Barrie's Store for Teachers and beyond - opened May '16
Average Rating4.53
(based on 36 reviews)
I will be posting imaginative, creative multi-media lessons using PowerPoint presentations with embedded videos, and supported with Word based worksheets and Kahoot quizzes where applicable.
I will be posting imaginative, creative multi-media lessons using PowerPoint presentations with embedded videos, and supported with Word based worksheets and Kahoot quizzes where applicable.
A triangular number counts objects arranged in an equilateral triangle.
I think this is pretty much all you’ll ever need on the topic of Triangular Numbers - with 11 self-contained worksheets!
It uses animated PowerPoint presentations to drive the session , and is accompanied with Worksheets and answers.
ALL my postings are FULLY “classroom-tested” - I have delivered these lessons successfully on numerous occasions. Before I publish, my lessons are tested in the classroom by both myself and colleagues, rigorously evaluated, and continually updated to maximize their effectiveness.
Let me know if you have any questions, and a BIG BIG thanks for looking (as a practicing teacher, I KNOW how time consuming this process can be).
Search words: maths, numeracy, numbers, square numbers, squares, sequences, patterns, worksheet, triangular numbers
Click here for a full listing of all my Scratch Projects
In this project, waves of cloned alien spacecraft appear at any edge of the screen and attack the base. The player must defend their base as long as possible and destroy the aliens. Enhancements allow, for example, attack craft to appear when energy levels reach a threshold.
There are many sites offering Scratch Projects. However, many tend to be like recipes - students almost mechanically enter code and create “delicious cakes”, without learning a lot about Scratch.
My goal is to get students to create a fun project, and at the same time learn how the instructions work and fit together. I use the following approach:
- break the project into manageable chunks
- present “pseudo-code” for each chunk
- provide the Scratch commands to implement the pseudo-code, but jumbled up
In this way, students learn about pseudo-code (an important part of coding), and have to understand the Scratch instructions in order to sequence them correctly to match the pseudo-code.
The lessons comprise:
1. a PowerPoint with instructions
2. a Word document with the instruction slides printed 2 to a page as a handout
3. accompanying Scratch files for teachers that match each stage of the project
ALL my postings are FULLY “classroom-tested”, and continually updated. But there is always the possibility of error and room for improvement, so please provide constructive feedback.
I think this is pretty much all you’ll ever need on the topic of Square Numbers - with 13 Worksheets!!
It uses animated PowerPoint presentations to drive the session with Worksheets and answers.
ALL my postings are FULLY “classroom-tested” - I have delivered these lessons successfully on numerous occasions. Before I publish, my lessons are tested in the classroom by both myself and colleagues, rigorously evaluated, and continually updated to maximise their effectiveness.
Let me know if you have any questions, and a BIG BIG thanks for looking (as a practicing teacher, I KNOW how time consuming this process can be).
Packages in this series: Square Numbers, Triangular Numbers
Search words: maths, numeracy, numbers, square numbers, squares, sequences, patterns, worksheet
The Scratch 3 version is here.
Click here for a full listing of all my Scratch Projects
In this project, based on Flappy Birds, the player has to navigate an octopus through waves of hungry sharks.
There are many sites offering Scratch Projects. However, many tend to be like recipes - students almost mechanically enter code and create “delicious cakes”, without learning a lot about Scratch.
My goal is to get students to create a fun project, and at the same time learn how the instructions work and fit together. I use the following approach:
- break the project into manageable chunks
- present “pseudo-code” for each chunk
- provide the Scratch commands to implement the pseudo-code, but jumbled up
In this way, students learn about pseudo-code (an important part of coding), and have to understand the Scratch instructions in order to sequence them correctly to match the pseudo-code.
The lessons comprise:
1. a PowerPoint with instructions
2. a Word document with the instruction slides printed 2 to a page as a handout
3. accompanying Scratch files for teachers that match each stage of the project
ALL my postings are FULLY “classroom-tested”, and continually updated. But there is always the possibility of error and room for improvement, so please provide constructive feedback.
