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All Journal Edufisika: Jurnal Pendidikan Fisika Jurnal Penelitian Pembelajaran Fisika KONSTAN - JURNAL FISIKA DAN PENDIDIKAN FISIKA Sustainable: Jurnal Kajian Mutu Pendidikan JURNAL PENDIDIKAN DAN ILMU FISIKA Schrödinger: Journal of Physics Education Physics and Science Education Journal (PSEJ)
Mabruroh, Faizatul
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Education Languange, Linguistic, Communication & Media Mathematics Physics Social Sciences Other

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Pengembangan Three Tier Test Multiple Choice Untuk Mengidentifikasi Miskonsepsi Pada Materi Hukum Newton Atsilah, Mutiara Basima; Suhadi, Suhadi; Putri, Jamiatul Khairunnisa; Mabruroh, Faizatul; Sugiarti, Sugiarti; Pebralia, Jesi
Jurnal Penelitian Pembelajaran Fisika Vol 15, No 2 (2024): APRIL 2024
Publisher : Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v15i2.18045

Abstract

Fisika merupakan salah satu mata pelajaran yang berkaitan erat dengan kehidupan sehari-hari. Namun siswa sering mengalami pemahaman konsep yang berbeda dengan para fisikawan. Perbedaan pemahaman tersebut dapat memicu terjadi miskonsepsi, sehingga diperlukan upaya dan instrumen untuk mengukur miskonsepsi siswa yang biasa disebut tes diagnostik, salah satu diantaranya adalah berbentuk three  tier multiple choice. Penelitian ini bertujuan untuk mengetahui tingkat miskonsepsi peserta didik pada materi hukum Newton di kelas X ipa SMA Negeri 15 OKU. Dengan menggunakan rancangan Borg and Gall tujuh tahapan. Subjek penelitian sebanyak 34 siswa kelas X IPA SMA Negeri 15 OKU. Reliabilitas soal yang dikembangkan sangat tinggi, artinya soal tes reliabel. Produk akhir terdiri dari 2 soal kategori mudah, 10 soal kategori sedang dan 4 soal kategori sukar. Soal tes memiliki tingkatanyang berbeda: 4 soal sukar, 12 soal sedang dan mudah 12% siswa yang mengalami miskonsepsi yang termasuk dalam kategori rendah, dengan miskonsepsi (false positive) sebesar 2.5%, miskonsepsi (false Negative) sebesar 3.1% dan Miskonsepsi 6.4% dengan miskonsepsi tertinggi terdapat pada soal nomor 4 sebanyak 11 siswa. Hasil uji validitas oleh tiga validator ahli menunjukkan validitas yang tinggi dengan rata-rata 4,45 dengan kriteria valid dari tiga ahli validasi. Setelah melakukan semua rangkaian tahapan penelitian adapun hasil dari penelitian ini mengidentifikasi miskonsepsi pada materi hukum Newton pada kelas X di SMA N 15 OKU sebesar 12% dalam kategori miskonsepsi rendah. Dengan adanya penelitian ini guru dapat mendiagnosis miskonsepsi yang dialami peserta didik lebih mendalam, menentukan materi yang memerlukan penekanan lebih saat pembelajaran, dan merencanakan pelajaran yang lebih baik untuk membantu mengurangi miskonsepsi peserta didik.
Identifying Student Misconceptions Using Three-Tier Test with Certainty of Response Index on Temperature and Heat Topics Oktavia, Popy; Suhadi, Suhadi; Widya, Herma; Putri, Jamiatul Khairunnisa; Mabruroh, Faizatul
KONSTAN - JURNAL FISIKA DAN PENDIDIKAN FISIKA Vol 9 No 02 (2024): KONSTAN (Jurnal Fisika dan Pendidikan Fisika)
Publisher : Universitas Islam Negeri (UIN) Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20414/konstan.v9i02.553

Abstract

This research aims to identify students' misconceptions using a Three-Tier diagnostic test assisted by the Certainty of Response Index (CRI) on temperature and heat material. The data analysis method used in this research is quantitative descriptive and equipped with a three-tier Certainty of Response Index (CRI). The population in this study was class XI 1 IPA MAN 1 Musi Banyuasin with 30 students, and the sample in this study was class. Data collection techniques were used during the observation, test, and documentation stages. The research results showed that the misconceptions identified regarding the concept of temperature and heat were 40%, 36% understood the concept, 6% understood the concept but needed clarification and 18% needed to learn the concept. The misconceptions experienced by students are classified as moderate-level misconceptions with a percentage range of 31% ≥ 60%. The cause of misconceptions is the students' errors in learning context and incomplete reasoning. It is hoped that the results of this research can provide information about misconceptions that occur in the matter of temperature and heat and can serve as a guide for further research to find out the causes of misconceptions and efforts to overcome them.
Evaluating the Effectiveness and Challenges of the Madrasah Ibtidaiyah Curriculum in Indonesia: Insights and Recommendations Risky, Februarina; Syukri, Rahmadi; Mabruroh, Faizatul; Mayangsari, Dewi; Alfiyanto, Afif
Jurnal Sustainable Vol 7 No 2 (2024): Sustainable
Publisher : Lembaga Penjaminan Mutu, IAIN Syaikh Abdurrahman Siddik Bangka Belitung

