JIPF (Jurnal Ilmu Pendidikan Fisika)
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Research Trends of Augmented Reality in Physics Education based on Scopus Database in Thirteen Years (2010-2023): A Bibliometric Approach
This research is useful for mapping the development of AR research in physics learning. This research is a bibliometric study to analyze scientific publications related to the implementation of Augmented Reality (AR) in physics learning. Data obtained from the Scopus database by applying certain inclusion criterias, resulting in 55 relevant publications from 2010 to 2023. Data analysis is done using Rstudio application with biblioshiny package. The analysis is done to extract a variety of bibliometric information such as publication trends, authors and influential countries, keywords, themes, and research trends. The analysis shows a significant increase in publications since 2017, with Germany and Indonesia as the most research countries. The integration of AR into learning methods like PBL is found to be the most dissected. Inter-country and inter-affiliate research collaboration on this topic still needs to be enhanced. Existing research is largely focused on the potential of augmented reality to enhance students' interest, motivation, and understanding of physical concepts through interactive and realistic visualizations. These findings could inform the direction of future research to produce significant innovations in improving the quality of physics learning
The Effect of STEM Integrated Inquiry Models in Improving Student Science Learning Outcomes (A Meta-Analysis)
21st-century learning emphasizes the mastery of knowledge as a whole through the investigation of several points of view of knowledge, one of which is inquiry and STEM models. This study aims to determine the magnitude of the size of 20 studies on the effect of STEM-integrated inquiry models on science learning and learning outcomes. The moderator variables considered are education level and type of publication. The analyzed studies were obtained from Google Scholar and ERIC databases between 2013 and 2023. The results of the analysis showed that the influence of the STEM integrated inquiry model in physics learning on student learning outcomes had an average effect size value of 0.78 which was included in the medium category, based on 20 studies that had been collected. The distribution of studies discussing STEM-integrated inquiry models was most found in 2020 and international journals. The influence of STEM looks different at each level of education, with a significant dominance of influence occurring at the high school level
Development of Guided Inquiry-Based Physics e-LKPD to Improve Students' Critical Thinking Abilities
The development of guided inquiry-based physics e-LKPD is based on the lack of learning media in the MAN 1 Yogyakarta physics subject that can help students think critically. The purpose of this research is to develop a proper, effective, and practical guided inquiry-based physics e-LKPD to help students improve their critical thinking ability. The method is the R&D 4D design model, including: define, design, develop, and disseminate. The data analysis technique used is quantitative. Quantitative data analysis is used to determine the level of feasibility, practicality, and effectiveness. The results showed that the guided inquiry-based physics e-LKPD that had been developed was feasible to apply with a percentage of 100% media experts, 89% material experts, and 100% language experts, and the e-LKPD was stated to be practical as seen from the achievement of teacher response sheets with an average of 100% and student response sheets with an average of 90.07%. The e-LKPD was also declared effective in terms of the post-test completeness achievement of 0.70 in the moderate category. Based on the results above, it can be concluded that the guided inquiry-based physics e-LKPD that has been developed is declared feasible, practical, and effective to use and can improve students' critical thinking ability
Enhancing Scientific Argumentation Skills in High School Physics: A Blended Learning Approach with Project-based Instruction
This empirical investigation delves into the application of blended learning within project-based instruction (project-based blended learning), within the framework of physics education for eleventh-grade students in a high school setting. The primary aim is to unravel the repercussions of this teaching model on the students' proficiency in scientific argumentation, particularly in the domain of optical instruments. Employing the non-equivalent control group design, the study enlists two classes: the experimental and the control group at a senior high school in Bandar Lampung, Indonesia, encompassing a total of 60 students during the academic year 2022/2023. Quantitative evaluation of scientific argumentation skills was conducted through tests, while qualitative insights into student reactions were garnered via an open-ended questionnaire. The findings underscore a noteworthy enhancement in the scientific argumentation abilities of the experimental group (n-gain: 0.69) as opposed to the control group (n-gain: 0.40), with the test of mean differences yielding a significance level (2-tailed) of 0.00. Qualitative scrutiny of the data also brought to light a more pronounced positive reception from students in the experimental cohort, lending support to the potential refinement of the project-based blended learning model for the augmentation of students' scientific argumentation aptitude
Global Warming E-Worksheet Integrated with PhET Interactive Simulations: It is Effective to Enhance Students’ Critical Thinking Skills?
