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    과학교과 웹 기반 탐구학습의 효과성 연구 동향 = Research Trends of Web-Based Inquiry Learning Effectiveness in Science Education: A Review of Publications in Selected Journals from 2000 to 2014

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    https://www.riss.kr/link?id=A100824657

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    The purpose of this paper is to offer an analysis on the research trends of web-based inquiry learning effectiveness in science education, and to present suggestions for future studies. This study compiled data on 43 articles in Korea and international journals. The content analysis of articles published were from academic journals related to science education and educational technology from 2000 to 2014. The results are as follows: Among domestic articles, the participants ranged from school children to high school students. On the contrary, among foreign articles, the participants are centralized on secondary school students; most used experimental studies; most of the studies resulted with web-based inquiry learning in science education showing effectiveness on science learning performance or science inquiry ability; all web-based inquiry learning were designed using different models of teaching and learning, with the result in the case of domestic research, the utilized models refer to the STS learning model, Internet utilization problem-center inquiry learning model, Procedural model, while in the case of overseas research, the utilized models are SCY, IBLE, and TESI model. Implications of the findings are then discussed, which implies considerations for further research related to web-based inquiry learning.
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    The purpose of this paper is to offer an analysis on the research trends of web-based inquiry learning effectiveness in science education, and to present suggestions for future studies. This study compiled data on 43 articles in Korea and internationa...

    The purpose of this paper is to offer an analysis on the research trends of web-based inquiry learning effectiveness in science education, and to present suggestions for future studies. This study compiled data on 43 articles in Korea and international journals. The content analysis of articles published were from academic journals related to science education and educational technology from 2000 to 2014. The results are as follows: Among domestic articles, the participants ranged from school children to high school students. On the contrary, among foreign articles, the participants are centralized on secondary school students; most used experimental studies; most of the studies resulted with web-based inquiry learning in science education showing effectiveness on science learning performance or science inquiry ability; all web-based inquiry learning were designed using different models of teaching and learning, with the result in the case of domestic research, the utilized models refer to the STS learning model, Internet utilization problem-center inquiry learning model, Procedural model, while in the case of overseas research, the utilized models are SCY, IBLE, and TESI model. Implications of the findings are then discussed, which implies considerations for further research related to web-based inquiry learning.

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    참고문헌 (Reference)

    1 강명희, "초등 과학수업에서 WISE(Web-based Inquiry Science Environment)활용여부에 따른 수업효과 비교" 한국교육방법학회 24 (24): 185-207, 2012

    2 조희형, "중학교 2학년 과학 교과서의 탐구 영역 분석" 한국과학교육학회 23 (23): 239-245, 2003

    3 예진희, "중등 생물교과 심화가정 학습용 웹 기반 학습 프로그램 개발 및 적용" 한국과학교육학회 22 (22): 299-313, 2002

    4 최욱, "인터넷활용 문제중심 탐구학습 모형" 한국교육공학회 20 (20): 147-183, 2004

    5 성은모, "인터넷 활용 문제중심 탐구학습이 학습자들의 탐구능력, 학업성취도 및 파지에 미치는 효과" 한국교육정보미디어학회 12 (12): 129-159, 2006

    6 정은숙, "웹기반 과학 수업 방법과 자기조절학습 수준이 초등학생의 과학적 자기효능감과 과학 학업성취에 미치는 효과" 한국초등교육학회 22 (22): 281-305, 2009

    7 류완영, "웹 기반 탐구학습에서 탐구 질문 유형이 지식 공유 과정과 공유 정신 모형에 미치는 영향" 한국교육정보미디어학회 13 (13): 249-278, 2007

    8 장선영, "온라인 과학탐구학습에서 자기조절학습수준과 성찰일지작성유형이 학업성취에 미치는 효과" 한국교육공학회 28 (28): 531-557, 2012

    9 이봉우, "온라인 과학 탐구 학습체제의 개발" 한국초등과학교육학회 25 (25): 271-280, 2006

    10 김향화, "스마트교육 연구동향에 대한 분석 연구" 한국수산해양교육학회 26 (26): 156-165, 2014

    1 강명희, "초등 과학수업에서 WISE(Web-based Inquiry Science Environment)활용여부에 따른 수업효과 비교" 한국교육방법학회 24 (24): 185-207, 2012

    2 조희형, "중학교 2학년 과학 교과서의 탐구 영역 분석" 한국과학교육학회 23 (23): 239-245, 2003

    3 예진희, "중등 생물교과 심화가정 학습용 웹 기반 학습 프로그램 개발 및 적용" 한국과학교육학회 22 (22): 299-313, 2002

    4 최욱, "인터넷활용 문제중심 탐구학습 모형" 한국교육공학회 20 (20): 147-183, 2004

    5 성은모, "인터넷 활용 문제중심 탐구학습이 학습자들의 탐구능력, 학업성취도 및 파지에 미치는 효과" 한국교육정보미디어학회 12 (12): 129-159, 2006

    6 정은숙, "웹기반 과학 수업 방법과 자기조절학습 수준이 초등학생의 과학적 자기효능감과 과학 학업성취에 미치는 효과" 한국초등교육학회 22 (22): 281-305, 2009

    7 류완영, "웹 기반 탐구학습에서 탐구 질문 유형이 지식 공유 과정과 공유 정신 모형에 미치는 영향" 한국교육정보미디어학회 13 (13): 249-278, 2007

    8 장선영, "온라인 과학탐구학습에서 자기조절학습수준과 성찰일지작성유형이 학업성취에 미치는 효과" 한국교육공학회 28 (28): 531-557, 2012

