Unit 3, Lesson 4: Technology & Innovation

Sustainable Technology Design Challenge with Mātauranga Integration

Students apply their integrated knowledge of traditional wisdom and modern STEM to design innovative solutions for contemporary environmental challenges, drawing on both mātauranga Māori and cutting-edge technology.

Lesson Overview

Duration

90 minutes (double period)

Year Level

Years 0–3

Curriculum Areas

Technology, Science, Design, Te Reo Māori

Karakia & Cultural Opening (5 minutes)

Opening Karakia

"Tiaho mai rā te whakaaro hou
Mai i ngā taonga o neherā
Ki ngā hangarau o nāianei
Hei oranga mō te taiao"

Shine forth new thinking
From the treasures of the past
To the technologies of today
For the wellbeing of the environment

Innovation with Intention

Today we become innovators who honor both tradition and transformation. We combine the sustainable practices of our tīpuna with modern technology to create solutions that serve our communities and protect our environment. Our innovations will reflect our values and our responsibilities as kaitiaki.

Ngā Whāinga Ako - Learning Objectives

Knowledge & Understanding

Apply traditional innovation principles to modern challenges
Understand sustainable design as both cultural and environmental necessity
Recognize how mātauranga Māori enhances technological innovation
Connect local environmental issues to design opportunities
Evaluate technology solutions using cultural and environmental criteria

Skills & Application

Use design thinking process for innovation
Build and test functional prototypes
Integrate traditional and modern knowledge systems
Collaborate effectively in innovation teams
Communicate design solutions to community audiences

Hook Activity: The Strongest Fiber (10 minutes)

Watch: Discover the microscopic structure that gives Harakeke its incredible strength (Science Learning Hub).

Prediction Challenge

Challenge: Which natural material is stronger: A strand of Harakeke (Flax) or a strand of Spider Silk (of the same thickness)?

Traditional Innovations

Waka Design: Hydrodynamic hull shapes for efficient water travel
Rāhui System: Temporary resource restrictions for sustainability
Hangi Cooking: Geothermal energy for food preparation
Kete Weaving: Flexible, strong materials from natural fibers
Star Navigation: Celestial positioning and direction finding

Modern Applications

GPS Technology: Satellite-based positioning systems
Biomimetic Materials: Nature-inspired synthetic fibers
Renewable Energy: Sustainable power generation
Naval Architecture: Computer-designed efficient ship hulls
Resource Management: Sustainable quota and rotation systems

Innovation Connections

Discuss: How do traditional innovations show us that our tīpuna were sophisticated engineers and scientists? What principles from traditional innovation could enhance modern technology? What does this tell us about the future of sustainable innovation?

Material Science: Harakeke Engineering

Nature's Carbon Fiber

Harakeke (NZ Flax) is not just a plant - it's a high-performance engineering material. The fiber (muka) extracted from the leaf is one of the strongest natural fibers in the world, historically used for everything from ropes to sails, and now being investigated for modern biocomposites in cars and surfboards.

The Science of Muka

Traditional Extraction (Hāro)

Technique: Using a mussel shell to scrape away the green epidermis.
Engineering: Removes the weak fleshy material, leaving only the strong internal fibers.
Treatment: Boiled and beaten (Patupatu) to soften and strengthen bonds.

Modern Material Properties

Tensile Strength: Exceptional resistance to being pulled apart.
Sustainability: Biodegradable alternative to fiberglass and carbon fiber.
Biocomposites: Mixed with eco-resins to create light, strong manufacturing materials.

Innovation Principles: Traditional Wisdom Meets Modern Design (15 minutes)

Integrated Innovation Framework

Successful innovation happens when we combine the best of traditional wisdom with modern capabilities. Our framework integrates mātauranga Māori principles with contemporary design thinking:

Traditional Principles

Whakatōhea: Holistic thinking about impacts
Whakapapa: Understanding relationships and connections
Mauri: Preserving life force and vitality
Taonga Tuku Iho: Creating lasting value for future generations

Modern Methods

Empathize: Deep understanding of user needs
Define: Clear problem definition
Ideate: Creative solution generation
Prototype: Rapid testing and learning

Integration Outcomes

Sustainable: Environmentally responsible
Culturally Appropriate: Respects values and protocols
Community-Centered: Serves real human needs
Technologically Sound: Uses best available methods

Innovation Mindset

Today you'll work as innovation teams, combining traditional wisdom with modern methods to create solutions that honor our values while addressing contemporary challenges. Remember: the best innovations serve both people and planet.

