Publication Details
Issue: Vol 2, No 3 (2025)
Pages: 66-73
ISSN: 2997-3899

Abstract

General Background: The integration of cognitive science in education has led to the development of neurodidactic approaches that align teaching methodologies with the neural and psychological mechanisms of learning. Specific Background: This study explores the compatibility of educational content and training programs with students' higher nervous functions, emphasizing cognitive rules for knowledge acquisition. Knowledge Gap: While prior research has addressed neurodidactics theoretically, limited studies have examined its direct implementation in educational frameworks. Aims: This study aims to analyze the structural components of neurodidactic educational technology and their impact on students’ cognitive processes, motivation, and competence development. Results: Findings indicate that aligning instructional design with students’ cognitive and motivational needs enhances higher cognitive functions, including reasoning, comprehension, and problem-solving. Additionally, structured methodologies such as cognitive assessments, learning style inventories, and individualized pedagogical interventions significantly improve educational outcomes. Novelty: The study introduces a systematic approach to integrating neurodidactic principles with contemporary pedagogical strategies, bridging cognitive science and educational technology. Implications: These insights offer practical applications for curriculum developers and educators, advocating for teaching methods that stimulate cognitive processes while fostering personal and professional competencies.

Keywords
Neurodidactics cognitive science educational technology motivation higher cognitive functions pedagogical strategies curriculum development competence-based learning