Abstract

Science learning does not only involve facts and concepts but also ways of thinking, explaining scientifically, and doing a practicum. Unfortunately, existing e-learning and/or social media have not been able to facilitate the implementation of online practicums. Therefore, an e-scaffolding website based on scientific explanations is needed as teaching media and materials since learning is mostly conducted online during the Covid-19 pandemic. This study aims to describe the development process and the validity and legibility of the e-scaffolding website to develop scientific explanations for elementary school pre-service teachers. The development of this e-scaffolding website refers to the development model developed by Lee and Owens (2004). The instrument of this study was a questionnaire using a Likert scale. There are 3 kinds of questionnaires used, including the material validation questionnaire by the expert validator, the media validation questionnaire by the expert validator, and the student readability test questionnaire. The results showed that the average product validation results on the website aspect were 84% and, on the e-scaffolding aspect was 86.67%. While the results of the product readability test were 82.29%. This means that the development of the e-scaffolding website based on scientific explanations is very valid and very feasible to use in developing the scientific explanation abilities of elementary school pre-service teachers

Keywords: website e-scaffolding, scientific explanation, teaching materials.

 

Abstrak

Dalam pembelajaran sains tidak hanya melibatkan fakta dan konsep, tetapi juga cara berpikir dan menjelaskan secara ilmiah. Selain itu, dalam pembelajaran sains juga membutuhkan praktikum. Sayangnya, e-learning atau media sosial yang ada belum dapat memfasilitasi pelaksanaan praktikum online. Oleh karena itu, dibutuhkan website e-scaffolding berbasis penjelasan ilmiah sebagai media dan bahan ajar di masa pandemi Covid-19. Penelitian ini bertujuan untuk mendeskripsikan proses pengembangan dan kevalidan serta keterbacaan website e-scaffolding untuk mengembangkan scientific explanation calon guru sekolah dasar. Pengembangan website e-scaffolding ini mengacu pada model pengembangan yang dikembangkan oleh Lee & Owens. Instrumen pengumpulan data berupa angket dengan menggunakan skala likert. Angket yang digunakan ada 3 macam, yaitu angket validasi materi oleh validator, angket validasi media oleh validator, dan angket uji keterbacaan siswa. Hasil penelitian menunjukkan bahwa rata-rata hasil validasi produk pada aspek website sebesar 84% dan pada aspek e-scaffolding sebesar 86,67%. Sedangkan hasil uji keterbacaan produk sebesar 82,29%. Hal ini berarti bahwa pengembangan website e-scaffolding berbasis penjelasan ilmiah sangat valid dan sangat layak digunakan dalam mengembangkan kemampuan penjelasan ilmiah calon guru sekolah dasar.

Kata kunci: website e-scaffolding, penjelasan ilmiah, bahan ajar.

Affriyenni, Y. (2014). Pengembangan e-scaffolding termodinamika berbasis pembelajaran hybrid untuk menumbuhkan sikap ilmiah dan prestasi belajar fisika. Universitas Negeri Malang.

Ambawati, R., Putri, E. K., Rahayu, D. A., & Khaleyla, F. (2021). Science online learning during the covid-19 pandemic: Difficulties and challenges. Journal of Physics: Conference Series, 1747(1), 012007.

Amelia, R. (2021). The influence of e-scaffolding in blended learning on prospective teacher’s scientific explanation. Journal of Physics: Conference Series, 1796(1), 012039.

Amelia, R., Handayanto, S. K., & Muhardjito, M. (2016). The Influence of V Diagram Procedural Scaffolding in Group Investigation Towards Students with High and Low Prior Knowledge. Jurnal Pendidikan IPA Indonesia, 5(1), 108–115.

Amelia, R., & Mulyoto, G. P. (2020). Hybrid Active Learning to Develop the Science Competence of Preservice Elementary Schools Teachers.

Amelia, R., Rofiki, I., Tortop, H. S., & Abah, J. A. (2020). Pre-service teachers’ scientific explanation with e-scaffolding in blended learning. Jurnal Ilmiah Pendidikan Fisika Al Biruni, 9(1), 33–40.

Amiripour, P., Amir-Mofidi, S., & Shahvarani, A. (2012). Scaffolding as effective method for mathematical learning. Indian Journal of Science and Technology, 5(9), 3328–3331.

Ayu, H. D., Pratiwi, H. Y., Kusairi, S., & Muhardjito, M. (2017). Developing E-Scaffolding To Improve The Quality Of Process And Learning Outcomes. Jurnal Kependidikan: Penelitian Inovasi Pembelajaran, 1(2), 334-347.

Barisone, M., Bagnasco, A., Aleo, G., Catania, G., Bona, M., Scaglia, S. G., Zanini, M., Timmins, F., & Sasso, L. (2019). The effectiveness of web-based learning in supporting the development of nursing students’ practical skills during clinical placements: A qualitative study. Nurse Education in Practice, 37, 56–61.