Design Challenge Introduction (15 minutes)

The Challenge: Local Solutions for Global Problems

Working in teams, choose ONE local environmental challenge and design a technology solution that integrates traditional wisdom with modern innovation. Use the Sustainable Technology Design Challenge handout as your guide.

Challenge Options

Water Quality: Monitoring and protecting local waterways
Waste Reduction: Innovative recycling or upcycling systems
Food Security: Sustainable growing or distribution methods
Energy Access: Renewable energy for community needs
Biodiversity Protection: Technology to support native species

Design Requirements

Traditional Element: Incorporates mātauranga Māori principles
Modern Technology: Uses contemporary STEM knowledge
Community Focused: Addresses real local needs
Sustainable: Environmentally responsible
Prototype-able: Can be built and tested with available materials

Team Formation & Planning

Form teams of 3-4 students with diverse skills. Spend 10 minutes:

Choose your environmental challenge
Research the traditional knowledge relevant to your challenge
Identify the modern technology you could integrate
Define your target users and their specific needs

Design Challenge: Eco-Innovation (20 minutes)

The Brief: Solve a Realm Challenge

Work in groups to design a solution for one of the Atua domains using both modern technology and traditional values.

Tangaroa (Water)

Challenge: Plastic pollution in local waterways.

Goal: Design a device or system to collect waste without harming marine life.

Thinking: How would a hīnaki (eel trap) design inform a modern waste collector?

Tāne Mahuta (Forest)

Challenge: Predator pests destroying native birds.

Goal: Create a smart-trap that identifies pests vs native species.

Thinking: How can bird calls or sensor tech distinguish between friend and foe?

Step 1: Empathize & Define

Use the Design Thinking Handout to:

Map out who is affected (people, animals, environment)
Define the core problem clearly
Brainstorm 10 rapid ideas (no judgment!)
Select your best idea to prototype

Prototype Building & Development (30 minutes)

Step 2: Build Your Solution

Bring your chosen idea to life! Remember, a prototype is a working model, not a finished product. Focus on demonstrating your core concept.

Available Materials

Cardboard & construction materials
Arduino & basic electronics
Natural materials (wood, stone, etc.)
3D printing access (simple parts)
Basic tools and fasteners

Prototype Goals

Demonstrate core functionality
Show integration of traditional & modern elements
Enable user testing and feedback
Identify areas for improvement
Communicate your concept effectively

Success Criteria

Addresses chosen environmental challenge
Shows clear traditional knowledge integration
Functions as intended (even if simplified)
Can be tested and evaluated
Demonstrates team collaboration

Building Protocol

Safety First: Use tools properly, ask for help when needed
Resource Respect: Use materials thoughtfully, minimize waste
Collaborative Building: Ensure all team members contribute meaningfully
Document Process: Take photos and notes of your development process

Testing & Iteration (20 minutes)

Step 3: Test & Refine

Real innovation happens through testing and iteration. Now test your prototype, gather feedback, and identify improvements.

Testing Protocol

Function Test: Does your prototype work as intended?
User Test: Have another team try using your solution
Integration Test: How well are traditional and modern elements combined?
Impact Test: Would this solution actually help with the environmental challenge?
Sustainability Test: Is this solution environmentally responsible?

Feedback & Iteration

Gather Feedback: What works? What doesn't? What's missing?
Identify Improvements: What would you change if you had more time?
Cultural Check: Does your solution honor traditional values?
Scale Considerations: How could this work for the wider community?
Next Steps: What would be needed to develop this further?

Step 4: Prepare Your Pitch

Prepare to present your solution to the class. Focus on: your chosen Atua challenge, how you integrated traditional and modern knowledge, what your prototype demonstrates, and what you learned through testing. You have 3 minutes per team!

Whakaata - Reflection & Assessment (5 minutes)

Innovation Assessment

Reflect on your design process:

Integration: How did you use both traditional knowledge and modern technology? (e.g., "We used the shape of a hīnaki trap but used solar sensors to trigger it")
Sustainability: Why is your solution good for Papatūānuku?
Values: Which Maori value (kaitiakitanga, manaakitanga, etc.) drove your design choices?

Success Criteria

Design Thinking: Evidence of empathy, ideation, and prototyping
Dual Knowledge: meaningful connection of Matauranga Maori and Tech
Functionality: Prototype demonstrates a clear logic/mechanism
Collaboration: Effective teamwork and communication

Extension Activities

3D Modeling

Use Tincercad or similar software to create a digital 3D model of your solution, refining the engineering details.

Biomimicry Hunt

Research three modern technologies inspired by nature (e.g., Velcro from burrs) and present them to the class.

Community Pitch

Prepare a Shark Tank-style pitch to present your innovation to local iwi or council representatives.

