Description
This set integrates Eco-Farm Explorer and guides learners to understand the complete food and agriculture system through hands-on operation and construction-based learning.
In the course design, learners will be introduced to mechanisms such as tracked systems and gear transmission systems. The building blocks are not only used as construction tools but also serve as an important medium for simulating agricultural production, food sources, and environmental interactions.
Through assembling a variety of models, learners can simulate farm design, the operation of agricultural tools, and food production processes. During the process, they can observe the power transmission effects generated by gear structures, as well as the actual operation and applications of tracked mechanisms. This enables them to gain a more concrete understanding of how agricultural machinery functions in real-world production. Through hands-on assembly and observation, learners can not only understand crop growth environments and production processes, but also reflect on the relationship between dietary choices and environmental sustainability, thereby developing sound concepts of agri-food education.
This course series emphasizes STEAM interdisciplinary learning, transforming abstract concepts into concrete hands-on experiences. Learning goes beyond knowledge acquisition and extends into practical application and creativity development. Through building block activities, mechanism assembly, and system observation, students can not only learn about traditional agriculture—where farming relies on human labor and basic mechanical operations such as sowing, harvesting, and transportation—but also further understand how smart agriculture integrates modern technologies, including automation, mechanized operations, and systematic management, to improve production efficiency and resource utilization. In this way, students can build a comprehensive understanding of the evolution of agricultural development while enhancing learning motivation and real-life connections.
