4-H Science Toolkits - Junk Drawer Robotics
The Junk Drawer Robotics toolkit is based on the National 4-H Curriculum, “Junk Drawer Robotics.” It is geared towards middle school students, but engineering and science activities can be adapted to be appropriate for high school or, with assistance, elementary students. Materials in the kit center around the idea of robotics design. There are three levels with the curriculum, focusing on:
Level 1 – robotic arms, hands & grippers
Level 2 – moving, power transfer & locomotion
Level 3 – connections between mechanical and electronic elements.
- General Tool Kit Information Sheet (to reserve a tool kit) Word - PDF
- Facilitating Junk Drawer Robotics Information – http://www.4-h.org/resource-
library/curriculum/4-h- robotics/facilitator- resources/
- Supply List
If you liked the Junk Drawer Robotics experience, come visit the University of Maine!
The UMaine College of Engineering has year-round tours and hands on activities on campus for all age students. UMaine College of Engineering is very committed in encouraging our youth, especially girls to explore engineering careers through the Girls Engineer Maine (GEM) program. To schedule a visit for your group, contact your UMaine Extension County Office, and they will work to arrange a convenient time. Boys are welcome too!
Did you know you can minor in Robotics at UMaine? The robotics minor at UMaine is designed to provide a fundamental understanding of robotic operation and preliminary training in design and use of robots. This minor is intended to equip students with some fundamental knowledge and information on robotic manipulators, structures, systems and related applications. In particular, statics, kinematics, dynamics and control of robots will be covered in this minor. Robotic systems have wide application in modern technology and manufacturing. The students choosing this minor can also specialize, by completing special projects within the various courses, in certain aspects of intelligent robotics such as mobile walking robots, robotic vision, robotic surgery and surgical microrobots as well as the design and applications of robots for hazardous tasks and environments.