    9 이봉우, "온라인 과학 탐구 학습체제의 개발" 한국초등과학교육학회 25 (25): 271-280, 2006

    10 김향화, "스마트교육 연구동향에 대한 분석 연구" 한국수산해양교육학회 26 (26): 156-165, 2014

    11 김성중, "블랜디드 러닝 전략을 활용한 웹 커뮤니티 기반 초등과학과 탐구학습 시스템의 개발 및 적용" 한국정보교육학회 10 (10): 171-182, 2006

    12 김희수, "달의 운동에 대한 웹 기반 프로젝트 학습의 효과" 한국과학교육학회 25 (25): 450-464, 2005

    13 박지영, "국내의 과학교육 연구 동향 분석 -한국과학교육학회지와 한국생물교육학회지의 논문을 중심으로-" 한국생물교육학회 34 (34): 551-565, 2007

    14 강명희, "WISE를 활용한 초등학교 과학수업에서 자기주도학습능력, 인지실재감, 과학탐구능력, 과학성취도 간의 인과구조 분석" 교과교육연구소 16 (16): 481-498, 2012

    15 강명희, "WISE(Web-based Inquiry Science Environment)를 활용한 초등과학 수업의 효과성 규명" 한국교육정보미디어학회 17 (17): 531-552, 2011

    16 강명희, "WISE(Web-based Inquiry Science Environment) 프로그램을 활용한 과학수업에서 스캐폴딩 유형에 따른 학업성취도와 과학탐구능력의 차이 검증" 한국교육방법학회 21 (21): 1-19, 2009

    17 Tsai, C. Y., "Using the cognitive apprenticeship web-based argumentation system to improve argumentation instruction" 21 : 476-486, 2012

    18 Jong, T. D., "Using scenarios to design complex technology-enhanced learning environments" 60 (60): 883-901, 2012

    19 Varma, K., "Using interactive technology to support students’ understanding of the greenhouse effect and global warming" 21 : 453-464, 2012

    20 Abd-El-Khalick, F., "The nature of science and instructional practice: making the unnatural" 82 : 417-436, 1998

    21 Kulo, V., "The impact of a geospatial technologysupported energy curriculum on middle school students’ science achievement" 22 : 24-36, 2013

    22 Bae, J. H., "The effects of that inquiry activity through plants influences scientific process skills, science attitude and observation skills for elementary students" 30 : 37-68, 2005

    23 Jang, S. M., "The effects of scholastic achievement and inquiry ability enhancement of web resources based inquiry learning" 27 : 31-54, 2004

    24 Bodzin, A. M., "The effectiveness of the geospatial curriculum approach on urban middle-level students’ climate change understandings" 23 : 575-590, 2014

    25 Zacharia, Z. C., "The effect of two different cooperative approaches on students’ learning and practices within the context of a webquest science investigation" 59 : 399-424, 2011

    26 Gwak, H. J., "The effect of learner’s learning style and scaffolding types on academic achievement and science process skills in web-based inquiry learning environment" Korea National University of Education 2015

    27 Park, S. Y., "The development of web based instruction program on oceanography unit and the analysis of its effects in earth science class" 21 (21): 264-278, 2001

    28 Kim, M. C., "Technology-enhanced inquiry tools in science education: an emerging pedagogical framework for classroom practice" 91 (91): 1010-1030, 2007

    29 Bonk, C. J., "Teaching on the web : with a little help from my pedagogical friends" 11 (11): 3-28, 1999

    30 Clark, D. B., "Scaffolding knowledge integration through curricular depth" 12 (12): 451-494, 2003

    31 Raes, A., "Scaffolding information problem solving in web-based collaborative inquiry learning" 59 : 82-94, 2012

    32 Collins, A., "National science education standards : looking backward and forward" 97 (97): 299-313, 1997

    33 National Research Council, "National science education standards" National Academy Press 2000

    34 Glass, G. V., "Meta-analysis in social research" Sage Publications 1981

    35 Wu, H. L., "Integrating computer-and teacher-based scaffolds in science inquiry" 57 : 2352-2363, 2011

    36 Li, Q., "Inquiry-based learning and e-mentoring via video conference a study of mathematics and science learning of Canadian rural students" 58 : 729-753, 2010

    37 Levy, D., "How dynamic visualization technology can support molecular reasoning" 22 : 702-717, 2013

    38 Lim, B., "Guidelines for designing inquiry-based learning on the web:online professional development of educators"

    39 Ebenezer, J., "Engaging students in environmental research projects : perceptions of fluency with innovative technologies and levels of scientific inquiry abilities" 48 (48): 94-116, 2011

    40 Sun, D., "Designing a web-based science learning environment for model-based collaborative inquiry" 22 : 73-89, 2013

    41 Baek, N. Y., "Design and application of a web-based instruction to enhance science process skill" 15 (15): 157-188, 2003

    42 Linn, M. C., "Computers, teachers, peers: science learning partners" Lawrence Erlbaum Associates 2000

    43 DeBoer, G. E., "Comparing three online testing modalities : using static, active, and interactive online testing modalities to assess middle school students’ understanding of fundamental ideas and use of inquiry skills related to ecosystems" 51 (51): 523-554, 2014

    44 Malopinsky, L., "An instructional design model for online problem based learning (pbl) environments :the learning to teach with technology studio"

    45 Suh, J. K., "An analysis on recent trends to analyze the effectiveness of web-based instruction(wbi) in the domain of science" Ewha Womans University 2005

    46 Singer, S., "America’s lab report:investigations in high school science" The National Academies Press 2005

    47 DeBoer, G. E., "A history of ideas in science education" Teachers College Press 1991

    48 Ministry of Education and Science Technology, "2007 commentary on revised curriculum of the elementary school education Ⅳ" MiraeN 2008

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