Pleases ensure that your students are OK with flashing images, etc… and show slides accordingly.
Students absolutely love these - and for many, it’s the very first time they’ve seen optical illusions.
It’s so much fun to watch their expressions - “Mr. James…these hurt my brain! WOW”
The slides present the illusion, and then additional slides try to break down some of the illusions and explain how they work.
The PowerPoint contains over 50 illusions, and I’d suggest showing just a few at a time - maybe as a weekly or fortnightly 15 min filler.
The PowerPoint also contains an embedded video with extremely powerful, moving illusions.
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practicing teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximize their effectiveness.
But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
Click here for a full listing of all my Scratch Projects
In this project, students create Worlds with various challenges. As each challenge is overcome, a new one appears, leading finally to a second world opening up, full of new challenges.
There are many sites offering Scratch Projects. However, many tend to be like recipes - students almost mechanically enter code and create “delicious cakes”, without learning a lot about Scratch.
My goal is to get students to create a fun project, and at the same time learn how the instructions work and fit together. I use the following approach:
- break the project into manageable chunks
- present “pseudo-code” for each chunk
- provide the Scratch commands to implement the pseudo-code, but jumbled up
In this way, students learn about pseudo-code (an important part of coding), and have to understand the Scratch instructions in order to sequence them correctly to match the pseudo-code.
The lessons comprise:
1. a PowerPoint with instructions
2. a Word document with the instruction slides printed 2 to a page as a handout
3. accompanying Scratch files for teachers that match each stage of the project
Lessons in the series:
ALL my postings are FULLY “classroom-tested”, and continually updated. But there is always the possibility of error and room for improvement, so please provide constructive feedback.
Note that this project is for PowerPoint 2016
Students regularly create presentations using PowerPoint but all too often, have not been shown some of the key features.
This pack of 4, one-hour lessons covers:
Launching PowerPoint and the Opening Screen
Design Themes and Variants
Inserting and manipulating items (text, wordart, pictures)
Animations
Transitions
Hyperlinks
The final lesson brings it all together, asking students to create a short presentation using all that they have learnt.
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practising teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximise their effectiveness. But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
Teacher/Author: Barrie James
This is a set of 18 Worksheets, each comprising around 10 sentences to complete, and each supported with a Word Search to reinforce the learning.
“y” words - “i” sound.
“ou” words - “u” sound.
“ch” words - “k” sound.
“ch” words - “sh” sound.
“ei” words - “ay” sound.
“tion” words – “shun” sound.
“sion” words - “zhun” sound.
“cian” words – “shun” sound.
“ssion” words – “shun” sound.
“gue” words – “g” sound.
“que” words – “k” sound.
“sc” words - “s” sound.
“cial” words - “shul” sound.
“tial” words - “shul” sound.
“ture” words - “cher” sound.
“sure” words - “sher” sound.
“tch” words - “ch” sound.
“ious” words - “shus” sound.
My approach using these resources is:
discuss the sound with the students
complete the worksheet independently
learn the spellings with a partner
write your own sentences
complete a Word Search (for fun)
I pride myself on presentation and hope these worksheets will inspire and engage your students.
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practising teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximise their effectiveness. But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
Fractions - love them or hate them, they're part of life!!
This resource uses the Tangram shapes to explore fractions and equivalence in a fun (yes!) and visual way. It can be used an an exploratory introduction to your fractions module.
Included is a Word document with 5 pages of investigations, an answer grid, a PowerPoint with various resources for you to adapt, and a downloaded youtube video ("A Sage's Journey The Story of Tangrams").
This collection of questions and situations, presented in a PowerPoint presentation of over 100 slides, really provokes students into deep thinking!
There are no answers as such. This is not a yes/no type of exercise. All the slides present situations and questions that provoke the students to find their own answer, knowing that there remains uncertainty!
Once familiar with the slides, you will be able to come back with your own follow up questions, further provoking students to rethink or reconsider their answers.
