1. Modelling, Justi, , 2002
2. 개념과 범주화, 신현정, 아카넷, , 2002
3. Metaphors we live by, Lakoff, George, University of Chicago Press, Metaphors we live by, , 1980
4. Concepts and Induction, Smith, , 1989
5. Categories and concepts, Smith, Edward E., UMI, , 1996
6. Psychological essentialism, Medin, , 1989
7. The Earth as a cosmic body, Nussbaum, , 1985
8. Earth Science misconceptions, Phillips, , 1991
9. Expertise in problem solving, Rees, Chi, Glaser, , 1982
10. Conceptual change in childhood, Carey, Susan, The MIT Press, , u
11. Phenomenological research methods, Porkinghorne, , 1989
12. Toward an epistemology of physics, Erbaum Associates.diSessa, Toward an epistemology of physics, , 1993
13. Meta Learning and ConceptualChange, Gunstone, White, , 1989
14. Some observations on mental models, Norman, , 1983
15. What changes in conceptual change?, Sherin, diSessa, , 1998
16. 중학교 교육과정 해설(Ⅰ), 교육인적자원부, , 1999
17. Metaphorical reasoning about genetics, Ogborn, Martins, , 1997
18. Science education for the 21st century, Hurd, DeHart, , 2000
19. Teaching and learning forunderstanding, Perkins, , 1999
20. A revisionist theory of conceptual change, Posner, Strike, A revisionist theory of conceptualchange, , 1992
21. An introduction to radical constructivism, von Glasersgeld, An Introduction to radical constructivism, , 1984
22. Drifting continents and continental drift, LeGrand, H. E., , 1988
23. Student ideas about weathering and erosion, Dove, , 1997
24. Student-teachers' grasp of science concepts, Gill, , 1999
25. What is wrong with ESL programs in schools?, Zen, , 2001
26. Research onalternative conception in science, Joel J.M.Novak, Wandersee, , 1994
27. Venacular american theories of earth science, Meyer, , 1987
28. The ontological coherence of intuitivephysics, Chi, , 1993
29. Learning theories : an educational perspective, Schunk, Dale H, Merrill, , 1996
30. Piaget and after: The case of learning science, Bliss, , 1995
31. The process and challenges ofconceptual change, Chi, , 2002
32. Mental representations : a dual coding approach, Paivio, Allan, Oxford University Press, Mental representations: A dual-coding approach, , 1986
33. Strategies of qualitativeinquiry: Thousand Oaks, Lincoin, Denzin, , 1998
34. Using analogies to teach plate tectonicsconcepts, Nottis, , 1999
35. Students alternative conceptions in earth science, Dove, , 1998
36. Cognitive aspects of learning and teaching science, Mestre, , 2000
37. Constructing scientific knowledge in the classroom, Driver,R., Constructing scientific knowledge in the classroom, , 1994
38. Knowledge and concept development in socialstudies, Martorella, , 1991
39. Students' understanding of complex dynamic systems, Raia, , 2005
40. Teaching the basics about volcanoes to K-16students, Mattox, , 2000
41. Student s ' preconceptions in introductory mechanics, Clement, Students' preconceptions in introductory mechanics, , 1982
42. The nature of naive explanations ofnatural selection, Chi, , 1998
43. Building conceptual understanding in young scientists, Hawley, , 2002
44. Drawing during science activity in the primary school, Martin, Hayes, , 1994
45. Atmosphericmisconceptions: How they cloud our judgment, Francek, Bisard, Aron, , 1994
46. Guidelines for Drawing mental models available on-line, Glynn, S,
47. How people learn : brain, mind, experience, and school, Bransford, John, National Academy Press, "How people learn: Brain, , 2000
48. Stu dent s ' concept ion s and th e learnin g of scien ce, Driv er, Students' conceptions and the learning of science, , 1989
49. The everyday per spective and exceedingly unobviousmeaning, Ault, , 1984
50. Exploring a hydrological concept through children'sdrawings, Dove, , 2000
51. The role of meta-cognitionin facilitating conceptual change, Ozdemir, Yuruk, , 2003
52. Sixth grader' conception of rocks in their LocalEnvironments, Ford, , 2003
53. Belief systems as barriers to learning ingeological education, Happs, Bezzi, , 1994
54. Mental models of the earth: Astudy of conceptual in childhood, Vosniadou, , 1992
55. Some aspects of student understanding of glaciers andmountains, Happs, , 1985
56. From the general to the situated: three decades ofmetacognition, Georghiades, , 2004
57. Teachers' perceptions ofimportant and difficult science content, Stewart, Yarroch, F inley, , 1982
58. Visualizing earth's inaccessible interior- whatworks for students?, Hall-Wallace, , 2002
59. Reconsidering p-prims theory from the viewpoint ofsituated cognition, Ueno, , 1993
60. Introduction to model-based teaching and learning in science education, Gobert, Buckly, , 2000
61. Handbook of perception and cognition. Vol 12.Thinking and problem solving, Sternberg, , 1994
62. 물리학습에 대한 인지적 신념과 파동 개념 이해의 관계, 임성민, 서울대학교 대학원, 서울대학교 박사학위논문, , 2001
63. Preconceptionsabout earth science among students in an introductory course, Bain, Stein, DeLaughter, , 1998
64. The Relationship between Students'Epistemologies and Model-Based Reasoning, Gobert, , 1997
65. V ariable uses of alternative conception s: Acase study in current electricity, F inley, H eller, , 1992
66. Instructional-design theories and models: A new paradigm ofinstructional theory, Reigeluth, , 1999
