Claim Missing Document
Check
Articles

Found 12 Documents
Search

Metaverse in Science Education: Immersive and Interactive Learning for Future Bin Amiruddin, Mohd Zaidi; Samsudin, Achmad; Suhandi, Andi; Coştu, Bayram; Fratiwi, Nuzulira Janeusse; Suliyanah, Suliyanah
JPPS (Jurnal Penelitian Pendidikan Sains) Vol. 14 No. 1 (2024)
Publisher : Universitas Negeri Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/jpps.v14n1.p1-22

Abstract

Objective:  This study aimed to analyze the trends, collaborations, and contributions in Metaverse-related research within the context of science education from 2021 to 2024. The research identifies the growth dynamics, key countries, institutions, and thematic keywords in Metaverse research, emphasizing its educational applications. Method: A bibliometric analysis was conducted on 64 articles from 51 sources, spanning 2021-2024 with PRISMA. The data were collected using citation metrics, keyword analysis, author collaboration, and geographical distribution of publications. VOSviewer were employed to visualize the relationships between key themes and institutions. Results: The study revealed a significant increase in research output, particularly from 2021 to 2023, with a growth rate of 100%. China and the United States emerged as the leading contributors, with distinct research patterns: China focused on national studies, while the USA engaged in more international collaborations. Keywords such as Augmented Reality, Machine Learning, and Science Education were central to the discourse, highlighting the growing intersection of technology and education. Leading institutions included the University of Zilina and Jakarta State University.  Novelty:This research provides a detailed bibliometric overview of the metaverse in science education, highlighting the gap in bibliometric studies focused specifically on science education within the metaverse. It offers insights into emerging trends, key collaborations, and potential areas for further exploration.
Post-pandemic e-teaching: Developing the Game for Microscopic Atom Simulation (GEMAS) to enhance students' scientific conceptions of phase structures Zahran, Muhammad; Samsudin, Achmad; Novia, Hera; Fratiwi, Nuzulira Janeusse; Nurdini, Nurdini; Ningsih, Dena Tresna; Nugraha, Eki; Nasbey, Hadi; Sözbilir, Mustafa
Journal of Environment and Sustainability Education Vol. 3 No. 1 (2025)
Publisher : Education and Development Research

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62672/joease.v3i1.55

Abstract

This research focuses on the early development of GEMAS (Game for Microscopic Atom Simulation) as an innovative digital teaching tool designed to support instruction on phase structures in physics education. In response to the post-pandemic shift towards technology-enhanced teaching, GEMAS was developed to integrate interactive, simulation-based pedagogy that enhances conceptual visualization. The study follows the 3D model (Define, Design, and Develop) and employs Multifaceted Rasch Measurement (MRFM) for evaluation. Validation was conducted by five experts, assessing curriculum alignment, scientific accuracy, language clarity, visual arrangement, and instructional effectiveness. These dimensions align with best practices in e-teaching, ensuring accessibility, engagement, and pedagogical rigor. MRFM analysis confirms the tool’s validity, with positive average scores across all indicators. The findings suggest that GEMAS is a well-designed digital resource, ready for implementation to enhance physics instruction in post-pandemic educational settings. The implications of this study extend beyond validating GEMAS as a tool; it demonstrates how immersive 3D simulations can address persistent misconceptions in physics education, particularly in post-pandemic contexts where digital engagement is critical. By bridging abstract concepts with interactive visualization, GEMAS offers a scalable model for enhancing e-teaching practices and fostering deeper conceptual understanding among students.
E-CDCCText Development: An Instructional Material for Facilitating Conceptual Change in Fluid Concepts Nurdini, Nurdini; Suhandi, Andi; Fratiwi, Nuzulira Janeusse; Samsudin, Achmad; Ramalis, Taufik Ramlan; Feranie, Selly
Journal of Natural Science and Integration Vol 8, No 1 (2025): Journal of Natural Science and Integration
Publisher : Universitas Islam Negeri Sultan Syarif Kasim Riau

