Koostöise probleemilahendamisoskuse kujundamine uurimuslikku õpet kasutades
DOI:
https://doi.org/10.12697/eha.2023.11.2.08Märksõnad:
koostöine õpe, koostöine probleemilahendus, uurimuslik õpe, koostöine virtuaallaborKokkuvõte
Loodusainete tundides lahendatakse loodusteadusliku sisuga probleeme enamasti uurimuslike tegevustega. Uuringu eesmärk on selgitada välja, mis toetab õpilaste tulemuslikku koostööd uurimuslikes tegevustes, ja anda loodusainete õpetajatele soovitusi, kuidas integreerida koostöise probleemilahendamise oskuse ning aine- ja uurimuslike teadmiste kujundamist. Uuringus osalesid 7. klassi õpilased (N = 44), kellel tuli nutitelefoni kasutades virtuaallaboris kaaslasega koostööd teha. Tulemusi analüüsiti kvalitatiivselt deduktiivse sisuanalüüsi ja kvantitatiivselt Hesse jt (2015) raamistiku järgi. Uuring näitab, et õpilased viib tulemusliku koostööni õpetaja juhitud klassiarutelu. Õpilaste meelest aitavad koostöisele probleemilahendamisele kaasa katsetamine, mitme variandi läbiproovimine ning üksteisega suhtlemine. Õpilased vajavad täpseid juhiseid, et edukaks uurimuslikuks õppeks analüütiliselt mõelda, ülesanne uuesti läbi vaadata, teemaga seotud küsimusi esitada ja/või tõenditel põhinevalt teaduslikult arutleda.
Allalaadimised
Viited
Ainsworth, S., Prain, V., & Tytler, R. (2011). Drawing to learn in science. Science, 333(6046), 1096–1097. https://doi.org/10.1126/science.1204153
Beichner, R. J., Saul, J. M., Abbott, D. S., Morse, J., Deardorff, D., Allain, R. J, Bonham, S. W., Dancy, M. H., Risley, J. S. (2007). The student-centered activities for large enrollment undergraduate programs (SCALE-UP) project. Research-Based Reform of University Physics, 1 (1), 2–39.
Bell, T., Urhahne, D., Schanze, S., & Ploetzner, R. (2010). Collaborative inquiry learning: Models, tools, and challenges. International Journal of Science Education, 32(3), 349–377. https://doi.org/10.1080/09500690802582241
Blatchford, P. (2003). A systematic observational study of teachers’ and pupils’ behaviour in large and small classes. Learning and Instruction, 13(6), 569–595. https://doi.org/10.1016/S0959-4752(02)00043-9
Care, E., & Kim, H. (2018). Assessment of twenty-first century skills: The issue of authenticity. In Assessment and teaching of 21st century skills (pp. 21–39). Springer, Cham.
Chan, C. K. (2001). Peer collaboration and discourse patterns in learning from incompatible information. Instructional Science, 29, 443–479. https://doi.org/10.1023/A:1012099909179
Chan, J. W. W., & Pow, J. W. C. (2020). The role of social annotation in facilitating collaborative inquiry-based learning. Computers & Education, 147, 103787. https://doi.org/10.1016/j.compedu.2019.103787
Chang, C.-J., Chang, M.-H., Chiu, B.-C., Liu, C.-C., Fan Chiang, S.-H., Wen, C.-T., Hwang, F.-K., Wu, Y.-T., Chao, P.-Y., Lai, C.-H., Wu, S.-W., Chang, C.-K., & Chen, W. (2017). An analysis of student collaborative problem solving activities mediated by collaborative simulations. Computers & Education, 114, 222–235. https://doi.org/10.1016/j.compedu.2017.07.008
Chen, C.-H., & Tsai, C.-C. (2021). In-service teachers’ conceptions of mobile technology-integrated instruction: Tendency towards student-centered learning. Computers & Education, 170, 104224. https://doi.org/10.1016/j.compedu.2021.104224
Chen, J., Wang, M., Kirschner, P. A., & Tsai, C.-C. (2018). The role of collaboration, computer use, learning environments, and supporting strategies in CSCL: A meta-analysis. Review of Educational Research, 88(6), 799–843. https://doi.org/10.3102/0034654318791584