Material Science

Test the tensile strength of different natural fibers (flax, cabbage tree, grass) vs synthetic strings. Record data and graph results.

Whakakapi - Closing Reflection

"Kia māhaki, kia mataara, kia atahua" - Innovation is not just about function; it is about creativity, awareness, and beauty. Today you have walked in the footsteps of ancestral innovators, using your hands and minds to solve problems.

As you go forward, remember that true technology serves life. It does not dominate nature but works with it. You are the next generation of kaitiaki innovators.

Haere tū, haere ora - Go with purpose, go with health!

📋 Teacher Planning Snapshot

Ngā Whāinga Ako — Learning Intentions

Students will engage with this resource to explore the intersection of STEM disciplines and mātauranga Māori — understanding how Indigenous knowledge systems and Western science share complementary ways of knowing the world.

Ngā Paearu Angitū — Success Criteria

✅ Students can identify connections between mātauranga Māori and STEM concepts in this resource.
✅ Students can explain how dual knowledge systems strengthen understanding of natural phenomena.

Differentiation & Inclusion

Scaffold support: Provide concept maps or sentence frames to scaffold access for students at the entry level. Offer extension tasks exploring specific mātauranga Māori knowledge domains (e.g., tohu āhua rangi, rongoā, whakapapa o te taiao) in greater depth.

ELL / ESOL: Pre-teach key vocabulary in both te reo Māori and English — including domain-specific STEM terms. Bilingual glossaries and visual anchors support comprehension. Allow students to demonstrate understanding in their preferred language.

Inclusion: Tasks are designed for a range of readiness levels. Neurodiverse learners benefit from structured, chunked activities with clear success criteria. Use hands-on, inquiry-based formats where possible. Affirm the value of different ways of knowing.

Mātauranga Māori lens: Mātauranga Māori encompasses astronomy, ecology, navigation, agriculture, and medicine — systems of knowledge developed over centuries. This unit treats mātauranga Māori as epistemically equal to Western science, not supplementary. Bring kaitiakitanga as a guiding ethic: knowledge is held in relationship, not extracted.

Prior knowledge: Students benefit from baseline understanding of the relevant STEM domain. No specialist te reo Māori knowledge required — glossaries provided. Best used after introductory lessons or as a standalone exploration.

Curriculum alignment

Nature of Science — Knowledge: Science is a way of investigating, understanding, and explaining our natural, physical world; mātauranga Māori offers complementary systems of knowledge that enrich scientific understanding.
Identity, Culture, and Organisation: Understand how different knowledge systems — including mātauranga Māori — shape how communities relate to the natural world.

Unit 3, Lesson 4: Technology & Innovation

Sustainable Technology Design Challenge with Mātauranga Integration

Lesson Overview

Duration

Year Level

Curriculum Areas

Karakia & Cultural Opening (5 minutes)

Opening Karakia

Innovation with Intention

Ngā Whāinga Ako - Learning Objectives

Knowledge & Understanding

Skills & Application

Hook Activity: The Strongest Fiber (10 minutes)

Prediction Challenge

Traditional Innovations

Modern Applications

Innovation Connections

Material Science: Harakeke Engineering

Nature's Carbon Fiber

The Science of Muka

Traditional Extraction (Hāro)

Modern Material Properties

Innovation Principles: Traditional Wisdom Meets Modern Design (15 minutes)

Integrated Innovation Framework

Traditional Principles

Modern Methods

Integration Outcomes

Innovation Mindset

Design Challenge Introduction (15 minutes)

The Challenge: Local Solutions for Global Problems

Challenge Options

Design Requirements

Team Formation & Planning

Design Challenge: Eco-Innovation (20 minutes)

The Brief: Solve a Realm Challenge

Tangaroa (Water)

Tāne Mahuta (Forest)

Step 1: Empathize & Define

Prototype Building & Development (30 minutes)

Step 2: Build Your Solution

Available Materials

Prototype Goals

Success Criteria

Building Protocol

Testing & Iteration (20 minutes)

Step 3: Test & Refine

Testing Protocol

Feedback & Iteration

Step 4: Prepare Your Pitch

Whakaata - Reflection & Assessment (5 minutes)

Innovation Assessment

Success Criteria

Extension Activities

3D Modeling

Biomimicry Hunt

Community Pitch

Material Science

Whakakapi - Closing Reflection

📋 Teacher Planning Snapshot

Ngā Whāinga Ako — Learning Intentions

Ngā Paearu Angitū — Success Criteria

Differentiation & Inclusion

Curriculum alignment

🌿 Nga Rauemi Tauwehe - External Resources

Science Learning Hub

Tāhūrangi - Te Reo Māori Education Hub