Abstract
AbstractAs the relevance of neuroscience in education grows, effective methods for teaching this complex subject in high school classrooms remain elusive. Integrating classroom experiments with brain-based robots offers a promising solution. This paper presents a structured curriculum designed around the use of camera-equipped mobile robots which enables students to construct and explore artificial neural networks. Through this hands-on approach, students engage directly with core concepts in neuroscience, learning to model spiking neural networks, decision-making processes in the basal ganglia, and principles of learning and memory. The curriculum not only makes challenging neuroscience concepts accessible and engaging but also demonstrates significant improvements in students’ understanding and self-efficacy. By detailing the curriculum’s development, implementation, and educational outcomes, this study outlines a scalable model for incorporating advanced scientific topics into secondary education, paving the way for a deeper student understanding of both theoretical neuroscience and its practical applications.
Publisher
Cold Spring Harbor Laboratory
Reference26 articles.
1. Pedagogical models to implement effective stem research experience programs in high school students;Education Sciences,2021
2. Self-concept and self-efficacy in math: Longitudinal interrelations and reciprocal linkages with achievement;The Journal of Experimental Education,2020
3. Braitenberg, V. (1986). Vehicles: Experiments in Synthetic Psychology. MIT Press. ISBN: 9780262521123.
4. Authentic science with dissemination increases self-efficacy of middle school students;Integrative and comparative biology,2019