Exploring Young Children's Conceptions of Learning Science Using the Draw-and-tell Technique_

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題名：	Exploring Young Children's Conceptions of Learning Science Using the Draw-and-tell Technique
作者：	林宜慧
作者(外文)：	Yi-Hui Lin
校院名稱：	國立臺灣師範大學
系所名稱：	人類發展與家庭學系
指導教授：	簡淑真
學位類別：	博士
出版日期：	2013
主題關鍵詞：	幼兒；科學學習概念；繪畫敘說；Young children；Conceptions of learning science；The draw-and-tell technique
原始連結：	連回原系統網址
相關次數：	被引用次數:期刊(0) 博士論文(0) 專書(0) 專書論文(0) 排除自我引用:0 共同引用:0 點閱:4

越來越多的研究在探究台灣不同階段、不同學科領域學習者的學習概念。因此，本研究目的旨在以畫畫與敘說的方法探究399位北台灣（台北市、新北市、桃園縣、新竹縣與苗栗縣）大班幼兒的幼兒科學學習概念。
研究分三階段進行，第一階段先與幼兒進行團體討論、分享他們的幼兒園科學學習經驗；第二階段邀請幼兒畫下他們認為的科學學習；第三階段針對其畫作進行幼兒敘述訪談。此外，研究也輔以科學教學觀察與幼兒教師科學的訪談以利資料討論。資料分析的方法為量化內容分析以及質性資料描述。
研究結果如下：
一、透過畫畫與敘說的技巧，66.8%的幼兒可以清楚地在畫作與敘說表達其科學學習的概念。因此，畫畫與敘說可以作為探究幼兒概念的研究方式。
二、對於科學學習的概念，幼兒認為科學學習是觀察呈現55.4%於幼兒畫作中，認為科學學習是聽老師講述則佔有35.6%，認為科學學習是動手做占30.6%，認為科學學習是看占27.8%，科學學習是記憶占11.0%，此外，幼兒認為科學學習是閱讀、討論、記錄、測量、比較、預測以及思考則都占10%以下。而科學學習象徵則有71.4%的實物、31.6%的圖片與大圖、14.5%的書本以及10%以下的科技工具(例如投影機、電視)、放大鏡、標本、觀察箱等。此結果的呈現與歷年來台灣幼兒科學教學強調之觀察、實驗與操作內容相呼應。
三、將幼兒學習概念中的學習活動與學習象徵進行相關分析，結果發現：科學學習概念中的聽老師講述、記憶、看、閱讀、觀察及思考與幼兒的一般學習象徵（科技工具、書本、圖片與大圖）呈現正相關。而科學學習概念中的動手做及觀察與幼兒科學性學習象徵（放大鏡、實物、標本、觀察箱）呈現正相關。再依據多元迴歸分析發現：幼兒一般性學習象徵可以其科學學習概念為：聽老師講述、記憶、看、動手做、觀察與想。而幼兒科學性學習象徵則可預測其科學學習概念為：聽老師講述、看與觀察。但研究結果未顯示高階的學習概念所倚賴的學習象徵為何。
四、依據群集分析發現，可將幼兒科學學習概念分成三種族群：有126名幼兒為傳統型科學學習概念者，認為的科學學習為聽老師講述、記憶、看、閱讀、與討論等一般性學習活動，且其學習象徵的表現為一般性學習象徵；有227名幼兒為操作型科學學習概念者，認為科學學習為動手做、觀察、與記錄等一般性科學學習活動，且其學習象徵的表現為科學性學習象徵；另有46名幼兒為混合型科學學習概念者，除一般性學習活動、一般性科學學習活動也展現出進階的科學學習活動。
本研究讓幼兒教育研究與實務者對於台灣幼兒的科學學習概念有更深入的瞭解。文中亦提出相關的研究限制與未來研究建議。

以文找文

In the past decade, a growing body of research has focused on students’ conceptions of learning science. With the notion that conceptions of learning science can potentially affect learning approaches, learning processes and learning outcomes, researchers are concerned about the learner’s conceptions of learning science. However, only a few studies have been carried out to explore young children’s conceptions of learning. This current research, therefore, extends the work on the conceptions of learning science to the population of young children in Taiwan with a focus on examining the conceptions of learning science they themselves depicted.
A total of 597 young children aged six were recruited to participate in the study. These young children were from 15 kindergartens, including both public and private, located in northern Taiwan.