Chin, C., & Brown, D. E. (2000). Learning in science: A comparison of deep and surface approaches. Journal of Research in Science Teaching, 37(2), 109–138. https://doi.org/10.1002/(SICI)1098-2736(200002)37:2<109::AID-TEA3>3.0.CO;2-7
de Jong, T., Lazonder, A. W., Chinn, C. A., Fischer, F., Gobert, J., Hmelo-Silver, C. E., Koedinger, K. R., Krajcik, J. S., Kyza, E. A., Linn, M. C., Pedaste, M., Scheiter, K., & Zacharia, Z. C. (2023). Let’s talk evidence – The case for combining inquirybased and direct instruction. Educational Research Review, 39, 100536. https://doi.org/10.1016/j.edurev.2023.100536
Furberg, A. (2009). Socio-cultural aspects of prompting student reflection in Webbased inquiry learning environments: Prompting student reflection. Journal of Computer Assisted Learning, 25(4), 397–409. https://doi.org/10.1111/j.1365-2729.2009.00320.x
Gómez-García, M., Soto-Varela, R., Morón-Marchena, J. A., & del Pino-Espejo, M. J. (2020). Using mobile devices for educational purposes in compulsory secondary education to improve student’s learning achievements. Sustainability, 12(9), 3724. https://doi.org/10.3390/su12093724
Griffin, P., & Care, E. (Eds.). (2015). Assessment and teaching of 21st century skills: Methods and approach. Springer Netherlands. http://www.springer.com/gb/book/9789401793940.
Haridusvaldkonna arengukava 2021–2035. https://www.hm.ee/media/1488/download.
Hesse, F., Care, E., Buder, J., Sassenberg, K., & Griffin, P. (2015). A framework for teachable collaborative problem solving skills. In P. Griffin and E. Care (Eds.), Assessment and teaching of 21st century skills: Methods and approach (pp. 37–56). Dordrecht, the Netherlands: Springer.
Hijzen, D., Boekaerts, M., & Vedder, P. (2007). Exploring the links between students’ engagement in cooperative learning, their goal preferences and appraisals of instructional conditions in the class- room. Learning and Instruction, 17, 673–687 https://doi.org/10.1016/j.learninstruc.2007.09.020
Hmelo-Silver, C., Duncan, R., & Chinn, C. (2007). Scaffolding and achievement in problem-based and inquiry learning: A response to Kirschner, Sweller, and Clark (2006). Educational Psychologist, 42, 99–107. https://doi.org/10.1109/TE.2018.2791445
Howe, C., Tolmie, A., Thurston, A., Topping, K., Christie, D., Livingston, K., Jessiman, E., & Donaldson, C. (2007). Group work in elementary science: Towards organisational principles for supporting pupil learning. Learning and Instruction, 17(5), 549–563. https://doi.org/10.1016/j.learninstruc.2007.09.004
Johnson, D. W., & Johnson, R. T. (1999). Making cooperative learning work. Theory into Practice, 38(2), 67–73. https://doi.org/10.1080/00405849909543834
Khasawneh, E., Hodge-Zickerman, A., York, C. S., Smith, T. J., & Mayall, H. (2023). Examining the effect of inquiry-based learning versus traditional lecture-based learning on students’ achievement in college algebra. International Electronic Journal of Mathematics Education, 18(1), em0724. https://doi.org/10.29333/iejme/12715
Lazonder, A. W., & Harmsen, R. (2016). Meta-Analysis of inquiry-based learning: Effects of guidance. Review of Educational Research, 86(3), 681–718. https://doi.org/10.3102/0034654315627366
Le, H., Janssen, J., & Wubbels, T. (2018). Collaborative learning practices: Teacher and student perceived obstacles to effective student collaboration. Cambridge Journal of Education, 48(1), 103–122. https://doi.org/10.1080/0305764X.2016.1259389
Mayer, R. E. (Ed.). (2014). The Cambridge Handbook of Multimedia Learning (2nd ed.). Cambridge University Press. https://doi.org/10.1017/CBO9781139547369.002
Mayring, P. (2014). Qualitative content analysis: Theoretical foundation, basic procedures and software solution. Klagenfurt. https://nbn-resolving.org/urn:nbn:de:0168-ssoar-395173.
