cover
Article Per Year (5 Year)
All
Home Page
OAI Link
Editorial Team
Contact
Reviewer
Google Scholar
Contact Name
Supriyadi
Contact Email
adhie912@gmail.com
Phone
+6285240858663
Journal Mail Official
adhie912@gmail.com
Editorial Address
Editorial Office CV. DHARMA SAMAKTA EDUKHATULISTIWA Jalan R. H. Didi Sukardi, Komp. SMAN 1 Kota Sukabumi, Indonesia Telp. +62 857-5915-5966 e-mail : dharmasamaktaedu@gmail.com
Location
Kota sukabumi,
Jawa barat
INDONESIA
Journal of Innovative Physics Education Research
Published by CV. Dharma Samakta Edukhatulistiwa
ISSN : -     EISSN : 30895006     DOI : https://doi.org/10.61142/JIPER
Core Subject : Science, Education,
Astronomy Earth & Planetary Sciences Education Physics
Journal of Innovative Physics Education Research (JIPER) is dedicated to publishing high quality, peer reviewed research that focuses on the innovative aspects of physics education. The journal covers a wide range of topics related to the teaching, learning, and policy of physics education across all educational levels. Its scope includes theoretical, empirical, and applied research that contributes to the development of new methodologies, tools, and approaches in physics education. The journals focus includes, but is not limited to: Innovative Teaching Methods Curriculum Development and Design Physics Education Theory and Models Teacher Education and Professional Development Assessment and Evaluation in Physics Education Physics Education Policy Environmental Physics and Sustainability Education Informal and Non Formal Physics Learning Diversity and Equity in Physics Education By maintaining this broad scope, JIPER aims to cover all aspects of innovative physics education and provide a platform for research that contributes to the improvement of physics teaching and learning practices globally. The journal seeks contributions that bridge the gap between theory and practice, with a commitment to enhancing both the effectiveness and accessibility of physics education.
Arjuna Subject : -
Articles 10 Documents
 1 
Development Of Physics Module On Catfish Farming To Foster Students' Entrepreneurial Behaviour Muhammad Rasyid Ridho; Yudi Guntara; Rudi Haryadi
Journal of Innovative Physics Education Research Vol. 1 No. 1 (2025): Journal of Innovative Physics Education Research (April)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i1.193

Abstract

This study aims to develop a physics learning module based on catfish farming as a contextual approach to teaching static fluid concepts. The module was designed using the 4-D development model (Define, Design, Develop, Disseminate) to enhance students' learning interest and foster entrepreneurial behaviour. The module was evaluated by material and media experts, achieving an average score of 87.90%, indicating a high feasibility level for use. Trial tests with students yielded an average score of 83%, reflecting very positive responses. The module not only aids students in understanding physics concepts more effectively but also promotes critical thinking, innovation, and entrepreneurial skills. By integrating physics with real-world applications such as catfish farming, the contextual approach offers meaningful and relevant learning experiences connected to daily life.
Development and Limited Test of Kinematics Conception Diagnostic Instrument: A Rasch Model Analysis Approach Hana Apriliana; Aden Yusril Sasmita; Ilham Mustaqim; Rika Rahmawati; Tresna Galih Sukma Suryana
Journal of Innovative Physics Education Research Vol. 1 No. 1 (2025): Journal of Innovative Physics Education Research (April)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i1.194

Abstract

This study aims to identify and analyze misconceptions experienced by students on kinematics material. The approach used is quantitative, with a two-level diagnostic test method consisting of 10 multiple choice questions designed to detect misconceptions, involving 30 students of class XI MIPA at SMAN 4 Serang City. The research process included instrument development, expert validity test, limited trial, and data analysis. The question testing design used the Rasch Model Analysis method. Overall, this diagnostic test instrument showed good validity. The analysis results showed that the item reliability value reached 0.89, which indicated that the quality of the items was good. The findings of the data analysis show that students experience misconceptions caused by misunderstanding the concept of kinematics. Based on the results of this study, it is recommended that more effective learning strategies, such as the use of visual media and hands-on practicum, be applied to improve students' understanding of the concept of kinematics. In addition, training for teachers is also needed to improve their ability to identify and overcome misconceptions experienced by students.
Development and Validation of Diagnostic Instrument to Identify Student Misconceptions in Vector Material Arrafikar Rizqia Firdaus; Elza Wulandarie; Mira Cantika; Tresna Galih Sukma Suryana
Journal of Innovative Physics Education Research Vol. 1 No. 1 (2025): Journal of Innovative Physics Education Research (April)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i1.195