The study was carried out in three phases. First, the children were invited to share their early experiences of learning science. Then, the draw-and-tell technique was adopted. Each child was asked to draw a picture of his/her conceptions of learning science. Finally, after drawing, each child was asked to describe his/her work individually.
The results of the study are listed as follows:
1. Through the standard research procedure, 66.8% of all of the young children produced their conceptions of learning science in their drawings. Therefore, the draw-and-tell technique is a potential way of understanding young children’s conceptions of learning.
2. Content analysis was conducted to probe the young children’s conceptions of learning science. In all, 55.4 % of the children demonstrated observation in their drawing, 35.6% presented learning science as listening to the teacher, 30.6% demonstrated that learning science is doing, 27.8% had conceptions of learning science as looking, and 11% illustrated their conceptions of learning science as memorizing. The children’s conceptions of learning science as reading, discussing, recording, measuring, comparing, predicting and thinking were all below 10%. In the category of symbols of learning, objects (71.4%) are regarded as necessary components for learning; 31.6% of the children presented pictures in their drawings of conceptions of learning science, and 14.5% presented books, while technology tools, magnifying glasses, specimens, and inspection boxes were all under 10%. In addition, the hierarchical structure of their conceptions was identified.
3. Since the conceptions of learning science are a composited conception, Pearson’s correlation was used to show the relationships among the young children’s conceptions of learning science. Listening to the teacher, memorizing, looking, reading, observing and thinking were significantly and positively related to the children’s general learning symbols. There were only significant correlations among the learning activities of doing and observing for the scientific learning symbols.
4. The stepwise regression model showed that the general learning symbols drawn by the children were significant predictors of the scientific learning activities of listening to the teacher, memorizing, looking, doing, observing, and thinking. The scientific learning symbols that they drew were significant predictors of the scientific learning activities of listening to the teacher, looking, and observing.
5. To further discover the possible features of Taiwanese young children’s conceptions of learning science, their presented cluster patterns in their drawing were explored by cluster analysis. Three groups of conceptions can be identified: the traditional conceptions of learning science, the operational conceptions of learning science, and the mixed conceptions of learning science.
The limitations of this study and suggestions for future work are also indicated.

以文找文

American Association for the Advancement of Science (1993). Benchmarks for Science Literacy. New York: Oxford University Press.
Barab, S. A., &; Kirshner, D. (2001). Rethinking methodology in the learning sciences. Journal of the Learning Sciences, 10(1/2), 5-15.
Barker, J., &; Weller, S. (2003). “Is it fun?” developing children centred research methods. International Journal of Sociology and Social Policy, 23(1/2), 33-58.
Berelson, B. (1952). Content analysis in communication research. Glencoe,IL: Free Press.
Bloom, B. S., &; Krathwohl, D. R. (1956). Taxonomy of Educational Objectives: The Classification of Educational Goals, by a committee of college and university examiners Handbook I: Cognitive Domain. New York: Longmans.
Bowman, B., Donovan, S., &; Burns, S. (Eds.) (2001). Eager to learn: Educating our preschoolers. Washington, DC: National Academy Press. Retrieved May 13, 2013, from http://www.google.com.tw/books?hl=en&;lr=&;id=hBcLBexM-zgC&;oi=fnd&;pg=PR1&;dq=Bowman,+Donovan,+%26+Burns,+2001&;ots=y1dfZG-iEN&;sig=8WKSI-Q2SoycH8MeVhuV9ZLFu8c&;redir_esc=y#v=onepage&;q=Bowman%2C%20Donovan%2C%20%26%20Burns%2C%202001&;f=false
Brackett-Milbum, K. (1999). A critical appraisal of the draw and write technique. Health Education Research, 14, 387-395.
Browne, C. A., &; Woolley, J. D. (2001). Theory of mind in children's naming of drawings. Journal of Cognition and Development, 4(2), 389-412.
Burnett, P. C., Pillay, H., &; Dart, B. C. (2003). The Influences of Conceptions of Learning and Learner Self-Concept on High School Students' Approaches to Learning. School Psychology International, 24(1), 54-66.
Bynum, W. F., &; Porter, R. (Eds.). (2005). Oxford Dictionary of Scientific Quotations: Oxford University Press.
Canoy, M., Ours, J. C., Ploeg, F. (2006). Chapter 21 The Economics of Books. Handbook of the Economics of Art and Culture,1, 721-761.
