• Journal of The Korean Association For Science Education
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• v.38 no.2
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• pp.161-170
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• 2018

Various forms of visual representations enable scientific discovery and scientific reasoning when scientists conduct research. Similarly, in science education, visual representations are important as a means to promote students' understanding of science concepts and scientific thinking skills. To provide a framework that could facilitate the effective use of visual representations in science classroom and systemic science education research, a visual representation competence taxonomy (VRC-T) was developed in this study. VRC-T includes two dimensions: the type of visual representation, and the cognitive process of visual representation. The initial categories for each dimension were developed based on literature review. Then validation and revision was made by conducting teachers' workshop and survey to experts. The types of visual representations were grouped into 3 categories (descriptive, procedural, and explanative representations) and the cognitive processes were grouped into 3 categories (interpretation, integration, and construction). The sub categories of each dimension and the validation process would be explained in detail.

• Proceedings of the Korean Society of Computer Information Conference
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• 2017.07a
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• pp.380-383
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• 2017

과학에서 사용하는 모델은 자연 그 자체가 아니면 자연을 단순화하여 표현한 표상이다. 그렇기 때문에 각 모델은 자연을 표상하기 위한 특정한 알고리즘을 갖는다. 그러므로 과학 모델에 대한 이해는 자연을 표상하기 위한 특정한 알고리즘이 무엇인지에 대한 이해가 필수적이다. 이러한 특정한 알고리즘에 대한 이해와 이를 바탕으로 한 다른 현상의 예측과 설명을 위한 도구로 본 논문은 스크래치를 활용하였다. 또한 과학의 모델에 대한 이해의 소재로 대학생뿐만 아니라 많은 과학교사 조차도 대안개념에 머물러 있는 뜨거나 가라앉는 현상을 선정하였다. 연구대상은 K대학원 교육대학원 멀티미디어와 과학교육을 수강한 17명의 과학교사이며, 스크래치를 통해 기본 알고리즘 3시간, 응용 알고리즘 3시간을 투입하였다. 모델에 대한 이해를 위해 뜨거나 가라 앉는 현상에 때한 LP설문지를 사전, 사후검사에 실시하였다. 1차적으로 양적변화를 통해 이 현상에 대한 개념의 수준의 변화를 알아보았으며, 2차적으로 인터뷰와 자기보고식 설문지를 이용하여 모델에 대한 이해를 질적으로 분석하였다. 연구결과 과학교사들은 현상에 대한 개념에 대한 수준이 상승하였으며, 질적자료 분석 결과, 모델에 대한 깊은 이해(depth)와 전이능력(transfer)이 증가하였다. 이는 스크래치를 통해 과학 모델의 이해를 높일 수 있음을 시사한다.

• Journal of the Korean Chemical Society
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• v.56 no.6
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• pp.759-767
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• 2012

The purpose of this study was to examine the impact of Science Writing Heuristic (SWH) on multiple representations in students' writing and to survey experimental group students' recognition about the use of multiple representations. For this study, Participants of this study were 158 students in 7th grade. 94 students were assigned to the experimental group and 64 students were assigned to the comparative group. The experimental group showed significantly higher mean score than comparative group at utilizing multiple representation in summary writing. Interview analysis indicated that all students who participated in interviews, regardless of solid multi-modal competency, recognized that use of multiple representations with appropriate explanations enable to communicate science information persuasively.

• Journal of The Korean Association For Science Education
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• v.34 no.5
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• pp.437-447
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• 2014

Learning progressions (LP), which describe how students may develop more sophisticated understanding over a defined period of time, can inform the design of instructional materials and assessment by providing a coherent, systematic measure of what can be regarded as "level appropriate." We developed LPs for the nature of matter for grades K-16. In order to empirically test Korean students, we revised one of the constructs and associated assessment items based on Korean National Science Standards. The assessment was administered to 124 Korean secondary students to measure their knowledge and submicroscopic representations, and to assign them to a level of learning progression for the particle nature of matter. We characterized the level of students' understanding and models of the particle nature of matter, and described how students interpret various representations of atoms and molecules to explain scientific phenomena. The results revealed that students have difficulties in understanding the relationship between the macroscopic and molecular levels of phenomena, even in high school science. Their difficulties may be attributed to a limited understanding of scientific modeling, a lack of understanding of the models used to represent the particle nature of matter, or limited understanding of the structure of matter. This work will inform assessment and curriculum materials development related to the fundamental relationship between macroscopic, observed phenomena and the behavior of atoms and molecules, and can be used to create individualized learning environments. In addition, the results contribute to scientific research literature on learning progressions on the nature of matter.

• Journal of the Korean earth science society
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• v.31 no.1
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• pp.71-87
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• 2010

The purpose of this study was to explore 8th-grade students' imageries of the Earth. We analyzed the middle school students' imageries about the Earth represented with words and drawings in Earth Systems Understanding (ESU, hereafter) framework. The students' imageries about 'the Earth' are vary by their experiences and prior-knowledge, which significantly impacts their imagery construction. Especially, the students' ESU were characterized into two aspects: One is a macroscopic view point based on full-objects of the Earth by indirect experiences and the other is everyday view point based on scene of the Earth surface and environment by direct experiences. Results revealed students' imageries about the Earth were impacted by visual experiences and those students' ESU were more represented by drawing as visual imagery than by words, formal language. The negative imageries were mainly represented through interactions of the Earth subsystems.

