• Journal of The Korean Association For Science Education
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• v.27 no.3
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• pp.253-262
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• 2007

This study is an investigation regarding the understanding of the nature of science among pre-service science teachers majoring in science education. We interviewed 22 senior students in science education who finished their internship courses. Students were interviewed individually for approximately 20 minutes each. Data from semi-structured interview were audio-recorded and transcribed for the analysis. Findings indicated that participants held more complete understanding of the nature of scientific knowledge than the nature of scientific enterprise. Their understandings of the nature of scientific method was that hypothetical-deductive method is more scientific than descriptive-narrative method and there is a single stepwise scientific method to solve problems. These results showed that they have a narrow view of the nature of science. Thus, teacher education programs need to integrate the understanding of the nature of science throughout.

• The Science & Technology
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• v.34 no.5 s.384
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• pp.88-89
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• 2001

• The Science & Technology
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• no.7 s.434
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• pp.12-13
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• 2005

• The Science & Technology
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• no.7 s.434
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• pp.84-89
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• 2005

• Journal of Korean Elementary Science Education
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• v.31 no.3
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• pp.398-412
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• 2012

과학 교과서는 과학 교육에 있어서 아주 중요한 역할을 하여 왔다. 교과서는 학생들이 학문적 경험을 하게끔 주도하며 학교 교육을 대표하는 수단이라고 할 수 있다(Valverde, Bianchi, Wolfe, Schmidt, & Houang, 2002). 그러나 과학 교육에서 교과서의 중요한 역할에도 불구하고, 국내외에서 그 연구가 미비하였다 (Good, 1993). 이 연구의 첫번째 과제로써 과학 교과서 연구 현황을 살펴보기 위해 지난 30여년간 미국에서 이루어진 초등 교과서와 관련된 연구들을 분석 및 정리하였다. 한편 과학의 본성에 대한 이해는 지난 반세기 동안 과학 교육에서 하나의 중요한 목표가 되어 왔으며, 미국의 여러 국가적 차원의 지침서에서는 그 중요성을 강조하였다 (NRC, 1996; AAAS, 1990, 1993). 그럼에도 불구하고 과학 교과서 연구에서 과학의 본성에 관련한 선행 연구가 거의 없다는 것을 알고, 본 연구의 두번째 과제로써 현재 미국 초등 교과서에 나타난 과학의 본성에 대한 연구를 4가지 주제에 근거하여 분석하였다. 과학의 본성에 대한 4가지 주제는 (a)지식 체계로서의 과학, (b) 탐구 방법으로의 과학, (c) 생각의 방법으로의 과학, 그리고 (d) 과학과 기술, 그리고 사회와 연관된 관계 (Chiappetta, Fillman, & Sethna, 2004)로서, 본 연구에서는 미국 초등 과학 교과서에 나타난 이 4가지 주제를 학년별 및 출판사별로 4가지 영역의 포함 정도를 퍼센트로 산출하였다. 또한 도입 단원 전체를 분석하였으므로, 단원 전반적 내용에 내포된 과학의 본성에 대한 측면을 연구자의 직관과 전문성에 근거하여 서술적인 방식으로 토의하였다.

• Journal of The Korean Association For Science Education
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• v.36 no.2
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• pp.303-315
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• 2016

Socioscientific issues (SSI), by their nature, are conceptually embedded in technology. Previous research reported that nature of technology (NOT), unlike nature of science, was quite explicitly manifested in SSI decision-making, and NOT could be a promising construct for promoting SSI reasoning. In this study, authors introduced an integrated conceptual framework for NOT, which consisted of four dimensions (i.e., artifacts, knowledge, practice and system) as diverse modes of technology. We adapted the framework to investigate students' conceptualizations of NOT in the context of various SSIs. Data was collected from 45 college students enrolled in a liberal arts course on science and technology. The students participated in a team project, where they prepared and led discussions for SSI topics in class. Seven topics concerning SSIs were selected by students themselves. The preparation and class discussion of each student group were audio-recorded, and final reports were also analyzed. As a result, NOT sub-components in the dimensions of artifacts and system were explicitly represented in most contexts of SSI with various ranges of understanding. Other sub-components under the dimensions of knowledge and practice were rarely or implicitly shown in the discussion. The depth of students' understanding on NOT varied. Implications for science education were discussed.