The aims of this research is to determine the effectiveness of the global warming e-worksheet using Liveworksheet integrated with PhET interactive simulations to improve students’ critical thinking skills. The independent variable is the use of a global warming e-worksheet integrated with PhET interactive simulations, while the dependent variable is the critical thinking skill (analyze the facts, formulate the main problem, interpreting, and summarizing). This research used a pre-experimental type, with a one-group pretest-posttest research design. At SMAN 4 Yogyakarta, 70 students in the 10th grade participated in the cluster random sampling technique. Criteria for measuring critical thinking skills were objective questions. Then, using SPSS, descriptive statistics, n-gain tests, and one-way ANOVA were used to examine the results. Results showed that the students' critical thinking skills were significantly enhanced by the global warming e-worksheet integrated with PhET interactive simulations. This points out that using electronic physics learning materials and integrating technology has a positive effect on improving cognitive skills. Students learn content during the learning process, but they also gain a deeper understanding of the material by using simulations that are based on real-world problems and scientific principles to complete e-worksheets
Mobile Learning Simulation (MLS) for Learning Physics in Heat Transfer Concept
This research aims to develop Mobile Learning Simulation (MLS) media that is valid for learning the concept of heat transfer. The method used in this research is the Research and Development method with the ADDIE model (Analyze, Design, Develop, Implement and Evaluate). MLS was developed to make it easier for students to learn the concept of expansion and increase their understanding of the microscopic nature of heat transfer. MLS can display six 2D simulations, namely the processes of length expansion, area expansion, volume expansion, and heat transfer by conduction, convection, and radiation. The product effectiveness test was carried out with correspondents of 35 students in one of the schools in western Indonesia, obtaining an average score of 84.3% and was in the very good category. Based on the test results, the MLS application is efficient and suitable for use as a physics learning medium in high school
An Introduction to the Level of Inquiry Model: Validity and Practicality of Inquiry STEM-Based Learning Sequence e-Worksheet to Stimulate Student Communication Skill
This study aims to describe an Inquiry-Based Learning (IBL) Sequence-based e-Worksheet with a valid STEM approach to stimulate students' communication skills in challenging learning through the Google Classroom platform and its practicality. The development research model is ADDIE, consisting of analysis, design, development, implementation, and evaluation stages. The data from this research are the results of validation and practicality, analyzed using mixed methods (quantitative and qualitative). The results of the data analysis show that the average e-worksheet validity is 3.77 in the very valid category, and the practicality proportion is 93.6% in the very practical category. Based on the results of data analysis, it can be concluded that; 1) an e-Worksheet based on an IBL Sequence with a valid STEM approach to stimulate students' communication skills in bold learning through the Google Classroom platform, which contains stages of IBL learning with a STEM approach containing activities that stimulate indicators of students' communication skills; and 2) Practicality of the IBL Sequence-based e-Worksheet with the STEM approach to stimulate students' communication skills in daring learning through the Google Classroom platform which is categorized as very practical, so that it can be used in high school Physics learning, class X odd semester, materials for Changing Straight Motion Order
Analysis Lattice Constant of Ceramic SrTiO3 Doped Cuprum(II) Acetate Cube Structure by Cramer-Cohen Method
Analysis of SrTiO3 ceramics with the doping Cuprum(II) acetate (Cu(CH3COO)2), the variation in the concentration of doping used 0%; 0,5%; and 1% using the solid state reaction method was successful. The annealing process is carried out starting from room temperature then raised to an annealing temperature of 850 oC with a temperature increase of 1,67 oC / minute and held constant for 8 hours. Next proceed with the cooling process until it returns to room temperature for 13 hours. Analysis of XRD data using the Cramer-Cohen method yielded a lattice parameter of 3,909 Å; 3,906 Å; and 3,905 Å, a cubic crystal structure
Efectiveness of Argumentation Flipped Learning (AFL) Assisted by Macromedia Flash Software to Improve Student’s Understanding of Physics Concepts
The objective of this research was to assess the validity, practicality, and effectiveness of enhancing students' comprehension of physics concepts. The research uses the Research and Development (R&D) method use ADDIE model. This research was conducted in Physics Education of Muhammadiyah Purworejo University with the research subjects of 4th semester students in a limited trial of 5 students and a broad trial of 8 students. The instruments used in this study were lesson plan validation sheet, media validation sheet, lesson plan implementation sheet, student activity sheet, physics concept understanding test sheet, scoring rubric, student response questionnaire, and notes on educational activities. Data evaluation techniques were quantitative, N-gain, and T-Test. The results of the study obtained (1) the validity of the application of the AFL model assisted by macromedia flash software was declared valid, (2) the practicality of the application of the AFL model assisted by macromedia flash software, as seen from the implementation of the lesson plan obtained an average of 3.72 in the good category and the reliability test was 93%, (3) the effectiveness of the application of the AFL model assisted by macromedia flash software, as seen from the results of increasing concept understanding obtained N-gain value of 0.68 which is included in the moderate category, response questionnaire with good category, and student activity with good category. It is concluded that the application of AFL model assisted by macromedia flash software is valid, practical, and effective
The Development of Hydraulic Robotic Arm as a STEM-Based Physics Learning Media
The aim of this research is to develop, assess feasibility, and determine students responses of hydraulic robotic arm as a STEM-based physics learning media. The method used in this research is Research and Development (R&D) with the ADDIE (Analysis, Design, Development, Implementation, and Evaluation) framework. Expert validation results show that the content's feasibility percentage is 95% (very good) and the media's feasibility is 94% (very good). The experiment was conducted involving 155 secondary school students in Garut, yielding a trial outcome of 84%. The results of the research indicate that the hydraulic robotic arm is suitable for use as a STEM-based physics learning media both in terms of content and the learning media. Additionally, students responses to the hydraulic robotic arm are categorized as good, particularly in terms of its benefits in learning