Abstract

This study aims to develop and validate a web-based diagnostic instrument to detect students' misconceptions on vector material, including the concepts of vector magnitude, vector components, resultant, and vector displacement. The research was conducted using a quantitative research design, involving 30 students of class XI IPA 3 SMA Negeri 1 Padarincang. The research process includes instrument development, expert validation, limited trial, and data analysis. The results showed that the instrument had adequate reliability and validity, with KR-20 reliability of 0.848 (high category). The instrument is effective in identifying misconceptions, especially on the concepts of resultant and vector displacement. This article contributes to the development of diagnostic-based physics learning evaluation.
Analysis of Students' Errors in Solving Physics Problems Based on Bloom's Cognitive Levels Sigit Sigit; Gustina Gustina
Journal of Innovative Physics Education Research Vol. 1 No. 1 (2025): Journal of Innovative Physics Education Research (April)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i1.201

Abstract

This study aims to analyze students' errors in solving physics problems based on Bloom's cognitive levels, particularly at the application level (C3), focusing on the simple machines topic. Conducted at SMP Negeri 11 Palu with Grade VIII students, this qualitative descriptive research involved 20 participants, with six respondents selected through purposive sampling categorized as high, medium, and low achievers. Data were collected using essay tests and interviews, analyzed through error categorization (translation, conceptual, strategic, and computational errors). The findings reveal that translation errors were the most frequent (58.3%), followed by conceptual errors (41.6%), strategic errors (20.8%), and computational errors (16.6%). The study highlights students' difficulty in interpreting problem statements, applying correct formulas, and executing problem-solving steps accurately. These findings emphasize the importance of addressing students' conceptual understanding and problem-solving skills in physics education. Future studies should explore interventions to minimize these errors and enhance learning outcomes.
Development of E-Masl Learning Media Based on Multimodus Representation Oriented to Ethno-Stem Sri Devi Suleta; Merta Simbolon; Ivylentine D. Palittin
Journal of Innovative Physics Education Research Vol. 1 No. 1 (2025): Journal of Innovative Physics Education Research (April)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i1.226

Abstract

This study aims to describe the results of the development of E-MASL (Electronic Malind Science Learning) Learning Media based on multimodus representation oriented Ethno-STEM which is made in the form of animated videos. E-MASL learning media discusses the concept of science learning in the culture of the Malind tribe in the process of burning stones to make sago sep, which is related to science learning materials, namely heat and its transfer. This type of research is Research and Development (R&D) research and uses a 4D (four-D) development model. The results of this study indicate that the average score of the validators is 83.33% with the category of "Very Eligible". The results of the student response questionnaire were 92.62% with the category of "Very Eligible". Therefore, it can be concluded that the development of E-MASL learning media based on multimodal representation oriented to Ethno-STEM has been tested and is feasible to be tested, so that the products of this study can be used as science learning media.
Development of History-Based Animated Video Learning Media on Archimedes' Law Material Nur Fahra Agustam; Muh Syarif S Abd Syukur; Unggul Wahyono; Delthawati Isti Ratnaningtyas
Journal of Innovative Physics Education Research Vol. 1 No. 2 (2025): Journal of Innovative Physics Education Research (October)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i2.294

Abstract

This study aims to develop learning media in the form of history-based animated videos on Archimedes' principle and to test its feasibility and effectiveness in supporting the physics learning process. The research method used is the 4D development model, which includes the stages of define, design, develop, and disseminate. The subjects in this study involved 37 students from Labschool Untad Palu High School. The research instruments included validation sheets for media experts, subject matter experts, and practitioner experts, as well as student response questionnaires. The validation results showed that the developed learning media received a rating of Very Good from all experts, indicating that the media was suitable for use in learning. Trials with students on a limited and large scale also showed positive responses with a rating of Good. Based on these results, it can be concluded that the history-based animated video media on Archimedes' Principle material is deemed feasible and can be used as a supporting tool in physics learning activities.
Development of Student Worksheets Based on HOTS Model Problem Based Learning to Improve Student Learning Outcomes Sarina Sarina; Marungkil Pasaribu; Nurjannah Nurjannah; Ielda Paramita; Nurul kami Sani
Journal of Innovative Physics Education Research Vol. 1 No. 2 (2025): Journal of Innovative Physics Education Research (October)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i2.295

Abstract

This study aims to develop Higher Order Thinking Skills -based Student Worksheets using the Problem Based Learning model to improve student learning outcomes. This research is a Research and Development study and uses the 4D (Define, Design, Develop, and Disseminate) development model. The developed student worksheets has been validated by media experts with a score of 89.50% and by subject matter experts, showing content feasibility of 83.45% and linguistic aspects of 91.42%. The results of the pilot test through a student response questionnaire obtained an average score of 82%, which indicates a very practical category. Meanwhile, student learning outcomes showed an average score of 57.96% with a moderate category. Thus, it can be concluded that the HOTS-based  student worksheets  using the Problem Based Learning model has been tested and is feasible for use as teaching material in physics practicums.
The Effect of STEAM-Based Project Learning on Junior High School Students’ Collaboration Skills Shafira Shafira; Sahrul Saehana; Ielda Paramitha
Journal of Innovative Physics Education Research Vol. 1 No. 2 (2025): Journal of Innovative Physics Education Research (October)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i2.299

