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Journal of Innovative Physics Teaching (JIPT)
Published by Universitas Negeri Padang
ISSN : -     EISSN : 30218551     DOI : https://doi.org/10.24036/jipt/vol1-iss1
Core Subject : Science, Education,
Education Physics Other
Journal of Innovative Physics Teaching (JIPT) focuses on publishing the scientific articles in the fields of learning Physics and learning science. Scientific articles in learning Physics and learning science are written from the results of research activities including experimental research, descriptive research, correlation research, classroom action research, research and development, literature review, meta-analysis, and relevant research methods. The scope of scientific articles includes learning planning such as learning materials, learning media, and experimental tools; implementation of learning such as learning models, learning approaches, learning strategies, and learning methods; learning assessments such as authentic assessments and assessment based on ICT; learning management and policy; and the current developments in physics learning and science learning.
Arjuna Subject : Umum - Umum
Articles 41 Documents
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Analysis of the Development of Augmented Reality Based Learning Media on High School Physics Material Fadhiel, M. Al; Mufit, Fatni
Journal of Innovative Physics Teaching Vol. 2 No. 1 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss1/37

Abstract

One of the purposes of using information and communication technology is to increase the efficiency and effectiveness of learning. One technology that can be used is augmented reality (AR) technology. One innovation that can be developed is the development of AR-based learning media. This research discusses the effectiveness of developing Augmented Reality (AR)-based learning media in an effort to increase students' understanding of high school physics material. To measure the level of effectiveness, it is seen from the results of the Validation Test from material experts, media experts, as well as responses from surveys conducted among practitioners. This research is due to students' low understanding in studying physics material which is very difficult to imagine or understand because the concepts are abstract. Therefore, there is a need for innovative learning media so that abstract physics concepts can be explained by visualizing them using Augmented Reality (AR). The research method used was a quantitative approach and literature study as a data collection method. This research took 10 references related to research objectives published from 2017 to 2023. From the analysis carried out, it was found that the use of Augmented Reality (AR) in physics learning can improve students' understanding abilities in physics learning.
Fostering Environmental Literacy through Innovative Learning: Using PBL-based Science E-books Integrated with Local Potential of Rawa Bento fahlevi, aditya; Jumadi, Jumadi; Wilujeng, Insih; Titisari, Galuh
Journal of Innovative Physics Teaching Vol. 2 No. 1 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss1/40

Abstract

Students' poor environmental literacy is a problem that has to be fixed. This research is important because low environmental literacy among students can negatively impact their ability to understand and address environmental issues in the future. This study looked at how students' environmental literacy levels changed after using the PBL-based Rawa Bento integrated science e-book in learning. This study aims to evaluate the effect of using PBL-based Rawa Bento integrated science e-books on students' environmental literacy. This study involved grade VII students at SMPN 6 Yogyakarta with a quasi-experimental design. There are two research groups: the modeling group and the implementation group. Both groups received science learning using the PBL-based Rawa Bento integrated science e-book. Multiple-choice exams were used to collect data on environmental literacy, which SPSS 21 was then used to analyze. The results showed that in the modeling group, before and after learning, there was no discernible difference in environmental literacy. However, in the implementation group, there were significant differences and the size of the effect was moderate.
Effects of Using Student Worksheets Integrated With Context-Based Learning Videos on Collaboration and Science Communication Skills Students febrianti, kurnia; Desnita, Desnita
Journal of Innovative Physics Teaching Vol. 2 No. 1 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss1/42

Abstract

Collaboration and science communication are skills that are needed and must be possessed by students. In reality, students are less trained to work together and express ideas well, so students' science collaboration and communication skills are still weak. Therefore, student worksheets integrated with context-based learning videos are used as a solution. This study aims to see the influence of using student worksheets integrated with context-based learning videos on improving students' collaboration skills and science communication skills. Students of class XI IPA 3 at SMAN 3 Payakumbuh were used as the research sample. The instruments used were observation sheets on collaboration and science communication skills. The results of the data analysis showed: 1) there was an increase in students' collaboration skills score from 40.29 to 85.59 with an excellent category, and 2) there was an increase in students' science communication skills score from 40.29 to 76.91 with a good category. Based on the t-test conducted, there is a positive effect of using student worksheets integrated with context-based learning videos on students' collaboration and science communication skills.
Bibliometric Analysis: Using E-Modules Based on Project Based Learning in Physics Learning Purnama Yani, Intan; Festiyed, Festiyed; Asrizal, Asrizal
Journal of Innovative Physics Teaching Vol. 2 No. 1 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss1/44

