Create, Experiment, Build, Question and Learn.
I am a specialist Product and Graphic Design Teacher, specialising in the Iterative process of designing, prototyping and evaluating. With a particular focus on entrepreneurship and making, rooted in real-world contexts and challenges.
My mission is to plan and deliver creative, fun and engaging lessons for KS3, 4 and 5, ages 11-18.
Create, Experiment, Build, Question and Learn.
I am a specialist Product and Graphic Design Teacher, specialising in the Iterative process of designing, prototyping and evaluating. With a particular focus on entrepreneurship and making, rooted in real-world contexts and challenges.
My mission is to plan and deliver creative, fun and engaging lessons for KS3, 4 and 5, ages 11-18.
In this conceptual project, students are given a brief and apply their learning through the design and presentation of an artifact. Students love the challenge of speculating on the future and forming their concepts around a narrative. There have been some fascinating outcomes as students relish the creative freedom.
Speculative design is designing from a critical, political and/or ethical perspective in the form of an artifact from the near or distant future. There are several reasons why we might use speculative design:
To question and critique.
Raise awareness.
Start conversations.
Provoke, amuse or annoy.
The word ‘artifact’ is deliberate as the outcomes does not need to be a physical product. The outcome can be in the form of any 2D, 3D or digital ‘artifact(s)’. For example it could be a guide, a map, packaging etc. Trying to make the future artifact as believable as possible through storytelling.
Project structure:
What is speculative design?
Mind-map tasks
Case study
Imagining the world in 2067 in regards to society, housing, resources, economy, politics, technology, health and environment
Critique Sessions
Prototyping of artifact
Final presentation
The project can help students develop their rapid prototyping, storytelling, critiquing and presenting skills. It has been delivered to both college and university students.
In this series of lessons, students gain an understanding into the topic 6 (Classic Design) theory content of the IB DP Design and Technology course.
Lessons include objectives, keywords, engaging activities, videos and real-world examples that students can relate to. Lessons culminate in a task where students consolidate and apply the key theory that they have learnt so that they are prepared for any IB DP assessments.
Lessons cover the entirety of what students need to learn for Topic 7 and can be taught in any order.
6.1 Characteristics of Classic Design
6.2 Classic Design Function and Form
Lessons should ideally be taught in order. If you enjoyed this project/scheme of work. Please visit my shop where there is a range of creative and engaging design and engineering projects.
In this series of lessons, students gain an understanding into the topic 7 (User Centered Design) theory content of the IB DP Design and Technology course.
Lessons include objectives, keywords, engaging activities, videos and real-world examples that students can relate to. Lessons culminate in a task where students consolidate and apply the key theory that they have learnt so that they are prepared for any IB DP assessments.
Lessons cover the entirety of what students need to learn for Topic 7 and can be taught in any order.
7.1, 7.2 UCD.
7.3 Strategies for User Research.
7.4 Strategies for User-Centered Design (UCD).
7.5 Beyond Usability - Designing for Pleasure and Emotion.
Lessons should ideally be taught in order. If you enjoyed this project/scheme of work. Please visit my shop where there is a range of creative and engaging design and engineering projects.
In this series of lessons, students gain an understanding into the topic 1 (Human Factors and Ergonomics) theory content of the IB DP Design and Technology course.
Lessons include objectives, keywords, engaging activities, videos and real-world examples that students can relate to. Lessons culminate in a task where students consolidate and apply the key theory that they have learnt so that they are prepared for any IB DP assessments.
Lessons cover the entirety of what students need to learn for Topic 9 Innovation and Markets and can be taught in any order.
1.1a Ergonomics and Anthropometrics.
1.1a Improving Ergonomics.
1.1b Psychological Factors Collection Methods and Processing Systems.
1.1c Comfort Fatigue and Biomechanics.
Lessons can be taught in any order. If you enjoyed this project/scheme of work. Please visit my shop where there is a range of creative and engaging design and engineering projects.
↠ Projects work in Powerpoint or Google slides. This file may be zipped. Once downloaded right-click the file and select ‘extract all’ to open. ↞
✎Please note I am a UK seller and unless otherwise stated the product uses standard English. This should not affect the use of this product in other countries. ✎
♥ After using this product please leave a rating and comment.
♦ If there are any issues with the product please contact me (via the Ask a Question tab) before leaving feedback.
In this series of lessons, students gain an understanding of the topic 8 (Sustainability) theory content of the IB DP Design and Technology course.
Lessons include objectives, keywords, engaging activities, videos and real-world examples that students can relate to. Lessons culminate in a task where students consolidate and apply the key theory that they have learnt so that they are prepared for any IB DP assessments.
Lessons cover the entirety of what students need to learn for the topic and can be taught in any order.
8.1 Sustainable Development
8.2 Sustainable Consumption
8.3 Sustainable Design
8.4 Sustainable Innovation
If you enjoyed this project/scheme of work. Please visit my shop where there is a range of creative and engaging design and engineering projects.
This unit acts as fun and engaging introduction into coding, with** students using the Scratch language to create their own interactive educational game for primary year students. There is an accompanying portfolio for students to complete where they investigate, design then test/evaluate their programs.
Statement of Enquiry: Scientific logic and systems can be used to create innovative and functional products.
Unit covers:
♦ Introduction to coding: How does a computer understand instructions?
♦ Introduction into: storage - process - output: How can we create interactions?
♦ Debugging: How can we find and fix errors in code?
♦ Creating Sprites and backgrounds: How can we size and move things on screens?
♦ Program analysis: Why look at the work of others?
♦ Generating and evaluating design ideas:
♦ Loops: How can I simplify my code?
♦ What/if statements: How can code make it’s own decisions?
♦ Variables: How can we use storage to make our programs more interactive?
♦ Feedback: How do we measure the success of our program?
Included are:
Slide presentations for each lesson.
Editable student portfolio.
Additional lesson resources.
Scratch how-to cards.
Links to an online coding course.
Student outcomes and examples.
If you enjoyed this project/scheme of work please leave a review and visit my shop where there is a range of creative and engaging design and engineering projects.
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↠ Projects work in Powerpoint or Google slides. This file may be zipped. Once downloaded right-click the file and select ‘extract all’ to open. ↞
✎Please note I am a UK seller and unless otherwise stated the product uses standard English. This should not affect the use of this product in other countries. ✎
♥ After using this product please leave a rating and comment.
♦ If there are any issues with the product please contact me (via the Ask a Question tab) before leaving feedback.