Build and code a windmill that simulates power generation.
- Intuitive building blocks, smart components, and reversible connecting wires
- Block-based programming, powered by micro:bit
- Low floor, high ceiling: accessible for beginners, yet engaging for more advanced students
- Includes standards-aligned, turnkey lessons that can be completed in a single session
- This kit is suitable for grades three to six
The Climate action kit, powered by micro:bit, reshapes K-12 coding and robotics education providing an engaging platform for students to explore computer science while addressing climate change challenges. Consisting of hardware, software and a meticulously designed curriculum, the kit aims to foster STEM education under the guidance of educators. Microsoft’s makecode serves as the software backbone, offering a web-based interface for coding with blocks or text in Python or JavaScript. The curriculum, aligned with educational standards such as NGSS, Common Core, and CSTA, introduces climate change issues and their technological solutions, guiding students through the process of coding and building their own prototypes. The micro:bit serves as the powerhouse behind this educational initiative, facilitating hands-on learning experiences.
The Wind turbine kit is a key component of the Climate action kit product range. With this kit, teachers can effortlessly teach coding and robotics in an engaging way. Students will explore the fascinating world of renewable and cost-effective energy, specifically wind energy, and its role in fighting climate change. They’ll have the chance to get hands-on by building and programming their very own wind turbine prototype.
The Climate action kit is designed to be beginner-friendly, engaging, and purposeful for students and teachers alike. It supports a continuum of learning across multiple subjects and grade levels, from primary to high school. It also connects to real United Nations’ Sustainable development goals, inspiring students to be tomorrow’s changemakers.
Ordering information: At least one micro:bit required for each kit, available separately.
Delivery information: Robotic components: (1) Breakout board with battery; (1) rotary dial; (1) LED light; (1) continuous servo motor.
Building blocks: (1) base plate; (4) long frames; (4) small frames; (1) circle; (2) cube connectors; (4) back-to-back connectors; (2) component backing connectors.
Additional parts: (2) short cable connectors; (1) USB cable; getting started guide.
The kit also includes online access to project-based lessons educator curriculum courses.