Abstract
STEM literacy is identified as a necessary skill for participation in the future workforce. 4-H has responded to this need to develop STEM-ready youth by expanding access to project areas like Robotics. It has been acknowledged that recruiting and training STEM competent staff and volunteers is a limitation in expanding these types of programs. At the same time, 4-H youth are enrolled in many traditional non-STEM projects that are imbued with STEM concepts. 4-H volunteers with increased awareness of their role in fostering STEM education and STEM literacy can be a valuable resource in preparing 4-H youth with STEM-ready professional skills. 4-H professionals can train front-line volunteers to use an intentional STEM infusion approach within the experiential learning process. It is posited that volunteers will be better able to facilitate STEM learning in real-world contexts for a wide-range of 4-H youth by using this approach. The use of the ISI approach provides an opportunity for 4-H to develop more STEM-ready youth than by only serving those youths who are attracted to STEM-focused projects alone.
Publisher
Mississippi State University Libraries - DIGITAL COMMONS JOURNALS
Reference33 articles.
1. Arnold, M. E., Bourdeau, V. D., & Nott, B. D. (2013). Measuring science inquiry skills in youth development programs: The Science Process Skills Inventory. Journal of Youth Development, 8(1).
2. Basham, J. D., & Marino, M. T. (2013). Understanding STEM education and supporting students through universal design for learning. Teaching Exceptional Children, 45(4), 8.
3. Beard, C., & Wilson, J. P. (2002). The power of experiential learning: A handbook for trainers and educators. London, UK: Kogan Page Limited.
4. Bybee, R. (2013). The case for STEM education: Challenges and opportunities. Arlington, VA: National Science Teachers Association.
5. Cromwell, L. (1992). Assessing critical thinking. New Directions for Community Colleges, 1992(77), 37–50.