Budianto, L., & Arifani, Y. (2021). Utilizing WhatsApp-driven learning during the covid-19 outbreak: Efl users’ perceptions and practices. Call-Ej, 22(1), 264–281.

Chen, C.-H. (2014). An adaptive scaffolding e-learning system for middle school students’ physics learning. Australasian Journal of Educational Technology, 30(3).

Coomey, M., & Stephenson, J. (2018). Online learning: It is all about dialogue, involvement, support and control—According to the research. In Teaching & learning online (pp. 37–52). Routledge.

Dascalu, M.-D., Ruseti, S., Dascalu, M., McNamara, D. S., Carabas, M., Rebedea, T., & Trausan-Matu, S. (2021). Before and during COVID-19: A Cohesion Network Analysis of Students’ Online Participation in Moodle Courses. Computers in Human Behavior, 106780.

Dasilva, B. E., Ardiyati, T. K., Suparno, S., Sukardiyono, S., Eveline, E., Utami, T., & Ferty, Z. N. (2019). Development of Android-Based Interactive Physics Mobile Learning Media (IPMLM) with Scaffolding Learning Approach to Improve HOTS of high school students in Indonesia. Journal for the Education of Gifted Young Scientists, 7(3), 659–681.

Ding, Y., & Zhang, P. (2018). Practice and effectiveness of web-based problem-based learning approach in a large class-size system: A comparative study. Nurse Education in Practice, 31, 161–164.

Fitriyani, Y., Fauzi, I., & Sari, M. Z. (2020). Motivasi belajar mahasiswa pada pembelajaran daring selama pandemik covid-19. Jurnal Kependidikan: Jurnal Hasil Penelitian dan Kajian Kepustakaan di Bidang Pendidikan, Pengajaran dan Pembelajaran, 6(2), 165–175.

Frei, S., Gammill, A., & Irons, S. (2006). Integrating Technology into the Curriculum: All Grades. Teacher Created Materials.

Garrison, D. R., & Vaughan, N. D. (2008). Blended learning in higher education: Framework, principles, and guidelines. John Wiley & Sons.

Goldschmidt, K. (2020). The COVID-19 pandemic: Technology use to support the wellbeing of children. Journal of Pediatric Nursing, 53, 88.

Hanafie Das, S. W., Halik, A., Iman, B., Tahir, M., Hamid, E., Djollong, A. F., & Kenre, I. (2020). Developing a Sociocultural Approach in Learning Management System through Moodle in the Era of the Covid-19. International Journal of Innovation, Creativity and Change, 13(27), 941–958.

Haqien, D., & Rahman, A. A. (2020). Pemanfaatan Zoom Meeting Untuk Proses Pembelajaran Pada Masa Pandemi Covid-19. SAP (Susunan Artikel Pendidikan), 5(1).

Herliandry, L. D., Nurhasanah, N., Suban, M. E., & Kuswanto, H. (2020). Pembelajaran pada masa pandemi covid-19. JTP-Jurnal Teknologi Pendidikan, 22(1), 65–70.

Hodges, G. W., Wang, L., Lee, J., Cohen, A., & Jang, Y. (2018). An exploratory study of blending the virtual world and the laboratory experience in secondary chemistry classrooms. Computers & Education, 122, 179–193.

Hughes, F. P. (2009). Children, play, and development. Sage.

Jan, L. G., de Kruif, A., & Valcke, M. (2012). Differential impact of unguided versus guided use of a multimedia introduction to equine obstetrics in veterinary education. Computers & Education, 58(4), 1076–1084.

Jufriadi, A., Ayu, H. D., & Pratiw, H. Y. (2019). Developing E-Scaffolding Integrated with E-Assessment to Improve Student’s Mastery of Concept. 1st International Conference on Education and Social Science Research (ICESRE 2018), 176–179.

Keddi, D., & Frerich, S. (2020). Enhancing Engineering Education by Virtual Laboratories. International Conference on Remote Engineering and Virtual Instrumentation, 359–365.

Koes-H, S., Suwasono, P., & Pramono, N. A. (2019). Efforts to improve problem solving abilities in physics through e-scaffolding in hybrid learning. AIP Conference Proceedings, 2081(1), 030006.

Lee, W. W., & Owens, D. L. (2004). Multimedia-based instructional design: Computer-based training, web-based training, distance broadcast training, performance-based solutions. John Wiley & Sons.

Makhrus, M., Wahyudi, W., & Zuhdi, M. (2021). Students’ conceptual understanding through implementation of livewire in basic electronics virtual experiment. Jurnal Penelitian Pendidikan IPA, 7(2), 249–254.

Martin, F., & Ertzberger, J. (2013). Here and now mobile learning: An experimental study on the use of mobile technology. Computers & Education, 68, 76–85.

