Pre service teacher’s concept understanding profile about DC circuit based on multiple representation

INTERNATIONAL CONFERENCE ON SCIENCE AND APPLIED SCIENCE (ICSAS) 2019 Pub Date : 2019-12-27 DOI:10.1063/1.5141674

Maria Dewati, A. Suparmi, W. Sunarno, Sukarmin, C. Cari

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引用次数: 2

Abstract

Student learning achievement that has not been maximized is one of the factors that explain the learning difficulties experienced by students. Difficulties can be caused by poor understanding of student concepts. One identification of concept understanding by measuring students’ ability to deal with physical problems using a multiple representation model. This study aims to describe the profile level of understanding of DC circuit concepts based on multiple representation models. This research is a descriptive qualitative type. The population is physics semester 4 students from the Universities of Jakarta and Bengkulu with a sample of 90 students. The results obtained are based on the average percentage of students’ understanding of concepts 30.8% and the ability of students to answer multiple representation questions 31.4%. Understanding the concept, the DC circuit material in the form of series and parallel is still low and has not been maximally fulfilled for all students.Student learning achievement that has not been maximized is one of the factors that explain the learning difficulties experienced by students. Difficulties can be caused by poor understanding of student concepts. One identification of concept understanding by measuring students’ ability to deal with physical problems using a multiple representation model. This study aims to describe the profile level of understanding of DC circuit concepts based on multiple representation models. This research is a descriptive qualitative type. The population is physics semester 4 students from the Universities of Jakarta and Bengkulu with a sample of 90 students. The results obtained are based on the average percentage of students’ understanding of concepts 30.8% and the ability of students to answer multiple representation questions 31.4%. Understanding the concept, the DC circuit material in the form of series and parallel is still low and has not been maximally fulfilled for all students.

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基于多元表示的职前教师直流电路概念理解概况

学生的学习成绩没有得到最大化是造成学生学习困难的原因之一。困难可能是由于对学生概念的理解不足造成的。通过使用多重表征模型测量学生处理物理问题的能力来识别概念理解。本研究旨在描述基于多个表示模型的直流电路概念的轮廓理解水平。本研究为描述性定性研究。人口是来自雅加达大学和明古鲁大学物理学期的学生，样本为90名学生。得出的结果是基于学生对概念的理解平均百分比为30.8%，学生回答多个代表性问题的能力平均百分比为31.4%。理解概念，直流电路材料的串并联形式仍然很低，并没有最大限度地满足所有学生。学生的学习成绩没有得到最大化是造成学生学习困难的原因之一。困难可能是由于对学生概念的理解不足造成的。通过使用多重表征模型测量学生处理物理问题的能力来识别概念理解。本研究旨在描述基于多个表示模型的直流电路概念的轮廓理解水平。本研究为描述性定性研究。人口是来自雅加达大学和明古鲁大学物理学期的学生，样本为90名学生。得出的结果是基于学生对概念的理解平均百分比为30.8%，学生回答多个代表性问题的能力平均百分比为31.4%。理解概念，直流电路材料的串并联形式仍然很低，并没有最大限度地满足所有学生。

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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INTERNATIONAL CONFERENCE ON SCIENCE AND APPLIED SCIENCE (ICSAS) 2019

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