Chiou, G.-L., &; Liang, J.-C. (2012). Exploring the Structure of Science Self-efficacy: A Model Built on High School Students' Conceptions of Learning and Approaches to Learning in Science. Asia-Pacific Education Researcher, 21(1), 83.
Christensen, P. H. (2004). Children's participation in ethnographic research: Issues of power and representation. Children &; Society, 18(2), 165-176.
Clark, A. (2005). Listening to and involving young children: a review of research and practice. Early Child Development and Care, 175(6), 489-505.
Cole, F. L. (1988). Content analysis: process and application. Clinical Nurse Specialist, 2(1), 53-57.
Cook-Sather. (2002). Authorizing students’ perspectives: toward trust, dialogue, and changein education. Educational Researcher, 31(4), 3.
Crawford, K., Gordon, S., &; Prosser, M. (1994). Conceptions of Mathematics and How it is Learned: The Perspectives of Students Entering University. Learning and Instruction, 4(4), 331-345.
Dart, B. (1998). Teaching for improved learning in small classes. In B. Dart &; G. Boulton-Lewis (Eds.), Teaching and learning in higher education (pp. 222-249). Melbourne: Australian Council for Educational Research.
Diem-Wille, G. (2001). A therapeutic perspective: The use of drawings in child psychoanalysisand social science. In T. V. Leeuwen &; C. Jewitt (Eds.), Handbook of Visual Analysis (pp. 119-133). London: Sage. Retrieved November 20, 2012, from http://www.google.com.tw/books?hl=en&;lr=&;id=8Bdb-L3D1I0C&;oi=fnd&;pg=PR7&;dq=.+V.+Leeuwen+%26+C.+Jewitt+(Eds.),+Handbook+of+Visual+Analysis&;ots=miu6MjruKS&;sig=7CdvV4RRk3yUuO5amKiA5g_Mb6s&;redir_esc=y#v=onepage&;q=.%20V.%20Leeuwen%20%26%20C.%20Jewitt%20(Eds.)%2C%20Handbook%20of%20Visual%20Analysis&;f=false
Dockett, S., &; Perry, B. (2005). Researching with children: insights from the Starting School Research Project. Early Child Development and Care, 175(6), 507-521.
Dockrell, J., Lewis, A., &; Lindsay, G. (2000). Researching children's perspectives: a psychological dimension. In A. Lewis &; G. Lindsay (Eds.), Researching children's perspectives (pp. 46-58). Buckingham: Open University Press.
Dove, J. E., Everett, L. A., &; Preece, P. F. W. (1999). Exploring a hydrological concept through children's drawings. International Journal of Science Education, 21(5), 485-497.
Duschl, R. A., Schweingruber, H. A., &; Shouse, A. W. (2007). Taking Science to School: Learning and Teaching Science in Grades K-8. National Academies Press. Retrieved May 13, 2013, from http://www.google.com.tw/books?hl=en&;lr=&;id=uVA43CAEBywC&;oi=fnd&;pg=PR1&;dq=Duschl,+R.+A.,+Schweingruber,+H.+A.,+%26+Shouse,+L.+A.+W.+(2007).+Taking+Science+to+School:+Learning+and+Teaching+Science+in+Grades+K-8.+National+Academies+Press.&;ots=LnUQzoQWHq&;sig=s1veL34ETpbYFOqc1gwqCwNTE2A&;redir_esc=y#v=onepage&;q&;f=false
Ehrlen, K. (2009). Drawings as Representations of Children's Conceptions. International Journal of Science Education, 31(1), 41-57.
Einarsdottir, J., Dockett, S., &; Perry, B. (2009). Making meaning: Children’s perspectives expressed through drawings. Early Child Development and Care, 179(2), 217-232.
Eklund-Myrskog, G. (1998). Students’ conceptions of learning in different educational contexts. Higher Education, 35, 299-316.
Elo, S., &; Kyngas. (2008). The qualitative content analysis process. Journal of Advanced Nursing, 62(1), 107-115.
Eshach, H., &; Fried, M. N. (2005). Should science be taught in early childhood? Journal of Science Education and Technology, 14(3), 315-336.
Falk, J., &; Storksdieck, M. (2005). Using the contextual model of learning to understand visitor learning from a science center exhibition. Science Education, 89(5), 774-778.