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24014/jnsi.v8i1.32928

Abstract

Effective instruction of fluid concepts in physics requires a deep understanding of students' preconceptions and the implementation of pedagogical strategies that promote conceptual change. This study aims to develop the Electronic Conceptual Development and Conceptual Change Text (E-CDCCText), a digital instructional resource designed to foster conceptual change in students’ understanding of fluid mechanics. Employing the Design and Development Research (DDR) methodology, the development followed the ADDIE model. Validation by five expert reviewers, supported by analysis using Facet software, confirmed the material’s quality in terms of content accuracy, structural coherence, narrative clarity, and media design. The E-CDCCText comprises seven structured sections that guide students through a systematic process of constructing and reconstructing scientific concepts, integrating both conceptual development and conceptual change frameworks. The content targets three core fluid concepts: hydrostatic pressure, buoyant force, and the principles underlying floating, suspending, and sinking. The implementation phase involved 64 tenth-grade students, whose conceptual understanding was assessed using a validated four-tier diagnostic test. Results demonstrated a significant enhancement in students’ scientific conceptions, indicating the efficacy of the E-CDCCText in reducing misconceptions. In conclusion, the E-CDCCText is a validated and effective digital instructional tool for supporting conceptual change and improving students’ understanding of fluid concepts in physics education.Keywords: conceptual change, E-CDCCText, fluid concept, instructional material
Exploring HOTS on global warming concepts, self-efficacy and learning motivation among high school students Aviyanti, Lina; Fratiwi, Nuzulira Janeusse; Gani, Amalia Weka; Salam, Abdul; Simbolon , Gilbert Hugo T.; Purwanto, Muhammad Guntur
Momentum: Physics Education Journal Vol. 9 No. 2 (2025)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v9i2.11335

Abstract

This study aims to explore Higher-Order Thinking Skills (HOTS) in relation to global warming materials, self-efficacy, and learning motivation among high school students. This study employed a quantitative descriptive method, involving 268 students (119 males and 149 females) from three high schools in West Java, Indonesia. The instruments used in this study included two-tier multiple-choice questions to measure higher-order thinking skills (HOTS), the Physics Learning Self-Efficacy (PLSE) scale to assess self-efficacy, and a Likert scale questionnaire to evaluate learning motivation. Findings revealed that students excelled in analyzing and evaluating tasks but struggled with tasks involving creation. Self-efficacy was moderate, with students showing confidence in their theoretical knowledge but less so in applying it to real-world situations. Learning motivation was generally high, particularly in terms of resilience and achievement, though persistence and engagement required improvement. However, the regression analysis indicated no significant relationship between self-efficacy and HOTS or between learning motivation and HOTS, reflecting that self-efficacy and learning motivation alone do not directly predict students' performance in HOTS. These results emphasize the need for educational strategies that promote HOTS, enhance self-efficacy, and sustain learning motivation to equip students for increasingly complex global challenges.
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.
Enhancing High School Students’ Problem-Solving Skills in Rotational Dynamics through SPARK Model Nurdini, Nurdini; Iqbal, Nur Habib Muhammad; Fratiwi, Nuzulira Janeusse; Irvani, Asep Irvan; Amarulloh, Reza Ruhbani
Kappa Journal Vol 9 No 1 (2025): April
Publisher : Universitas Hamzanwadi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29408/kpj.v9i1.30542

Abstract

The purpose of this study was to enhance high school students’ problem-solving skills in rotational dynamics through the STEM-Project Approach for Real-World Knowledge (SPARK) model. The study employed a quasi-experimental design with a one-group pre-test and post-test approach to measure the progress of 30 first-year students (15 males and 15 females) from a high school in Bandung, Indonesia. Validated twenty-four essay questions was used to assess students' problem-solving abilities before and after the intervention. The results demonstrated moderate improvements in problem-solving skills, with significant advancements in problem identification (N-Gain: 0.59) and the application of scientific concepts (N-Gain: 0.53), while less improvement was observed in suggesting alternative solutions (N-Gain: 0.23) and designing tools (N-Gain: 0.16). The study, analyzed through portfolios and normalized gain values, indicated medium-category increases in some aspects of problem-solving skills. It can be concluded that the SPARK model is effective in enhancing high school students' problem-solving skills in rotational dynamics, particularly in improving the identification of problems and their relation to physics concepts. However, the model was less effective in improving the design aspect, indicating the need for further development in this area. Future research should focus on creating worksheets that better align with these problem-solving indicators.
Refutation Texts in the Last Decade: A Bibliometric Exploration of Trends and Insights Susilowati, Nur Endah; Fratiwi, Nuzulira Janeusse; Amiruddin, Mohd Zaidi Bin; Iqbal, Nur Habib Muhammad
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.v8i1.1263

Abstract

This study aims to explore research and publication trends related to refutation texts over the past ten years using bibliometric analysis. Data was obtained from the Scopus database of 115 documents published in 2015-2024 for “refutation texts” or “refutational texts” or “rebuttal texts”. The data obtained showed fluctuations in the number of publications, with the highest peak occurring in 2022. The main authors in this field include Kendeou, Sinatra, and Danielson, with the largest contributions coming from the United States, followed by European countries such as Germany and Canada. The dominant research subjects are social sciences and psychology, with a focus on the use of refutation texts to create cognitive conflict and change students’ conceptions. Keyword co-occurrence analysis shows a close relationship between refutation texts, misconceptions, and conceptual change. These findings highlight the importance of a refutation text-based approach in overcoming students’ misconceptions, as well as opening up opportunities for further research on its application in technology-based learning and student motivation.
Development of Predict-Observe-Explain (POE) Strategy Assisted by Rebuttal Texts on Newton's Law Material with Rasch Analysis Samsudin, Achmad; Rusdiana, Dadi; Efendi, Ridwan; Fratiwi, Nuzulira Janeusse; Aminudin, Adam Hadiana; Adimayuda, Rizal
Tadris: Jurnal Keguruan dan Ilmu Tarbiyah Vol 6 No 1 (2021): Tadris: Jurnal Keguruan dan Ilmu Tarbiyah
Publisher : Universitas Islam Negeri Raden Intan Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24042/tadris.v6i1.7641

