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p-Index From 2019 - 2024
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All Journal IJORER : International Journal of Recent Educational Research International Journal of Current Educational Research
Madlazim Madlazim
State University of Surabaya, Surabaya
Education Languange, Linguistic, Communication & Media Mathematics Other

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Implementation of the Argument-Driven Inquiry (ADI) Model in Physics Learning of 2012-2021: Bibliometric Analysis Setyo Admoko; Kafa Pramitha Anggraini Indhira Artanti; Eko Hariyono; Madlazim Madlazim
International Journal of Current Educational Research Vol. 1 No. 2 (2022): December
Publisher : Indonesia Emerging Literacy Education

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (370.457 KB) | DOI: 10.53621/ijocer.v1i2.183

Abstract

Argumentation is a core practice of scientific discourse. One of the problems in learning science is the low level of argumentation skills of students. Efforts to improve argumentation skills include implementing the Argument-Driven Inquiry (ADI) learning model. This study aims to identify the contribution and find out the trend of applying ADI in physics learning in 2012-2021. The method used in this research is a bibliometric analysis based on Scopus data with the help of MS Excel and VOSviewer to visualize the metadata obtained. The results of this study obtained 100 documents. The development of ADI every year does not have a significant increase in the number of publications produced. Research visualization using VOSviewer produces 14 clusters and is closely related to argumentative learning, guided inquiry, and so on. Based on the results of this study, it can be concluded that the ADI has several contributions to science learning, mostly done in Chemistry, and it is still rare in Physics, so it can be an opportunity for further research. It is hoped that further research can discuss more deeply the ADI learning model, which is applied to physics learning to improve students' argumentation skills.
Research on Bibliometric Analysis of Toulmin's Argument Pattern (TAP) in Learning Physics in the Last Ten Years Setyo Admoko; Kiki Lutfiah Arizah; Nadi Suprapto; Utama Alan Deta; Suliyanah Suliyanah; Eko Hariyono; Madlazim Madlazim; Rizki Fitri Rahima Uulaa; Mohammad Walid Rasuliy; Yuli Sutoto Nugroho
International Journal of Current Educational Research Vol. 2 No. 1 (2023): June
Publisher : Indonesia Emerging Literacy Education

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53621/ijocer.v2i1.184

Abstract

Objective: Toulmin's Argument Pattern (TAP) is the most widely used argumentation pattern and was first used in science education. TAP has a significant contribution as literature in explaining the concept of argumentation. This study aims to identify the contribution and describe the research profile of applying TAP in physics education during the last ten years. Method: The method used in this research is a bibliometric analysis based on Scopus data with the help of MS Excel and VOSviewer. The results of this study obtained 67 documents related to TAP. Results: Based on the results of bibliometric data visualization related to TAP, 4 clusters (1) discuss TAP focused on learning processes and activities in the classroom. (2) the application of TAP focused on assessing argumentation and critical thinking skills (3) TAP was associated with the identification of the components of scientific argumentation (4) TAP related to contextual problem-solving in improving scientific literacy. Novelty: Physics is the subject that appears the most in research related to the use of TAP, among other science subjects. Based on the results of this study, TAP has several contributions to physics learning in improving students' argumentation skills so that it can be an opportunity for further research. That way, the next one will be able to discuss more deeply related to the TAP, which is applied to physics learning to improve argumentation and critical thinking skills.
Exploring Augmented Reality-Based Learning Media Implementation in Solar System Materials Muhammad Andika Putra; Madlazim Madlazim; Eko Hariyono
IJORER : International Journal of Recent Educational Research Vol. 5 No. 1 (2024): January
Publisher : Faculty of Teacher Training and Education Muhammadiyah University of Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46245/ijorer.v5i1.440

Abstract

Objective: This research aims to analyze the impact of using augmented reality (AR) based learning media on understanding Solar System material. The focus is on evaluating the effectiveness of AR in improving the learning process, particularly on Solar System materials. Methods: The research method used is a literature review by searching for related journals indexed by Scopus within the last five years, from 2018 to 2023. The selected literature was then analyzed to gain an in-depth understanding of the implementation of AR in Solar System learning. Results: Analysis of the literature shows that using AR technology as a learning medium positively impacts understanding of Solar System concepts. There is an increase in student engagement and learning effectiveness through AR. Novelty: This study reveals that using AR-based learning media on solar system material can improve understanding of Solar System concepts. This finding invites researchers, teachers, and the government to develop and consider the implementation of AR in the context of astronomy learning.
The Role of Brain-Based Learning in Training Students' Critical Thinking Skills Yuni Rahmawati; Madlazim Madlazim; Elok Sudibyo
IJORER : International Journal of Recent Educational Research Vol. 5 No. 2 (2024): March
Publisher : Faculty of Teacher Training and Education Muhammadiyah University of Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46245/ijorer.v5i2.578

Abstract

Objective: This research aims to determine the role of brain-based learning in training students' critical thinking skills. Method: The research method used is a review article from 20 main scientific articles obtained from Google Scholar, Google, and Science Direct online with the keywords brain-based learning and critical thinking skills. Results: The results show that brain-based learning can be applied to gain critical thinking skills in mathematics and natural science material compared to conventional learning. Brain-based learning notes how the brain processes and interprets information after processing. A learning method that aligns with how the brain functions naturally will help students become more adept at critical thinking. Novelty: One of the most challenging issues of the 20th century is the improvement of information technology and the environment. Building quality human resources is a strategic and critical function of high-quality education. Today's students need to learn how to think critically.
Co-Authors Elok Sudibyo Hariyono, Eko Kafa Pramitha Anggraini Indhira Artanti Kiki Lutfiah Arizah Mohammad Walid Rasuliy Muhammad Andika Putra Nadi Suprapto Rizki Fitri Rahima Uulaa Setyo Admoko Suliyanah Suliyanah Utama Alan Deta Yuli Sutoto Nugroho Yuni Rahmawati