• Journal of the Korean earth science society
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• v.36 no.4
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• pp.404-416
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• 2015

We investigated the cognitive frame of high school students and inservice high school science teachers about effective teaching method, and we also explored how they understood about the teaching methods suggested by the 2009 revised Science Curriculum. Data were collected from 275 high school science teachers and 275 high school students. We analyzed data in terms of the words and the cognitive frame using the Semantic Network Analysis. The results were as follows. First, the teachers perceived that an activity oriented class was the effective science class that helped improve students' problem-solving abilities and their inquiry skills. The students had the cognitive frame that their teacher had to present relevant and enough teaching materials to students, and that they should also receive assistance from teachers in science class to better prepare for college entrance exam. Second, both students and teachers retained the cognitive frame about the efficient science class that was not reflected 2009 revised Science Curriculum exactly. Especially, neither groups connected the elements of 'convergence' as well as 'integration' embedded across science subject areas to their cognitive frame nor cognized the fact that many science learning contents were closed related to one another. Therefore, various professional development opportunities should be offered so that teachers succinctly comprehend the essential features and the intents of the 2009 revised Science Curriculum and thereby implement it in their science lessons effectively.

• Journal of The Korean Association For Science Education
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• v.18 no.2
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• pp.201-208
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• 1998

Although cooperative learning strategies in many subject areas have been found to be effective, the effect of cooperative learning on academic achievement in science laboratory setting is not clear. Reported results on the effects of the strategies for higher achieving students are not also consistent. In this study, the cooperative learning strategies emphasizing student-centered learning which included higher order thinking activities were used in a elementary school science course. The cooperative and traditional learning groups were selected from fifth-grade classes, and taught about dissolution and solution for 16 class periods. The effects of the cooperative learning strategies upon students' academic achievement, science process skill, the attitude toward science instruction, and the perceptions of classroom environment were investigated. Two-way ANCOVA results revealed that the test scores of academic achievement and science process skill for the cooperative learning group were significantly higher than those of the traditional learning group. No interaction between the instruction and the level of previous achievement was found. The perceptions of confliction were higher in cooperative learning group. In the attitude toward science instruction and the perceptions of participation, however, no significant difference between the two groups was found. Educational implications are discussed.

• Journal of the Korean Society of Earth Science Education
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• v.12 no.3
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• pp.252-260
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• 2019

The purpose of this study is to assist school science class by investigating effective Earth's rotation experiments of districts by school level. The researcher investigated or developed nine experiments for learning Earth's rotation, and conducted and discussed these experiments with 26 elementary school teachers. Each teachers chose an effective Earth's rotation experiment for the district and wrote the reason. As a result, elementary school teachers chose the experiment that is easy to prepare and to do. And elementary school students are interested in the experiments by conducting them on their own. Middle and high school teachers chose more difficult experiments that could be connected with other concepts. University teachers chose effective experiments based on application of knowledge, active exploration, computer literacy, and difficulty.

• Journal of The Korean Association For Science Education
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• v.37 no.1
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• pp.143-154
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• 2017

Science inquiry has long been emphasized in Korean science education. Scientific modeling is one of key practices in science inquiry with a potential to provide students with opportunities to develop their own explanations and knowledge thereafter. The purpose of this study is to investigate teacher's understanding of models in science and science teaching. A professional development program on Models (PDM) was developed and refined through three times of implementation while teachers' conceptions of models and modeling were examined. A total of 29 elementary and secondary teachers participated in this study. A survey based on model use of scientists in the history of science was developed and used to collect data and audio recordings of discussions among teachers and artifacts produced by the teachers during PDM were also collected. Three ways of ontological and two ways of epistemological understanding of models and modeling were found in teachers' ideas. After PDM, a quarter of the teachers changed their ontological understanding whereas very few changed their epistemological understanding. In contrast, more than two thirds of the teachers deepened and extended their ideas about using models and modeling in teaching. There were no clear relationships between teachers' understanding of models and ways and ideas about using models in science teaching. However, teachers' perceptions of school conditions were found to mediate their intention to use models in science teaching. The findings indicate possible approaches to professional development program content design and further research.

