Effects of Light Intensity on Spatial Visualization Ability

The Journal of Technology Studies Pub Date : 2017-04-01 DOI:10.21061/JOTS.V43I1.A.1

Petros J. Katsioloudis, Mildred V. Jones

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引用次数: 3

Abstract

A plethora of technological advances have happened since artificial illumination was developed by Thomas Edison. Like technology has had an effect in many areas in the modern civilization it also made a difference in the classroom. Nowadays, students can have instruction in classrooms with no external windows, even during gloomy winter or rainy days, and virtually during any hour of the day. Several lightning devices are being used, ranging from energy efficient LEDs to fluorescent lighting. Some forms of lighting methods have been found to be inappropriate for prolonged exposure to the human eye such as various gas-discharge lamps that create poorer color rendering due to the yellow light. A large number of research studies have focused on topics such as the effect of light on intensity to oral reading proficiency, its effect on stress levels, and the effect it may have on autistic children. However, a small number of studies was found related to the optimal levels of light intensity related to successful student learning regarding spatial visualization ability. The purpose of the current study is to identify whether light intensity can increase or decrease spatial ability performance for engineering technology students.

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光强对空间可视化能力的影响

自从托马斯·爱迪生发明了人工照明以来，已经发生了大量的技术进步。就像科技在现代文明的许多领域产生了影响一样，它也在课堂上产生了影响。如今，学生可以在没有外部窗户的教室里上课，即使是在阴沉的冬天或雨天，几乎在一天中的任何时候。从节能的led灯到荧光灯，已经使用了几种闪电设备。某些形式的照明方法已被发现不适合长时间暴露在人眼下，例如各种气体放电灯，由于黄光而产生较差的显色性。大量的研究集中在诸如光对强度对口语阅读能力的影响，它对压力水平的影响，以及它可能对自闭症儿童的影响等主题上。然而，少数研究发现，最佳光强度水平与学生在空间可视化能力方面的成功学习有关。本研究旨在探讨光强对工科学生空间能力表现的影响。

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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The Journal of Technology Studies

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