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Statement of Enquiry: We must think of affordable, sustainable and innovative solutions to adapt to the needs of growing urban populations. In this outstanding, creative scheme of work, students are given a brief to design and make a scale model of a micro-house, the size of a shipping container to help solve the housing crisis in dense-urban areas. Included is a unit plan which outlines all lessons and activities. With practical, written and theory work closely related to the IB philosophy and 4 Design objective strands. Project applies a practical understanding of factual, conceptual and debatable questions. The scheme is a full term (12 - 20 week) project though could be condensed or even further extended if necessary. Students can work within the full digital project portfolio provided or in sketchbooks. Components can be laser cut or by hand so the scheme is adaptable for different school set-ups. Final model has been made out of foamcore but other materials could be substituted e.g. cardboard, acrylic or MDF. IB Unit plan included. Student and teacher examples included. – Lessons include in order: ♦ Introduction to the problem. What is a housing crisis? ♦ Data. Factors and trends. What has led to this crisis? ♦ User Research. Why design around the needs of a user? ♦ Product Analysis. How do we really understand a product? ♦Technical drawing (Orthographic) ♦CAD- SketchUp (Sketch). How can we prototype without any materials? ♦Optional CAD & CAM- 2D Design & Laser Cutting ♦Ergonomics & Anthropometrics Theory ♦Final prototyping ♦Criteria D Summative Contextual Assessment Task - How could we market and sell our design (estate agent task)? This unit/project is designed for a term (12-14 weeks) though can be extended or condensed by modifying the design process and portfolio accordingly. If you enjoyed this project/scheme of work. Please visit my shop where there are a range of creative and engaging design and engineering projects. ↠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. © DesignandEngineering

Pupils love being creative with this project which covers the entire design process of designing a physical smart toothbrush and an accompanying app, with the aim of encouraging and maintaining a healthy lifestyle. The project does not include any coding, rather it is focused on the design process, critical thinking and communicating ideas, culminating in a physical prototype and a clickable digital prototype of an app. SOI: Scientific and technical innovation can be made by connecting physical and digital products. Lessons are differentiated with strong cross-curricular (literacy) links that align with the international IB curriculum. The project requires very few resources and any apps used are free and cloud-based. The project can be adapted for different physical and/or digital learning spaces. Included is a digital portfolio which follows the four assessment objectives of the IB Design curriculum. The portfolio can be delivered digitally, printed or used as a guide. Student/teacher examples are included as well as a unit planner outlining the lessons and activities. Lessons include: ♦ Ergonomics and Anthropometrics theory. ♦ Internet of Things theory. ♦ Understanding and writing a design brief. ♦ Writing a design specification for a particular user and client. ♦ User-centered design and user research methods. ♦ Ideation strategies. ♦ Sketching techniques: isometric, orthographic. ♦ Prototyping in foam, card or 3D printing (depending on learning space). ♦ UX design and wireframing an app. ♦ UI design and prototyping a clickable prototype of an app (Figma).

Included is a unit plan outlining all lessons and activities. How can we design affordable, sustainable solutions that can help people in lower economically developed countries? In this project, students are given a brief from the UN to design a sustainable, solar light for people in developing economies, that have limited or no access to electricity. Included is a unit plan outlining all lessons and activities. Statement of inquiry: Considering the interconnection of global infrastructures creates a more equal and sustainable future for our shared planet. Students are taught a range of creative, STEAM, and research skills using both digital and physical techniques, evidencing their design process through a 23-page digital portfolio (Powerpoint) in line with the four assessment criteria. Alternatively, this can be printed or used as a template. Included are extension tasks, as well as teacher and student examples. Lessons cover: ♦ Introduction to LEDCs and the environment - historical factors and innovative solutions to provide sustainable, affordable, off-grid energy sources. What are LEDCs? What might life be like without power? What are the alternatives? ♦ Product Analysis using the ACCESS FM technique. ♦ Ideation using the SCAMPER technique. ♦ Advanced sketching techniques: isometric drawing - Which advanced sketching techniques do designers use? Isometric resource sheets. ♦ CAD Prototyping - Sketchup (free online cloud-based program) ♦ Iterative Design and Prototyping - How and why do we prototype? 2D design and/or physical prototyping. Evaluating our designs. ♦ Making the circuit - Solar Panel, LED, Switch - How do we make working circuits using different components? ♦ Final Prototyping - TinkerCad (free online cloud-based program) ♦ Final Prototyping - 3D printing or Laser Cutting 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. – ↠ 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.

