Abstract
In times of rapid technological change towards digital technologies, educational institutions increasingly use interactive videos to support effective learning both in online and face-to-face lessons and across many subjects. However, the mechanisms underlying video-based learning – especially active learning - have not yet been conclusively clarified. Research into active video-based learning, which has been significant to date, has been conducted mostly in higher education and with university students. Consequently, systematic studies on how interactive videos can be used for meaningful learning in school-based education is crucial. The present contribution describes a field experiment with 16-year-old school students (N = 78) and realistic video-based physics lessons at secondary school level II. Students’ learning was supported by the video tool “ivideo.education”. The study investigated three learning conditions in order to explore the influences of in-video quizzes and writing annotations on learning success and interest. Data was collected by means of pre-, post- and delayed post-tests. Results show a consistent tendency on a descriptive level that the combination of in-video quizzes and continuous writing of annotations leads to higher learning success and interest than post-video quizzes or post-video annotation writings.
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Baker, A.: Active learning with interactive videos: creating student-guided learning materials. J. Libr. Inf. Serv. Distance Learn. 10(3–4), 79–87 (2016)
Cattaneo, A.A.P., van der Meij, H., Aprea, C., Sauli, F., Zahn, C.: A model for designing hypervideo-based instructional scenarios. Interact. Learn. Environ. 27(4), 508–529 (2019)
Cummins, S., Beresford, A.R., Rice, A.: Investigating engagement with in-video quiz questions in a programming course. IEEE Trans. Learn. Technol. 9(1), 57–66 (2016)
Deci, E.L., Ryan, R.M.: Intrinsic Motivation Inventory (2003)
Donkor, F.: The comparative instructional effectiveness of print-based and video-based instructional materials for teaching practical skills at a distance. Int. Rev. Res. Open Distrib. Learn. 11(1), 96–116 (2010)
Kay, R., Edwards, J.: Examining the use of worked example video podcasts in middle school mathematics classrooms: a formative analysis. Can. J. Learn. Technol. 38(3), 1 (2012)
Lindgren, R., Pea, R., Lewis, S., Rosen, J.: Learning from digital video: an exploration of how interactions affect outcomes. In: Proceedings of the 8th International Conference on Computer Supported Collaborative Learning, pp. 447–449. International Society of the Learning Sciences (2007)
Mayer, R.E.: Multimedia Learning, 2nd edn. Cambridge University Press, Cambridge (2009)
Merkt, M., Weigand, S., Heier, A., Schwan, S.: Learning with videos vs. learning with print: the role of interactive features. Learn. Instr. 21(6), 687–704 (2011)
Montazemi, A.R.: The effect of video presentation in a CBT environment. Educ. Technol. Soc. 9(4), 123–138 (2006)
Nikopoulou-Smyrni, P., Nikopoulos, C.: Evaluating the impact of video-based versus traditional lectures on student learning. Educ. Res. 1(8), 304–311 (2010)
Rice, P., Beeson, P., Blackmore-Wright, J.: Evaluating the Impact of a quiz question within an educational video. TechTrends 63(5), 522–532 (2019)
Santagata, R.: Designing video-based professional development for mathematics teachers in low-performing schools. J. Teach. Educ. 60(1), 38–51 (2009)
Schön, S.: Klappe zu! Film ab! – Gute Lernvideos kinderleicht erstellen. In: Pauschenwein, J. (ed.) Tagungsband zum 12. E-Learning Tag der FH JOANNEUM, pp. 3–10 (2013)
Szpunar, K., Jing, H., Schacter, L.: Overcoming overconfidence in learning from video-recorded lectures: implications of interpolated testing for online educators. J. Appl. Res. Mem. Cogn. 3(3), 161–164 (2014)
Tiernan, P.: An inquiry into the current and future uses of digital video in University teaching. Educ. Inf. Technol. 20(1), 75–90 (2015)
Wittrock, M.C.: Generative learning processes of the brain. Educ. Psychol. 27(4), 531–541 (1992)
Yousef, A.M.F., Chatti, M.A., Schroeder, U.: The state of video-based learning: a review and future perspectives. Int. J. Adv. Life Sci. 6(3/4), 122–135 (2014)
Yousef, A.M.F., Chatti, M.A., Danoyan, N., Thüs, H., Schroeder, U.: Video-mapper: a video annotation tool to support collaborative learning in MOOCs. In: Proceedings of the Third European MOOCs Stakeholders Summit EMOOCs, pp. 131–140 (2015)
Zahn, C., Barquero, B., Schwan, S.: Learning with hyperlinked videos – design criteria and efficient strategies of using audiovisual hypermedia. Learn. Instr. 14(3), 275–291 (2004)
Zahn, C., Pea, R., Hesse, F.W., Rosen, J.: Comparing simple and advanced video tools as supports for complex collaborative design processes. J. Learn. Sci. 19(3), 403–440 (2010)
Zahn, C., Krauskopf, K., Hesse, F.W., Pea, R.: How to improve collaborative learning with video tools in the classroom? Social vs. cognitive guidance for student teams. Int. J. Comput.-Supp. Collab. Learn. 7(2), 259–285 (2012)
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Leisner, D., Zahn, C., Ruf, A., Cattaneo, A. (2020). Different Ways of Interacting with Videos During Learning in Secondary Physics Lessons. In: Stephanidis, C., Antona, M. (eds) HCI International 2020 - Posters. HCII 2020. Communications in Computer and Information Science, vol 1225. Springer, Cham. https://doi.org/10.1007/978-3-030-50729-9_40
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DOI: https://doi.org/10.1007/978-3-030-50729-9_40
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