使用数字技术的 STEM 实践学习体验

arXiv - PHYS - Physics Education Pub Date : 2024-07-17 DOI:arxiv-2408.00781

Gaia Fior, Carlo Fonda, Enrique Canessa

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引用次数: 0

摘要

通过利用有形和直观的实例，为学习者提供更好地理解科学的机会，可以增强 STEM 教育的促进作用。这项工作的目的是介绍我们在意大利学校采用这种新方法开展的经验和活动。所讨论的项目和经验包括有形的复杂 3D 打印结构、大型微控制器电路板复制品、风动力学可视化以及微小不可见的基本粒子等，在这些项目和经验中，学生发展了一系列核心能力，如协作、创造力、批判性思维、实验、原型设计、沟通和解决问题等。这些亲身体验证明了在实验室中使用数字制造技术对 STEM 学习的益处。

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Hands-on STEM Learning Experiences using Digital Technologies

The facilitation of STEM education can be enhanced by the provision of opportunities for learners to gain a better understanding of science through the utilization of tangible and visual examples. The objective of this work is to present an account of our experiences and activities carried out in Italian schools with this novel approach. The selection of projects and experiences discussed --in which students develop a range of core competencies such as collaboration, creativity, critical thinking, experimentation, prototyping, communication and problem-solving; include tangible complex 3D printed structures, large micro-controller board replicas and the visualization of wind dynamics and tiny invisible elementary particles among others. These hands-on experiences demonstrate the benefits on the use of digital fabrication technologies implemented within a FabLab for STEM learning.

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arXiv - PHYS - Physics Education

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