Mercer, N. (1996). The quality of talk in children’s collaborative activity in the classroom. Learning and Instruction, 6(4), 359–377. https://doi.org/10.1016/S0959-4752(96)00021-7
Miedijensky, S., & Tal, T. (2016). Reflection and assessment for learning in science enrichment courses for the gifted. Studies in Educational Evaluation, 50, 1–13. https://doi.org/10.1016/j.stueduc.2016.05.001
Moon, J. A. (2013). Reflection in Learning and Professional Development: Theory and Practice. Routledge.
Mäeots, M. (2014). Inquiry-based learning in a web-based learning environment: a theoretical framework of inquiry-based learning processes [Doctoral dissertation, University of Tartu]. https://dspace.ut.ee/handle/10062/43719
Olympiou, G., & Zacharia, Z. C. (2014). Blending physical and virtual manipulatives in physics laboratory experimentation. In C. Bruguière, A. Tiberghien, & P. Clément (Eds.), Topics and Trends in Current Science Education (Vol. 1, pp. 419–433). Springer Netherlands. https://doi.org/10.1007/978-94-007-7281-6_26
Pedaste, M., Mäeots, M., Leijen, Ä., & Sarapuu, T. (2012). Improving students’ inquiry skills through reflection and self-regulation scaffolds. Technology, Instruction, Cognition and Learning, 9(1–2), 81–95.
Pedaste, M., Mäeots, M., Siiman, L. A., de Jong, T., van Riesen, S. A. N., Kamp, E. T., Manoli, C. C., Zacharia, Z. C., & Tsourlidaki, E. (2015). Phases of inquiry-based learning: Definitions and the inquiry cycle. Educational Research Review, 14, 47–61. https://doi.org/10.1016/j.edurev.2015.02.003
Pedaste, M., Palts, T., Kraav, T., & Orav-Puurand, K. (2021). Komplekssete probleemide lahendamise oskus ning selle hindamine ja arendamine gümnaasiumis. Eesti Haridusteaduste Ajakiri. Estonian Journal of Education, 9(1), 138–161. https://doi.org/10.12697/eha.2021.9.1.06
Pedaste, M., Reisenbuk, E., Ilosaar, A. (2022). Lühikokkuvõte 2021/2022. õppeaasta loodusõpetuse II kooliastme tasemetöö tulemustest. Testid ja hindamine. https://projektid.edu.ee/pages/viewpage.action?pageId=105383695
Pei, X., Jin, Y., Zheng, T., & Zhao, J. (2020). Longitudinal effect of a technologyenhanced learning environment on sixth-grade students’ science learning: The role of reflection. International Journal of Science Education, 42(2), 271–289. https://doi.org/10.1080/09500693.2019.1710000
Pöysä-Tarhonen, J., Häkkinen, P., Tarhonen, P., Näykki, P., & Järvelä, S. (2022). "Anything taking shape?" Capturing various layers of small group collaborative problem solving in an experiential geometry course in initial teacher education. Instructional Science, 50(1), 1–34. https://doi.org/10.1007/s11251-021-09562-5
Rannastu, M., Siiman, L. A., Mäeots, M., Pedaste, M., & Leijen, Ä. (2019). Does group size affect students’ inquiry and collaboration in using computer-based asymmetric collaborative simulations? In M. A. Herzog, Z. Kubincová, P. Han, & M. Temperini (Eds.), Advances in Web-Based Learning – ICWL 2019 (pp. 143–154). Springer International Publishing.
Rannastu-Avalos, M., Mäeots, M., & Siiman, L. A. (2022). How teacher education students collaborate when solving an asymmetric digital task. In L.-H. Wong, Y. Hayashi, C. A. Collazos, C. Alvarez, G. Zurita, & N. Baloian (Eds.), Collaboration Technologies and Social Computing (pp. 158–174). Springer International Publishing.