Farenga, S. J., &; Joyce, B. A. (1997). What children bring to the classroom: Learning science from experience. School Science and Mathematics, 97, 248-252.
Finson, K. D., Beaver, J. B., &; Cramond, B. L. (1995). Development and field test of a checklist for the draw-a-scientist test. School Science and Mathematics, 95(4), 195-205. new window

Fivush, R. (1984). Learning about school: The development of kindergarteners' school scripts. Child Development, 55, 1697-1709.
Fralick, B., Kearn, J., Thompson, S., &; Lyons, J. (2009). How middle schoolers draw engineers and scientists. Journal of Science Education and Technology, 18(1), 60-73.
Freeman, M., &; Mathison, S. (2009). Researching children's experiences. New York: Guilford Press. Retrieved November 10, 2012, from http://www.google.com.tw/books?hl=en&;lr=&;id=QQimUOr3AYAC&;oi=fnd&;pg=PA1&;dq=Freeman,+M.,+%26+Mathison,+S.+(2009).+Researching+children%27s+experiences.+New+York:+Guilford+Press.&;ots=JRlYQ9eAZQ&;sig=BUfd0nIIuuoLTXsR5As7e8k_cx0&;redir_esc=y#v=onepage&;q&;f=false
Gall, M., Gall, J., &; Borg, W. (2007). Educational research. Boston, MA: Allyn and Bacon.
Gallas, K. (1994). The Languages of Learning: How children talk, write, dance, draw, and sing their understanding of the world. New York: Teachers College Press.
Gelman, R., &; Brenneman, K. (2004). Science learning pathways for young children. Early Childhood Research Quarterly, 19(1), 150-158.
Gibbs, G., Morgan, A., &; Taylor, E. (1982). A review of the research of Ference Marton and the Goteborg Group: A phenomenological research perspective on learning. Higher Education, 11(2), 123-145.
Goodlad, J. I. (1979). Curriculum inquiry: The study of curriculum practice. New York: McGraw-Hill.
Greig, A., &; Taylor, J. (1999). Doing Research with Children. London: Sage Publications Ltd. Retrieved November 10, 2012, from http://www.google.com.tw/books?hl=en&;lr=&;id=g5k3XAf0ahoC&;oi=fnd&;pg=PP11&;dq=Greig,+A.,+%26+Taylor,+J.+(1999).+Doing+Research+with+Children.+London:+Sage+Publications+Ltd&;ots=jcMH11w-Uc&;sig=qo-GvLhCGoXF4Rq-OSqkWK7zTJc&;redir_esc=y#v=onepage&;q&;f=false
Haney, W., Russell, M., &; Bebell, D. (2004). Drawing on Education: Using drawings todocument schooling and support changes. Harvard Educational Review, 74(3), 241-271.
Hannafin, M. J., &; Hill, J. R., Ed. (2002). Epistemology and the design of learning environments. Trends and Issues in Instructional Design and Technology. Upper Saddle River, New Jersey: Merrill Prentice Hall.
Harcourt, D., &; Einarsdottir, J. (2012). Introducing children's perspectives and participation in research. European Early Childhood Education Research Journal, 19(3), 301-307.
Harlen, W. &; Winter, J. (2004). The development of assessment for learning: learning from the case of science and mathematics. Language Testing, 21, 390-408.
Harwood, T. G., &; Garry, T. (2003). An overview of content analysis. The Marketing Review, 3, 282-293.
Hewson, P. W., &; Hewson, M. G. (1988). An appropriate conceptions of teching science: A view from studies of science learning. Science Education, 72, 597-614.
Hodson, D. (1988). Experiments in science and science teaching. Educational Philosophy and Theory, 20(2), 53-66.
Hodson, D. (1996). Laboratory work as scientific method: three decades of confusion and distortion. Journal of Curriculum Studies, 28(2), 115-135.
Hudson, J., &; Nelson, K. (1983). Effects of script structure on children's story recall. Developmental Psychology, 19(4), 625-635.
Inan, H. Z., Trundle, K. C. &; Kantor, R. (2010). Understanding natural sciences education in a Reggio Emilia-inspired preschool. Journal of Research in Science Teaching, 47 (10), 1186–1208.
Johnston, S. F. (2005). Attributing scientific and technical progress: the case of holography. History and Technology, 21(4), 367-392.