McNeill, K. L. (2011). Elementary students’ views of explanation, argumentation, and evidence, and their abilities to construct arguments over the school year. Journal of Research in Science Teaching, 48(7), 793–823.

Mirahmadi, S. H., & Alavi, S. M. (2016). The role of traditional and virtual scaffolding in developing speaking ability of Iranian EFL learners. International Journal of English Linguistics, 6(2), 43–56.

Mukhtar, K., Javed, K., Arooj, M., & Sethi, A. (2020). Advantages, Limitations and Recommendations for online learning during COVID-19 pandemic era. Pakistan Journal of Medical Sciences, 36(COVID19-S4), S27.

Nicola, M., Alsafi, Z., Sohrabi, C., Kerwan, A., Al-Jabir, A., Iosifidis, C., Agha, M., & Agha, R. (2020). The socio-economic implications of the coronavirus and COVID-19 pandemic: A review. International Journal of Surgery, 78, 185-193

Octaberlina, L. R., & Muslimin, A. I. (2020). Efl students perspective towards online learning barriers and alternatives using moodle/google classroom during covid-19 pandemic. International Journal of Higher Education, 9(6), 1–9.

Oktavianti, E., Handayanto, S. K., Wartono, W., & Saniso, E. (2018). Students’ scientific explanation in blended physics learning with e-scaffolding. Jurnal Pendidikan IPA Indonesia, 7(2), 181–186.

Podolefsky, N. S., & Finkelstein, N. D. (2007). Analogical scaffolding and the learning of abstract ideas in physics: An example from electromagnetic waves. Physical Review Special Topics-Physics Education Research, 3(1), 010109.

Porter, W. W., Graham, C. R., Spring, K. A., & Welch, K. R. (2014). Blended learning in higher education: Institutional adoption and implementation. Computers & Education, 75, 185–195.

Purwanto, A., Pramono, R., Asbari, M., Hyun, C. C., Wijayanti, L. M., & Putri, R. S. (2020). Studi eksploratif dampak pandemi COVID-19 terhadap proses pembelajaran online di sekolah dasar. EduPsyCouns: Journal of Education, Psychology and Counseling, 2(1), 1–12.

Rahmawati, R., & Putri, E. M. I. (2020). Learning From Home dalam Perspektif Persepsi Mahasiswa Era Pandemi Covid-19. Prosiding Seminar Nasional Hardiknas, 1, 17–24.

Santrock, J. W. (2011). Educational psychology. McGraw-Hill.

Saputri, A. A., & Wilujeng, I. (2017). Developing Physics E-Scaffolding Teaching Media to Increase the Eleventh-Grade Students’ Problem Solving Ability and Scientific Attitude. International Journal of Environmental and Science Education, 12(4), 729–745.

Sefriani, R., Sepriana, R., Wijaya, I., & Radyuli, P. (2021). Blended Learning with Edmodo: The Effectiveness of Statistical Learning during the COVID-19 Pandemic. International Journal of Evaluation and Research in Education, 10(1), 293–299.

Serhan, D. (2020). Transitioning from Face-to-Face to Remote Learning: Students’ Attitudes and Perceptions of Using Zoom during COVID-19 Pandemic. International Journal of Technology in Education and Science, 4(4), 335–342.

Setiawan, T. (2018). The Exploration of Using E-Scaffolding in Solving Physics Problem.

Setyosari, H. P. (2016). Metode penelitian pendidikan & pengembangan. Prenada Media.

Susilawati, S., & Supriyatno, T. (2020). Online learning through WhatsApp group in improving learning motivation in the era and post pandemic COVID-19. Jurnal Pendidikan: Teori, Penelitian, Dan Pengembangan, 5(6), 852–859.

Tinungki, G. M., & Nurwahyu, B. (2020). The Implementation of Google Classroom as the E-Learning Platform for Teaching Non-Parametric Statistics during COVID-19 Pandemic in Indonesia. International Journal of Advanced Science and Technology, 29(4), 5793–5803.

Wicaksana, E. (2020). Efektifitas Pembelajaran Menggunakan Moodle Terhadap Motivasi Dan Minat Bakat Peserta Didik Di Tengah Pandemi Covid-19. EduTeach: Jurnal Edukasi dan Teknologi Pembelajaran, 1(2), 117–124.

Wicaksana, E. J., Atmadja, P., Wikanso, W., Putri, L. N., & Muthia, G. A. (2020). Edmodo as a solution to enhance student learning interest in high school biodiversity during the COVID-19 pandemic. Biosfer: Jurnal Pendidikan Biologi, 13(2), 216–229.

Wintarti, A., Ekawati, R., & Fiangga, S. (2019). Blended Learning as a Learning Strategy in the Disruptive Era. Journal of Physics: Conference Series, 1387(1), 012127.