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Jurnal Penelitian Pembelajaran Fisika
Published by Universitas PGRI Semarang
ISSN : -     EISSN : 2549886X     DOI : 10.26877
Core Subject : Science, Education,
Education Physics
Jurnal Penelitian Pembelajaran Fisika (JP2F), with a registered number ISSN 2086-2407 (Print), ISSN 2549-886X (online) is a scientific journal published by the Physics Education Study Program Universitas PGRI Semarang. The purpose of the publication of this journal is to disseminate conceptual thoughts or ideas and learning Physics research results that have been achieved, both at school and in college.
Arjuna Subject : Ilmu Sosial - Pendidikan
Articles 53 Documents
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Design of Website-Based Learning Media to Enhance Critical Thinking Skills in Static Fluid Concepts M Hermana; Agus Danawan; Arif Hidayat
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 3 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v16i3.2258

Abstract

Critical thinking skills are one of the 21st-century skills that students must have, and the rapid development of technology provides a demand to develop a learning medium that facilitates this. Therefore, the purpose of this research is to create a website-based learning media design oriented to critical thinking skills on static fluid material. The research utilises the Successive Approximation Model (SAM) for its development. The research model consists of a preparation phase, an iterative design phase, and a final phase. The preparation phase is the initial stage to efficiently collect background information on the problem. The iterative design phase consists of design cycle activities, prototyping, and reviewing. The iterative design phase includes the process of developing, implementing, and evaluating learning media continuously. The research participants consisted of lecturers, prospective teachers, teachers, and students. The feasibility of the website was analysed in terms of material and media, which was conducted twice by six validators. In the first stage, the feasibility of the website in terms of material and media was declared "Feasible" with a V-aiken score of 0.600. After making improvements, the website was revalidated with a V-aiken score of 0.926 with the category "Feasible". Students' responses to the developed website were positive. The website's readability is excellent. This website-based learning media has contributed to meeting the demands of students' critical thinking skills.
Evaluation of Science Learning with Teaching at the Right Level Approach: A Systematic Literature Review Suriza Putri; Festiyed; Fatni Mufit
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 3 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v16i3.742

Abstract

This study aims to assess the effectiveness of the Teaching at the Right Level (TaRL) approach in education through a systematic literature review. TaRL is a teaching method that is tailored to the individual abilities of learners. It ensures that every learner receives an education that is appropriate to their ability level. This review analyzed articles from academic journals published between 2018-2024, obtained through Google Scholar with the keywords “Teaching at the Right Level”, ‘TaRL’, and “learning evaluation”. The review was supported by the inclusion criteria of articles addressing the implementation and evaluation of TaRL, while opinion articles and unpublished reports were excluded. Based on the search results, 18 relevant articles were obtained. The results of the analysis show that the TaRL approach is effectively applied in science learning at the elementary, junior high and high school levels. This approach is proven to be able to improve learning outcomes, motivation, activeness, and communication skills of students. The success can be seen through various forms of evaluation and learning strategies that are systematically applied in the research cycle.
Development of STEAM-ESD-oriented Renewable Energy Learning Tools to improve creative thinking and environmental literacy Hikmah, Nur; Nugroho, Ary Susatyo; Patonah, Siti
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 3 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v16i3.1562

Abstract

Renewable energy education empowers students to become creative and innovative agents of change in efforts to protect the environment. This study aims to determine the characteristics, validity, practicality, and effectiveness of learning tools on the topic of renewable energy oriented towards Science, Technology, Engineering, Art, and Mathematics (STEAM) - Education for Sustainable Development (ESD) to improve creative thinking and environmental literacy skills. The research was conducted in two different classes using a research and development (R&D) approach. The ADDIE model (Analyze, Design, Development, Implementation, and Evaluation) was used with stages of needs analysis and mini-research, device design and evaluation, as well as development, implementation, and results. The data collection methods used were interviews, tests, and questionnaires. Based on expert validation results, the category obtained was very feasible to use with an average validation of ATP 89%, Teaching Module 88%, Teaching Materials 87.10%, LKPD 94%, and Creative Thinking Instruments 85.25%. The research results showed an average practicality score of 96% in the very practical category. Meanwhile, the improvement in creative thinking skills and environmental literacy was quite effective.
Unveiling the Link Between Numeracy Skills and Self-Efficacy: A Study on Physics Learning Through AKM Assessments Alatas, Fathiah; Amrizaldi; Latifah, Jannatun; Agus Budiyono; Andi Marwanti Panre
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 4 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v16i4.1866