Abstract

This study aims to determine the effect of the STEAM (Science, Technology, Engineering, Art, and Mathematics) approach on the collaboration skills of junior high school students. The study employed a true experimental method with a Posttest-Only Control Group Design. The research population consisted of all 148 seventh-grade students of SMP Negeri 18 Palu in the 2023/2024 academic year. Sampling was conducted using a purposive sampling technique based on specific considerations from the physics teachers at SMP Negeri 18 Palu. Class VII A was designated as the experimental group that implemented the STEAM (Science, Technology, Engineering, Art, and Mathematics) approach within the Project Based Learning (PjBL) model, while Class VII B served as the control group using the scientific approach in PjBL. The instrument used was a collaboration skills observation sheet consisting of four assessment indicators. The results of data analysis using the Independent Sample t-test revealed a significant difference between the experimental and control groups, with a Sig. (2-tailed) value of 0.004 < 0.05. These findings indicate that the STEAM (Science, Technology, Engineering, Art, and Mathematics) approach has a significant effect on students’ collaboration skills. Therefore, the implementation of STEAM-based learning is an effective alternative for enhancing students’ collaboration skills in science learning at the junior high school level. Furthermore, these findings confirm that the STEAM approach is not only relevant for integrating multiple disciplines but also contributes significantly to the development of 21st-century collaboration skills, thereby strengthening and extending previous studies that primarily focused on improving students’ learning outcomes and creativity.
The Influence of Physics Teachers' Learning Methods on Learning Outcomes in Students Naomi Setyaningsih; Silmi Kapah; Rizka Apriliyani; Nathan Alexander Silalahi; Dede Ardila; Yourie Fadilah; Fajar Maulana; Anggi Elisabeth; Indri Sari Utami
Journal of Innovative Physics Education Research Vol. 1 No. 2 (2025): Journal of Innovative Physics Education Research (October)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i2.304

Abstract

This study aims to analyze the differences in physics learning outcomes between students who are taught with game-based learning, experimental, and cooperative learning methods. The research method used a pseudo-experimental design with three treatment groups. Participants consisted of 33 students in class X who were given 3 learning method treatments: game-based learning, experimentation, and cooperative learning. Data was collected through learning outcome tests and interviews with teachers and students. Statistical analysis using one-way ANOVA showed a very significant difference between the three methods (F=53.03; p=3.06E-16). The highest average learning outcomes were achieved by the game-based learning group (81.82), followed by experimentation (87.58), and cooperative learning (93.3). The results of the interviews revealed that the experimental method was preferred by students because it was interactive and contextual. This study concludes that the selection of innovative learning methods in accordance with the characteristics of the material can significantly improve students' physics learning outcomes.
Analysis of Senior High School Students’ Multi-Representation Skills on Newton’s Laws Sri Wulandari Lole; Supriyatman Supriyatman; Syamsu Syamsu; Ketut Alit Adi Untara
Journal of Innovative Physics Education Research Vol. 1 No. 2 (2025): Journal of Innovative Physics Education Research (October)
Publisher : CV. Dharma Samakta Edukhatulistiwa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61142/jiper.v1i2.321

Abstract

Physics learning is often considered difficult by students because it requires the ability to understand concepts verbally, mathematically, graphically, and diagrammatically. One of the subjects that demands these skills is Newton's Law. This study aims to analyze the level of students' multi-representation al skills in understanding Newton's Law in high schools in Palu City. This study uses a descriptive method with a quantitative and qualitative approach. Data were collected through a multi-representation skill essay test consisting of 5 questions and interviews. The research subjects were 12th grade students at four public high schools in Palu City (SMAN 1, SMAN 3, SMAN 4, and SMAN 7). The results showed that, in general, students' multi-representation skills were in the moderate category. A small number of students were in the high category, able to use various forms of representation consistently, while others were still in the low category, especially in graphical and mathematical representations. The conclusion of this study is that the multi-representation skills of high school students in Palu City regarding Newton's Laws are not yet uniform, with a tendency to be in the moderate category. This indicates the need for learning strategies that emphasize the use of multi-representation to strengthen the understanding of physics concepts.

Page 1 of 1 | Total Record : 10

 1 

Filter by Year

2025 2025


Reset
Filter By Issues
All Issue Vol. 1 No. 2 (2025): Journal of Innovative Physics Education Research (October) Vol. 1 No. 1 (2025): Journal of Innovative Physics Education Research (April)