Together we can design more sustainable, inclusive and innovative schools. In this project, students are tasked with the global design challenge of re-designing schools so that they are more sustainable, inclusive and innovative. Using their own school as an example, students complete a portfolio, following the design process, to design, model and justify their solutions. Unit planner outlining lessons and activities is included. Project covers: Introduction to the design brief. User Research Analysing other sustainable, innovative, and accessible school examples from around the world. Writing a design specification. Initial sketching. Refined sketching. CAD modelling. Final prototyping This project culminates in students re-designing their current school or designing a new school using free Google SketchUp software (free, Cloud-based, no installation needed). – If you enjoyed this project/scheme of work. Please visit my shop where there are a range of creative and engaging design and engineering projects. ↠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. © DesignandEngineering

The Lesson includes objectives, keywords, engaging activities, videos and current real-world examples that students can relate to. Lessons consist of tasks that apply directly to their internal assessment (IA) so that they can practically apply the key theory that they have learned. This best prepares students for both internal and external IB assessments. ↠ 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 and I will happily support you with any issues.

Pupils’ love being creative with this project. Lessons are differentiated with strong cross-curricular (Literacy, Geography, Science) links, whilst requiring very little resources (only paper, card and tape). Also Included is diffirenciated resources, and student/teacher examples. **In this lesson students will be introduced to the architect Frank Gehry. They will identify and demonstrate the key word ‘Form’ through group tasks, individual tasks and class-discussions. Leading to drawing and modelling exercises. Culminating in a design brief led task; where they are tasked with designing their own pavilion, taking inspiration from Gehry’s creative process to form. ** Lesson consists of: ♦ Starter activity. ♦ Class discussions. ♦ Prep task. ♦ Main task. ♦ Optional paper modelling task. Lesson could be extended over several lessons; particularly with the latter task. Also included is an instructional video to aid with delivery of content. If you enjoyed this lesson, please see the other lessons in my KS3 Architecture series (each lesson for each individual architect). In this unit, pupils will gain an understanding into what is architecture and identify the individual architectural styles and creative processes of varying architects (Le Corbusier, Zaha Hadid, Frank Gehry and Daniel Libeskind), applying their understanding through 2D and 3D model-making. – If you enjoyed this project/scheme of work. Please visit my shop where there are a range of creative and engaging design and engineering projects. ↠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. © DesignandEngineering

Zaha Hadid & Biomimicry - Graded Outstanding Pupils’ love being creative with this project. Lessons are differentiated with strong cross-curricular (Literacy, Geography, Science) links, whilst requiring very little resources (only paper). Also Included is homework, differentiated resources, and student/teacher examples. Also included is an instructional video to aid with delivery of content. **In this lesson students will be introduced to the architect Zaha Hadid. They will identify and demonstrate the key words ‘natural forms’, ‘form’ and ‘fluidity’ through group tasks and a class-discussion. Culminating in as design brief led task; where they will design their own purpose built building for the Tokyo 2020 Olympic games, taking inspirations from natural forms. ** Lesson consists of starter> class discussion> main task. Lesson couldbe extended over several lessons; particularly with the latter task. If you enjoyed this lesson, please see the other lessons in my KS3 Architecture series (each lesson for each individual architect). In this unit, pupils will gain an understanding into what is architecture and identify the individual architectural styles and creative processes of varying architects (Le Corbusier, Zaha Hadid, Frank Gehry and Daniel Libeskind), applying their understanding through 2D and 3D model-making. – Please visit my shop where there are a range of creative and engaging design and engineering projects. ↠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. © DesignandEngineering