Abstract

This study explores the relationship between numeracy skills and self-efficacy among grade 10 students within the context of the Minimum Competency Assessment (AKM) in physics, focusing on linear and parabolic motion. Employing a quantitative descriptive design, the research involved 140 students from a public high school in Bekasi, Indonesia. Instruments included a numeracy test comprising 17 AKM-based physics questions and a self-efficacy questionnaire adapted from Bandura's framework, covering the dimensions of level, generality, and strength. Results indicated that most students (53%) were at the "Basic" level of numeracy performance, while 67% exhibited moderate self-efficacy. A significant positive correlation was found between self-efficacy and numeracy performance (r = 0.743), with the "Strength" dimension showing the strongest correlation (r = 0.716). These findings suggest enhancing self-efficacy, particularly the strength dimension, can improve numeracy skills and AKM readiness. The study underscores the importance of tailored interventions to strengthen self-efficacy and recommends further research into additional factors affecting numeracy performance and interdisciplinary approaches to teaching numeracy across subjects.
Implementation of Differentiation in the Discovery Learning Model to Improve Student Learning Outcomes on Newton’s Law Topics Darnia, Neli; Haratua Tiur Maria; Erwina Oktavianty
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 3 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v16i3.1969

Abstract

This study aims to determine the improvement in students' learning outcomes on Newton's Laws material at SMA Kemala Bhayangkari 1 Kubu Raya, through differentiated learning using the discovery learning model. The research design employed is a quasi-experimental design with a nonequivalent control group design. The research sample consisted of Class XI Physics 1 and Class XI Physics 2, each with 31 students, selected using the intact group random sampling technique. The instrument used was a test. The data were analyzed using descriptive and inferential statistical analysis techniques. In the pretest, the experimental class obtained a score of 25.16, and the control class 15.48, both falling  in the low category. After the treatment, the experimental class's posttest score increased to 84.83 (high category), while the control class reached 50 (medium category). Based on Cohen’s d effect size value, the effectiveness of implementing differentiated learning with the discovery learning model in improving learning outcomes was 2.042, which falls into the high category. In addition, based on a learning style questionnaire, 20 students preferred the auditory learning style. This study concludes that the implementation of differentiated learning using the discovery learning model is effective in improving students' learning outcomes on Newton’s Laws material.
Development of Augmented Reality (AR) Physics Learning Media Based on STEM-R for Students’ Concept Understanding Khoiriyah, Sabilatul; Sri Latifah; Vandan Wiliyanti
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 4 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v16i4.2803

Abstract

Learning media that can overcome students' difficulties in understanding abstract concepts through the integration of modern technology with character values is challenging. This study aims to develop, determine the feasibility, student response, and effectiveness of STEM-R-based AR media on concept understanding in heat temperature material. This research uses Research and Development (R&D) with the ADDIE model (Analysis, Design, Development, Implementation, and Evaluation). Data collection was conducted through interviews, expert validation, and pretest-posttest. The validation results showed that the media was feasible for use based on the assessments of media experts, subject matter experts, and religious experts in the feasible category. The average concept comprehension scores of students in both schools showed an increase. Small-scale tests and field tests of student responses in both schools showed a very good category. The validity level of STEM-R-based AR media on students' concept comprehension is interpreted as feasible for use, and student responses to this learning media are also very good, reflecting an increase in motivation and involvement in the teaching and learning process. This research is expected to strengthen the integration of religious values in modern science learning and serve as a reference for the development of AR media based on Islamic values.
Project-Based Learning Effect on Improving Students’ Creative Thinking in Static Fluid Learning Ahmad Fikri Alfarizki; Ai Nurlaela; Devi Solehat
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 4 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v15i4.2831

Abstract

The low creative thinking ability of students in understanding physics concepts, especially in static fluid material, is one of the problems that needs attention in the learning process. Therefore, this study aims to determine how the Project Based Learning (PjBL) learning model that uses a scientific approach affects students' ability to think creatively about static fluid material. The research method used is a quasi-experimental design with a Nonequivalent Control Group Design. The research subjects consisted of two eleventh grade high school students, namely the experimental class using the scientific PjBL model and the control class using the Inquiry Learning model, each consisting of 30 students. The research instrument was a descriptive test consisting of eight questions developed based on Torrance's creative thinking indicators, including fluency, flexibility, originality, and elaboration. The data obtained were analyzed through normality tests, homogeneity, and N-gain calculations. The results showed that the average N-gain of the experimental class's creative thinking ability was 0.41 (medium category), higher than the control class which only reached 0.29 (low category). Specifically, significant improvements were seen in the fluency and flexibility indicators, while the originality and elaboration indicators also increased although relatively lower. Thus, it can be concluded that the application of the scientific PjBL model is more effective in improving students' creative thinking abilities compared to the Inquiry Learning model in static fluid learning. These findings are expected to contribute to the development of physics learning strategies oriented towards strengthening creativity, independence, and active involvement of students in the knowledge construction process.
Virtual Reality Effect on Student Learning Outcomes in Nuclear Physics and Radioactivity Topics Indira Gustaviana Nugroho; Rizqi Fajar Shidiq; Taufiq Al Farizi; Reza Ruhbani Amarulloh
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 4 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v16i4.2832