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

This study aims to evaluate the effectiveness and challenges of curriculum implementation in Madrasah Ibtidaiyah (MI) in Indonesia, as well as provide strategic recommendations for improvement. A qualitative approach with a descriptive-analytical design is used to identify factors that affect the success of curriculum implementation. Data was collected through in-depth interviews with madrasah heads and teachers, participatory observations, and analysis of related documents such as syllabi and evaluation reports. The findings show that limited teacher training, lack of learning facilities, and dominance of traditional approaches are the main obstacles to achieving curriculum goals. The results of the analysis highlight the importance of applying project-based learning methods (PBL) and character education to improve 21st-century skills, such as critical thinking, communication, and collaboration. However, the implementation of this method still faces technical and pedagogical obstacles. This research also found the need to strengthen teacher competence through continuous training and the provision of relevant educational resources. In conclusion, the implementation of the curriculum in MI requires synergy between education policies, teacher training, and infrastructure support. The recommendations of this research include improving training programs, procuring technology-based facilities, and collaborating with the government, madrasas, and the community. This research contributes to supporting the development of Islamic education that is more adaptive to the challenges of the globalization era.
Development of Computer-Based Learning Media on Collision Lesson Using the Context of Traditional Marbles Game Furqon, Imam; Afgani, Muhammad Win; Putri, Jamiatul Khairunnisa; Suhadi; Mabruroh, Faizatul
Schrödinger: Journal of Physics Education Vol. 5 No. 4 (2024): December
Publisher : Cahaya Ilmu Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37251/sjpe.v5i4.1205

Abstract

Purpose of the study: This research aims to develop learning media using computer-based collision material in the context of the traditional game of marbles. Methodology: This research is a Research and Development study using the ADDIE research design. The research was conducted at MA Al-Fatah Palembang using instruments in the form of interviews and questionnaires for data collection. Interviews were conducted with physics subject teachers at MA Al-Fatah Palembang. The questionnaire was given to media expert validators, material expert validators, teachers and students to see the validity and practicality of media use. Main Findings: The result of this research is a learning media product using computer-based collision material in the context of the traditional game of marbles which meets the valid and practical criteria. The results of media expert validation that have been carried out show percentages of 91,7% with very valid categories. The material expert validation results show a percentage of 92.8% with a very valid category. The results of the limited trial showed that the percentage of assessments from physics subject teachers was 89,2% in the very practical category and students' responses to the use of learning media showed a percentage of 87.3% in the very practical category. Novelty/Originality of this study: The main novelty of this study lies in utilizing a traditional game as a contextual and engaging framework to teach abstract physics concepts, such as collisions, in a more comprehensible way.
Pemanfaatan Virtual Reality dalam Simulasi Percobaan Hukum Ohm Mabruroh, Faizatul; Talakua, Prisilia; Suhendi, Herni Yuniarti; Maipauw, Musa Marsel
Jurnal Pendidikan dan Ilmu Fisika Vol 5 No 1 (2025): Juni 2025
Publisher : Universitas Garut

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52434/jpif.v5i1.42510

Abstract

This study aims to analyze the utilization of virtual reality (VR) technology in simulating Ohm's Law experiments in physics education. Ohm's Law is a fundamental concept in physics that relates voltage, current, and resistance in electrical circuits, which is essential for understanding various electrical phenomena. However, conventional physics experiments are often limited by the availability of equipment, infrastructure, and costs. Virtual reality offers a solution by providing immersive and interactive simulations, allowing students to conduct experiments without physical constraints. This study employs literature review approach to evaluate trends in the use of VR in Ohm's Law experiments. The results show that VR technology can enhance students' understanding of abstract physics concepts, increase engagement and motivation, and offer more flexible and safer access to physics experiments. This study also notes that combining real and virtual experiments yields better results than relying on one type of experiment. Therefore, the use of VR in physics education holds significant potential to overcome existing limitations and support more effective and engaging learning.
Penerapan Algoritma Machine Learning dalam Analisis Pola Kesalahan Konseptual Siswa pada Pembelajaran Sains Diningrat, Mohammad Santosa Mulyo; Mabruroh, Faizatul; Widya, Herma; Nurhamidah, Nurhamidah
Jurnal Pendidikan dan Ilmu Fisika Vol 5 No 1 (2025): Juni 2025
Publisher : Universitas Garut

