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Journal of Teaching and Learning Physics
Published by Universitas Islam Negeri Sunan Gunung Djati Bandung
ISSN : 25285505     EISSN : 25803107     DOI : -
Core Subject : Science, Education,
Education Physics
JoTaLP: Journal of Teaching and Learning Physics is a peer-reviewed journal on Physics Education field and intended to communicate original research and current issues on the subject. This journal is published by Departement of Physics Education Universitas Islam Negeri (UIN) Sunan Gunung Djati Bandung. The editors welcome scholars, researchers and practitioners of education around the world to submit scholarly articles to be published in this journal. All articles will be reviewed by experts before accepted for publication. JoTaLP: Journal of Teaching and Learning Physics published periodically every February and August (twice a year).
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Articles 7 Documents
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Search results for , issue "Vol. 9 No. 2 (2024): Journal of Teaching and Learning Physics (September 2024)" : 7 Documents clear
Metaanalyzing The Effect of Quantum Teaching Model on The Competence of Understanding Science Learning Concepts Tanjung, Mardia Roza; Fitri, Nici Jumatul; Ayudia, Riri
Journal of Teaching and Learning Physics Vol. 9 No. 2 (2024): Journal of Teaching and Learning Physics (September 2024)
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jotalp.v9i2.18850

Abstract

Understanding concepts in science learning is something that absolutely must be mastered by students. Various studies have been conducted by researchers to obtain the best model or approach to improve students' understanding of concepts. One of them is the Quantum teaching model. This research is a meta-analysis of 24 articles from national and international journals that have been accredited and have an ISSN. The results of the meta-analysis show that there is an influence of the Quantum Teaching model on the competence of Concept Understanding in science learning. Judging from the level of education, the Quantum Teaching model has the highest influence at the elementary level. Meanwhile, in terms of the materials and teaching media used, the highest influence was obtained on the phet media and followed by the use of LKS or LKPD.
Integration of Project Based Learning with STEM Approach to Alternative Energy Material as Effective Learning to Improve Problem Solving Skills Roslina, Roslina; Liliawati, Winny; Hasanah, Lilik
Journal of Teaching and Learning Physics Vol. 9 No. 2 (2024): Journal of Teaching and Learning Physics (September 2024)
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jotalp.v9i2.26650

Abstract

This study aims to determine the effectiveness of STEM-PjBL learning in improving students' problem-solving abilities in alternative energy materials. This research was conducted in one of the high schools in the city of Bandung. Samples were obtained by rational sampling of 35 students in class X MIPA I (experimental class) and 35 students in class X MIPA II (control class). The method used is a quasi-experimental design with a non-equivalent control group design. Data collection technique is a description test in the form of pre-test and post-test. Based on data analysis it is known that the use of STEM-PjBL can improve students' problem solving skills (N-Gain = 0.65) in the experimental class compared to the control class (N)-Gain = 0.44). The t-test results with SPSS 22 with Sig. (2-value) less than 0.05 indicates that there is a significant difference in the increase in the problem solving ability of students in the experimental class and the control class. Based on these results, learning has a positive impact on students' problem solving abilities. STEM-PjBL learning can be used as an alternative teaching strategy at various school levels.
Maximizing Problem-Solving Abilities through Hybrid Problem-Based Learning with Formative Assessment Jufriadi, Akhmad; Ayu, Hena Dian; Kumalasari, Tutut; Kusumawati, Astrini Dewi; Alatas, Fathiah; Budiyono, Agus
Journal of Teaching and Learning Physics Vol. 9 No. 2 (2024): Journal of Teaching and Learning Physics (September 2024)
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jotalp.v9i2.34395

Abstract

Problem-solving is one of the abilities students must master when learning physics. Teachers must try to find solutions to improve their students' problem-solving abilities. This research aims to explore students' problem-solving abilities regarding work and energy concepts and determine improvements and differences in students' problem-solving abilities regarding work and energy material by applying the Hybrid Problem-Based Learning model with formative assessments. This research method uses a mixed-method approach with an embedded experimental design. The research sample consisted of 35 high school students. Qualitative and quantitative data were analyzed simultaneously. Qualitative data was analyzed using open coding and generalization, while quantitative data was analyzed using the n-gain score test. The results of the quantitative analysis show that students' problem-solving abilities increased from an average of 38.74 to 80.65. Calculating the n-gain value obtained a score of 0.68, which indicates that hybrid problem-based learning with formative assessment effectively improves students' problem-solving abilities regarding the concepts of work and energy. The results of the qualitative analysis revealed students' difficulties in solving problems. Some of the challenges found include 1) students needing help translating test items into graphic representation, 2) students needing help determining the specific application of physics, and 3) some students still needing help carrying out mathematical procedures. Teachers can use the findings of this research as a basis for designing and planning learning in the classroom to improve student's problem-solving abilities
Unveiling Misconceptions: A Multilocation Study on First-Year College Students in Indonesia Muliyani, Riski; Suhandi, Andi; Prima, Eka Cahya; Muslim, Muslim
Journal of Teaching and Learning Physics Vol. 9 No. 2 (2024): Journal of Teaching and Learning Physics (September 2024)
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jotalp.v9i2.34844