Students feel frustrated, but more so, extremely elated!
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practicing teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY "classroom-tested" - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximize their effectiveness.
But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
Search words: thinking, thought, insight, brain, training, questions
So much of mathematics benefits significantly from a knowledge of tables – addition, multiplication, division, equivalent fractions, area, perimeter, time, money, ratio, proportion, percentage, …. And yet, so little time is devoted to what may be deemed the old school approach of memorizing tables. Whilst time is undoubtedly at a premium in today’s expanding curriculum, spending time to learn tables ensures that all subsequent areas of mathematics can be learnt more quickly and efficiently, saving time in the long run.
Typically, too many students answer the question “what is 6 x 4” with strategies such as using repeated addition on their fingers to go from 4 to 8 to 12 to 16 to 20 to 24, or by doubling 3 x 4. Whilst these are admirable and acceptable ways of working out the answer, they are overly time consuming and prove that the student has NOT memorized their table. Since instant recall of tables facts is so beneficial, the goal should be for the student to have cast the entire table to memory and to then be able to state the answer instantly, and without any hesitation.
These sheets are designed with this in mind - to help students MEMORIZE the multiplication tables. As students progress from column 1 through to column 5 for each table, they are continually repeating the table and thereby gaining greater exposure to it, and in most cases, this is in itself part of the memorizing process.
This is part of a set of top rated, “turbo-charged” (just take a look), self-contained (what every teacher craves), stimulating (genuinely loved by students and also great for VERY high ability students) morning starters, each with a main task, plus an extension for those who solve the challenge more quickly (this should avoid the question… “I’ve finished… what should I do now?”).
Each challenge is self-explanatory, and should take approx. 15 - 30 minutes to investigate/solve.
The tasks are presented in a visually exciting PowerPoint (which I loved creating), with a logical progression of clues guiding students towards the solution. The slides are animated where appropriate to provide clearer explanations and are designed to encourage students to adopt a “mathematical brain” (no sledgehammers allowed! - a slogan my students now associate with me!).
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practicing teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximize their effectiveness.
But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
Teacher/Author: Barrie James
Search words: math, numeracy, numbers, arithmetic, starters, challenge, brain, stimulate, problem, mental, thinking, abstract
This is part of a set of top rated, “turbo-charged” (just take a look), self-contained (what every teacher craves), stimulating (genuinely loved by students and also great for VERY high ability students) morning starters, each with a main task, plus an extension for those who solve the challenge more quickly (this should avoid the question… “I’ve finished… what should I do now?”).
Each challenge is self-explanatory, and should take approx. 15 - 30 minutes to investigate/solve.
The tasks are presented in a visually exciting PowerPoint (which I loved creating), with a logical progression of clues guiding students towards the solution. The slides are animated where appropriate to provide clearer explanations and are designed to encourage students to adopt a “mathematical brain” (no sledgehammers allowed! - a slogan my students now associate with me!).
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practicing teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximize their effectiveness.
But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
Teacher/Author: Barrie James
Search words: math, numeracy, numbers, arithmetic, starters, challenge, brain, stimulate, problem, mental, thinking, abstract
Note that, although these lessons are written specifically for Word 2016, the content is generic and pretty much applies to all subsequent versions of Word.
Word processing is a key skill in many walks of life, both business and personal, and Microsoft Word dominates the market. Being able to use this application effectively therefore provides the user with a real advantage.
The course comprises 4 one-hour lessons, using a stimulating PowerPoint presentation to introduce each lesson, and includes supporting worksheets to accompany the lessons.
A first look at word processing and Microsoft Word (including tips on selecting text, navigating, deleting text and using the Clipboard)
Formatting Fonts and Paragraphs
Inserting and formatting images
Free exploration
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practising teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximise their effectiveness. But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
Click here for a full listing of all my Scratch Projects
In this project, students create a question and answer quiz using different backdrops for each question.
