Abstract
The purpose of the study was to investigate prospective early childhood teachers’ conceptions of teaching science, and thus identify their strategies for enabling their future pre-K to 3rd grade students’ construction of science content. For the purpose of this study, we subscribed to the view of conceptions of teaching as having dimensions and orientations reflecting two different models of learning, active learning and passive learning respectively. One hundred prospective early childhood teachers’ drawings and narratives of teaching science in early childhood classrooms were thematically analyzed to identify their conceptions of teaching science. Forty-six participants conceptualized demonstrations and teacher explanations as instructional strategies and as sources of science content knowledge to transmit defined bodies of science content knowledge to their students (passive learning). Fifty-four participants conceptualized experiments as student-based active learning environments that permitted students to think, discover, collaborate and construct their own science content knowledge and/or co-construct science content knowledge with teachers (active learning). The findings of the study provide a framework for focusing on how prospective early childhood teachers conceptualize science instruction for children in pre-K to 3rd grade classrooms and their strategies for helping their future early childhood learners in constructing science content. The study also calls for early childhood teacher education curricula to incorporate frameworks for understanding the practice of teaching within coursework early on in the early childhood teacher preparation program to enable prospective teachers to reflect on and document their prior knowledge of science instruction.
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References
Åkerblom, A., Soucková, D., & Pramling, N. (2019). Preschool Children’s Conceptions of Water, Molecule, and Chemistry before and after Participating in a Playfully Dramatized Early Childhood Education Activity. Cultural Studies of Science Education, 14(4), 879–895.
Allen, B. (2017). Exploring the Role of Ideology in Interdisciplinary Science Education Policy. Educational Studies, 53(6), 642–653.
Archibald, M. M. (2015). Investigator triangulation: A collaborative strategy with potential for mixed methods research. Journal of Mixed Methods Research, 10(3), 228–250.
Association, N. S. T. (2014). NSTA position statement: Early childhood science education. Arlington, VA: National Science Teachers Association.
Bransford, J. D., Brown, A. L., & Cocking, R. R. (2000). How People Learn: Brain, Mind, Experience, and School. National Academy Press.
Braun, V., & Clarke, V. (2006). Using thematic analysis in psychology. Qualitative Research in Psychology, 3, 77–101.
Brenneman, K., Stevenson-Boyd, J., & Frede, E. C. (2009). Mathematics and science in preschool: Policy and practice. New Brunswick, NJ: National Institute for Early Education Research.
Brown, P., Friedrichsen, P., & Abell, S. (2013). The development of prospective secondary biology teachers’ PCK. Journal of Science Teacher Education, 24, 133–155.
Chan, K.-W., & Elliott, R. G. (2004). Relational analysis of personal epistemology and conceptions about teaching and learning. Teaching and Teacher Education, 20, 817–831.
Cheng, M. M. H., Chan, K.-W., Tang, S. Y. F., & Cheng, A. Y. N. (2009). Preservice teacher education students’ epistemological beliefs and their conceptions of teaching. Teaching and Teacher Education, 25(2), 319–327.
Cochran-Smith, M., & Lytle, S. L. (1999). Relationships of knowledge and practice: teacher learning in communities. Review of Research in Education, 24, 249–305.
Dale Tunnicliffe, S., & Gkouskou, E. (2020). Science in Action in Spontaneous Preschool Play – An Essential Foundation for Future Understanding. Early Child Development and Care, 190(1), 54–63.
Dejonckheere, P. J. N., & De Wit, N. (2016). Exploring the classroom: Teaching science in early childhood. International Electronic Journal of Elementary Education, 8(4), 537–557.
DeLiema, D., Enyedy, N., & Danish, J. A. (2019). Roles, Rules, and Keys: How Different Play Configurations Shape Collaborative Science Inquiry. Journal of the Learning Sciences, 28(4–5), 513–555.
Eckhoff, A. (2017). Partners in Inquiry: A Collaborative Life Science Investigation with Preservice Teachers and Kindergarten Students. Early Childhood Education Journal, 45(2), 219–227.
Ell, F., Hill, M., & Grudnoff, L. (2012). Finding out more about teacher candidates’ prior knowledge: Implications for Teacher Educators. Asia-Pacific Journal of Teacher Education, 40(1), 55–65.
Fleer, M. (2019). “Scientific Playworlds”: A Model of Teaching Science in Play-Based Settings. Research in Science Education, 49(5), 1257–1278.
Fusaro, M., & Smith, M. C. (2018). Preschoolers’ inquisitiveness and science-relevant problem solving. Early Childhood Research Quarterly, 42, 119–127.
Gao, L., & Watkins, D. A. (2001). Identifying and assessing the conceptions of teaching of secondary school physics teachers in China. British Journal of Educational Psychology, 71, 443–469.
Gao, L., & Watkins, D. A. (2002). Conceptions of teaching held by school science teachers in P.R. China: Identification and cross-cultural comparisons. International Journal of Science Education, 24(1), 61–79.