Abstract

The aim of this research is to determine whether there are any misconceptions among first-year students regarding the concepts of heat and temperature. This study employs a descriptive research design. The sample used in this study consists of 224 first-year students from both public and private universities in the cities of Singkawang, Bima, Madiun, and the districts of Sumedang, Sintang, and Bandung. Data were collected through a g-form using a four-tier test instrument. The research results indicate that the percentage of misconceptions among students on the concepts of temperature and heat is highest in the sub-topic "Objects with higher temperature definitely have more heat content compared to objects with lower temperature," reaching 62.1%, and the lowest misconception in the sub-topic "Water at a temperature of 0°C has entirely turned into ice," reaching 40.6%. It is hoped that these findings can be utilized by lecturers and teachers in addressing the subtopic of heat and temperature, which is known to have many possible misconceptions. As a result, educators can employ effective instructional strategies to address their students' misunderstandings about heat and temperature
Development of Phyvar Media on Fission Reaction Material to Support Students' Spatial Intelligence Prayoga, Adam Fori; Guntara, Yudi; Septiyanto, Rahmat Firman
Journal of Teaching and Learning Physics Vol. 9 No. 2 (2024): Journal of Teaching and Learning Physics (September 2024)
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jotalp.v9i2.35769

Abstract

This research aims to determine the characteristics and feasibility of Physics In 3D Virtual Reality media on Fission Reaction material to support students' Spatial Intelligence. The research method used is Research and Development (R&D) with the Rowntree development model. The Rowntree model stages consist of 3 stages, namely the planning stage, development stage and evaluation stage. The subjects of this research consisted of 2 expert validation people, namely material and experts and limited trials on 36 students who were/had studied renewable energy subjects. The results of the material expert validation obtained a score of 97%. The validation results from media experts obtained a score of 94%. The assessment results from students as users were 85%. It can be concluded that the PHYVAR media in fission reaction material is very suitable for use and supports students' spatial intelligence.
Application of Virtual Practicum Media Based on Everycircuit in Discovery Learning in Basic Electronics Course Students Physics Education Program Class of 2022 Jusriana, Andi; Suarga, Suarga; Wahyuni, Sri; Nurnaifah, Ihfa Indira; Suarti, Suarti
Journal of Teaching and Learning Physics Vol. 9 No. 2 (2024): Journal of Teaching and Learning Physics (September 2024)
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jotalp.v9i2.39734

Abstract

A practicum is a learning activity that involves observing an experiment or testing a concept inside or outside the laboratory. A virtual practicum is a practicum activity that is carried out virtually. The use of learning models in practicum also affects the activeness of students. One virtual practicum that can be used is Everycircuit, which uses discovery learning. The research objectives are to determine the learning outcomes of physics education study program students class of 2022 before using Everycircuit-based virtual practicum media in discovery learning in Basic Electonics courses, to determine the learning outcomes of physics education study program students class of 2022 after using Everycircuit-based virtual practicum media in discovery learning in Basic Electonics courses, and to determine the increase in learning outcomes of physics education study program students class of 2022 after using Everycircuit-based virtual practicum media in discovery learning in Basic Electonics courses. The type of research used is pre-experimental research with a one-group pretest-posttest research design. The results showed that the average value of student learning outcomes in introductory electonics courses before using Everycircuit-based virtual practicum media in discovery learning is 65.42, while the average value of student learning outcomes in introductory electonics courses after being taught using Everycircuit-based virtual practicum media in discovery learning is 90.27. The results of the N-gain test calculation obtained 0.62 with a moderate category, so it can be concluded that there is an increase in student learning outcomes in introductory electonics courses after being taught using Everycircuit-based virtual practicum media in discovery learning.
Experimental Design of Shadow Formation in Optical Devices with 2D Algodoo Simulation Resmiyanto, Rachmad; Lestari, Novi Ayu
Journal of Teaching and Learning Physics Vol. 9 No. 2 (2024): Journal of Teaching and Learning Physics (September 2024)
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jotalp.v9i2.40414

Abstract

The process of image formation in optical instruments such as the eye, magnifying glass, microscope, telescope, and camera is an important part of learning geometric optics. These concepts are often considered difficult and abstract by students, as the path of light and the process of image formation cannot be directly observed. The conceptual experimental method is used to identify the physical concepts in optical phenomena and translate them into 2D simulations in Algodoo. This study consists of three steps: (1) designing an experiment using Algodoo to model the image formation phenomenon, (2) configuring optical instruments, light sources, rays, and lenses to achieve image formation that aligns with its physical concepts, and (3) conceptually analyzing the simulation results and observing students while using the simulation. The results of the study show that this image formation experiment can be easily understood by students. This is evidenced by the fact that students were able to independently conduct the image formation simulation. Therefore, it can be concluded that the 2D simulation software Algodoo can be used effectively to design image formation experiments in optical instruments.

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