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52434/jpif.v5i1.42586

Abstract

Science education often faces challenges related to conceptual errors made by students, which can hinder their understanding of the material being taught. This study aims to identify and analyze common conceptual errors through the application of machine learning algorithms. The method employed in this research is a literature review approach, where various relevant studies are analyzed to understand the application of machine learning in the context of science education. The findings of the study indicate that several machine learning algorithms, such as large language models and interactive visualization techniques, can be utilized to detect misconceptions in students with higher accuracy and provide more personalized feedback. Although there are some challenges related to the accuracy and reliability of the systems used, the application of these techniques shows significant potential in enhancing the effectiveness of science education. Overall, the application of machine learning in science education can make a substantial contribution to helping teachers analyze and correct the conceptual errors made by students, ultimately improving the quality of the learning process. The implications of this research suggest the need for further development to create technology-based education systems that can better respond to students' learning needs.
CONCEPTUAL UNDERSTANDING TEST INSTRUMENT ON ELECTRIC FORCE AND FIELD MATERIAL Afrizah, Tasya; Suhadi, Suhadi; Mabruroh, Faizatul; Putri, Jamiatul Khairunnisa
EduFisika: Jurnal Pendidikan Fisika Vol 10 No 1 (2025): EduFisika: Jurnal Pendidikan Fisika Volume 10 Nomor 1 April 2025
Publisher : Program Studi Pendidikan Fisika FKIP Universitas Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59052/edufisika.v10i1.43367

Abstract

This study aims to develop a test instrument for understanding concepts on the material of force and electric field that meets the qualifications including aspects of validity and reliability. This study is a development with the ADDIE approach which stands for Analysis, design, development, implementation, and evaluation. This study was conducted at SMA Negeri 1 Banyuasin III with a sample of 30 students in class XII.3. The test instrument was declared feasible based on expert validation tests, the level of validity of the question items and reliability tests. Based on the research that has been done, the average score from the expert validation test was 3.64 which indicates a feasible category. At the level of validity of the tested question instrument if r-count > r-table then the question is declared valid. The r-table value used was 0.3610, in this test instrument there were 10 questions that were declared valid, with a range of r-count values of 0.3697 to 0.5362. In the reliability test, this instrument was declared reliable with a reliability value of 0.65.
DEVELOPMENT OF AUGMENTED REALITY-BASED PHYSICS MODULE ON CIRCULAR MOTION Nur Latifah, Annisa; Mabruroh, Faizatul; Suhadi, Suhadi; Afrizah, Tasya
Physics and Science Education Journal (PSEJ) Physics and Science Education Journal (PSEJ), Volume 5 Nomor 1, April 2025
Publisher : Physics Education Departement, Islamic State University Sulthan Thaha Saifuddin Jambi - Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30631/p5m0jr02

Abstract

This study aims to develop a valid and practical augmented reality-based physics module on circular motion material used in learning. The background of this study is the difficulty of students in understanding the concept of circular motion and the minimal use of technology-based teaching materials such as augmented reality in schools. This study uses the Research and Development (R&D) method with the 4-D model (Define, Design, Develop, and Disseminate), but is only carried out up to the Develop stage. The subjects of the study were 2 physics teachers and 15 students of class XI IPA SMA Azharyah Palembang. Data collection techniques include observation, interviews, and questionnaires, while data analysis techniques use a Likert scale to assess the validity and practicality of the product. The validation value was obtained from the validation results by material, media, and language experts with an average percentage value of 81.67% which indicates that the developed module is in the very valid category. The practicality value is obtained from the responses of teachers and students after using the augmented reality-based physics module on the circular motion material in a small-scale trial obtained a percentage of 88.5% with very practical criteria and in the practicality test the teacher obtained a percentage of 88% with very practical criteria. Thus, this augmented reality-based physics module is suitable for use as an interactive learning media to improve students' understanding of the circular motion material.
Co-Authors Afrizah, Tasya Alfiyanto, Afif Atsilah, Mutiara Basima Dewi Mayangsari Diningrat, Mohammad Santosa Mulyo Furqon, Imam Maipauw, Musa Marsel Muhammad Win Afgani Nur Latifah, Annisa Nurhamidah Nurhamidah Oktavia, Popy Pebralia, Jesi Putri, Jamiatul Khairunnisa Risky, Februarina Sugiarti Sugiarti Suhadi Suhadi Suhadi Suhendi, Herni Yuniarti Syukri, Rahmadi Talakua, Prisilia Widya, Herma