There are many sites offering Scratch Projects. However, many tend to be like recipes - students almost mechanically enter code and create “delicious cakes”, without learning a lot about Scratch.
My goal is to get students to create a fun project, and at the same time learn how the instructions work and fit together. I use the following approach:
- break the project into manageable chunks
- present “pseudo-code” for each chunk
- provide the Scratch commands to implement the pseudo-code, but jumbled up
In this way, students learn about pseudo-code (an important part of coding), and have to understand the Scratch instructions in order to sequence them correctly to match the pseudo-code.
The lessons comprise:
1. a PowerPoint with instructions
2. a Word document with the instruction slides printed 2 to a page as a handout
3. accompanying Scratch files for teachers that match each stage of the project
ALL my postings are FULLY “classroom-tested”, and continually updated. But there is always the possibility of error and room for improvement, so please provide constructive feedback.
** Updated for Scratch version 3.**
Click here for a full listing of all my Scratch Projects
In this project, based on Flappy Birds, the player has to navigate an octopus through waves of hungry sharks.
There are so many really great sites offering Scratch Project ideas. However, many tend to be like recipes - follow the instructions and you’ll create a cake. The problem I find is that the students almost mechanically enter code and create “delicious cakes”, but without learning an awful lot about Scratch.
My goal is to get students to create a fun project, whilst at the same time learn how the instructions work and fit together. To this end, I use the following approach:
break the project down into manageable chunks
present students with an algorithm for each chunk
provide students with the instructions for each algorithm, but jumbled up
In this way, students learn about algorithms (a VERY important part of coding), and have to understand the instructions in order to sequence them to correctly match the algorithm.
The lessons comprise:
a PowerPoint with introductory slides, together with the project instructions
a Word document with the PowerPoint instruction slides printed 2 to a page as a handout for students to follow
accompanying fully-working Scratch project files for teachers that match each chunk of the project
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practicing teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximise their effectiveness. But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
Teacher/Author: Barrie James
Search words: scratch, computer, programming, coding, algorithm
The ever expanding CodeClub first promoted Scratch, and I loved it – creating and successfully delivering a range of lessons for Junior students.
Code Club is now promoting Blender and I think I love it even more!
I’ve created and delivered a series of lessons for Junior students this year, and the response was overwhelming. Students loved learning about 3D graphics and went on to produce some amazing creations of their own. While I thought it might be too advanced, students as young as 8 have grasped and loved using it.
3D GRAPHICS REALLY IS A USEFUL SKILL FOR THE DIGITAL FUTURE.
The lessons assume absolutely no knowledge and build up in a gradual way
Lessons 1-2 (FREE)
What is Blender
The Blender interface
Navigating the 3D view port
Lessons 3-5
Transforming objects
Creating, selecting and duplicating objects
Project: create a snowman
Lessons 6-9
Rendering, colours and lighting
Editing objects
Project: create a donut
Lessons 10-13
3D Text
Box modelling - extruding, loop cuts, insets, bevels
Project: create a Treasure Chest
Lessons 14-15
Animations using Timeframes
Animations using Rigid Bodies
Each lesson is delivered via an animated PowerPoint with an accompanying Workbook, and follows a similar format:
A short video to inspire (embedded in the PowerPoint)
Explanations about any new concepts and skills
A demo of what will be covered (Blender demo files included)
Working together trying out these new concepts and skills (Workbook and Blender exercise files are provided)
Free exploration
A project bringing it all together (a finished Blender file is provided)
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practicing teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximise their effectiveness.
But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
The ever expanding CodeClub first promoted Scratch, and I loved it – creating and successfully delivering a range of lessons for Junior students.
Code Club is now promoting Blender and I think I love it even more!
I’ve created and delivered a series of lessons for Junior students this year, and the response was overwhelming. Students loved learning about 3D graphics and went on to produce some amazing creations of their own. While I thought it might be too advanced, students as young as 8 have grasped and loved using it.
3D GRAPHICS REALLY IS A USEFUL SKILL FOR THE DIGITAL FUTURE.