Abstract

E-modules or electronic modules are modules in digital form, consisting of text, images, even both containing digital electronic material accompanied by simulations that can and are suitable for use in learning. The aim of this research is to see the extent of the development of research on e-modules based on project-based learning in Physics subjects. The research method used in this article is bibliometric analysis using VOSViewer software. The publication data comes from searches on the Publish or Perish software based on relevant keywords in Google Scholar indexed journals. There are 200 articles that are relevant to the keywords entered. Research on E-modules based on project-based learning needs to be improved to determine the level of success of students in mastering Physics lessons and project-based learning study topics have great potential to be explored and can be combined with various fields to make this research unique.
Implementation of the PBL Model Integrated E-Module with Learning Differentiated to Promote Student’s Collaboration Skills Yandari, Riri; Asrizal, Asrizal; Werina, Werina; Agusti, Hafiz Almahfuz
Journal of Innovative Physics Teaching Vol. 2 No. 2 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss2/48

Abstract

Education is currently trying to make students able to master the skills of the 21st century. This study aims to determine the effect of applying the integrated e-module PBL model with differentiated learning on students' mastery of concepts and collaboration skills. The research design used in this research is classroom action research. The data collection instrument consists of two parts, namely the collaboration skills observation sheet and the writing test. Based on the results of data analysis, the results of increasing the average value of each indicator of collaboration skills in cycle I and cycle II due to the application of the integrated e-module PBL model with differentiated learning are: I1 = 13.19%, I2 = 8.33 %, I3 = 6.02%, I4 = 11.11%, I5 = 11.1%. While the increase in student knowledge aspect learning outcomes is 15.5%. Based on the research results, it is known that the application of the integrated e-module PBL model with differentiated learning can improve students' collaboration skills and mastery of concepts, which are skills needed in 21st century education.
The Effect of STEM-Based Interventions on Learning Outcomes in High School: A Meta-Analysis Fadillah, Muhammad Aizri; Hirahmah, Atifah; Asrizal; Usmeldi
Journal of Innovative Physics Teaching Vol. 2 No. 2 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss2/53

Abstract

While numerous studies have investigated the effectiveness of STEM (Science, Technology, Engineering, and Mathematics) education, findings remain fragmented, and variations in research designs, sample characteristics, and contexts of implementation pose challenges in drawing generalized conclusions. This study aimed to assess the efficacy of the STEM approach on student learning outcomes at the high school level through a meta-analysis. A total of 24 studies that met the inclusion criteria were analyzed from 14 papers that met the criteria. The meta-analysis results demonstrated that the STEM approach was significantly more effective than traditional learning methods, with an overall effect size value of d = 1.71, Z = 7.45, and a significance level of P < 0.00001. Although there was considerable heterogeneity among the effect sizes (Q = 589.66, I² = 96%), the funnel plot demonstrated a symmetrical distribution of effect sizes, indicating minimal publication bias. The findings substantiate that STEM-based education can enhance student engagement, facilitate concept comprehension, and cultivate critical thinking abilities. The practical implications of this study include recommendations for education policymakers to design more effective STEM programs and for educators to adopt STEM-based teaching strategies. Various stakeholders must collaborate to guarantee this initiative's successful implementation and adequately prepare students for the global challenges they will encounter in the 21st century.
Instructional Materials Based on Generative Learning Models in Context of Science and Physics Learning: A Bibliometric Analysis Ahzari, Serli; Asrizal; Festiyed
Journal of Innovative Physics Teaching Vol. 2 No. 2 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss2/57

Abstract

Developing instructional materials based on the generative learning model has become critical in science and physics education. However, a systematic analysis of research trends in this domain must be more conspicuously present. This study aims to conduct an in-depth analysis of research investigating the impact of generative learning model-based instructional materials in science and physics education, encompassing their classification and trends and identifying potential research variables for future scholarly investigations. The methodological approach employed a literature review utilizing bibliometric analysis, initiating with the definition of keywords “generative learning model” and “journal” within the Publish or Perish application and using Google Scholar as the primary database. A systematic filtering process was applied to the search results, identifying 10 pertinent articles within the “Science and Physics” domain from an initial pool of 200 publications. Researchers utilized Mendeley and Vosviewer to compile metadata and visualize research trends. Findings indicated that research on generative learning models in science and physics clusters into two primary categories: generative learning models, conventional learning approaches, learning outcomes, population characteristics, and pedagogical influences. However, this study’s limitations, stemming from the restricted article sample, underscore the need for future research to explore a broader range of topics.
Development of Physics Test Instruments to Measure Problem Solving Skills on Dynamic Fluid Materials Sanjaya, Aditya Putra; Tanjung, Yul Ifda; Mihardi, Satria
Journal of Innovative Physics Teaching Vol. 2 No. 2 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss2/68

