Can 3D Visualization Assist in Young Children's Understanding of Sun-Earth-Moon System?

Zeynep Isik-Ercan, Beomjin Kim, J. Nowak
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引用次数: 8

Abstract

This research-in-progress investigates how the usage of technology, specifically three dimensional 3D stereoscopic vision, might support astronomy learning in primary grades. 3D stereoscopic vision might be an effective means to observe the relationships among space objects through simulations. In order to explore this presumption, this pilot study examines how 3D stereoscopic vision might enhance urban second graders' understanding of a the shape of Sun, Moon, and Earth, b how day and night alternate, and c how Moon appears in different shapes. Currently, Indiana state standards for science do not suggest the teaching of these astronomical concepts explicitly before fourth grade. The authors project that students can learn these concepts earlier in their educational lives with the implementation of these new technologies. These technologies might challenge the views of when astronomical concepts could be taught to children and expand the ways the authors think about children's cognitive capacities in understanding scientific concepts.
三维可视化能帮助幼儿理解日地月系统吗?
这项正在进行的研究调查了如何使用技术,特别是三维立体视觉,可能支持小学天文学学习。三维立体视觉是通过仿真观察空间物体间相互关系的有效手段。为了探索这一假设,本试点研究考察了3D立体视觉如何增强城市二年级学生对太阳、月亮和地球形状的理解,b白天和黑夜如何交替,以及c月亮如何以不同的形状出现。目前,印第安纳州的科学标准并没有明确建议在四年级之前教授这些天文概念。作者计划,通过实施这些新技术,学生可以在他们的教育生活中更早地学习这些概念。这些技术可能会挑战天文概念何时可以教授给儿童的观点,并扩展作者对儿童理解科学概念的认知能力的看法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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