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All Journal JURNAL ILMIAH PENDIDIKAN FISIKA AL BIRUNI Jurnal Pendidikan Fisika dan Teknologi Gravitasi: Jurnal Pendidikan Fisika dan Sains Jurnal Pendidikan Fisika dan Sains (JPFS) Panthera : Jurnal Ilmiah Pendidikan Sains dan Terapan
Saputra, M. Reza Dwi
Unknown Affiliation
Biochemistry, Genetics & Molecular Biology Chemistry Decision Sciences, Operations Research & Management Earth & Planetary Sciences Education Electrical & Electronics Engineering Energy Environmental Science Immunology & microbiology Mathematics Physics Social Sciences

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Pemetaan Trajektori Transformasi Konseptual Berdasarkan Konstruksi dan Rekonstruksi Melalui Aktivitas Pembelajaran Fisika Berbasis Teks Digital Saputra, M. Reza Dwi; Nurdini, Nurdini; Fratiwi, Nuzulira Janeusse; samsudin, Achmad; Suhandi, Andi; Novia, Hera; Kodir, Solehkun
Jurnal Pendidikan Fisika dan Sains Vol 8 No 01 (2025): GRAVITASI: JURNAL PENDIDIKAN FISIKA DAN SAINS
Publisher : Program Studi Pendidikan Fisika FKIP Universitas Samudra

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33059/gravitasi.jpfs.v8i01.11863

Abstract

Penelitian ini bertujuan untuk memetakan trajektori transformasi konseptual siswa dalam konsep fluida melalui aktivitas pembelajaran berbasis teks digital. Secara khusus, penelitian ini berfokus pada identifikasi dua jenis transformasi, yaitu konstruksi dan rekonstruksi, serta menganalisis bagaimana keduanya berkembang sepanjang proses pembelajaran. Pendekatan kuantitatif deskriptif digunakan dalam desain penelitian longitudinal eksploratori. Partisipan terdiri dari 64 siswa kelas X jurusan IPA berusia 15 hingga 16 tahun, yang dipilih dari populasi sebanyak 187 siswa di salah satu SMA negeri di Bandung, Indonesia. Intervensi dilakukan melalui empat dokumen e-CDCCText (Electronic Conceptual Development and Conceptual Change Text) yang terstruktur dan mencakup topik tekanan hidrostatik, gaya apung, serta konsep mengapung dan tenggelam. Setiap teks terdiri atas tujuh bagian berjenjang (scaffolded), namun analisis data difokuskan pada Bagian I (konsepsi awal), Bagian III (identifikasi ulang pada pertengahan), dan Bagian VII (konsepsi akhir). Respons siswa dievaluasi menggunakan instrumen diagnostik empat tingkat yang telah divalidasi untuk kualitas konstruk dan item melalui analisis Rasch. Data dianalisis menggunakan klasifikasi kategorikal perubahan konseptual dan teknik stacking dan racking berbasis Rasch untuk mengamati pergeseran tingkat konseptual siswa melalui konstruksi atau rekonstruksi, dengan trajektori yang bervariasi, seperti pola langsung (immediate), bertahap (gradual), atau tertunda (delayed). Pergeseran ini terutama tampak pada fase akhir aktivitas pembelajaran. Temuan menunjukkan bahwa teks digital yang terstruktur berpotensi mendukung transformasi konseptual dengan membimbing siswa melalui fase-fase pembelajaran yang progresif. Pemetaan trajektori juga memberikan wawasan berharga bagi pendidik untuk memantau pertumbuhan konseptual dan merancang strategi pembelajaran yang responsif terhadap perkembangan pemahaman siswa.
Integrating Local Wisdom into Physics Learning: Developing an Android Application "Perahu Dayung" to teach Physics Suminar, Iin; Saputra, M. Reza Dwi; Lestari, Mulinda Dewi; Arifiyanti, Fitria; Susilowati, Nur Endah
Jurnal Pendidikan Fisika dan Sains (JPFS) Vol 8 No 1 (2025): Maret
Publisher : Pendidikan Fisika, FKIP, Universitas Nahdlatul Ulama Cirebon

