体验式学习
心理学
认知
建构主义教学法
数学教育
人工智能
认知科学
教学方法
教育学
计算机科学
神经科学
作者
Shaoying Dong,Ran Zhi,Feng Gan
摘要
ABSTRACT As educational paradigms continue to evolve in response to technological advancements, there is growing interest in interdisciplinary approaches that bridge the gap between STEM and the arts. One such emerging area is the integration of robotics into art education, which holds the potential to enrich learning experiences and foster a range of cognitive and social skills. This study investigates the integration of robotics into art education through constructivist and experiential learning frameworks, aiming to enhance cognitive development, problem‐solving abilities and collaboration among students. Employing a random sampling method, the research involved 519 Chinese art students worldwide who completed structured questionnaires. Data analysis was conducted using SPSS (version 27) and structural equation modelling (SEM) to explore complex interactions among variables. The results reveal a significant relationship between the application of constructivist robotics principles and the enhancement of cognitive skills, critical thinking and the development of innovative curricula. The study concludes that incorporating robotics into art education fosters hands‐on learning, thereby improving essential skills necessary for designing innovative, robotics‐based educational programmes. Adherence to these principles by art students, along with improved cognitive and critical thinking abilities, strongly predicts their capacity for innovation in curriculum development, positioning robotics as a valuable tool in educational programme design.
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