Schwichow, M., Croker, S., Zimmerman, C., Höffler, T., & Härtig, H. (2016). Teaching the control-of-variables strategy: A meta-analysis. Developmental Review, 39, 37–63. https://doi.org/10.1016/j.dr.2015.12.001
Summers, M., & Volet, S. (2010). Group work does not necessarily equal collaborative learning: Evidence from observations and self-reports. European Journal of Psychology of Education, 25, 473–492. https://doi.org/10.1007/s10212-010-0026-5
Sun, Y., Yan, Z., & Wu, B. (2022). How differently designed guidance influences simulation-based inquiry learning in science education: A systematic review. Journal of Computer Assisted Learning, 38(4), 960–976. https://doi.org/10.1111/jcal.12667
Suyatna, A. (2019). Mobile phone utilization for learning: Physics teachers’ perception. Jurnal Ilmiah Pendidikan Fisika Al-Biruni, 8(2), 241–248. https://doi.org/10.24042/jipfalbiruni.v8i2.4840
Zacharia, Z. C., & Olympiou, G. (2011). Physical versus virtual manipulative experimentation in physics learning. Learning and Instruction, 21(3), 317–331. https://doi.org/10.1016/j.learninstruc.2010.03.001
Zeichner, K. (1999). Action research and the preparation of reflective practitioners during the professional practicum. Practical Experiences in Professional Education, 3(1), 1–26.
Zhu, M. & Todd, J. A. (2019). Understanding the connections of collaborative problem solving skills in a simulation-based task through network analysis. In Lund, K., Niccolai, G. P., Lavoué, E., Hmelo-Silver, C., Gweon, G., & Baker, M. (Eds.), A wide lens: Combining embodied, enactive, extended, and embedded learning in collaborative settings, 13th International Conference on Computer Supported Collaborative Learning (CSCL) 2019, Volume 2 (pp. 565–568).
Telenius, M., Yli-Panula, E., Vesterinen, V.-M., & Vauras, M. (2020). Argumentation within upper secondary school student groups during virtual science learning: Quality and quantity of spoken argumentation. Educational Sciences, 10(12), 393. https://doi.org/10.3390/educsci10120393
Tire, G., Puksand, H., Lepmann, T., Henno, I., Lindemann, K., Täht, K., Lorenz, B., Silm, G. PISA 2018 Eesti tulemuste raport. 2019. Trükk: Atlex Kirjastus.
Van den Bossche, P., Gijselaers, W. H., Segers, M., & Kirschner, P. A. (2006). Social and cognitive factors driving teamwork in collaborative learning environments: Team learning beliefs and behaviors. Small Group Research, 37(5), 490–521. https://doi.org/10.1177/1046496406292938
Vauras, M., Volet, S., & Nolen, S. (2019). Supporting motivation in collaborative learning: Challenges in the face of an uncertain future. In E. Gonida & M. Lemos (Eds.), Motivation in education at a time of global change: Theory, research, and implications for practice. Emerald.
Wang, F., Kinzie, M. B., McGuire, P., & Pan, E. (2010). Applying technology to inquirybased learning in early childhood education. Early Childhood Education Journal, 37(5), 381–389. https://doi.org/10.1007/s10643-009-0364-6
Wang, C., Fang, T., & Gu, Y. (2020). Learning performance and behavioral patterns of online collaborative learning: Impact of cognitive load and affordances of different multimedia. Computers & Education, 143, 103683. https://doi.org/10.1016/j.compedu.2019.103683
Webb, N. M., Franke, M. L., Marsha, M., Turrou, A. C., Johnson, N. C., & Zimmerman, J. (2019). Teacher practices that promote productive dialogue and learning in mathematics classrooms. International Journal of Educational Research, 97, 176–186. https://doi.org/10.1016/j.ijer.2017.07.009
Williams, E. N., & Morrow, S. L. (2009). Achieving trustworthiness in qualitative research: A pan-paradigmatic perspective. Psychotherapy Research, 19(4–5), 576–582. https://doi.org/10.1080/10503300802702113
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