Dynamic Electrical Subject for Senior High School: Developing Interactive Tutorial Method Animation

Authors

  • Ardimas Ardimas Chulalongkorn University https://orcid.org/0000-0001-8895-587X
  • Abd Basith Department of Physics, Universitas Billfath, Lamongan
  • Rendy Priyasmika Universitas Billfath
  • Jhelang Annovasho IAIN Palangka Raya
  • Norma Sidik Risdianto UIN Sunan Kalijaga

DOI:

https://doi.org/10.58524/oler.v1i2.72

Keywords:

Tutorial Method, Animation, Dynamic Electricity

Abstract

In recent years the need for digital technology in various fields is in great demand, including in education fields. This is due to digital technology which makes it easier for students to understand the material and increase learning interest. To increase students' understanding and interest in learning about dynamic electrical material, the Interactive Tutorial Method Animation (ITMA) was developed using Adobe Flash Professional CS6. This research was conducted at the SMA (Senior High School) Laboratory at Islamic University Sunan Kalijaga, Yogyakarta. This model refers to the elaboration research procedure by Borg and Gall. Data were collected using a questionnaire instrument which contained: validation, response, and assessment sheets. Qualitative assessment data from 7 experts on ITMA quality were used as a reference for initial product revisions. Then the qualitative data of student responses were determined using the Guttman statement scale. Ideal percentage and agreement were used to analyze the data of preliminary and main fields, respectively. The results of the experts' evaluation showed very good results, each of which was 92.8% for the material aspect, 91.6% for the media aspect, and 95.2% for the learning aspect. The final product of ITMA received a good response from students with a 96% approval rate. Therefore, it is suggested that the development of ITMA has increased students interest in dynamic electricity subject.

Author Biographies

  • Ardimas Ardimas, Chulalongkorn University
    (Scopus ID: 57200756338) Department of Nanoscience and Technology, International Graduate School, Chulalongkorn University, Thailand, & Department of Physics, Universitas Billfath, Lamongan 62261, INDONESIA
  • Rendy Priyasmika, Universitas Billfath

    Department of Chemistry Education, Universitas Billfath, Lamongan 62261, INDONESIA

  • Jhelang Annovasho, IAIN Palangka Raya
    Department of Physics Education, IAIN Palangka Raya, Kalimantan Tengah 73112
  • Norma Sidik Risdianto, UIN Sunan Kalijaga
    Department of Physics Education, UIN Sunan Kalijaga, Yogyakarta 55281

References

Ahmad, N. J., Yakob, N., Bunyamin, M. A. H., Winarno, N., & Akmal, W. H. (2021). The effect of interactive computer animation and simulation on students’ achievement and motivation in learning electrochemistry. Jurnal Pendidikan IPA Indonesia, 10(3), 311–324. https://doi.org/10.15294/JPII.V10I3.26013

Andrich, D. (2002). Implications and applications of modern test theory in the context of outcomes-based education. Studies in Educational Evaluation, 28(2), 103–121. https://doi.org/10.1016/S0191-491X(02)00015-9

Astuti, E., & Nurcahyo, H. (2019). Development of biology learning media based on adobe flash to increase interest and conceptual understanding. Journal of Physics: Conference Series, 1241(1), 012050. https://doi.org/10.1088/1742-6596/1241/1/012050

Aswirna, P., Yulianti, P., Fahmi, R., & Agustin, N. A. (2020). Adobe flash development using interaction treatment aptitude to improve the reasoning of kinetic theory of gas and thermodynamic materials. Journal of Physics: Conference Series, 1467(1), 012012. https://doi.org/10.1088/1742-6596/1467/1/012012

Costley, K. C. (2014). The positive effects of technology on teaching and student learning. ERIC.

Dewi, R. K., Haryani, S., & Wardani, S. (2018). The influence of guided inquiry learning assisted flash application on electrolyte solution materials against the results of students. Unnes Science Education Journal, 7(2), 221–228. https://doi.org/10.15294/usej.v7i2.23273

Ferreira, M. (2013). Tutorial teaching: A new paradigm for the development of competencies. ECPS - Educational, Cultural and Psychological Studies, 8, 205–219. https://doi.org/10.7358/ecps-2013-008-ferr

Gall, M. D., Borg, W. R., & Gall, J. P. (1996). Educational research: An introduction. Longman Publishing.

Gunawan, G., Sahidu, H., Harjono, A., & Suranti, N. M. Y. (2017). The effect of project based learning with virtual media assistance on student’s creativity in physics. Jurnal Cakrawala Pendidikan, 36(2), 167–179.

Hapsari, A. S., Hanif, M., Gunarhadi, & Roemintoyo. (2020). Motion graphic animation videos to improve the learning outcomes of elementary school students. European Journal of Educational Research, 8(4), 1245–1255.