• Journal of The Korean Association For Science Education
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• v.32 no.4
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• pp.586-603
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• 2012

This study is a survey conducted to explore what art high school students specifically see as nature of science. Third-year students of a high school of arts in Gyeonggi-do participated in the survey. The questionnaire was classified into three categories - the formative arts in the fine arts, the sound arts in music, the performing arts in dance, and drama and play. The study analyzed what they think of as similar aspects of science and art respectively according to their majors, with focus on the extracts. As a result, they mentioned 'creative imagination', 'correlation with technology', 'social and cultural relation', 'subjectivity', 'variability', and 'inquiring attitude' as similarities between science and art. The results are almost the same as the elements of the nature of science as agreed on by scientists. From the result, we can assume that students majoring in art, indeed, need an education on the nature of science. Also, while the fine arts students have more tendency to perceive inquiring attitude than others, music students are more likely to perceive variability than others. Therefore, teaching strategy in experimental inquiring context for the former is more helpful in understanding the nature of science, and teaching strategy in the context of scientific history for the latter.

• Journal of the Korean earth science society
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• v.26 no.5
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• pp.376-386
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• 2005

This study investigated to describe how the nature of science is revealed in the four natural history museums in Korea. Natural history museums are well considered as informal settings of education, and the nature of science has been one of major topics stressed in science education. Therefore, the revelation of this topic is supposedly reflected in developing museum exhibitions. In each of the four target natural history museum or natural history exhibition, the representative exhibits subtitled by scientific inquiry and cases dealing with history of science were selected for the study. The analyzing exhibits focused on whether exhibitions were labeled with emphasis on declarative description or interpretative one. In analyzing the contents, the focus was on the concerns of scientists, scientific community, social and cultural aspects, uncertainty of scientific knowledge, and providing sufficient evidences. All things considered, it was hard to conclude that every target exhibit clearly considered the nature of science as an essential element, in designing and developing their exhibitions. More deliberate input of nature of science is suggested for worldly renowned natural history museums, because previous researches keep insisting that the nature of science would be more efficiently achieved in an informal educational setting rather than in classrooms.

• (The)Study of the Eastern Classic
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• no.36
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• pp.7-30
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• 2009

Confucius said, "at fifteen, I had my mine bent on learning, At thirty, I stood firm, At forty, I had no doubt, At fifty I knew the decrees of Heaven, At sixty, my ear was an obedient organ for the reception of truth, At seventy, I could follow what my heart desired, without transgressing what was right." This dissertation's aim is to articulate the ideas and methodology of 'learning to become a sage' based upon his saying. Confucius believe in reality of the human mind & it's nature. What Heaven has conferred is called the human nature. An accordance with this human nature is called path of human duty. Confucius's concept of human path is realization of humanness. Confucian's Human relationship is none other than conscientiousness and altruism. This Rule is expressed in the confucian version of reciprocity: "What you do not wish for yourself, do not do to others." Confucian principles of reciprocity imply is equal to Kantian Categorical imperative. This principles imply universalizability and equal consideration.

• Journal of the Korean earth science society
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• v.31 no.7
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• pp.798-812
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• 2010

The purpose of this study was to investigate beginning teachers' views of scientific inquiry envisioned in science education reform, which is the main goal of science education at schools. Teachers' views about scientific inquiry influence their students' learning in the classroom, so it is significant to investigate teachers' views about the scientific inquiry. 126 beginning science teachers participated in this study. The survey asking teachers' view of general scientific inquiry, nature of science (NOS) and the relationship of science, technology, and society (STS), was developed and implemented for 30 minutes. Alternative views of scientific inquiry including NOS and STS were emerged through data analysis with open coding system. The reliability and validity of data collection and data analysis were constructed through the discussion with experts in science education. The results of this study were as follows. Participants defined scientific inquiry as opportunities of 'Hands-On' and 'Minds-On' or its combination rather than 'Hearts-On'. However, teachers demonstrated the view of 'Hands-On' for the purpose of scientific inquiry and for teachers' roles in its implementation. The view of 'Hearts-On' about scientific inquiry was not identified. The naive view of NOS were identified more than informative one. More positive attitude about the relationship of STS was released. The implication was made in teacher education, especially structured induction program for beginning teachers.