67. Using descriptive drawings as a conceptualchange strategy in elementary science, Edens, Potter, , 2003
68. Mental, physical, and mathematicalmodels in the teaching and Learning of physics, Greca, Moreira, "Mental, , 2001
69. Critical Thinking : What Every Person Needs to Survive in a Rapidly Changing World, Richard W.P, Gerald M.N, , 1992
70. From things to processes: Atheory of conceptual change for learning science concepts, Chi, Slotta, , 1994
71. Self-efficacy and alternative conceptionof science of preservice elementary teachers, Schoon, , 1998
72. 중학교 학생들의 지구과학 개념에 대한 오개념의 형성 원인 분석, 정진우, 한국지구과학회, "한국지구과학 학회지, , 1991
73. Lions and tigers and bears, Oh my! Children'sconceptions of forests and their habitants, Strommen, "Lions and tigers and bears, , 1995
74. Research methodologies in scienceeducation: Assessing students' alternative conceptions, Libarkin, Kurdziel, , 2001
75. The Earth's mantle is solid: Teachers' misconceptionsabout the Earth and plate tectonics, King, , 2000
76. The retention of geologicmisconceptions: Alternative ideas that persist after instruction, Libarkin, Anderson, , 2003
77. Lithium Treatment of Acute Mania in Adolescents: APlacebo-Controlled Discontinuation Study, J.M, , 2004
78. Probing the dimensions of metacognition:Implication for conceptual change teaching-learning, Hennessey, , 1999
79. Integrating teacher education about sciencewith evaluation studies of science museum exhibits, Ault, Herrick, , 1991
80. Two dogmas ofconceptual empiricism: Implications for hybrid models of thestructure of knowledge, Smith, Keil, Simons, , 1998
81. Assessing students'misclassifications of physics concepts: An ontological basis forconceptual change, Chi, Slotta, , 1995
82. Concept mapping and misconceptions: Astudy of high-school students' understanding of acids and bases, Ross, Munby, , 1991
83. Shifting sands: A case study of conceptual development as competition between alternative conceptions, Taber, , 2001
84. Pre-/post-knowledge assessment of an earthscience course for elementary/middle school education majors, Gosselin, , 2002
85. Effect of instruction using students' priorknowledge and conceptual change strategies on science learning, Hewson, , 1983
86. Enhancing learning through conceptualchange teaching in research matters - to the science teacher No.8902, Kyle, Shymansky, , 1989
87. Qualitative Analysis of College Students' Ideas about the Earth: Interviews and Open-Ended Questionnaires, Dahl, Boone W, Belifuss M, Libarkin, Anderson, , 2005
88. Pupils and paradigms: A review ofliterature related to conceptual development in adolescent sciencestudents, Driv er, Easley, , 1978
89. Growing pebbles and conceptual prisms-Understandingthe source of student misconceptions about rock formation, Kusnick, , 2002
90. Misconceptions - A column about errors ingeoscience textbooks unnatural restrictions on the evaporation ofater, Warmpler, , 2001
91. Is heat hot" Inducing conceptual change by integrating everyday and scientific perspectives on thermal phenomena, Wiser, "Is heat hot"" Inducing conceptual change by integrating everyday and scientific perspectives on thermal phenomena", , 2001
92. Shaping the future ofundergraduate earth science education - innovation and changemaking an earth system approach, Manduca, Ireton, Mogk, , 1997
93. Heat energy and temperature concepts of adolescents, adults, and experts: Implications for curricular improvements, Lewis, Linn, "Heat Energy and temperature, , 1994
94. The measurement of expertise: Analysisof the development of knowledge and skills as a basis forassessing achievement, Glaser, Chi, , 1981
95. The role of anomalous data in knowledge acquisition: A theoretical framework and implications for science instruction, Brewers, Chinn, The role of anomalous data inknowledge acquisition: A theoretical framework and implications forscience instruction, , 1993
96. Portuguese students' understandingat ages 10-11 and 14-l5 of the origin and nature of the earth andthe development of life, Marques, Thompson D, , 1997
97. The use of problem-solving-based instructionalmodel in initiating change in students' achievement and alternativeframeworks, Chang, , 1999
98. Beyond cold conceptual change: The role of motivational beliefs and classroom contextual factors in the process of conceptual change, Boyce, Marx, Pintrich, , 1993
99. Conceptions of geological time among primary teachertrainees, with reference to their engagement with geoscience,history, and science, Trend, "Conceptions of geological time among primary teachertrainees, , 2000
100. An analysis of the annotated drawings of the internalstructure of the earth made by students aged 10-15 from primaryand secondary schools in Spain, Lillo, , 1994
101. Effects of student-generated diagrams versus student-generated summaries on conceptual understanding of causal and dynamic knowledge in plate tectonics, Clement, Gobert, , 1999
102. Profile changes for two students in a(Mathematics,Science and Technology Education) PreserviceTeacher Education Program with Constructivist Views of Teachingand Learning, Kwak, "Profile changes for two students in a(Mathematics, , 2001