• The Journal of Korean Philosophical History
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• no.38
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• pp.303-328
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• 2013

The purpose of the present article is to understand moral instruction through Ethics written by Spinoza and enable the implications drawn from its understanding to give shape to lesson plans. In his representative book titled Ethics, Spinoza speculates ultimate substance from the metaphysical perspective and converges it into ethics. The ultimate substance, which is a cause of itself, refers to immanent cause of all things that have numerous attributes as essence. All things in nature develop the substance and exchange influence among individuals at the same time. A human in the influential relationship perceives things based on one's beneficialness and assigns moral words of good and evil. However, a human, who is a mode of substance, should escape from morals that are superficial, relative, and objective, in order to realize nature. Becoming a more complete human requires going through moral imagination in reality but going beyond the imagination ultimately. Moral instruction premises the moral imagination of a student who exists as a mode; meanwhile, it is a study to escape from the influence of moral imagination. Good and evil arise from the limitation that an existing human has, but if a life is to preserve the necessity of ultimate substance, moral instruction can be defined as the processes of alleviating the influence that hinders a human's nature from being realized. Giving shape to this processes with the basis on the Spinoza's epistemic argument, moral instructional texts can be composed of stages to form more adequate moral ideas about moral subjects gradually and cumulatively. The moral instruction like this expects moral awareness which is relatively perfect than the present moral imagination. Furthermore, with the teaching and learning like this sustained, it is expected that ultimately the limitation arising from sensible perception can be overcome to approach the realization of a human's nature.

• Communications of Mathematical Education
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• v.33 no.3
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• pp.319-334
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• 2019

In this study, using the tasks related trigonometric functions, the degree of high school students' understanding of the function concept was examined through the level of Hitt(1998). First, the degree of the students' understanding was classified by level, then the concept understanding was reclassified by the process or the object. As a result, high school students' concept understanding showed incompleteness in three stages. It was possible to know that the process in the interpretation of the graph is the main perspective, and the operation of algebraic representation is regarded as important. Based on these results, it seems necessary to study the teaching-learning method which can understand trigonometric functions from various perspectives. It seems necessary to study a lesson model that can reach function concept's understanding level 5 that maintains consistency between problem solving and representation system.

• The Mathematical Education
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• v.63 no.3
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• pp.393-409
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• 2024

The number line model, which intuitively marks numerical magnitudes in space, is widely utilized to help in understanding the magnitudes that fractions and decimals represent. The study analyzed 6^th graders' understanding of fractions and decimals, their problem solving strategies, and whether individual differences in the flexibility of various strategy uses are associated with the accuracy of numerical representation, calculation fluency, and overall mathematical achievement. As a result of the study, students showed relatively lower accuracy in representing fractions and decimals on a number line compared to natural numbers, especially for fractions with odd denominators compared to even denominators, and for two-digit decimals compared to three-digit decimals. Regarding strategy use, students primarily used benchmark, segmentation, and approximation strategies for fractions, and benchmark, rounding, and transformation strategies for decimals sequentially. Lastly, as students used various representation strategies for fractions, their accuracy in representing fractions and their overall mathematical achievement scores showed significantly better outcomes. Taken together, we suggest the need for careful instruction on different interpretations of fractions, the place value of decimals, and the meaning of zero in decimal places. Moreover, we discuss instructional methods that integrate the number line model and its diverse representation strategies to enhance students' understanding of fractions and decimals.

• Journal of The Korean Association of Information Education
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• v.5 no.2
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• pp.185-196
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• 2001

Elementary school students feel more difficult the mathematical word problems than the numberical formula. I think that this reason isn't the ability of mathematical calculation but the problems representation. It is demanded exactly understanding about the requirements of problem for improving ability of the mathematical word problem representation. It is necessary that we take multimedia data and communication for this, because web advances multimedia materialization and promotes mutual communication, then it gives us with the most environment for word problem representation learning. According to, this thesis is designed web-based system to improve ability of the mathematical word problem representation, applied the sixth grade it experimentally.

• School Mathematics
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• v.13 no.3
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• pp.447-468
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• 2011

For the instruction of units dealing with the conic section, the most important factor that we need to consider is the connections. In other words, the algebraic approach and the geometric approach should be instructed in parallel at the same time. In particular, for the students of low proficiency who are not good at algebraic operation, the geometric approach that employs visual representation, expressing the conic section's characteristic in a dynamic manner, is an important and effective method. For this, during this research, to suggest the importance of dynamic visual representation based on GeoGebra in teaching Quadratic Curve, we taught an experimental class that suggests the instruction method which maximizes the visual representation and analyzed changes in the representation of students by analyzing the part related to the unit of a parabola from units dealing with a conic section in the "Geometry and Vector" textbook and activity book.