The Validity of Electronic Learning Materials Optical Instruments Based on Authentic Learning to Train Students' Problem Solving Skills

Authors

  • Fitriana Dewi Ramadhani Universitas Lambung Mangkurat
  • Mustika Wati Universitas Lambung Mangkurat
  • Misbah Misbah [Scopus ID: 57195480182]; Universitas Lambung Mangkurat
  • Ketang Wiyono Universitas Sriwijaya

DOI:

https://doi.org/10.37891/kpej.v4i2.212

Keywords:

authentic learning, electronic teaching materials, problem solving skills, optical instruments, validity

Abstract

Problem-solving skills are needed in solving various problems both academically and authentically. However, from the results of field studies, students' problem-solving skills are still relatively low. The authentic learning approach has received much scientific support to overcome this kind of problem. However, authentic learning-based teaching materials have not been widely developed, especially for high school physics learning. The specific purpose of this research is to describe the validity of the developed electronic teaching materials. This study uses the research design and development of the ASSURE model. Electronic teaching material validation data was obtained using a validation sheet. Validation is based on expert validation consisting of 1 practitioner and two academics. Validation data is expressed by the average value of the total score for each aspect of the assessment, and the calculation results are adjusted to the validity criteria. The results showed that: the validity of electronic teaching materials was categorized as valid with an average score of 3.90. It was concluded that authentic learning-based electronic teaching materials were declared valid and could be used as a stage for class trials on optical instrument materials

Author Biography

Misbah Misbah, [Scopus ID: 57195480182]; Universitas Lambung Mangkurat

SINTA Author Profile Scopus Author Profile

References

Arsyad, Z., Wati, M., & Suyidno, S. (2020). The Effectiveness of the Module Static Fluid with Authentic Learning to Train Students’ Problem-Solving Skills. SEJ (Science Education Journal, 4(2), 113–128.

Astuti, E. R., & Baysha, M. H. (2018). Authentic learning pada mata kuliah produksi media cetak. Jurnal Ilmiah Mandala Education, 4(1), 231–237.

Baskaran, V. L., & Abdullah, N. (2020). Science teachers’ readiness in implementating authentic learning approach in teaching and learning. International Jurnal Of Academic Research in Business & Social Sciences, 10(8), 93–107.

Coksun, H., Dogan, A., & Uluay, G. (2017). The effect oh technology on students opinions about authentic learning activities in science courses. Universal Journal of Educational Research, 5(1), 72–83.

Denhere, C. (2014). Authentic pedagogy: Implications for education. European Journal of Research and Reflection in Educational Sciences, 2(4).

Fitriyani, R. V, Supeno, S., & Maryani, M. (2019). Pengaruh LKS kolaboratif pada model pembelajaran berbasis masalah terhadap keterampilan pemecahan masalah fisika siswa SMA. Berkala Ilmiah Pendidikan Fisika, 7(2), 71–81.

Güneş, G., Arıkan, A., & Çetin, T. (2020). Analysing the effect of authentic learning activities on achievement in social studies and attitudes towards geographic information system (GIS). Participatory Educational Research, 7(3), 247–264. https://doi.org/10.17275/per.20.45.7.3

Gürgil, F. (2018). The effect of authentic learning approach in social studies teaching on the academic success. Universal Journal of Educational Research, 6(10), 2061–2068. https://doi.org/10.13189/ujer.2018.061002

Hadi, S., & Novaliyosi. (2019). TIMSS Indonesia (Trends in international mathematis and science study. In Prosiding Seminar Nasional & Call For Papers (pp. 562–569). Tasikmalaya: Program Studi Magister Pendidikan Matematika Universitas Siliwangi.

Hamid, M. A., Hilmi, D., & Mustofa, S. (2019). Pengembangan bahan ajar bahasa arab berbasis teori belajar konstruktivisme untuk mahasiswa. Jurnal Imla, 4(1), 100–114.

Komalasari, K. (2011). Pembelajaran Kontekstual : Konsep dan Aplikasi. Bandung: PT Refika Aditama.