One of a series of KS3 Architecture lessons where students are introduced to some of the worlds leading architects; then design buildings following their styles and principals. Le Corbusier, De Stijl & Urban Planning - Graded Outstanding. Pupils’ love being creative with this project. Lessons are differentiated with strong cross-curricular (literacy) links, whilst requiring very little resources (only paper). Also Included is homework, with student/teacher examples. Also included is an instructional video to aid with delivery of content. LS1 Students are introduced to the De Stijl, Dutch art movement, through a starter activity and teacher presentation. Additionally, they are also introduced to the idea of urban planning (following a discussion of an image into over-population) and the architect Le Corbusier; with a particular focus on the Villa Savoye. They then apply their understanding of the movement and the architect, to design their own apartment (encompassing the rules of De Stijl). Each student’s apartment can then be put together to create a class De Stijl ‘sky-scraper’; as an applied practice of urban planning. LS2 Students complete a self assessment sheet as a mid-point self evaluation with a re-cap on prior learning from the pervious lesson. They then proceed to complete their building designs and add primary colours in-line with the rules of the De Stijl movement. – If you enjoyed this project/scheme of work. Please visit my shop where there are a range of creative and engaging design and engineering projects. ↠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. © DesignandEngineering

Pupils love being creative with the project. Lessons are differentiated with strong cross-curricular (literacy) links. Whilst requiring very little resources (only paper). Also Included is homework, with student/teacher examples. LS1 **Students are introduced to the architect Daniel Libeskind and how he uses form to convey a message or narrative. Lesson includes post card group work with a particular focus on the Imperial War Museum in Manchester. They then apply their understanding of Daniel Libeskind to design their own building out of a single, paper disk, for a particular brief. ** Students complete their building designs and justify their concepts with differentiated key words. Also included is an instructional video to aid with delivery of content. – If you enjoyed this project/scheme of work. Please visit my shop where there are a range of creative and engaging design and engineering projects. ↠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. © DesignandEngineering

This series of lessons introduces students into app design. The project brief can be altered to suit any current design project but the example brief is to design an app that directs people to water bottle re-filling locations. Students first sketch then develop a clickable prototype using a free cloud-based digital design program (Figma Education, online). Introduction to UX design. Wireframing with pencil and paper. User testing - Iterative Design Introduction to UI design Making a digital wireframe Making a clickable protoype. Templates, student examples and a step-by-step guide are included. Students and teachers simply need to sign up for a free account and set up a team/class using Figma. – ↠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. © DesignandEngineering

Your students are most likely already using ChatGPT but are they using it honestly? Do they understand it? Do they understand the alternatives? To teach students about the risks and opportunities of AI and academic integrity, this research lesson and activity teaches students to compare and debate sources to determine which answer is the real truth. What better way to teach students about AI than for them to practically demonstrate how it works vs other traditional sources? Included is a lesson that explores: What is ChatGPT? How does it work? Is ChatGPT a tool or a cheat? How does it differ from other sources? How do we know the truth? What are the other ways we could find an answer? Which are more reliable and why? Students are then set a group research task where they research different debatable questions from different sources before ranking by reliability. They then summarise by determining which answer is the truth. Included: Lesson presentation. Structured student presentation template sorted by the different sources. Interactive teacher CPD presentation that explains the student lesson. Lesson plan. The content has been planned for 2-3 lessons. L1 presentation. L2 Group Research. L3 Group presentations and debates.