Jones, I., Lake, V. E., &; Lin, M. (2008). Early Childhood Science Process Skills: Social and Developmental Considerations. In O. N. Saracho &; B. Spodek (Eds.), Contemporary perspectives on Science and Technology in Early Childhood Education (pp. 17-40). Charlotte, NC: Information Age Publishing Inc. Retrieved November 10, 2012, from http://www.google.com.tw/books?hl=en&;lr=&;id=7K8gD4E8DNAC&;oi=fnd&;pg=PR7&;dq=Contemporary+perspectives+on+Science+and+Technology+in+Early+Childhood+Education+&;ots=wLrKD6dKno&;sig=DCgpyZeB5h8-lURcmbYClAsZQVU&;redir_esc=y#v=onepage&;q=Contemporary%20perspectives%20on%20Science%20and%20Technology%20in%20Early%20Childhood%20Education&;f=false
Katz, L. G. (1994). Perspectives on the quality of early childhood programs. Phi Delta Kappan, 76(3), 200-205.
Kendrick, M., &; McKay, R. (2002). Uncovering literacy narratives through children's drawings: An illustrative example. Canadian Journal of Education, 27(1), 45-60.
Kuhn, D., &; Pearsall, S. (2000). Developmental origins of scientiﬁ c thinking. Journal of Cognition and Development, 113-129.
Lee, M.-H., Johanson, R. E., &; Tsai, C.-C. (2008). Exploring Taiwanese high school students’ conceptions of and approaches to learning science through a structural equation modeling analysis. Science Education, 92, 191-220.
Lewis, A. (2002). Accessing, through Research Interviews, the Views of Children with Difficulties in Learning. Support for Learning, 17(3), 111-116.
Lin, H.-M., &; Tsai, C.-C. (2008). Conceptions of learning management among undergraduate students in Taiwan. Management Learning, 39, 561-578.
Lin, Y.-H., Liang, J. C., &; Tsai, C.-C. (2012). The effects of different forms of physiology instruction on the development of students’ conceptions of and approaches to science learning. Advances in Physiology Education, 36(1), 42-47.
Lincoln, Y. S. (1995). In Search of Student’s Voices. Theory into Practice, 34(2), 88-93.
Lindqvist, G. (2001). When Small Children Play: how adults dramatise and children create meaning. Early Years, 21(1), 7-14.
Lloyd-Smith, M., &; Tarr, J. (2000). Researching children's experiences: A sociological perspective. In A. Lewis &; G. Lindsay (Eds.), Researching children's perspectives (pp. 59-69). Buckingham, U.K: Open University Press.
Lonka, K., Joram, E., &; Bryson, M. (1996). Conceptions of Learning and Knowledge: Does Training Make a Difference? Contemporary Educational Psychology, 21, 240-260.
MacDonald, A. (2009). Drawing stories: The power of children's drawings to communicate the lived experience of starting school. Australasian Journal of Early Childhood, 34(2), 40-49.
Malchiodi, C. (1998). Understanding Children's Drawings. London: Jessica Kingsley
Mandler, J. M. (1983). Structural invariants in development. In L. Liben (Ed.), Piaget and the foundations of knowledge. Hillsdale, NJ: Lawrence Erlbaum Associates. In L. Liben (Ed.), Piaget and the foundations of knowledge. Hillsdale, NJ: Lawrence Erlbaum Associates.
Marshall, D., Summer, M., &; Woolnough, B. (1999). Students’ conceptions of learning in an engineering context. Higher Education, 38, 291-309.
Marton, F. (1981). Phenomenography-describing conceptions of the world around us. Instructional Science, 10, pp.177-200.
Marton, F. (1988). Describing and Improving Learning. In R. R. Schmeck (Ed.), Learning Strategies and Learning Styles. New York: Plenum Press.
Marton, F., Dall'Alba, G. &; Beaty, E. (1993). Conceptions of learning. International Journal of Educational Research, 19, 277-300.
Marton, F., &; Säljö, R. (1976). On Qualitative Differences in learning- II outcome as a function of the learner's conception of the task. British Journal of Educational Psychology, 46(2), 115-127.
Matthews, M. R. (1993). Constructivism and science education: Some epistemological problems. Journal of Science Education and Technology, 2, 359-370.
McWhirter, J. M., Collins, M., Bryant, I., Wetton, N. M., &; Bishop, J. N. (2000). Evaluating 'safe in the sun, a curriculum programme for primary schools. Health Education Research, 15(2), 203-217.