Heinemann, T., & Möller, R. L. (2016). The virtual accomplishment of knitting: How novice knitters follow instructions when using a video tutorial. Learning, Culture and Social Interaction, 8, 25–47. https://doi.org/10.1016/j.lcsi.2015.11.001

Kainz, O., Jakab, F., & Kardos, S. (2013). The computer animation in education. 2013 IEEE 11th International Conference on Emerging ELearning Technologies and Applications (ICETA), 201–206. https://doi.org/10.1109/ICETA.2013.6674428

Khan, A., & Vlacic, L. (2006). Teaching control: Benefits of animated tutorials from viewpoint of control students. IFAC Proceedings Volumes, 39(6), 365–370. https://doi.org/10.3182/20060621-3-ES-2905.00064

Kohnle, A., Cassettari, D., Edwards, T. J., Ferguson, C., Gillies, A. D., Hooley, C. A., Korolkova, N., Llama, J., & Sinclair, B. D. (2012). A new multimedia resource for teaching quantum mechanics concepts. American Journal of Physics, 80(2), 148–153. https://doi.org/10.1119/1.3657800

Lapkin, S., Levett-Jones, T., Bellchambers, H., & Fernandez, R. (2010). Effectiveness of patient simulation manikins in teaching clinical reasoning skills to undergraduate nursing students: A systematic review. Clinical Simulation in Nursing, 6(6), e207–e222. https://doi.org/10.1016/j.ecns.2010.05.005

Mandagi, A. F., Iswanto, B. H., & Sugihartono, I. (2021). Virtual microscopic simulation (VMS) for physics learning of the photoelectric effect in high school. Journal of Physics: Conference Series, 2019(1), 012013. https://doi.org/10.1088/1742-6596/2019/1/012013

Meij, H. Van der, & Jan, V. D. M. (2014). A comparison of paper-based and video tutorials for software learning. Computers & Education, 78, 150–159.

Munawaroh, L. W., Serevina, V., & Iswanto, B. H. (2021). MIX reality based media prototype for learning physics of gravity and Kepler’s law. 10th National Physics Seminar, SNF 2021, 2019(1), 012054. https://doi.org/10.1088/1742-6596/2019/1/012054

Patmanthara, S. (2014). Pengembangan pembelajaran interaktif perkuliahan dasar-dasar rangkaian listrik dengan berbasis internet. Jurnal Cakrawala Pendidikan, 33(2), 245–256.

Ramtal, D., & Dobre, A. (2011). Introduction to physics programming. In The Essential Guide to Physics for Flash Games, Animation, and Simulations (pp. 3–12). Springer.

Rosdiana, L., & Ulya, R. M. (2021). The effectiveness of the animation video learning earth’s layer media to improve students’ concept understanding. 2nd Workshop on Engineering, Education, Applied Sciences and Technology, WEAST 2020, 1899(1). https://doi.org/10.1088/1742-6596/1899/1/012172

Rotbain, Y., Marbach-Ad, G., & Stavy, R. (2008). Using a computer animation to teach high school molecular biology. Journal of Science Education and Technology, 17(1), 49–58.

Saputra, M., Abidin, T. F., Ansari, B. I., & Hidayat, M. (2018). The feasibility of an android-based pocketbook as mathematics learning media in senior high school. Journal of Physics: Conference Series, 1088(1), 12056.

Soika, K., Reiska, P., & Mikser, R. (2010). The importance of animation as a visual method in learning chemistry. Proceedings of the 4th International Conference on Concept Mapping, 419–427.

Sunaryoa, Supriyati, Y., & Lestari, A. (2021). Fun physics learning video by powtoon on energy source materials for senior high school. 9th National Physics Seminar 2020, 2320, 1–5. https://doi.org/10.1063/5.0037499

Thomas, T. M. (2009). Design and implementation of an educational rich internet web application capable of physics simulation within real-time collaborative interfaces. Massachusetts Institute of Technology.

Upadhyay, M. (2017). The utility of media in education. Journal of Content, Community & Communication, 5, 32–37.

Widoyoko, E. P. (2012). Teknik penyusunan instrumen penelitian. Pustaka Pelajar.

Xiao, L. (2013). Animation trends in education. International Journal of Information and Education Technology, 3(3), 286–289.

Downloads

Published

2021-12-30

Issue

Vol. 1 No. 2 (2021): Online Learning in Educational Research

Section

Articles

License

Online Learning in Educational Research is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Authors who publish with Online Learning in Educational Research agree to the following terms:

Copyright Retention: Authors retain the copyright of their work without any restrictions.

Publishing Rights: Authors retain the right to publish and distribute their work without any restrictions.

License Agreement: By publishing with Online Learning in Educational Research, authors agree that their work will be licensed under the Creative Commons Attribution-ShareAlike 4.0 International License (CC BY-SA). This license allows others to share and adapt the work, provided that appropriate credit is given, any changes are indicated, and the new creations are licensed under the same terms.

How to Cite

Dynamic Electrical Subject for Senior High School: Developing Interactive Tutorial Method Animation. (2021). Online Learning In Educational Research (OLER), 1(2), 103-111. https://doi.org/10.58524/oler.v1i2.72