This bundle includes all ten topics: SL (standard level) and HL (higher level) content required for the Design Technology IB DP course. In these series of lessons, students gain an understanding of all required topics: 1. Human Factors and Ergonomics 1.1a Anthropometrics 1.1b Psychological factors 1.1c Psychological factors 2. Resource management and sustainable production 2.1 Resources and reserves 2.2 Waste mitigation strategies 2.3 Energy utilization, storage and distribution 2.4 Clean technology 2.5 Green Design 2.6 Eco-design 3. Modelling 3.1 Conceptual Modelling 3.2 Graphical Modelling 3.3 Physical Modelling 3.4 CAD 3.5 Rapid Prototyping 4. Final Production 4.1 Properties of materials 4.2a Metals and metallic alloys 4.2b Timber 4.2c Glass 4.2d Plastics 4.2e Textiles 4.2f Composites 4.3 Scales of production 4.4 Manufacturing processes 4.5 Production systems 4.6 Robots in automated production 5. Innovation and Design 5.1 Invention, IP and patents 5.2 Categories of innovation 5.3 Innovation, Acts of insight 5.3 Strategies for innovation 5.4 Stakeholders for Innovation 5.5 Planned and Perceived Obsolescence 5.5 Product Lifecycle 5.6 Rogers’ Characteristics 5.7 Market Analysis 5.7 Market Competition 5.7 Target Markets 5.7 Writing a design specification 6. Classic Design 6.1 Characteristics of classic design 6.2 Classic design, function and form 7. UCD 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 8. Sustainability 8.1 Sustainable Development 8.2 Sustainable Consumption 8.3 Sustainable Design 8.4 Sustainable Innovation 9. Innovation and Markets 9.1 Corporate Social Responsibility 9.1 Corporate Strategies 9.2 Market Sectors and Segments 9.3a Marketing mix 4P’s 9.3b Place 9.3c Price 9.4 Consumer reaction 9.4 Market research and strategies 9.5 Branding, Brand Loyalty 9.6 Packaging and brand identity 10. Commercial Production 10.1 Jit and JIC 10.2 Lean production 10.3 Computer integrated manufacturing (CIM) 10.4 Quality management 10.5 Economic viability 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. 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.

Statement of Enquiry: Designers adapt forms to communicate with and engage different audiences. In this outstanding, creative scheme of work, students are given different graphic design briefs for different clients. The scheme is a great, broad introduction to different aspects of graphic design. Briefs include: Poster using personified typography that encourages a healthy lifestyle. Logo and campaign. Book using personified typography to teach children the alphabet. Cereal packaging for adults and children (with summative portfolio). Lessons include: 1 Introduction to Graphic Design, principles and how we measure good design. 2 Introduction to personification, anthropomorphism and branding. 3 Introduction to typography. 4 Personifiying typography. 5 Introduction to design briefs, users and clients. 6 Introduction to branding and logos. 7 Introduction to packaging, audience and CAD design. With practical, written and theory work closely related to the IB philosophy and 4 Design objective strands. Project applies a practical understanding of factual, conceptual and debatable questions. The scheme is a full term (12 - 20 week) project though could be condensed or even further extended if necessary. Students can work within the full digital project portfolio provided or in sketchbooks. Graphic work can be completed on paper and/or on Canva (free, cloud-based program). Student and teacher examples included. This unit/project is designed for a term (12-14 weeks) though can be extended or condensed by modifying the design process and portfolio accordingly. If you enjoyed this project/scheme of work. Please visit my shop where there are a range of creative and engaging design and engineering projects. ↠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. © DesignandEngineering

Statement of Enquiry: **Technological advancements and innovative processes lead to greater connections between people, places and objects. ** In this outstanding, creative scheme of work, students are given a brief to design a 3D printed bridge and situate in a context. Thinking of it’s use and benefits such as type of load(s) and whether the structure needs to move. Students research a location and the work of others and apply this research to influence and justify the form and function of their own product, writing their own design brief and specification. Unit plan is also included Students make and evaluate various iterations of their design in different media throughout their design process in an accompanying portfolio. The project can be delivered in various ways, with students either/and laser cutting, 3D printing and building their own bridge model and then testing it. Lessons include: The brief: what are we designing and who for? STEM, building and testing spaghetti bridges: What is the science behind structures? Product analysis: How can we really understand and apply the work of others? Context: What bridge, where will it be situated and how will ti be used? Summarising research and developing a design specification. Sketching: How do we generate ideas? Orthographic drawing. How do we plan and apply advanced drawing techniques? CAD (Sketchup): How can we prototype without the use of materials? Card prototyping: Why make something more than once? CAD: Laser cutting (optional): How can automation help with manufacturing? 3D Printing (optional Sketchup or Fusion360). User testing: Why and how do we test our structures? Project applies a practical understanding of factual, conceptual and debatable questions. The scheme is a full term (12 - 20 week) project though could be condensed or even further extended if necessary. Students can work within the full digital project portfolio provided or in sketchbooks. CAD work can be completed using Sketchup or Fusion360 (both free) using the included guides. Laser cutting is optional (Techsoft/2D Design) as product can be prototyped by hand using digital or physical processes. Student and teacher examples included. This unit/project is designed for a term (12-14 weeks) though can be extended or condensed by modifying the design process and portfolio accordingly. If you enjoyed this project/scheme of work. Please visit my shop where there are a range of creative and engaging design and engineering projects. ↠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. © DesignandEngineering