Abstract

This study aimed to develop Predict-Observe-Explain (POE) strategy with refutation text based on Newton's Law. The research design used was 4D (Define, Design, Develop, and Disseminate). The participants consisted of 31 students (15 male students and 16 female students) with an age range of 15-16 years selected from the tenth grade of a public high school in Sukabumi, Indonesia. The instruments used were lesson plan validation sheets and a questionnaire containing 20 statements (11 positive and nine negative statements) with a Likert scale. The scores for positive statements move sequentially from four to one, while the scores for negative statements move sequentially from one to four. The analysis used in this study was the Rasch analysis. As a result, the lesson plan's codes for indicators have an unrevised assessment, while the Language, Concept, Strategy, Objective, and Time codes must be revised. The student responses indicated that all students did not agree with all negative statements, except for S26, S07, S28, and S01. Meanwhile, all students agreed to all positive statements given. Thus, it can be concluded that the POE strategy assisted by rebuttal text can better help students to understand Newton's Law material.
Reducing Alternative Conception of Action-Reaction Forces: The Impact of E-Rebuttal Texts After Learning and Over Time Fratiwi, Nuzulira Janeusse; Suhandi, Andi; Nurdini, Nurdini; Feranie, Selly; Linuwih, Suharto; Samsudin, Achmad; Susilowati, Nur Endah
Tadris: Jurnal Keguruan dan Ilmu Tarbiyah Vol 9 No 2 (2024): Tadris: Jurnal Keguruan dan Ilmu Tarbiyah
Publisher : Universitas Islam Negeri Raden Intan Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24042/tadris.v9i2.22995

Abstract

The goal of this study was to reduce students' alternative conceptions (misconceptions) of action-reaction forces through the use of e-rebuttal texts. A mixed-methods approach, incorporating both quantitative and qualitative methods, was employed. The participants included 31 tenth-grade students (15 boys and 16 girls, aged 15-16 years) from a public high school in Sukabumi, West Java, Indonesia. The instrument utilized was a four-tier test consisting of 9 questions related to action-reaction forces: 3 verbal questions for the pre-test, 3 mathematical questions for the post-test (administered after learning), and 3 pictorial questions for the delayed post-test (administered over time). Data were analyzed based on categories of conception and correction of conceptions. The results indicated positive changes from the pre-test to the post-test, which remained consistent in the delayed post-test. The most significant rate of correction in students' conceptions from the pre-test to the post-test was observed in the Acceptable Change (ACh) category, while the highest percentage of changes from the post-test to the delayed post-test occurred in the No Change (NCh) category. It was concluded that e-rebuttal texts effectively reduce students' alternative conceptions (misconceptions) of action-reaction forces both immediately after learning and over time. Future researchers may consider utilizing learning models or strategies that involve group discussions to further facilitate the learning process.
Inquiry-driven essay assessment (IDEA) as a framework for evaluating students’ argumentation in static fluids Suminar, Iin; Nurdini, Nurdini; Fratiwi, Nuzulira Janeusse; Abdurrahaman, Dudung; Purwanto, Muhammad Guntur
Indonesian Journal of Science and Mathematics Education Vol. 8 No. 1 (2025): Indonesian Journal of Science and Mathematics Education
Publisher : Universitas Islam Negeri Raden Intan Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24042/ijsme.v8i1.26194

Abstract

Argumentation is a fundamental aspect of scientific literacy, enabling students to construct, justify, and evaluate claims based on evidence. However, traditional assessments emphasize rote memorization rather than developing reasoning skills, highlighting the need for a more effective evaluation approach. This study aims to develop and validate the Inquiry-Driven Essay Assessment (IDEA) framework to assess students' argumentation skills in static fluids. The research employs the ADDIE model. The participants comprised 26 eleventh-grade students from a Bandung, West Java private school who had prior knowledge of static fluid concepts, including hydrostatic pressure, buoyant force, and the principles of floating and sinking objects. The findings indicate that the developed assessment instrument demonstrates high validity and reliability, with strong internal consistency and alignment with learning objectives. The claim generation aspect obtained the highest average score, while the evidence analysis, justification, and support aspects require further improvement. The study concludes that the IDEA framework can serve as an effective tool for assessing and enhancing students' argumentation skills. The implications of this research suggest that implementing the IDEA framework can provide a more comprehensive and objective evaluation approach in science education, thereby assisting educators in fostering students' critical thinking and argumentation skills more effectively.