Educational Effect of Microcomputer-Aided Learning on Practical Experiments in Chemistry Curriculum.

Journal of Chemical Software Pub Date : 1994-12-07 DOI:10.2477/JCHEMSOFT.2.108

Tadayosi Yoshimura, H. Sakagami, Yoshihiro Fujikami, B. T. Newbold

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引用次数: 3

Abstract

Microcomputer-aided learning (CAL) has been put into effect in various ways in chemistry teaching. Computer support is a useful tool for schooling. Students learn in detail about the experimental contents by themselves before beginning an experiment in the desired study, and then may carry out microcomputer-aided learning.We enforce learning before the experimental training in our College, and examine the training effect on education. A teaching materials program for learning was developed by graduation study work. There are 18 themes (physical chemistry experiments).Students must understand the experimental operation necessary for beforehand training in every theme. We have been developing a beforehand learning program (CAL software) in each theme (physical chemistry experiment). A student beginning an experiment uses the program and then puts the training into effect.We have examined the CAL training effect on education for cases with or without beforehand learning and found that such learning has a marked positive impact on the experimental training of the student in the chemistry curriculum.

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微机辅助学习在化学实践实验教学中的作用。

微机辅助学习在化学教学中得到了多种形式的应用。电脑辅助是学习的一个有用工具。学生在期望的研究中开始实验前，先对实验内容有详细的了解，然后再进行微电脑辅助学习。我们学院在实验训练前加强了学习，并考察了实验训练对教育的效果。通过毕业学习工作，制定了学习教材计划。有18个主题(物理化学实验)。学生必须了解每个主题训练前的实验操作。我们在每个主题(物理化学实验)都制定了一个预先学习程序(CAL软件)。开始实验的学生使用该程序，然后将训练付诸实施。我们考察了事先学习和没有事先学习的情况下CAL训练对教育的影响，发现事先学习对学生在化学课程中的实验训练有显著的积极影响。

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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Journal of Chemical Software

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