Abstract
Educational transitions present opportunities and challenges for students and teachers. Between the ages of 10 and 16 years old, students undertake several transitions in their school lives—including transitions across school systems (e.g., primary level to second level), transitions between teachers, transitions across subjects (e.g., moving from a general science curriculum to a specialised physics curriculum). This paper discusses the approach adopted in the Supporting Transitions Across Mathematics and Physics Education (STAMPEd) project to support teacher professional learning and enhance student learning in physics across educational transitions (STAMPEd Project (2021–2023). Supporting Transitions Across Mathematics and Physics Education ERASMUS+, KA2 [1]). A systematic review revealed that the experiences of transition, if negative, may impact not only on students’ academic achievement but also strongly associate with the development of their scientific identities and their aspirations for scientific careers. The project adopted an Educational Design Research (EDR) approach to monitor and evaluate its impact on participants (educators, teachers, and learners) over a three-year duration. This paper will discuss the initial design principles and key elements of a professional learning programme adopted to support teachers in addressing transition issues in physics from primary to second level. Two examples of rich tasks that have been designed to support student learning in physics across educational transitions in physics are presented.
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References
STAMPEd Project (2021–2023). Supporting Transitions Across Mathematics and Physics Education ERASMUS+, KA2. http://stampedproject.eu. Last accessed 30 Apr 2023
Potvin, P., Hasni, A.: Analysis of the decline in interest towards school science and technology from grades 5 through 11. J. Sci. Educ. Technol. 23(6), 784–802 (2014). https://doi.org/10.1007/s10956-014-9512-x
DeWitt, J., Archer, L.: Who aspires to a science career? A comparison of survey responses from primary and secondary school students. Int. J. Sci. Educ. 37(13), 2170–2192 (2015). https://doi.org/10.1080/09500693.2015.1071899
Regan, E., DeWitt, J.: Attitudes, interest and factors influencing STEM enrolment behaviour: an overview of relevant literature. In: Understanding Student Participation and Choice in Science and Technology Education, pp. 63–88. Springer, Dordrecht, Netherlands (2015). http://irep.ntu.ac.uk/id/eprint/26823
Tai, R.H., Qi Liu, C., Maltese, A.V., Fan, X.: Planning early for careers in science. Sci. (N. Y.) 312(5777), 1143–1144 (2006). https://doi.org/10.1126/science.1128690
Hasni, A., Potvin, P., Belletête, V.: The status of science and technology relative to other school subjects. Results of a study conducted on primary and secondary school students in Quebec. EURASIA J. Math. Sci. Technol. Educ. 13(6), 1575–1603 (2017). https://doi.org/10.12973/eurasia.2017.00686a
Yao, Y., Kong, Q., Cai, J.: Investigating elementary and middle school students’ subjective well-being and mathematical performance in Shanghai. Int. J. Sci. Math. Educ. 16, 107–127 (2017). https://doi.org/10.1007/S10763-017-9827-1
Hopwood, B., Hay, I., Dyment, J.: The transition from primary to secondary school: teachers’ perspectives. Aust. Educ. Res. 43(3), 289–307 (2016). https://doi.org/10.1007/s13384-016-0200-0
Martin, K.M., Davis, L.S., Sandretto, S.: Engagement with science across the middle years in New Zealand. N. Z. J. Educ. Stud. 56(1), 83–99 (2021). https://doi.org/10.1007/s40841-020-00185-x
Evangelou, M., Taggart, B., Sylva, K., Melhuish, E.C., Sammons, P., Siraj-Blatchford, I.: What Makes a Successful Transition from Primary to Secondary School? The Department for Children, Schools and Families, London, UK (2008). https://dera.ioe.ac.uk/id/eprint/8618/1/DCSF-RR019.pdf. Last accessed 3 Dec 2023
Smyth, E.: Off to a good start? Primary School Experiences and the Transition to Second-Level Education. ESRI and Department of Children and Youth Affairs (2017). https://www.esri.ie/publications/off-to-a-good-start-primary-school-experiences-and-the-transition-to-second-level. Last accessed 2023/04/30.