Abstract

Learning Nuclear Physics and Radioactivity is often perceived as difficult by student because the concepts are abstract, thus requiring learning media that can visualize these concepts more concretely. This study aims to analyze the effect of using Virtual Reality media on student’s learning outcomes in the topic of Nuclear Physics and Radioactivity. The research employed a Quasi Experimental method with a Nonequivalent Control Group Design. The subject were 33 12th grade students of Al Adzkar High School, divided into two groups: an experimental group and a control group. The research instrument consisted of 20 multiple-choice questions mesuaring cognitive abilities from levels C2 to C6. The result indicated a significant difference between the control and experimental groups. The average post-test score of students in the experimental class (76.47) was higher than that of the control class (69.06). Improvement in learning outcomes was also reflected in the N-Gain score, which reached 0.57 (medium category) for the experimental class and 0.38 (medium category) for the control class. The analysis of cognitive indicators showed that improvement in the experimental class was more evenly distributed compared to the control class. Therefore, the use of Virtual Reality has been proven to enhance students learning outcomes by providing a more interactive and engaging learning experience, making it a potential alternative medium for classroom instruction.
The Potential of Implementing Website-Based Learning Media for ESD-Oriented Energy Sources in Physics Learning Suminarsih, Suminarsih; Khoiri, Nur; Harto Nuroso; Muhammad Syaipul Hayat
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 3 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v16i3.2011

Abstract

This study aims to analyze the potential of implementing ESD (Education for Sustainable Development) oriented website-based learning in Physics learning. This research is a qualitative descriptive study. Questionnaires, observation, and documentation methods were chosen as data collection techniques. The results of data collection were analyzed using data triangulation. The survey results showed that 86% of teacher respondents were in the proficient or very proficient category, which indicates a high readiness to adopt website-based learning media. Although related to the implementation of ESD in learning, it shows that 45% of teachers have integrated ESD in their learning, 41% of teachers have understood the concept of ESD but have not integrated ESD in learning, and 14% of teachers have not understood the concept of ESD in learning. These results indicate a great opportunity to strengthen the understanding and practice of ESD through the development of website-based teaching materials. This data is supported by the results of the student questionnaire which showed that as many as 20 of 22 students (91%) agreed or strongly agreed that the use of digital media in learning provides benefits. These results show that most students have experience and comfort in digital-based learning. The results of the questionnaire show that both teachers and students have positive perceptions and readiness in integrating digital technology, especially website, in ESD oriented Physics learning. Development website Interactive and ESD-oriented Physics learning is a strategic step to improve the quality of learning in the digital era.
Development of an Assessment Instrument for Conceptual Understanding, Collaboration Skills, and Learning Motivation on Gas Kinetic Theory Rahmatia, Siti; Yusman Wiyatmo; Edi Istiyono
Jurnal Penelitian Pembelajaran Fisika Vol. 16 No. 3 (2025): In Progress
Publisher : Program Studi Pendidikan Fisika, Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v16i3.2103

Abstract

This study aims to develop an assessment instrument on the Kinetic Theory of Gases (Boyle's Law) to measure the conceptual understanding, collaboration skills, and learning motivation of high school students in the context of the Independent Curriculum. The instrument developed consists of 10 multiple-choice questions to measure conceptual understanding and 10 questionnaire statements for collaboration skills and learning motivation. The development process follows systematic stages, including planning, expert validation, and empirical trials. Content validity was analyzed using the Aiken V index, and it was found that all items were in the high validity category. Empirical validation was carried out using the Rasch model through Winsteps software, which showed that most items were in the statistical range of feasibility (Infit MNSQ: 0.80–1.15 for conceptual understanding, 0.85–1.13 for collaboration, and 0.82–1.12 for motivation). The reliability coefficient ranged from 0.74 to 0.85, indicating high internal consistency. The distribution of the level of difficulty of conceptual understanding questions includes easy (30%), moderate (40%), and complex (30%), thus reflecting balance. As many as 9 out of 10 conceptual understanding questions were declared valid and feasible, while all items in the collaboration and motivation questionnaire were maintained. These results indicate that the developed instrument is valid and reliable as a holistic assessment tool in physics learning, supports the formative assessment that aligns with 21st-century competencies, and strengthens collaborative character and lifelong learning motivation.

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