• Title/Summary/Keyword: Physics Education

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Middle school students' conceptions related to electric current and their explanation after observation of related phenomena before school instruction (중학생의 전류에 대한 학습전 개념과 관계 현상 관찰후의 설명)

  • Kim, Young-Min;Park, Youn-hee;Pak, Sung-Jae
    • Journal of The Korean Association For Science Education
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    • v.10 no.1
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    • pp.47-55
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    • 1990
  • The purposes of this study are to investigate Korean middle school students' conceptions related to electric current, and to analyze their changes in explanations about current after their observations of the related phenomena The subjects of the study were 20 students from one middle school in Seoul The conclusions of the studty are as follows: 1, Korean middle school students have various misconceptions such as current consumption model, sequential model, monopole model, non-various current model, the most students have sequential model' 2. When an evidence is introduced, some students do not perceive the phenomena as the teacher attempts. 3. When an evidence was introduced, after observation of the evidence some of the students who had misconceptions changed their explanatios, which were not always correct explanations, and the others did not change their expanations, which their observations were mostly incorrect.

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Development of Problem-Based Learning in an English-Mediated College Science Course: Design-Based Research on Four Semesters Instruction

  • LAHAYE, Rob;LEE, Sang-eun
    • Educational Technology International
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    • v.19 no.2
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    • pp.229-254
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    • 2018
  • Universities in Korea have driven universities' new attempts to adopt more learner-centered and active learning in English. Problem-based Learning (PBL) is one of the well-known constructive teaching and learning methodologies in higher education. Our research goal was to design and develop the optimal PBL practices for a college physics course taught in English to promote learning and course satisfaction. For four semesters, we have tried and adjusted PBL components, and looked at the trend of the exam scores and group work achievement in each semester. We found that the number of problems and the duration of problem solving are the critical factors that influence the effect of PBL in a college physics course taught in English by going through iterative implementation. The iterative process of applying, designing, and constructing PBL to physics classes was meaningful not only in that we have found the optimal PBL model for learning a college physics course, but also in that we have been reflecting on the continuous interaction with learners during the course.

Use of Alternative Assessments to Rectify Common Students' Misconceptions: A Case Study of "mini-project" in GCE 'A' Level Physics in a Singapore School

  • Lim, Ai Phing;Yau, Che Ming
    • Journal of The Korean Association For Science Education
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    • v.28 no.7
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    • pp.730-748
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    • 2008
  • Students often have tenacious physics misconceptions and many studies were conducted on engendering conceptual change. Correspondingly, there is much literature on alternative assessment and its role in student learning. This is a comparison study on using alternative assessments to improve common students' misconceptions in GCE Advanced Level Physics. This research also aims to affirm alternative assessment as a valid tool for learning and promote its use. This study involved two classes with 24 students each. For four weeks, electromagnetism was taught to students using the same classroom pedagogies but with different assignments. The control group completeda standard drill-and-practice assignment while the experimental group finished an alternative assessment. From the preliminary results, students who undertook the alternative assessment and the traditional assessment both improved, however, the treatment group did not perform statistically significantly better than the control group. The reasons will be discussed and commented and it is expected to have significant improvement on rectifying misconceptionsupon next batch of experimentation groups.

How to develop tiered tests: A developmental framework using statistical indexes and four tier types in secondary physics

  • Kim, Min-Kee;Jung, Jin-Sun;Pak, Sung-Jae
    • Journal of The Korean Association For Science Education
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    • v.29 no.3
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    • pp.277-290
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    • 2009
  • In the era of the outcome-based education, multiple-choice test has been widely employed owing to its efficiency that enables educators to evaluate a quantity of students with much objectiveness. However, the prevalent test has not been reconsidered enough to overcome its apparent shortcomings: examiners' effort for developing plausible and faultless distracters defending from every falsification, and students' random guessing on key choices. For alleviating such defects, tiered test as an experimental format of multiple-choice tests has been suggested in science education. Since there has not accumulated much study on the implementation of tiered tests, our research aim is set to construct a framework suggesting statistical indexes for rationally discerning tiered units that develop an effective tiered test. Graded both by our tiered-scoring and by the conventional partial-scoring, the preliminary tiered test in secondary physics attests the improvement in its discrimination and difficulty distribution. The findings reveal that the two indexes discern effective tiered items: discrimination increase (Ct-p) and difficulty decrease (Dp-t). Based on the index information, 4 heterogeneous tier types are recommended in the content of secondary physics: directional manipulation, repeated calculation, diverse explanation, and plural variables.

A development and evaluation of new training program for science teacher - focused on computer simulation inquiry experiments in physics - (새로운 과학 교육 프로그램의 개발과 평가 I - 컴퓨터 시뮬레이션을 이용한 물리 탐구 실험 연수를 중심으로 -)

  • Park, Jong-Won;Oh, Hee-Gyun;Kim, Doo-Hyun
    • Journal of The Korean Association For Science Education
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    • v.19 no.4
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    • pp.653-664
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    • 1999
  • This study was designed to develope an in-service training programme using Interactive $Physics^{TM}$ simulation for science teachers and to evaluate the effect of programme. The purposes of training programme are the improvement of scientific inquiry teaching ability as well as enhancement of the understanding of scientific concepts, inquiry skills, and the computer manipulation skills. The developed programme was implemented four times with 15 hours for each courses. The questionnaire for evaluating the programme after the last course showed that many teachers (1) voluntarily participated in this programme with internal motivation, (2) were satisfied with the level of programme difficulty, professionality of lecturer, and classroom environment, (3) gave positive responses about the achievement of the purposes of this programme, (4) showed strong intention for applying simulation to their school teaching. And future studies were proposed.

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