The lessons assume absolutely no knowledge and build up in a gradual way
Lessons 1-2 (FREE)
What is Blender
The Blender interface
Navigating the 3D view port
Lessons 3-5
Transforming objects
Creating, selecting and duplicating objects
Project: create a snowman
Lessons 6-9
Rendering, colours and lighting
Editing objects
Project: create a donut
Lessons 10-13
3D Text
Box modelling - extruding, loop cuts, insets, bevels
Project: create a Treasure Chest
Lessons 14-15
Animations using Timeframes
Animations using Rigid Bodies
Each lesson is delivered via an animated PowerPoint with an accompanying Workbook, and follows a similar format:
A short video to inspire (embedded in the PowerPoint)
Explanations about any new concepts and skills
A demo of what will be covered (Blender demo files included)
Working together trying out these new concepts and skills (Workbook and Blender exercise files are provided)
Free exploration
A project bringing it all together (a finished Blender file is provided)
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practicing teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximise their effectiveness.
But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
The ever expanding CodeClub first promoted Scratch, and I loved it – creating and successfully delivering a range of lessons for Junior students.
Code Club is now promoting Blender and I think I love it even more!
I’ve created and delivered a series of lessons for Junior students this year, and the response was overwhelming. Students loved learning about 3D graphics and went on to produce some amazing creations of their own. While I thought it might be too advanced, students as young as 8 have grasped and loved using it.
3D GRAPHICS REALLY IS A USEFUL SKILL FOR THE DIGITAL FUTURE.
The lessons assume absolutely no knowledge and build up in a gradual way
Lessons 1-2 (FREE)
What is Blender
The Blender interface
Navigating the 3D view port
Lessons 3-5
Transforming objects
Creating, selecting and duplicating objects
Project: create a snowman
Lessons 6-9
Rendering, colours and lighting
Editing objects
Project: create a donut
Lessons 10-13
3D Text
Box modelling - extruding, loop cuts, insets, bevels
Project: create a Treasure Chest
Lessons 14-15
Animations using Timeframes
Animations using Rigid Bodies
Each lesson is delivered via an animated PowerPoint with an accompanying Workbook, and follows a similar format:
A short video to inspire (embedded in the PowerPoint)
Explanations about any new concepts and skills
A demo of what will be covered (Blender demo files included)
Working together trying out these new concepts and skills (Workbook and Blender exercise files are provided)
Free exploration
A project bringing it all together (a finished Blender file is provided)
Let me know if you have any questions or suggestions, and a BIG BIG thanks for looking (as a full time practicing teacher, I KNOW how time consuming this process can be).
ALL my postings are FULLY “classroom-tested” - before I publish, my lessons are tested by both myself and colleagues, rigorously evaluated and discussed, and continually updated to maximise their effectiveness.
But there is always the possibility of error and room for improvement, so do please provide constructive feedback.
**UPDATED for Scratch version 3 **
Click here for a full listing of all my Scratch Projects
In this project, the player must move a sprite through the maze using the keyboard. Timers, obstacles (floating sprites) and a more difficult maze can be added as enhancements .
There are many sites offering Scratch Projects. However, many tend to be like recipes - students almost mechanically enter code and create “delicious cakes”, without learning a lot about Scratch.
My goal is to get students to create a fun project, and at the same time learn how the instructions work and fit together. I use the following approach:
- break the project into manageable chunks
- present “pseudo-code” for each chunk
- provide the Scratch commands to implement the pseudo-code, but jumbled up
In this way, students learn about pseudo-code (an important part of coding), and have to understand the Scratch instructions in order to sequence them correctly to match the pseudo-code.
The lessons comprise:
1. a PowerPoint with instructions
2. a Word document with the instruction slides printed 2 to a page as a handout
3. accompanying Scratch files for teachers that match each stage of the project
ALL my postings are FULLY “classroom-tested”, and continually updated. But there is always the possibility of error and room for improvement, so please provide constructive feedback.