Interdisciplinary Approach (S.T.E.M.) of the Rotational Motion of Solids Bodies: Α Comparative Study

Authors

  • Georgios Kalantzis University of Thessaly, Lamia, Greece
  • Charilaos Tsihouridis University of Patras, Patras, Greece
  • Marianthi Batsila University of Thessaly, Lamia, Greece
  • Dennis Vavougios University of Thessaly, Lamia, Greece

DOI:

https://doi.org/10.24203/ajeel.v9i6.6862

Keywords:

Experimental Physics teaching, ICT in Physics teaching, Rotational motion teaching, Raspberry Pi, STEM

Abstract

The present paper explores issues concerning Senior High School students’ teaching and understanding of concepts and laws, related to the rotation of a solid body around a fixed axis of rotation, through a properly designed experimental type of teaching intervention, that incorporates custom-made educational material and utilizes ICT. Through an interdisciplinary-exploratory approach of teaching, the alternative ideas of 143 high school students, aged 16-17, were initially identified. The students were divided into a control group and an experimental one and completed a suitably designed questionnaire before and after the didactic interventions. The interventions aimed at investigating the extent to which the experimental student group alternative ideas, taught through an experimental scientific approach, changed compared to the ideas of the students of the control group, who were taught the same subjects in a conventional way. The results, obtained from a quantitative and qualitative analysis of questionnaires and interviews, indicate an improvement of the experimental student group understanding, in relation to the concepts of rotational movement. Additionally, they indicate the development of a positive attitude towards the experimental procedure, applied throughout the intervention, as opposed to that of the control group, where the teaching was carried out in a conventional way.

References

Acar, D., Tertemiz, N., Taşdemir, A. The Effects of STEM Training on the Academic Achievement of 4th Graders in Science and Mathematics and their Views on STEM Training. International Electronic Journal of Elementary Education, vol. 10 no.4, pp 505-513, 2018.

Abdisa, G., Getinet, T. The effect of guided discovery on students’ Physics achievement. Journal of Physics Education, vol. 4, no 6, pp 530-537, 2012.

Brown, D. E., Clement, J. Overcoming misconceptions via analogical reasoning: Abstract transfer versus explanatory model construction. Instructional science, vol 18, no. 4 , pp 237-261, 1989.

Carvalho, P. S., Sousa, A. S. Rotation in secondary school: teaching the effects of frictional force. Physics education, vol. 40, no.3, pp 257, 2005.

Close, H. G., Gomez, L. S., Heron, R. L. Student understanding of the application of Newton’s Second Law to Rotating Rigid Bodies. Physics Education Research Section,vol 81, no.6 , pp.458-470, 2013.

Cohen, L., Manion, L., & Morrison, K. (2008). Methodology of educational research. Athens: Metaichmio. [In Greek].

Eshetu, F., Assefa, S. Effects of context-based instructional approaches on students’ problem-solving skills in rotational motion. EURASIA Journal of Mathematics, Science and Technology Education,15(2), em1665, 2018.

Etkina, E. Millikan award lecture: Students of physics—Listeners, observers, or collaborative participants in physics scientific practices? , 2015.

Hewson, P. W. Conceptual change in science teaching and teacher education. In a meeting on “Research and Curriculum Development in Science Teaching,” under the auspices of the National Center for Educational Research, Documentation, and Assessment, Ministry for Education and Science, Madrid, Spain, 1992.

Yuliati, L., Yogismawati, F., Nisa, I. K. Building scientific literacy and concept achievement of physics through inquiry-based learning for STEM education. In Journal of Physics: Conference Series (Vol. 1097, No. 1, p. 012022). IOP Publishing, 2018.

Klammer, J. An Overview of Techniques for Identifying, Acknowledging and Overcoming Alternate Conceptions in Physics Education, 1998.

Leyvraz, F. Understanding Rigid Body Motion in Arbitrary Dimensions. European Journal of Physics, vol. 36, no. 3, pp.1-17, 2015.

Mashood, K. K, Singh, V. A. An inventory on rotational kinematics of a particle: unravelling misconceptions and pitfalls in reasoning. European Journal of Physics, vol, 33,no, 5, pp. 1301-1312, 2012.

Mashood, K. K., & Singh, V. A. Variation in angular velocity and angular acceleration of a particle in rectilinear motion. European Journal of Physics, vol. 33 , pp.473-78,2012.

Nachimuthu, K., & Vijayakumari, G. Perceptions on Multimedia Technology by Collage of Educational Teachers. Journal of Education and Learning, vol. 6,no. 3, pp. 167-176,2012.