Jindal-Snape, D., Hannah, E.F.S., Cantali, D., Barlow, W., MacGillivray, S.: Systematic literature review of primary-secondary transitions: international research. Rev. Educ. 8(2), 526–566 (2020). https://doi.org/10.1002/rev3.3197
Reid, N., Skryabina, E.A.: Gender and physics. Int. J. Sci. Educ. 25(4), 509–536 (2003). https://doi.org/10.1080/0950069022000017270
Lofgran, B.B., Smith, L.K., Whiting, E.F.: Science self-efficacy and school transitions: elementary school to middle school, middle school to high school. Sch. Sci. Math. 115(7), 366–376 (2015). https://doi.org/10.1111/ssm.12139
Bae, C.L., DeBusk-Lane, M.: Motivation belief profiles in science: links to classroom goal structures and achievement. Learn. Individ. Differ. 67, 91–104 (2018). https://psycnet.apa.org/doi/https://doi.org/10.1016/j.lindif.2018.08.003
Morgan, P.L., Farkas, G., Hillemeier, M.M., Maczuga, S.: Science achievement gaps begin very early, persist, and are largely explained by modifiable factors. Educ. Res. 45(1), 18–35 (2016). https://doi.org/10.3102/0013189X16633182
Powell, R., Smith, R., Jones, G., Reakes, A.: Transition from primary to secondary school: current arrangements and good practice in Wales. Final Rep Slough NFER (2006) https://www.nfer.ac.uk/media/2243/wtn01.pdf. Last accessed 30 Apr 2023
Mullis, I.V., Martin, M.O., Foy, P., Kelly, D.L., Fishbein, B.: TIMSS 2019 International Results in Mathematics and Science. Boston College, TIMSS & PIRLS International Study Center (2020). https://timssandpirls.bc.edu/timss2019/international-results. Last accessed 30 Apr 2023
McKenney, S., Reeves, T.C.: Conducting Educational Design Research. Routledge (2019)
Plomp, T.: Educational design research: an introduction. In: Plomp, T., Nieveen, N. (eds.) An Introduction to Educational Design Research. SLO Netherlands Institute for Curriculum Development, Enschede, The Netherlands, pp. 11–50 (2013). https://slo.nl/publish/pages/2904/educational-design-research-part-a.pdf. Last accessed 30 Apr 2023
Tröbst, S., Kleickmann, T., Lange-Schubert, K., Rothkopf, A., Möller, K.: Instruction and students’ declining interest in science: an analysis of German fourth- and sixth-grade classrooms. Am. Educ. Res. J. 53(1), 162–93 (2016). https://doi.org/10.3102/0002831215618662
Braund, M., Driver, M.: Pupils’ attitudes to practical science around the KS2/3 transition. Int. J. Prim. Elem. Early Years Educ. 33(2), 20–26 (2005). https://doi.org/10.1080/03004270585200171
Ohle, A., Boone, W.J., Fischer, H.E.: Investigating the impact of teachers’ physics CK on students outcomes. Int. J. Sci. Math. Educ. 13(6), 1211–1233 (2015). https://doi.org/10.1007/s10763-014-9547-8
Silverthorn, N., DuBois, D.L., Crombie, G.: Self-perceptions of ability and achievement across the high school transition: investigation of a state-trait model. J. Exp. Educ. 73(3), 191–218 (2005). https://doi.org/10.3200/JEXE.73.3.191-218
Widlund, A., Tuominen, H., Korhonen, J.: Academic well-being, mathematics performance, and educational aspirations in lower secondary education: changes within a school year. Front. Psychol. 9 (2018). https://doi.org/10.3389/fpsyg.2018.00297
Jordan, J.-A., McRorie, M., Ewing, C.: Gender differences in the role of emotional intelligence during the primary–secondary school transition. Emot. Behav. Diffic. 15(1), 37–47 (2010). https://doi.org/10.1080/13632750903512415
DeWitt, J., Archer, L., Osborne, J.: Science-related aspirations across the primary-secondary divide: evidence from two surveys in England. Int. J. Sci. Educ. 36(10), 1609–1629 (2014). https://doi.org/10.1080/09500693.2013.871659
Campbell, B.: Pupils’ perceptions of science education at primary and secondary school. In: Research in Science Education-Past, Present, and Future, pp. 125–130. Kluwer Academic Publishers, Dordrecht (2001)
Saat, R.M.: Progression or regression? Children’s understanding of the heat concept from primary to secondary school. Procedia Soc. Behav. Sci. 9, 414–417 (2010). https://doi.org/10.1016/j.sbspro.2010.12.174