• Journal of the Korean Chemical Society
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• v.43 no.6
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• pp.691-698
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• 1999

We examined how the professors in the department of science education perceived the 6th high school science curriculum. A nationwide survey was administered to obtain the responses from 70 professors of 8 educational colleges. Most professors thought that the 'objectives' and the 'contents' were proper, but the 'methods' and 'evaluations' were not proper, if considered educational facilities as well as 'teachers' ability to guide inquiry. Some professors also pointed out that the 'methods' described in the curriculum did not seem to be practical, that the contents were too much for high school science courses, that the integration of the contents in the general science was not enough, and that some concrete guides were needed because the items in the curriculum were too broad.

• Journal of Gifted/Talented Education
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• v.18 no.1
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• pp.139-165
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• 2008

This paper is focused on the development of sea wave experimental module for the science gifted students and the potential of its application in high school earth science. Sea wave experimental module for the gifted was characteristics by five phases: Engagement, Exploration, Explanation, Elaboration, and Expansion. Subjects were 16 gifted students, who were 10th graders and have been taught in the adjacent Education Institute for the gifted of Education Districts, Daejeon Metropolitan Office of Education The changes of inquiry ability and knowledge achievement were analyzed according to analysis of experimental report and pre-test and post-test. Experimental module for the gifted was very effective on inquiry skills as follows: control of variables, experimental designing, and selecting tools of experimental process. And also it was positively effective on achievement. The result of this study suggested that experimental module for the science gifted should be very meaningfully to improve scientific ability of them, and the development and application of experimental module for the science gifted be needed for them.

• Journal of Science Education
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• v.36 no.1
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• pp.130-138
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• 2012

The purpose of this study was to investigate perceptions of high school students and science teachers about high school fusing science. Science teachers and high school students perceived that high school fusing science was related to various areas and they preferred to be taught separately from each area. Science teachers perceived that high school fusing science improved the understanding in the area of scientific common knowledge, advanced technology, and the history of science, but neither scientific writing nor discussion were actively involved. It also didn't contribute to the enhancement of scientific thinking and communication skill. Especially, high school students believed that they were more interested in science through fusing science. On the other hand, teachers believed that this high school fusing science might not impact student's learning and generate negative perception. Science teachers and students perceived that they were more interested in fusing science because it was combination of many areas in science. They also perceived that contents in fusing science were more related to their daily life.

• Journal of the Korean Chemical Society
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• v.49 no.6
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• pp.591-602
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• 2005

• The Bulletin of The Korean Astronomical Society
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• v.43 no.2
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• pp.47.4-48
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• 2018

밀러-유리 실험은 1950년대 처음으로 초기 지구의 대기 방전 실험으로 아미노산을 합성한 실험이다. 생명의 기원에 대한 내용이 교과서나 책에 실릴 때마다 빠지지 않고 등장하는 실험으로, 학생들의 탐구 활동 연구주제로 실험을 설계하여 진행하였다. 실험실 설계부터 시작하여 실험 과정인 유리기구 세척, 진공 만들기, 기체주입과 방전실험을 소개한다. 실험 장치가 완성 된 후, 실험 시간 23시간 중 약 4시간 동안 방전하여 갈색 용액을 얻는데 성공하였다. 아민기와 반응하는 ninhydrin 반응에서 양성반응을 보여 아미노산 수용액임을 확인하였다.

• Journal of the Korean Chemical Society
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• v.66 no.1
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• pp.31-41
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• 2022

The purpose of this study is to draw implications for future Korean science education by analyzing the PISA 2015 science teacher questionnaire. To this end, descriptive statistics and difference tests were conducted for each questionnaire item, using raw data from science teacher surveys in Korea, the United States, and China. As a result of the analysis, first, the perception that Korean science teachers should participate in professional development activities was lower than that of comparative countries, and it was found that improvement was needed in the practice of adaptive instruction and various evaluation methods. Second, although Korean science teachers were generally satisfied with their jobs, the response that they were hindered in science education activities due to limitations in various resources at their current school was relatively higher than that of comparative countries. Third, scientific inquiry was less emphasized in science curriculum and science class in Korea, and self-efficacy in inquiry teaching process was relatively low. Fourth, in Korea, it was found that there were fewer classes for discussion and using ICT in science classes.