McWhirter, J. M., Collins, M., Bryant, I., Wetton, N. M., &; Bishop, J. N. (2000). Evaluating 'safe in the sun, a curriculum programme for primary schools. Health Education Research, 15(2), 203-217.
Michaels, S., Shouse, A., &; Schweingruber, H. (2008). Ready, Set, Science!: Putting Research to Work in the K-8 Science Classroom. Washington, D.C: National Academies Press. Retrieved May 10, 2013, from http://www.google.com.tw/books?hl=en&;lr=&;id=8OwUlpUl7TAC&;oi=fnd&;pg=PR9&;dq=Michaels,+S.,+Shouse,+A.,+%26+Schweingruber,+H.+(2008).+Ready,+Set,+Science!:+Putting+Research+to+Work+in+the+K-8+Science+Classroom.+Washington,+D.C:+National+Academies+Press.&;ots=9aL118cJtF&;sig=RUig4Xr5XkqLoklEYZ8FiHYQ76E&;redir_esc=y#v=onepage&;q=Michaels%2C%20S.%2C%20Shouse%2C%20A.%2C%20%26%20Schweingruber%2C%20H.%20(2008).%20Ready%2C%20Set%2C%20Science!%3A%20Putting%20Research%20to%20Work%20in%20the%20K-8%20Science%20Classroom.%20Washington%2C%20D.C%3A%20National%20Academies%20Press.&;f=false
Michel, P. A. (1994). The child’s view of reading. Boston: Allyn &; Bacon.
Moomaw, S., &; Davis, J. A. (2010). STEM Comes to Preschool. Young Children, 65(5), 12-14.
Morrow, V. and Richards, M. P. M. (1996). The ethics of social research with children: an overview. Children and Society, 10, 90-105.
Murphy, C. &; Beggs, J. (2003). Children’s perceptions of school science. School Science Review, 84(308), 109–116.
Murphy, C., Beggs, J., Hickey, I., O'Meara, J., &; Sweeney, J. (2001). National Curriculum: compulsory school science-Is it improving scientific literacy? Educational Research, 43(2), 189-199.
National Research council (1996). National science education standards. Washington, DC: National Academy Press.
Neundorf, K. (2002). The Content Analysis Guidebook. Sage Publi-cations Inc: Thousand Oaks,CA.
Newman, M. (2005). Problem-based learning: an introduction and overview of the key features of the approach. Journal of Veterinary Medicine Education. 32(1), 12-20.
Oldfather, P. (1995b). Songs ”Come Back Most to Them”: Students' Experiences as Researchers. Theory into Practice, 34(2), 131-137.
Olson, D. R., &; Bruner, J. S. (1996). Folk psychology and folk pedagogy. In D. R. O. Olson &; N. Torrance (Eds.), The handbook of education and human development. new models of learning, teaching and schooling (pp. 9-27). Cambridge: Blackwell. Retrieved December 10, 2013, from http://people.uncw.edu/caropresoe/EDN500/chapter2.pdf
Ozkal, K., Tekkaya, C., J., C., &; Sungur, S. (2009). A conceptual model of relationships among constructivist learning environment perceptions, epistemological beliefs, and learning approaches. Learning and Individual Differences, 19(1), 71-79.
Pahl, K. (2001). Texts as artifacts crossing sites: Map making at home and school. Reading, 35(3), 120-125.
Pajares, M. F. (1992). Teachers’ beliefs and educational research: cleaning up a messy construct. Review of Educational Research, 62(3), 307-333.
Partnership for 21st Century Skills. (2002) Learning for the 21st century: A report and mile guide for 21st century skills. Washington, DC: Partnership for 21st Century Skills. Retrieved July 26, 2013, from http://www.p21.org/storage/documents/P21_Report.pdf
Pramling, I. (1988). Developing children's thinking about their own learning. British Journal of Educational Psychology, 58, 266-278.
Pramling, I. (1996). Understanding and empowering the child as a learner. In D. R. Olson &; N. Torrance (Eds.), Handbook of education and human development: New models of learning, teaching and schooling (pp. 565-592). Cambridge: Blackwell.
Prosser, J. (1996). What constitutes an image‐based qualitative methodology? Visual Sociology, 11(2), 25-34.
