Free maths resources from me, Craig Barton. I am the creator of mrbartonmaths.com & diagnosticquestions.com. I am also the TES Maths Adviser and the host of the Mr Barton Maths Podcast.
Free maths resources from me, Craig Barton. I am the creator of mrbartonmaths.com & diagnosticquestions.com. I am also the TES Maths Adviser and the host of the Mr Barton Maths Podcast.
A Tarsia activity on linear sequences (nth term rule). These type of activities can be used to consolidate understanding of a given topic, and foster positive group work and co-operative learning. For more ideas on how to use these types of activities (including twists!) and to download the latest version of the wonderful free software to open this resource (and create your own), just click on the web-link. If you have any comments, or spot any (non deliberate!) mistakes, please share them below. Many thanks to all the teachers who have helped me assemble these Tarsias over the years.
A Tarsia activity on linear sequences (nth term rule). These type of activities can be used to consolidate understanding of a given topic, and foster positive group work and co-operative learning. For more ideas on how to use these types of activities (including twists!) and to download the latest version of the wonderful free software to open this resource (and create your own), just click on the web-link. If you have any comments, or spot any (non deliberate!) mistakes, please share them below. Many thanks to all the teachers who have helped me assemble these Tarsias over the years.
A Tarsia activity on the properties of numbers. These type of activities can be used to consolidate understanding of a given topic, and foster positive group work and co-operative learning. For more ideas on how to use these types of activities (including twists!) and to download the latest version of the wonderful free software to open this resource (and create your own), just click on the web-link. If you have any comments, or spot any (non deliberate!) mistakes, please share them below. Many thanks to all the teachers who have helped me assemble these Tarsias over the years.
A Tarsia activity on Fractional Indices. These type of activities can be used to consolidate understanding of a given topic, and foster positive group work and co-operative learning. For more ideas on how to use these types of activities (including twists!) and to download the latest version of the wonderful free software to open this resource (and create your own), just click on the web-link. If you have any comments, or spot any (non deliberate!) mistakes, please share them below. Many thanks to all the teachers who have helped me assemble these Tarsias over the years.
A Tarsia activity on Negative Numbers (level 6). These type of activities can be used to consolidate understanding of a given topic, and foster positive group work and co-operative learning. For more ideas on how to use these types of activities (including twists!) and to download the latest version of the wonderful free software to open this resource (and create your own), just click on the web-link. If you have any comments, or spot any (non deliberate!) mistakes, please share them below. Many thanks to all the teachers who have helped me assemble these Tarsias over the years.
A Tarsia Jigsaw activity on Straight Line Graphs with co-ordinates. These type of activities can be used to consolidate understanding of a given topic, and foster positive group work and co-operative learning. By making adjustments such as removing answers and making deliberate mistakes, they can be made even more challenging and engaging to the students. To download the latest version of the wonderful free software to open this resource (and create your own), click on the web-link. If you have any comments, or spot any (non deliberate!) mistakes, please share them below.
The 31st in Mr Barton's Autograph Video tutorial series. This week we take a look at how we can make the study of vectors in 2D more dynamic, which culminates in a suggestion for a nice little starter activity that you can try on your students. Below the video you will find an option to download it and play it on a larger screen, or by clicking on the web-link you can see all the videos in this series.
Geometrical Reasoning - Pythagoras and Coordinae geometry
An excel file that randomly produces right angled triangles for students to calculate the hypotenuse or a non-hypotenuse side. Quick questions great for a plenary of starter. Triangles are on an acis so great for finding the distance between two points.
A Tarsia activity on finding the percentage of an amount. These type of activities can be used to consolidate understanding of a given topic, and foster positive group work and co-operative learning. For more ideas on how to use these types of activities (including twists!) and to download the latest version of the wonderful free software to open this resource (and create your own), just click on the web-link. If you have any comments, or spot any (non deliberate!) mistakes, please share them below. Many thanks to all the teachers who have helped me assemble these Tarsias over the years.
