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p-Index From 2019 - 2024
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All Journal Journal of Education and Learning (EduLearn) Jurnal Pendidikan Fisika dan Keilmuan (JPFK)
Masrifah Masrifah
Universitas Khairun
Humanities Astronomy Education Library & Information Science Physics Social Sciences Other

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Cybergogy Trends in Cognitive Psychology of Physics Learning: A Systematic Literature Review from 2019-2023 with NVivo Achmad Samsudin; Hera Novia; Andi Suhandi; Adam Hadiana Aminudin; Muhamad Yusup; Supriyatman Supriyatman; Masrifah Masrifah; Niki Dian Permana; Bayram Costu
Jurnal Pendidikan Fisika dan Keilmuan (JPFK) Vol 9, No 2 (2023)
Publisher : UNIVERISTAS PGRI MADIUN

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25273/jpfk.v9i2.17257

Abstract

The purpose of this Systematic Literature Review (SLR) is to identify the cybergogy trends in cognitive psychology in physics learning from 2019-2023. The focus of this review includes research methods, technology used, links to cognitive psychology, and physics concepts. A total of 60 articles (60 articles indexed Scopus and 29 of them indexed Scopus and WoS) were used in this review using the Prisma guide. The analysis was carried out with the help of NVivo12 as well as percentage calculations. The results show that: 1) The research method used is dominated by quasi-experiments (22%); 2) The technology used in learning is dominated by virtual reality/lab (35%); 3) Most of the links with cognitive psychology are devoted to conception (33%), and; 4) Physics concepts that are widely used in research are dominated by concepts related to electricity and magnetism (27%). The results of this review indicate that research on cybergogy directly in physics learning is still minimal. However, if it is generalized to research on technology in physics learning over the last five years, it can be seen that the trend is quite good. Thus, the results of this review recommend further research in developing technologies that are popular in physics learning cybergogy, such as the development of virtual reality/lab or Augmented Reality.
Development of DIGaKiT: identifying students’ alternative conceptions by Rasch analysis model Achmad Samsudin; Nurul Azizah; Nuzulira Janeusse Fratiwi; Andi Suhandi; Irwandani Irwandani; Muhammad Nurtanto; Muhamad Yusup; Supriyatman Supriyatman; Masrifah Masrifah; Adam Hadiana Aminudin; Bayram Costu
Journal of Education and Learning (EduLearn) Vol 18, No 1: February 2024
Publisher : Intelektual Pustaka Media Utama

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/edulearn.v18i1.20970

Abstract

Alternative conceptions become obstacles in physics. However, it is difficult to find instruments that can identify students' alternative conceptions, especially in gases kinetic theory (DIGaKiT). The purpose of this research was to development of diagnostic instrument of DIGaKiT in identifying students’ alternative conceptions by Rasch analysis model. The research method used the defining, designing, developing, and disseminating (4D). The samples are 31 students (12 male students and 19 female students, their ages were typically 16 years old) at one of the senior high schools at Belitung. Rasch analysis was used to identify the validity, reliability, and distribution of students' alternative conceptions. The result is that the level of validity and reliability of the instrument is in a good category. Meanwhile, alternative conceptions of the kinetic theory of gases can be identified in all questions, and the questions with the highest alternative conceptions are questions with code Q11 (77%) and the lowest are questions with codes Q1, Q5, and Q6 (4%). Therefore, teachers must design learning processes that can reduce students’ alternative conceptions of the kinetic theory of gases material.
Co-Authors A. Suhandi Achmad Samsudin Aminudin, Adam Hadiana Bayram Coştu Hera Novia Irwandani Irwandani Muhamad Yusup Muhammad Nurtanto Niki Dian Permana Nurul Azizah Nuzulira Janeusse Fratiwi Supriyatman, Supriyatman