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All Journal Jurnal Penelitian dan Pengembangan Pendidikan JURNAL PENDIDIKAN TAMBUSAI Pillar of Physics Education : Jurnal Berkala Ilmiah Pendidikan Fisika JURNAL FIRNAS Journal of Innovative Physics Teaching (JIPT) Physics Learning and Education Time in Physics: Journal for Theoretical, Instrumentation, Material-Molecular, and Education Physics
Hayyu Yumna
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Education Mathematics Physics Social Sciences Other

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Journal : Physics Learning and Education

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Validation Analysis of Interactive Teaching Materials on Environmental Pollution Integrated with Ethno-Meaningful Learning to Facilitate Students' Knowledge and Creative Thinking Skills Widia, Widia Efrisa; Asrizal, Asrizal; Hidayati, Hidayat; Yumna, Hayyu
Physics Learning and Education Vol. 3 No. 2 (2025): June Edition
Publisher : Department of Physics Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/ple.v3i2.241

Abstract

Technological advancements play a vital role in supporting educational processes, particularly in the development of instructional materials. A needs analysis conducted at SMA N 1 Dua Koto revealed that teachers continue to face difficulties in designing technology-based teaching resources. Existing teaching materials have yet to make a significant impact on the improvement of students' knowledge and creative thinking skills. One promising approach to address this issue is the development of interactive teaching materials that integrate ethnoscience and meaningful learning principles. This study aims to evaluate the validity of interactive teaching materials on environmental pollution that are integrated with ethno-meaningful learning. The research employed a Research and Development (R&D) design using the Hannafin and Peck model. The object of the research was the interactive teaching material itself. Data were collected through instruments such as needs analysis questionnaires, validity assessments, and practicality evaluations. The data were analyzed using descriptive statistical methods, particularly Aiken’s V formula. The results of the validation process indicated an average Aiken’s V score of 0.91 which falls into the “valid” category. These findings suggest that the developed teaching materials are both valid and suitable for implementation in classroom settings, with the potential to significantly enhance students’ knowledge and creative thinking skills.
The Role of Student Worksheets in Deep Learning-Based Inquiry Learning Models in Physics Education: A Systematic Literature Review Defina, Jihan; Razi, Phakrur; Hufri, Hufri; Yumna, Hayyu
Physics Learning and Education Vol. 4 No. 1 (2026): March Edition
Publisher : Department of Physics Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/ple.v4i1.323

Abstract

Physics learning in schools is expected to facilitate not only the acquisition of conceptual knowledge but also the development of students’ scientific reasoning and higher-order thinking skills. One learning strategy that has gained attention in physics education is inquiry-based learning, particularly when supported by appropriate instructional materials. Student Worksheets play an important role in guiding students through structured learning activities that encourage active engagement and conceptual construction. In addition, the deep learning approach emphasizes meaningful learning, reflection, and the integration of knowledge across concepts. This study aims to systematically examine the role of Student Worksheets within inquiry-based learning models that are integrated with a deep learning approach in physics education. A Systematic Literature Review (SLR) was conducted by analyzing 15 relevant national and international journal articles published over the last ten years. The findings indicate that inquiry-based Student Worksheets designed according to deep learning principles contribute positively to students’ conceptual understanding, critical thinking skills, and learning engagement in physics. These results highlight the potential of integrating inquiry learning and deep learning approaches through well-designed Student Worksheets to enhance the quality of physics learning.
Co-Authors Ahmad Fauzi Asrizal Asrizal Defina, Jihan Desnita Devana Fadhillah, Aisyah Rehan Fajri, Muhamad Fajri Fatni Mufit Hamdi Rifai Harman Amir Helendra Helendra Hidayati Hidayati Hidayati Hidayati, Hidayat Hufri Hufri Merindi, Merindi Putri Islami Pebriani, Feby Putri, Melvia Nisa Ratnawulan . Razi, Phakrur Sari, Gina Alya Wardatul Fajriyaty Wedy, Zahra Salsabila Widia, Widia Efrisa Yahdiyani, Yahdiyani