Abstract

Problem solving skills are a fundamental part of physics learning that must be possessed by students in facing challenges and problems that involve critical thinking, logical, systematic and able to make the right decisions. In fact, the availability of instruments to measure these skills is still limited. Based on that, the purpose of this research is to develop a test instrument based on problem solving skills based on Heller's stages on dynamic fluid material that meets the criteria for good instrument feasibility. This type of research is development research (Research and Development / R&D) with a 4D model consisting of 4 stages, namely define, design, develop and disseminate. The subjects of this study were XI grade high school students totaling 36 people for product testing. The results showed that the average value of content validity testing was 93.53% with very valid criteria, while the results of item validation in small and large groups showed that all ten test instruments were categorized as valid. In terms of reliability, the small group obtained a value of 0.84 which is classified as very high reliability and in the large group obtained a value of 0.78 which is classified as high reliability. The results of the student response test obtained a positive response in the small group of 81.00% with a good category and in the large group of 81.32% with a very good category. Based on the results of the study, it is concluded that the dynamic fluid material problem solving test instrument developed as many as 10 questions has met the eligibility criteria of the test instrument including validity and reliability so that it can then be used as a training medium and a measuring tool for problem solving skills.  
Development of E-module on Static Fluid Material Containing Local Wisdom of the East Coast of North Sumatra Using Flip Pdf Professional Siregar, Rodearna; Harahap, Mukti Hamjah; Irfandi, Irfandi
Journal of Innovative Physics Teaching Vol. 2 No. 2 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss2/70

Abstract

Physics learning is trapped in a routine where learning activities only provide formulas, example questions and exercises, the teaching materials used by teachers are less contextual, still in the form of school textbooks, causing students' ignorance about the use of physics in everyday life so that the knowledge they have students tend to memorize. This research aims to develop a physics e-module based on local wisdom with the help of a professional PDF flip that is valid, practical and effective for use as teaching material, contextual in nature to increase students' understanding of concepts. This type of research is research and development (Research and Development) with the ADDIE development model including the stages of analysis, design, development, implementation and evaluation. The instruments of this research are validation sheets, questionnaires and learning tests. Data was analyzed using Excel. The research results show that the e-module developed is valid with a material expert validation percentage of 90.62%, media expert validation of 87%. The results of the practicality test by the teacher obtained a percentage of 96%, and the percentage of small group student questionnaire responses was 86.43%, the large group was 82.95% in the very practical category. The results of the effectiveness test based on the pretest-posttest learning outcomes obtained an average N-gain in the small group, namely 0.87 and in the large group, namely 0.92 in the high category, so that the physics e-module based on local wisdom is effectively used as physics teaching material because able to improve understanding of concepts.
Bibliometric Analysis of Trends Project Based Learning (PjBL) Integrated STEM For Twenty First Century Skills Enhancement in Physics Learning Fauziah Ulmi; Asrizal
Journal of Innovative Physics Teaching Vol. 2 No. 2 (2024): Journal of Innovative Physics Teaching (JIPT)
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jipt/vol2-iss2/78

Abstract

Twenty first century skills are very important skills in learning because these skills are able to prepare individuals to face challenges and opportunities in the future masses. This study aims to analyze the trend of project-based learning (PjBL) integrated in Science, Technology, Engineering, and Mathematics (STEM) to improve twenty first century skills in Physics learning. The method used is bibliometric analysis method. A total of 127 articles were collected through the Publish or Perish (PoP) application based on relevant keywords in Google Scholar indexed journals. The article was processed using the VOSviewer application. VOSviewer mapping results were analyzed and described. The results of this study are that in the last five years (2020 - 2024), STEM-integrated PjBL has become one of the trends in Physics learning in schools. This can be seen from the many articles found about STEM-integrated PjBL. However, research related to STEM-integrated PjBL to improve twenty first century skills in Physics learning still needs to be done.Twenty first century skills are very important skills in learning because these skills are able to prepare individuals to face challenges and opportunities in the future masses. This study aims to analyze the trend of project-based learning (PjBL) integrated in Science, Technology, Engineering, and Mathematics (STEM) to improve twenty first century skills in Physics learning. The method used is bibliometric analysis method. A total of 127 articles were collected through the Publish or Perish (PoP) application based on relevant keywords in Google Scholar indexed journals. The article was processed using the VOSviewer application. VOSviewer mapping results were analyzed and described. The results of this study are that in the last five years (2020 - 2024), STEM-integrated PjBL has become one of the trends in Physics learning in schools. This can be seen from the many articles found about STEM-integrated PjBL. However, research related to STEM-integrated PjBL to improve twenty first century skills in Physics learning still needs to be done.

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