Varley, J.P., Murphy, C., Veale, Ó.: At the crossroads: the impact of new Irish science curricula on first year post-primary students. Res. Sci. Educ. 43(1), 275–298 (2013). https://doi.org/10.1007/s11165-011-9252-3
Fadzil, H.M., Saat, R.M.: Enhancing STEM education during school transition: bridging the gap in science manipulative skills. Eurasia J. Math., Sci. Technol. Educ. 210(3) 209–218 (2014). https://doi.org/10.12973/eurasia.2014.1071a
Logan, M., Skamp, K.: Engaging students in science across the primary secondary interface: listening to the students’ voice. Res. Sci. Educ. 38(4), 501–527 (2008). https://doi.org/10.1007/s11165-007-9063-8
Opitz, S.T., Harms, U., Neumann, K., Kowalzik, K., Frank, A.: Students’ energy concepts at the transition between primary and secondary school. Res. Sci. Educ. 45(5), 691–715 (2015). https://doi.org/10.1007/s11165-014-9444-8
Nakhleh, M.B., Samarapungavan, A., Saglam, Y.: Middle school students’ beliefs about matter. J. Res. Sci. Teach. 42(5), 581–612 (2005). https://doi.org/10.1002/tea.20065
Ferguson, P.D., Fraser, B.J.: Student gender, school size and changing perceptions of science learning environments during the transition from primary to secondary school. Res. Sci. Educ. 28, 387–397 (1998). https://doi.org/10.1007/BF02461506
Speering, W., Rennie, L.: Students’ perceptions about science: the impact of transition from primary to secondary school. Res. Sci. Educ. 26, 283–298 (1996). https://doi.org/10.1007/BF02356940
Thurston, A., Christie, D., Karagiannidou, E., Murray, P., Tolmie, A., Topping, K.: Enhancing outcomes in school science for pupils during transition from elementary school using cooperative learning. Middle Grades Res. J. 5(1), 19–32 (2010). http://eric.ed.gov/?id=EJ888658
Senler, B., Sungur, S.: Parental influences on students’ self-concept, task value beliefs, and achievement in science. Span. J. Psychol. 12(1), 106–117 (2009). https://doi.org/10.1017/s1138741600001529
McGee, C., Ward, R., Gibbons, J., Harlow, A.: Transition to Secondary School: A Literature Review. A Report to the Ministry of Education. University of Waikato, New Zealand (2003)
Bharara, G.: Factors facilitating a positive transition to secondary school: a systematic literature review. Int. J. Sch. Educ. Psychol. 8(sup1), 104–123 (2020). https://doi.org/10.1080/21683603.2019.1572552
De Lange, J.: Practitioner inquiry in the context of inquiry-based learning, vol. 2. In: Čepič, M. (ed.) 3DIPhE e-book, University of Ljubljana (2020). http://www.3diphe.si/e-book/. Last accessed 30 Apr 2023
vzw Nascholing in het Katholiek Onderwijs Thinking through practice. The common conceptual frame of reference of Erasmus+ project Linpilcare (2015)
Cochran-Smith, M., Lytle, S.L. (eds.): Inside/Outside: Teacher Research and Knowledge. Teachers College Press (1993)
Dana, N.F., Yendol-Hoppey, D.: Teacher Inquiry Defined. The Reflective Educator’s Guide to Classroom Research: Learning to Teach and Teaching to Learn through Practitioner Enquiry, 3rd edn, pp. 5–28. Thousand Oaks, Corwin, (2014)
Dana, N.F., Yendol-Hoppey, D.: The Reflective Educator’s Guide to Classroom Research: Learning to Teach and Teaching to Learn Through Practitioner Inquiry. Corwin (2019)
Grimes, P., McLoughlin, E.: Supporting transitions in mathematics: initial design principles for teacher professional learning. In: Kingston, M., Grimes, P. (eds.) Proceedings of the Eighth Conference on Research in Mathematics Education in Ireland (MEI 8), pp. 127–132 (2021). https://doi.org/10.5281/zenodo.5750775. Last accessed 30 Apr 2023
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This study is conducted as part of the STAMPEd project funded under the EU Erasmus+ KA2 programme (Grant Agreement Number 2020-1-IE01-KA201-066069).
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McLoughlin, E., Kaur, T., De Lange, J., Čepič, M., Sokolowska, D., Grimes, P. (2024). Supporting Educational Transitions in Physics. In: Fazio, C., Logman, P. (eds) Physics Education Today. Challenges in Physics Education. Springer, Cham. https://doi.org/10.1007/978-3-031-48667-8_2
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