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NTIS 바로가기한국지구과학회지 = Journal of the Korean Earth Science Society, v.28 no.7, 2007년, pp.775 - 788
오준영 (창원대학교 과학영재교육원) , 김상수 (창원대학교 과학영재교육원) , 강용희 (경북대학교 과학영재교육원)
This study was aimed to understand the structures of preservice secondary school teachers' alternative conceptions on radioactive isotopes in the interior of earth. The structure of their conceptions were analyzed by the suggestions of Niaz (1988) based on the Lakatosian frameworks. The survey was c...
경재복, 윤일회, 이경훈, 김기룡, 황원기, 이기영, 2006, 고등학교 지구과학 I. (주)중앙교육진흥연구소, 서울, 268 p
오준영, 김상수, 2007, 가설 생성과 확증과정의 프로그램의 제안: 과학영재 교육을 중심으로. 제 5회 전국대학교 과학영재교육원 학술 발표회 논문집, 128-139
오준영, 강용희, 2005, 과학개념구성을 위한 하나의 과학 철학적 수업전략의 제안. 중등교육연구, 53(2), 479-512
오준영, 채동현, 2004, 별에 대한 초등교사와 초등학생들의 핵심신념 비교. 중등교육연구, 52, 427-452
이규석, 조희형, 박봉상, 박문수, 심국석, 심중섭, 최진복, 장전찬, 이창진, 이용준, 2006, 고등학교 과학. (주)대한교과서, 서울, 263 p
이문원, 전성용, 권석민, 진만식, 신석주, 임부철, 2007, 고등학교 지구과학 II.-(주)금성출판사, 서울, 392 p
이성묵, 채광표, 김기대, 이문원, 권석민, 손영운, 노태희, 정지오, 서인호, 김영수, 김윤택, 이세영, 2006, 중학교 과학2. (주)금성출판사, 서울, 304 p
채동현, 1995, 예비교사들의 방사성 동위원소에 대한 유년적 사고. 한국지구과학회지, 16(6), 469-476
한국지구과학회 편저, 2000, 지구환경과학 I. (주)대한교과서, 서울, 105 p
Barker, P. and Gholson, B., 1984, The history of psychology of learning as a rational process: Lakatos versus Kuhn. In Reese, H.W (ed.), Advances in child development and behavior (Vol. 18). Academic Press, New York, USA, 227-244
Baxter, J., 1989, Children's understanding of familiar astronomical events. International Journal of Science Education, 11 (5), 502-513
Baxter, J., 1991, A constructivist approach to astronomy in the National Curriculum. Physics Education, 26 (1), 36-45
Beilin, H., 1985, Dispensable and Indispensable Elements in Piaget's Theory: On the core of Piaget's Research Program. In Rerse, H.W (ed.), Genetic Epistemology: Yesterday and Today. City University of New York, New York, USA, 107-125
Blanco, R. and Niaz, M., 1998, Baroque Tower on a Gothic Base: A Lakatosian Reconstruction of Students' and Teachers' Understanding of Structure of the Atom. Science and Education, 7 (4), 327-360
Carey, S., 1986, Cognitive science and science education. American Psychologies, 1, 1123-1130
Champagne, A.B. and Klopfer, L.E., 1983, Naive theories and science learning. Paper presented at the annual meeting of the American Association of Physics Teachers, New York. (Eric Document Reproduction Service No. ED 225 825)
Chinn, C.A. and Brewer, W.F., 1993, The role of anomalous data in knowledge acquisition: A theoretical framework and implications for science instruction. Review of Educational Research, 63 (1), 1-49
Diakidoy, I., Vosniadou, S., and Hawks, J.D., 1997, Conceptual change in astronomy: Models of the earth and day/night cycle on American-Indian children. European Journal of Psychology of Education, 12 (2), 159-184
Gilbert, J.K. and Swift, D.J., 1985, Towards a Lakatosian Analysis of the Piagetian and Alternative Conceptions Research Programs. Science Education, 69, 681-696
Hashweh, M.Z., 1986, Toward an explanation of conceptual change. European Journal of Science Education, 8 (3), 229-249
Hewson, P.W., 1982, A case study of conceptual change in special relativity: The influence of prior knowledge in learning. European Journal of Science Education, 4, 61-78
Laburu, C.E. and Niaz, M., 2002, A Lakatosian Framework to analyze Situations of Cognitive Conflict and Controversy in Students' Understanding of Heat Energy and Temperature. Journal of Science Educational Technology, 11 (3), 2002, 211-219
Lakatos, I., 1970, Falsification and the Methodology of Scientific Research Programmes. In Lakatos, I. and Musgrave, A. (eds.), Criticism and the Growth of Knowledge. Cambridge University Press, New York, USA, 91-196
Lederman, N.G. and Zeidler, D.L., 1987, Science teachers' conceptions of the nature of science: Do they really influence teaching behavior? Science Education, 71 (5), 721-734
Linn, M.C. and Songer, N.B., 1991, Teaching thermodynamics to middle school students: What are appropriate cognitive demands? Journal of Research in Science Teaching, 28, 885-918
Lutgens, F.K. and Tarbuck, E.J., 2002, Foundations of earth science. In Pearson Education. Inc.(ed.), Prentice Hall Press, New York, USA, 252-253
Niaz, M., 1995, Progressive transitions from algorithmic to conceptual understanding in student ability to solve chemistry problems: A Lakatosian interpretation. science education, 79 (1), 19-36
Niaz, M., 1998, A lakatosian conceptual change teaching strategy based on student ability to build models with varying degrees of conceptual understanding of chemical equilibrium. Science and Education, 7 (2), 107-127
Nussbaum, J. and Novick, S., 1982, Alternative frameworks, conceptual conflict, and accommodation: Toward a principled teaching strategy. Instructional Science, 11, 183-200
Nussbaum, J, 1989, Classroom conceptual change: Philosophical perspectives. International Journal of Science Education, 11 (special issue), 530-540
Posner, G.J., Strike, K.A., Hewson, P.W., and Gertzog, W.A., 1982, Accommodation of a scientific conception: toward a theory of conceptual change. Science Education, 66, 211-277
Sharp, J.G., 1996, Children's astronomical beliefs: a preliminary study of Year 6 children in south-west England. International Journal of Science Education, 18 (6), 685-712
Vosniadou, S., 1989, Knowledge acquisition in observational astronomy (Technical report No. 468). (ERIC Document Processing Service No. ED 316 408)
Vosniadou, S., 1994, Capturing and modeling the process of conceptual change. Learning and Instruction, 4, 45-69
Vosniadou, S. and Brewer, W.F., 1994, Mental models of the day/night cycle. Cognitive Science, 18, 123-183
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