THE USE OF PHYSICS POCKETBOOK BASED ON AUGMENTED REALITY ON PLANETARY MOTION TO IMPROVE STUDENTS' LEARNING ACHIEVEMENT

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Nadi Suprapto, Handal Setyo Ibisono, Husni Mubarok

2021 Journal of Technology and Science Education Vol. 11 Issue 2 Article Cited by 17 Quartile

Abstract

Planetary motion in physics learning is an abstract concept and requires high reasoning. This article is one of the augmented realities (AR)-based pocketbook development on the planetary motion, focusing on student learning achievement. The study used the ADDIE model: “Analysis-Design-Development-Implementation-Evaluation”. In the Spring Semester 2020, researchers took these steps in producing an AR-based pocketbook on planetary motion materials. The trial carried out on 30 students (57% girls and 43% boys, with age 16-17) at a public high school in Surabaya, Indonesia. Evaluation parameters included the quality of the AR-based pocketbook, students' learning achievement, and research outputs. Data analysis techniques used descriptive statistics, N-gain score, and independent t-test. The results showed that: (1) the process of developing an AR-based pocketbook on planetary motion fulfilled the product quality criteria: validity, practicality, and effectiveness; (2) students' learning achievement increase as seen from the results of the pretest-posttest scores with the average Gain score was 0.63 in the moderate category in which the boys perform better than the girls; (3) through the development of an AR-based pocketbook, it resulted in some articles in journals and pocketbook media based on Augmented reality. Therefore, this study's recommendation is to use AR as a media for learning in other abstract physics concepts. © 2021. All Rights Reserved.

Affiliations

Universitas Negeri Surabaya, Indonesia; National Taiwan University of Science and Technology, Taiwan