimised.
Colour coding:
All my loop cards are colour-coded to indicate the approximate level of the questions:
KS2 – red and orange
KS3/GCSE Foundation – orange and green
GCSE Higher – green, blue and purple
Further information:
In this download there are four sets of similar cards and a student chooses one of the sets and sorts them into order by answering the questions. Then they try to do it faster using a different set, which has the same questions, but a different sort order 😃
My favourite use of loop cards is for two students to have different versions of the cards and race each other. They then check their answers, shuffle, swap packs and race again (quickest overall time wins). More instructions are included in the download.
Cut out card size is approx. 65 x 90 mm.
👍If you like this resource, then please rate it and/or leave a comment💬.
If the rate-resource button on this page doesn’t work, then go to your ratings page by clicking 👉 https://tes.com/.../rate-resources…