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Integrating Augmented Reality Technology in Magnetic Field Learning: A Systematic Literature Review Haris, Venny; Alias, Siti Nursaila; Ayop, Shahrul Kadri
JIPF (Jurnal Ilmu Pendidikan Fisika) Vol 9, No 2 (2024): May 2024
Publisher : STKIP Singkawang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26737/jipf.v9i2.5159

The aim of this study was to uncover research trends in the use of augmented reality (AR) in magnetic field learning from 2012 to 2023. The review in this study followed the guidelines of Kitchenham, B. and Charters, which consisted of three stages: planning, conducting, and reporting the review. During the planning stages of the review, 107 articles were identified using keywords. The remaining articles were examined according to inclusion and exclusion criteria, so that 21 articles were further processed. A review stage is then carried out, followed by reporting of the review results. The results of this study suggest that the use of augmented reality (AR) to teach magnetic fields is primarily focused on teaching high school students. The aspects that have attracted the most attention when analyzing the implementation of AR in magnetic field education are learning/academic performance, perception and attitude. The most commonly used forms of AR in the study of magnetic fields are mobile applications, AR-based learning experiments, 3D simulations, and real-time simulations, all of which aim to explain abstract concepts and facilitate experimental explorations. Quantitative research design is the most commonly used approach in this field. The primary data collection tools used in this study include achievement tests, surveys, and questionnaires.

THE DEVELOPMENT OF MAGNETIC FIELD LEARNING MODULE INTEGRATED WITH AUGMENTED REALITY (AR) FOR SENIOR HIGH SCHOOL: A NEED ANALYSIS haris, venny; alias, siti nursaila; Ayop, Shahrul Kadri
Journal of Teaching and Learning Physics Vol 10, No 1 (2025): Journal of Teaching and Learning Physics (February 2025)
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jotalp.v10i1.40684

The aim of this study was to provide empirical data for the development of an augmented reality (AR) integrated physics learning module that focuses on difficult topics among high school students. Using a quantitative approach, 131 students and 26 physics teachers from West Sumatra completed a needs assessment questionnaire. Magnetic fields were identified as the most difficult topic, cited by 34% of students and 65% of teachers due to their abstract nature and lack of visualization tools. Current teaching methods and materials do not adequately support students' understanding. Both teachers and students expressed a strong preference for modules that integrate AR to visualize abstract concepts, increase engagement, and provide clear explanations, practical activities, and problem-solving examples. Although the potential of AR is recognized, it is underutilized as there is currently no integration with physics modules. This study highlights the urgent need for AR-based modules to improve learning outcomes, especially on complex topics such as magnetic fields.

ANALYSIS OF FACTORS AFFECTING THE COMPETENCY OF PHYSICS TEACHERS IN WEST SUMATRA PROVINCE Hendri, Weria; Alias, Siti Nursaila; Daud, Anis Nazihah Mat; Halim, Anis Diyana
PENDIDIKAN SAINS DAN TEKNOLOGI Vol 12 No 3 (2025)
Publisher : STKIP PGRI Situbondo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47668/edusaintek.v12i3.1533

Teachers’ competency plays a vital role in improving the quality of their teaching. Hence, this research was performed to analyse the factors affecting the Competency of Physics teachers in West Sumatra Province. This research employs a quantitative research design with a survey method. A total of 37 Physics teachers from junior and senior high schools in West Sumatra Province were selected as respondents of the research using the purposive sampling technique. A questionnaire was used as the primary instrument for this research. The finding indicated that most respondents agreed that a physics teacher's pedagogical, social, personality, and professional competencies in West Sumatra Province were significantly influenced by the self-concept (95%) and communication skills (100%). The respondents also suggested that Physics teachers should have digital literacy skills and support from school management to improve their competency level. The findings of this study can be used as a reference to develop the competency model of a Physics teacher in West Sumatra Province.

THE DEVELOPMENT OF MAGNETIC FIELD LEARNING MODULE INTEGRATED WITH AUGMENTED REALITY (AR) FOR SENIOR HIGH SCHOOL: A NEED ANALYSIS haris, venny; alias, siti nursaila; Ayop, Shahrul Kadri
Journal of Teaching and Learning Physics Vol. 10 No. 1 (2025): Journal of Teaching and Learning Physics (February 2025)
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jotalp.v10i1.40684

The aim of this study was to provide empirical data for the development of an augmented reality (AR) integrated physics learning module that focuses on difficult topics among high school students. Using a quantitative approach, 131 students and 26 physics teachers from West Sumatra completed a needs assessment questionnaire. Magnetic fields were identified as the most difficult topic, cited by 34% of students and 65% of teachers due to their abstract nature and lack of visualization tools. Current teaching methods and materials do not adequately support students' understanding. Both teachers and students expressed a strong preference for modules that integrate AR to visualize abstract concepts, increase engagement, and provide clear explanations, practical activities, and problem-solving examples. Although the potential of AR is recognized, it is underutilized as there is currently no integration with physics modules. This study highlights the urgent need for AR-based modules to improve learning outcomes, especially on complex topics such as magnetic fields.

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