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52188/jpfs.v8i1.1264

Abstract

This study developed an Android-based physics learning media integrating local wisdom—Perahu Dayung (Rowing Boat)—to improve student engagement and contextual understanding of Newtonian mechanics. Using a Research and Development (R&D) approach with the Four-D model (Define, Design, Develop, Disseminate), the study began with classroom observations, interviews, and literature review to identify learning needs. The media was designed with a storyboard and prototype, then developed using Unity 3D. Expert validation involved physics lecturers, teachers, and peer reviewers. Trials included 10 students (limited) and 20 tenth-grade students (field trial) at Ferdy Ferry Putra Senior High School, Jambi, using a one-group pretest-posttest design. Instruments included tests and evaluation sheets. The resulting app, Fisika Asik, features interactive quizzes, animations, and cultural content. Validation scores were high for content (4.6) and media (4.4). Learning outcomes showed moderate improvement with a normalized gain of 0.38. The results indicate the media is effective, engaging, and culturally relevant. Integrating local culture offers a contextualized learning approach. Further studies are recommended to expand testing and enhance features.
Ready to Boost Adolescents’ Creative Thinking? How Problem-Based Blended Learning Empowers 15-17-Year-Old Students Susilowati, Nur Endah; Okiri, Peter Ochieng; Efendi, Ridwan; Muslim, Muslim; Arifiyanti, Fitria; Saputra, M. Reza Dwi
Jurnal Ilmiah Pendidikan Fisika Al-Biruni Vol 14 No 1 (2025): Jurnal Ilmiah Pendidikan Fisika Al-Biruni
Publisher : Universitas Islam Negeri Raden Intan Lampung, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24042/jipfalbiruni.v14i1.26616

Abstract

longer optional but essential. As students navigate an era demanding innovation and problem-solving, teachers must rethink how learning happens. This study explores the effectiveness of problem-based blended learning (PBBL) in enhancing creative thinking skills among students aged 15-17. The study employs a quasi-experimental design involving both experimental and control groups, with a pre-test and post-test approach. A purposive sampling technique selected 40 students within the target age range. Students’ creative thinking was assessed using an essay-based instrument aligned with the PISA 2021 Creative Thinking Framework, which focuses on generating diverse ideas and creative ideas and evaluating and improving ideas. The results reveal that PBBL has a significant impact, as indicated by a high effect size tested using Cohen’s d formula of 0.9 on the post-test results. These findings suggest that problem-based blended learning is an effective strategy for promoting creative thinking skills in adolescents and may serve as a valuable approach for future educational practices.
Examining Students’ Procedural Skills through the Construction of an Electroscope in Electrostatics Instruction Suminar, Iin; Noviana, Mochammad Irfan; Saputra, M. Reza Dwi
Panthera : Jurnal Ilmiah Pendidikan Sains dan Terapan Vol. 5 No. 3 (2025): July
Publisher : Lembaga Pendidikan, Penelitian, dan Pengabdian Kamandanu

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36312/panthera.v5i3.573

Abstract

The aim of this study is to examine students’ procedural skills engagements through a low-tech, hands-on physics experiments involving the construction of an electroscope during electrostatics instruction. A total of 27 students, organized into eight collaborative groups, participated in the activity, which emphasized student autonomy in selecting materials, designing components, and performing technical adjustments such as stripping wire insulation. Adopting a descriptive qualitative approach, data were collected through classroom observations and assessed using a rubric that measured four key dimensions:. material preparation, following the steps of the experiment, problem-solving and troubleshooting, and observational skills and interpretation. The results indicate that the majority of student groups demonstrated proficient to exemplary performance across most dimensions, particularly in material handling and interpreting experimental outcomes. These findings underscore the educational value of analog experimentation in fostering students’ procedural competencies, supporting hands-on engagement, and reinforcing foundational scientific practices in a digitally evolving classroom environment.
Evaluating Student-Built Earthquake Alarm Prototypes: Integrating Engineering Practices Through Real-World Projects in Junior High School Suminar, Iin; Saputra, M. Reza Dwi; Iqbal, Nur Habib Muhammad
Jurnal Pendidikan Fisika dan Teknologi (JPFT) Vol 11 No 1a (2025): Special Issue
Publisher : Department of Physics Education, Universitas Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jpft.v11i1a.9306

Abstract

Preparing students for 21st-century challenges requires learning experiences that connect scientific knowledge with real-world applications. This study investigates the integration of engineering practices in junior high school physics education through a project in which ninth-grade students designed and built simple earthquake alarm prototypes. The project adopted the PGBU (Pikir, Gambar, Buat, Uji)—a structured design process widely used in Indonesia—to guide students through iterative phases of thinking, sketching, building, and testing. Data from 24 student groups were analyzed using a rubric assessing functionality, application of physics concepts, creativity, construction neatness, and use of recycled materials. Most groups performed at moderate to high levels, with relatively higher performance observed in creativity and functionality. Results also indicated evidence of collaboration and the ability to apply physics concepts in real-world contexts. The project-based implementation of PGBU effectively fostered essential 21st-century competencies such as creative problem-solving, critical thinking, and teamwork. These findings highlight the potential of culturally grounded, design-based learning to support meaningful STEM education in junior high schools.
Co-Authors A. Suhandi Achmad Samsudin Arifiyanti, Fitria Efendi, Ridwan Fratiwi, Nuzulira Janeusse Hera Novia Iqbal, Nur Habib Muhammad Kodir, Solehkun Lestari, Mulinda Dewi Muslim Muslim Noviana, Mochammad Irfan Nur Endah Susilowati Nurdini Nurdini, Nurdini Okiri, Peter Ochieng Suminar, Iin