Lombardi, M. M. (2007). Authentic Learning for the 21st Century: An Overview. Educause Learning Initiative, 1(2007), 1–12.

Polya, G. (1973). How to solve it mathematical method. In America. New York: Princeton University Press.

Ridho, M. H., Wati, M., Misbah, M., Mahtari, S., H, ., Wati, M., … Mahtari, S. (2020). Validitas Bahan Ajar Gerak Melingkar Berbasis Authentic Learning di Lingkungan Lahan Basah untuk Melatih Keterampilan Pemecahan Masalah. Journal of Teaching and Learning Physics, 5(2), 5(2), 87–98.

Rizki, M., Wati, M., & Misbah, M. (2021). Electronic thermodynamics teaching materials based on authentic learning to practice students’ problem-solving skills: Aspects of validity. Journal of Physics: Conference Series, 2104(1), 12018.

Roach, K., Tilley, E., & Mitchell, J. (2018). How authentic does authentic learning have to be? Higher Education Pedagogies, 3(1), 495–509. https://doi.org/10.1080/23752696.2018.1462099

Sagita, I., Medriati, R., & Purwanto, A. (2018). Penerapan creative problem solving model untuk meningkatkan kemampuan pemecah masalah fisika siswa kelas xi mia 4 man 2 Kota Bengkulu. Jurnal Kumparan Fisika, 1–6.

Sambada, D. (2012). The role of creativity of students to the physics problem-solving skills in contextual learning. Journal of Physics Research and Application (JPFA, 2(2), 37–47.

Saputri, S. R., Wati, M., & Misbah, M. (2021). Simple harmonic motion electronic teaching materials based on authentic learning to train students’ problem-solving skills: aspects of validity. Journal of Physics: Conference Series, 2126(1), 12016.

Şekerci, H. (2021). Evaluating student and teacher views on the use of authentic learning in primary school social studies course: A case study. Participatory Educational Research, 8(1), 322–343. https://doi.org/10.17275/per.21.19.8.1

Sugiyono, S. (2017). Metode penelitian kuantitatif, kualitatif dan R&D. Bandung: Alfabeta.

Wati, M., & Misbah, M. (2021). Pengembangan materi ajar fisika bermuatan authentic learning pada pokok bahasan gerak melingkar. Jurnal Kependidikan: Penelitian Inovasi Pembelajaran, 5(2).

Wati, M., Safiah, S., & Misbah, M. (2021). How to train problem-solving skills in physics using authentic learning. Journal of Physics: Conference Series, 1760(1). https://doi.org/10.1088/1742-6596/1760/1/012009

Wati, M., Sutiniasih, N. K., Misbah, M., Mahtari, S., Annur, S., & Mastuang, M. (2020). Developing of Physics Teaching Materials Based on Authentic Learning to Train Problem-Solving Skills. Journal of Physics: Conference Series, 1567(3), 1–10. https://doi.org/10.1088/1742-6596/1567/3/032084.

Widowati, A., Nurohman, S., & Anjarsari, P. (2017). Developing science learning material with authentic inquiry learning approach to improve problem solving and scientific attitude. Jurnal Pendidikan IPA Indonesia, 6(1).

Widoyoko, E. P. (2016). Evaluasi program pembelajaran. In Evaluasi Program Pembelajaran. Yogyakarta: Pustaka Pelajar.

Young, H. D., & Freedman, R. A. (2003). Fisika universitas edisi kesepuluh jilid 1. Jakarta: Erlangga.

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Published

31-12-2021

How to Cite

Ramadhani, F. D., Wati, M., Misbah, M., & Wiyono, K. (2021). The Validity of Electronic Learning Materials Optical Instruments Based on Authentic Learning to Train Students’ Problem Solving Skills. Kasuari: Physics Education Journal (KPEJ), 4(2), 78–89. https://doi.org/10.37891/kpej.v4i2.212

Issue

Vol. 4 No. 2 (2021): December 2021

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