Ravanis, K. and Bagakis, G. (1998) Science Education in Kindergarten: sociocognitive perspective. International Journal of Early Years Education, 6, 3, 315-327.
Rennie, L., &; Jarvis, T. (1995). Children's choice of drawings to communicate their ideas about technology. Research in Science Education, 25(3), 239-252.
Renninger, K. A. (2009). Interest and Identity Development in Instruction: An Inductive Model. Educational Psychologist, 44(2), 105-118.
Richardson, J. (2010). Conceptions of learning and approaches to studying among White and ethnic minority students in distance edcuation. British Journal of Educational Psychology, 80(4), 535-556.
Rose, S. A., Feldman, J. F., &; Jankowski, J. J. (2009). A Cognitive Approach to the Development of Early Language. Child Development, 80(1), 134-150.
Säljö, R. (1979). "Learning in the Learner's Perspective: 1: some commonplace misconceptions". Reports from the Institute of Education, University of Gothenburg, 76.
Salmon, A. (2008). Creating a culture of thinking in the young child. Early Childhood Education Journal, 35(5), 457-461
Sandelowski, M. (1995). Qualitative analysis:what it is and how to begin? Research in Nursing &; Health, 18, 371-375.
Sarewitz, D., &; Pielke Jr, R. (1999). Prediction in science and policy. Technology in Society, 21(2), 121-133.
Scherz, Z., &; Oren, M. (2006). How to change students‟ images of science and technology. Science Education, 90, 965-985.
Selwyn, N., Boraschi, D., &; Ozkula, S. M. (2009). Drawing digital pictures: An investigation of primary pupils' representations of ICT and schools. British Educational Research Journal, 35(6), 909-928.
Shepardson, D. P. (2005). Studenfs ideas: What is an environment? Journal of Environmental Education, 36(4), 49-58.
Smith, A., Duncan, J., &; Marshall, K. (2005). Children's perspectives on their learning: exploring methods. Early Child Development and Care, 175(6), 473-487.
Solomon, J. (1980). Teaching Children in the Laboratory. London: Croom Helm. Retrieved June 8, 2013, from http://www.google.com.tw/books?hl=en&;lr=&;id=HSJxWSdKcWwC&;oi=fnd&;pg=PA126&;dq=Solomon,+J.+(1980).+Teaching+Children+in+the+Laboratory.+London:+Croom+Helm.&;ots=27Mn8oRdAk&;sig=DChp_KqFUaow1SmUUPSSfCiQSSY&;redir_esc=y#v=onepage&;q&;f=false
Stafstrom, C. E., Goldenholz, S. R., &; Dulli, D. A. (2005). Serial headache drawings by children with migraine: correlation with clinical headache status. Journal of Child Neurology, 20(10), 809-813.
Steketee, C. (1997). Conceptions of learning held by students in the lower, middle and upper grades of primary school. Proceedings Western Australian Institute for Educational Research Forum. Retrieved October 30, 2012, from http://www.waier.org.au/forums/1997/steketee.html
Strauss, S., Ziv, M., &; Stein, A. (2002). Teaching as a natural cognition and its relations to preschoolers' developing theory of mind. Cognitive Development, 17, 1473-1487.
Taylor, A. S. (2000). The UN convention of the rights of the child: Giving children a voice. In A. Lewis &; G. Lindsay (Eds.), Researching children' s Perspectives (pp. 21-33). Philadelphia: Open University Press.
Thomas, G. V., &; Jolley, R. P. (1998). Drawing conclusions: A re-examination of empirical andconceptual bases for psychological evaluation of children from their drawings. British Journal of Clinical Psychology, 37(2), 127-139.
Tizard, B., &; Hughes, M. (1984). Young Children Learning. London: Fontana.
Trigwell, K., &; Ashwin, P. (2006). An Exploratory Study of Situated Conceptions of Learning and Learning Environments. Higher Education, 51(2), 243-258.
Trigwell, K., &; Prosser, M. (1996). Changing approaches to teaching: a relational perspective. Studies in Higher Education, 21, 275-284.
Trigwell, K., Prosser, M., &; Waterhouse, F. (1999). Relations between teachers’ approaches to teaching and students’ approach to learning. Higher Education, 37(73-83).
Tsai, C.-C. (1998b). An analysis of scientific epistemological beliefs and learning orientations of Taiwanese eighth graders. Science Education, 82, 473-489.