Nicol, D. J., & Macfarlane‐Dick, D. Formative assessment and self‐regulated learning: A model and seven principles of good feedback practice. Studies in higher education, vol.31, no. 2, pp.199-218, 2006.

Olivarez, N. The Impact of a STEM program on academic achievement of eighth grade students in a south Texas middle school (Doctoral dissertation, Texas A&M University-Corpus Christi), 2012

Palmieri, J., & Strauch, K. An experiment on angular momentum for the introductory laboratory. American Journal of Physics, vol. 31, no.2, pp. 91-95, 1963.

Pol, H. J., Harskamp, E. J., Suhre, C. J., Goedhart, M. J. The effect of hints and model answers in a student-controlled problem-solving program for secondary physics education. Journal of Science Education and Technology, vol.17,no. 4, pp.410-425,2008.

Pranata, O. D., Yuliati, L., Wartono. Concept acquisition of rotational dynamics by interactive demonstration and free-body diagram. Journal of Education and Learning,vol.11,no.3, pp. 291-298,2017.

Rafon, J., & Mistades, V. Interactive Engagement in Rotational Motion via Flipped Classroom and 5E Instructional Model [J]. International Journal of Information and Education Technology,vol.10, no.12, pp.905-910, 2020.

Rimoldini, L. G., Singh, C. Student understanding of rotational and rolling motion concepts., σσ. Physical Review Special Topics-Physics Education Research, 1(1), 010102, 2005.

Robinson, S. J. Connecting the mathematical and conceptual views of angular momentum. Physics Education, vol.49, no. 2, pp 144, 2014.

Sarıoğlan, A. B., Küçüközer, H. Determination of conceptions of secondary 10th grade students about torque, angular momentum and Kepler’s 2nd law, 2013.

Terry, C., Jones, G., Hurford, W. Children's conceptual understanding of forces and equilibrium. Physics Education, vol.20, pp. 162 – 165, 1985.

Tsihouridis, Ch., Vavougios, D., &. Ioannidis, G., S. Students designing their own experiments on heat transfer phenomena using sensors and ICT: An educational trial to consolidate related scientific concepts. International Journal of Emerging Technologies in Learning, iJET, ISSN: 1863-0383, Vol 4, pp 74-82, 2009.

Tsihouridis Ch., Vavougios D., Ioannidis G., Paraskeuopoulos S. Specially designed sound-boxes used by students to perform school-lab sensor–based experiments, to understand sound phenomena. International Journal of Online Engineering (iJOE), Vol 7, no 1, pp 25-32, 2011, ISSN 1868-16-46. ISSN: 1861-2121

Tsihouridis, C., Vavougios, D., Ioannidis, G. The effectiveness of virtual laboratories as a contemporary teaching tool in the teaching of electric circuits in Upper High School as compared to that of real labs. Proceedings of the 2013 International Conference on Interactive Collaborative Learning (ICL), 25-27 September 2013, Kazan National Research Technological University, Kazan, Russia ISBN : 978-1-4799-0152-4/13/$31.00 ©2013 IEEE, pp. 816-820.

Tsihouridis, C., Vavougios, D., Ioannidis, G. Alexias, A. Using sensors and data loggers in an integrated mobile school-lab setting to teach Light and Optics. Proceedings of the 2014 International Conference on Interactive Collaborative Learning (ICL), 03-06 September 2014, Dubai UAE, United Arab Emirates Russia ISBN : 978-1-4799-4437-8/14/$31.00 ©2014 IEEE, pp. 439-445.

Wade-Shepherd, A.A. The effect of middle school STEM curriculum on science and math achievement scores, 2016.

Wang, H. H., Moore, T. J., Roehrig, G. H., Park, M. S. STEM integration: Teacher perceptions and practice. Journal of Pre-College Engineering Education Research (J-PEER),vol.1,no.2, pp.2,2011.

Widolo, A., Duit, R., Muller, C. Constructivist views of teaching and learning in practice: teachers’ views and classroom behavior. In Annual meeting of the national Association for Research in Science Teaching,2002.

Williamson, J. C., Torres-Isea, R.O., Kletzing, C. A. Analyzing linear and angular momentum conservation in digital videos of puck collisions. American Journal of Physics, vol. 68, no. 9, pp. 841-847,2000.

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Published

2021-12-31

How to Cite

Interdisciplinary Approach (S.T.E.M.) of the Rotational Motion of Solids Bodies: Α Comparative Study . (2021). Asian Journal of Education and E-Learning, 9(6). https://doi.org/10.24203/ajeel.v9i6.6862

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