This bundle includes all SL (standard level) content required for the Design Technology IB DP course. In this series of lessons, students gain an understanding of the required topics: 1. Human Factors and Ergonomics 1.1a Anthropometrics 1.1b Psychological factors 1.1c Psychological factors 2. Resource management and sustainable production 2.1 Resources and reserves 2.2 Waste mitigation strategies 2.3 Energy utilization, storage and distribution 2.4 Clean technology 2.5 Green Design 2.6 Eco-design 3. Modelling 3.1 Conceptual Modelling 3.2 Graphical Modelling 3.3 Physical Modelling 3.4 CAD 3.5 Rapid Prototyping 4. Final Production 4.1 Properties of materials 4.2a Metals and metallic alloys 4.2b Timber 4.2c Glass 4.2d Plastics 4.2e Textiles 4.2f Composites 4.3 Scales of production 4.4 Manufacturing processes 4.5 Production systems 4.6 Robots in automated production 5. Innovation and Design 5.1 Invention, IP and patents 5.2 Categories of innovation 5.3 Innovation, Acts of insight 5.3 Strategies for innovation 5.4 Stakeholders for Innovation 5.5 Planned and Perceived Obsolescence 5.5 Product Lifecycle 5.6 Rogers’ Characteristics 5.7 Market Analysis 5.7 Market Competition 5.7 Target Markets 5.7 Writing a design specification 6. Classic Design 6.1 Characteristics of classic design 6.2 Classic design, function and form Please visit my shop for more information on the individual units. Unfortunately TES does not allow me to create a bundle of this size. In the download you will receive a zip file with all the units organised, together with a unit planner for the full two year DT IB 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. 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.

Statement of Enquiry: Designers find opportunities from markets and trends to influence the form and function of successful products. In this outstanding, creative scheme of work, students are given a brief to design a phone stand that benefits a particular user, retailer (client) and charity. Students research peoples interests (surveys, user persona) and apply this research to influence and justify the form and function of their own product. They make and evaluate various prototypes of their product whilst evidencing the design process throughout. Unit plan outlining lessons and activities is included. Lessons include: The brief: what are we designing and who for? User research: How do we design with and not for users? Product analysis: How can we really understand a product? Summarising our research: Writing a design specification. Sketching: How do designers generate ideas? CAD (Sketchup): How can we prototype without the use of materials? Paper prototyping: What form will our product take? Card prototyping: Why make something more than once? Plastics theory: Are plastics fantastic? Laser cutting (optional): How can automation help with manufacturing? User testing: Why and how do we test products? Client evaluation: How will we market and sell our product? Project applies a practical understanding of factual, conceptual and debatable questions. The scheme is a full term (12 - 20 week) project though could be condensed or even further extended if necessary. Students can work within the full digital project portfolio provided or in sketchbooks. CAD work can be completed using Sketchup (free, cloud-based program). Laser cutting is optional as product can be prototyped by hand using digital or physical processes. Student and teacher examples included. This unit/project is designed for a term (12-14 weeks) though can be extended or condensed by modifying the design process and portfolio accordingly. If you enjoyed this project/scheme of work. Please visit my shop where there are a range of creative and engaging design and engineering projects. ↠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. © DesignandEngineering