Gerde, H., Schachter, R., & Wasik, B. (2013). Using the Scientific Method to Guide Learning: An Integrated Approach to Early Childhood Curriculum. Early Childhood Education Journal, 41(5), 315–323.
Inan, H. Z., & Inan, T. (2015). 3Hs Education: Examining hands-on, heads-on and hearts-on early childhood science education. International Journal of Science Education, 37(12), 1974–1991.
Kambouri-Danos, M., Ravanis, K., Jameau, A., & Boilevin, J.-M. (2019). The water state changes in 5-6 years old children's thinking: the construction of a precursor model. Early Childhood Education Journal, 47(4), 475–488.
Koballa, T., Glynn, S., Upson, L., & Coleman, D. (2005). Conceptions of teaching science held by novice teachers in an alternative certification program. Journal of Science Teacher Education, 16(4), 287–308.
Koballa, T., Jr., Graber, W., Coleman, D., & Kemp, A. (2000). Prospective gymnasium teachers’ conceptions of chemistry learning and teaching. International Journal of Science Education, 22(2), 209–224.
Kurasaki, K. S. (2000). Intercoder reliability for validating conclusions drawn from open-ended interview data. Field Methods, 12(3), 179–194.
Lehane, L., & Bertram, A. (2016). Getting to the CoRe of it: A review of a specific PCK conceptual lens in science educational research. Educacion Quimica, 27(1), 52–58.
MacDonald, A., Huser, C., Sikder, S., & Danaia, L. (2020). Effective early childhood STEM education: Findings from the “Little Scientists” evaluation. Early Childhood Education Journal, 48(3), 353–363.
Muimongkol, S. (2019). Prospective Early Childhood Teachers' Conceptions of Science Instruction [Doctoral dissertation, University of North Texas]. University of North Texas Libraries, UNT Digital Library Campus Repository. https://digital.library.unt.edu/ark:/67531/metadc1538755/.
Murmann, M., & Avraamidou, L. (2014). Narrative as a learning tool in science centers: Potentials, possibilities and merits. Journal of Science Communication, 13(2), 1–16.
National Association for the Education of Young Children (NAEYC). 2013. All criteria document, 17–18. Retrieved from www.naeyc.org/files/academy/file/AllCriteriaDocument.pdf
NGSS Lead States. (2013). Next Generation Science Standards: For states, by states. The National Academies Press.
Niikko, A., & Ugaste, A. (2019). Estonian and Finnish preschool teachers’ conceptions of learning. European Early Childhood Education Research Journal, 27(1), 40–52.
National Research Council (2012). A framework for K-12 science education: Practices, cross-cutting concepts, and core ideas. The National Academies Press.
Pendergast, E., Lieberman-Betz, R., & Vail, C. (2017). Attitudes and beliefs of prekindergarten teachers toward teaching science to young children. Early Childhood Education Journal, 45(1), 43–52.
Sackes, M., Trundle, K. C., & Flevares, L. M. (2009). Using children’s literature to teach standard-based science concepts in early years. Early Childhood Education Journal, 36(5), 415–422.
Subramaniam, K. (2013) Minority preservice teachers’ conceptions of teaching science: Sources of science teaching strategies. Research in Science Education, 43(2), 687–709.
Subramaniam, K. (2014) Student teachers’ conceptions of teaching biology. Journal of Biological Education, 48(2), 91–97.
Subramaniam, K., Asim, S., Lee, E. Y., & Koo, Y. (2018). Student teachers’ images of science instruction in informal settings: A focus on field trip pedagogy. Journal of Science Teacher Education, 29(4), 307–325.
Trundle, K.C., & Sackes, M. (2015). Science and Early Education. In Pianta, R.C., Barnett, W.S., Justice, L.M., & Sheridan, S.M. (Eds.). Handbook of early childhood education. New York: A Division of Guilford.
Trundle, K. C., & Smith, M. M. (2017). A hearts-on, hands-on, minds-on model for preschool science learning. YC: Young Children, 72(1), 80–86.
Van Uum, M. S. J., Verhoeff, R. P., & Peeters, M. (2016). Inquiry-based science education: towards a pedagogical framework for primary school teachers. International Journal of Science Education, 38(3), 450–469.
Wang, J.-R., Kao, H.-L., & Lin, S.-W. (2009). Preservice teachers initial conceptions about assessment of science learning: the coherence with their views of learning science. Teaching and Teacher Education, 26(3), 522–529.
Yung, B. H. W., Wong, S. L., Cheng, M. W., Hui, C. S., & Hodson, D. (2007). Tracking pre-service teachers’ changing conceptions of good science teaching: the role of progressive reflection with the same video. Research in Science Education, 37, 239–259.
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Muimongkol, S.C., Subramaniam, K. & Wickstrom, C.D. Dimensions and Orientations of Pre-Service Early Childhood Teachers’ Conceptions of Teaching Science. Early Childhood Educ J 50, 145–156 (2022). https://doi.org/10.1007/s10643-020-01146-1
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DOI: https://doi.org/10.1007/s10643-020-01146-1