Tsai, C.-C. (2002). Nested epistemologies: Science teachers’ beliefs of teaching, learning and science. International Journal of Science Education, 24, 771-783.
Tsai, C. C. (2004). Conceptions of learning science among high school students in Taiwan: a phenomenographic analysis. International Journal of Science Education, 26(14), 1733-1750.
Tsai, C.-C., &; Kuo, P.-C. (2008). Cram school students' conceptions of learning and learning science in Taiwan. International Journal of Science Education, 30(3), 351-373.
Tversky, A., &; Kahneman, D. (1971). Belief in the Law of Small Numbers. Psychological Bulletin, 2, 105-110.
Tversky, B. (2008). What does drawing reveal about thinking? Retrieved Oct 30, 2012, from http://www-psych.stanford.edu/~bt/diagrams/papers/Drawing_reveal_about_thinki.pdf
Van Rossum, E., &; Taylor, I. P. (1987). The relationship between conceptions of learning and good teaching: A scheme of cognitive development, American Educational Research Association. Washington DC.
Van Rossum, E. J., &; Schenk, S. M. (1984). The relationship between learning conception, study strategy and learning outcome. British Journal of Educational Psychology, 54(1), 73-85.
Vartuli, S., &; Rohs, J. (2009). Early Childhood Prospective Teacher Pedagogical Belief Shifts Over Time. Journal of Early Childhood Teacher Education, 30(4), 310-327.
Vermunt, J. D., &; Vermetten, Y. J. (2004). Patterns in student learning: Relationships between learning strategies, conceptions of learning, and learning orientations. Educational Psychology Review, 16(4), 359-384.
Wang, H. Y., &; Tsai, C. C. (2012). An Exploration of Elementary School Students' Conceptions of Learning: A Drawing Analysis. The Asia-Pacific Education Researcher, 21(3), 610-617.
Watters, J. J., Diezmann, C. M., Grieshaber, S. J., &; Davis, J. M. (2000). Enhancing science education for young children: A contemporary initiative. Australian Journal of Early Childhood, 26(2), 1-7.
Watts, N. (1997). A learner-based design model for interactive multimedia language learning packages. System, 25(1), 1-8.
Wheelock, A., Bebell, D., &; Haney, W. (2000). What can student drawings tell us about high-stakes testing in Massachusetts? Retrieved Oct 30, 2012, from http://www.susanohanian.org/show_research.php?id=9
Wiley, D. (2000). The instructional use of learning objects. Retrieved June 13 2012, From http://www.reusability.org/read
Wiltz, N. W., &; Klein, E. L. (2001). "What do you do in child care?" children's perceptions of high and low quality classrooms. Early Childhood Research Quarterly, 16(2), 209-236.
Wing, L. A. (1995). Play is not the work of the child: Young children's perceptions of work and play. Early Childhood Research Quarterly, 10(2), 223-247.
Worth, K., &; Grollman, S. (2003). Worms, Shadows and Whirlpools: Science in the Early Childhood Classroom. NH: Heinemann. Retrieved June 18, 2013, from http://www.eric.ed.gov/PDFS/ED481899.pdf
Wright, S. (2007). Young children's meaning-making through drawing and 'telling': Analogies to filmic textual features. Australasian Journal of Early Childhood, 32(4), 37-49.
Yang, Y.-F., &; Tsai, C.-C. (2010). Conceptions of and approaches to learning through online peer assessment. Learning and Instruction, 20(1), 72-83.周淑惠（2002）。幼稚園幼兒科學教學課程資源手冊。台北：教育部。
林佳珍（2008）。宜蘭縣幼教師實施幼兒科學教學現況之調查研究。花蓮教育大學幼兒教育學習碩士班碩士論文，未出版，花蓮。
教育部（1987）。幼稚園課程標準。台北：正中書局。
教育部（2002）。幼兒園教保活動課程暫行大綱。Retrieved May 10, 2013, from
盧美貴、陳柏璋、江麗莉（2003）。我國五歲幼兒基本能力與學力指標建構研究。台北：教育部。
簡淑真、熊召弟、陳淑芳（2006）。幼兒對溶解現象詮釋之分析。載於師範大學（主編），中華民國第22屆科學教育學術研討會（頁756-762）。台北：師大。
謝明芳（2012）。學齡前幼兒學習英語之觀點。課程與教學，15(2)，193-212。 new window

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