A tutorial video from the Autograph team. The concepts learnt in the investigation of areas can also be applied to volumes of revolution. Suppose the region under the curve y = f(x) between x = a and x = b is revolved around the x-axis to form a solid. What is the volume of this solid? How can we approximate the volume? Clicking on the web-link below takes you to all the videos in this series.
The twelfth video in Mr Barton's Autograph tutorial series. Douglas Butler returns again! This time with a great suggestion for introducing the Normal Distribution via a look at the fascinating world of IQ. The also encompasses Autograph's wonderful scaling option for nasty looking data! Below the video you will find an option to download it and play it on a larger screen, or by clicking on the web-link you can see all the videos in this series.
Part of Mr Barton's Autograph Video Tutorials. In this second video we look at three different ways of doing Reflections in Autograph. Below the video you will find an option to download it and play it on a larger screen, or by clicking on the web-link you can see all the videos in this series.
A series of short videos to guide you through some of the things you can do on Autograph 3.3. A new video will be added each week. In this first video we look at the issue of Whiteboard Mode and how we go about creating basic shapes. Below the video you will find an option to download it and play it on a larger screen, or by clicking on the web-link you can see all the videos in this series.
A Tarsia activity on finding the percentage of an amount. These type of activities can be used to consolidate understanding of a given topic, and foster positive group work and co-operative learning. For more ideas on how to use these types of activities (including twists!) and to download the latest version of the wonderful free software to open this resource (and create your own), just click on the web-link. If you have any comments, or spot any (non deliberate!) mistakes, please share them below. Many thanks to all the teachers who have helped me assemble these Tarsias over the years.
A Tarsia jigsaw activity with a difference, kindly shared by Gill Hillitt. Unlike traditional Tarsia activities, this one is accompanied by a sheet of additional information containing a variety of data sets presented in different ways. Students must interpret the data and statistical diagrams (including histogram and stem and leaf), and use their answers to complete the jigsaw. This is a nice way of revising the key data handling components of GCSE. For more information about Tarsia, click on the web link.
This is a tutorial video on how to use Autograph to explore iteration. Ideal for A Level Maths students. The 44th in Mr Barton's Autograph Video tutorial series. Following a request from Mr Howard of Bolton School, this week we look at how Autograph can be used to help students visualise how the iterative process works. We look at three different examples which lead to convergence, divergence, and something rather odd... Clicking on the web-link you can see all the videos in this series.
“Build an Army” is a fun, strategy game that can be used to consolidate understanding of key mathematical concepts. After students have played the game and described their strategy, there are opportunities for differentiation via various lines of inquiry and probing questions for the students to investigate. Full instructions are provided in the “General Rules” PowerPoint. To find more Build an Army activities, just visit: http://www.mrbartonmaths.com/buildanarmy.htm
“Build an Army” is a fun, strategy game that can be used to consolidate understanding of key mathematical concepts. After students have played the game and described their strategy, there are opportunities for differentiation via various lines of inquiry and probing questions for the students to investigate. Full instructions are provided in the “General Rules” PowerPoint. To find more Build an Army activities, just visit: http://www.mrbartonmaths.com/buildanarmy.htm
“Build an Army” is a fun, strategy game that can be used to consolidate understanding of key mathematical concepts. After students have played the game and described their strategy, there are opportunities for differentiation via various lines of inquiry and probing questions for the students to investigate. Full instructions are provided in the “General Rules” PowerPoint. To find more Build an Army activities, just visit: http://www.mrbartonmaths.com/buildanarmy.htm
This is a rich Venn Diagram activity on properties of 3D shapes, including faces, edges, etc.
To access all the Venn Diagram activities in this collection, as well as teaching notes, please visit: http://www.mrbartonmaths.com/venn.htm
Here is why I love Venn Diagram activities so much:
1) Students can always make a start. If they can think of a number/expression/object or whatever it might be, it has to go in one of the regions on the diagram, so they are up and running
2) The more regions student find, the more challenging the task gets, which adds a nice element of differentiation
3) They are incredibly versatile, and can be used for almost all maths topics for all ages and abilities
4) They are easy to tweak by simply changing one of the circle labels if you find they are too difficult/easy
5) Students can create their own as an extension task
I hope you and your students enjoy them.