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Wirawan Fadly
Tadris IPA Department, Faculty of Education and Teacher Training, IAIN Ponorogo, Ponorogo
Education

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Exploring the Influence of Science Lessons Through Text-Based Explanations and Game-Based Explanations Mixed With A Socio-Scientific Approach on Issues on Students Rational Thinking Ability and Mistaken Understanding Nurul Huda Ramadhan; Wirawan Fadly; Nurzatulshima Kamarudin
Journal of Science Learning Vol 7, No 2 (2024): Journal of Science Learning
Publisher : Universitas Pendidikan Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17509/jsl.v7i2.67372

Abstract

In both private and public education, several institutions may use game-based explanations. However, it does not rule out the possibility that most educational institutions use text-based explanations, which makes students tend to get bored because they only have to read and listen, so another alternative is needed: game-based explanations that can stimulate students' enthusiasm. Students improve their rational thinking abilities by adding a socio-scientific approach to reduce student misunderstandings. The method used in this research is a quantitative approach with a quasi-experimental design type of research. Hence, the research uses control and experimental classes for evaluation. The sample used was 29 students for the control class and 27 students for the experimental class. Based on the results obtained on rational thinking, the effect of conventions on rational thinking is 0.19, so there is no significant difference, and the post-test is 0.38, so there is a significant difference.In contrast, the effect obtained on the misunderstanding effect of conventions is 0.03. There is also no significant difference, but based on the average results of the experimental class, it is relatively superior to the control because the average of the experimental class is 83 and of the control class is 66, so game-based explanations are quite more influential than text-based explanations. This study offers insights into integrating multiple teaching methods to improve students' rational thinking skills, reduce misunderstandings, and make science learning more engaging.
Case Study of Interactive Teaching of Science "Food and Digestive System": Developing Communication Skills Towards Science Literacy of Grade VIII Junior High School Students Alfi Mufidah; Wirawan Fadly; Juan David Martinez Zayas
Journal of Science Learning Vol 7, No 1 (2024): Journal of Science Learning
Publisher : Universitas Pendidikan Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17509/jsl.v7i1.63594

Abstract

Communication skills require students to be able to manage, understand, develop, and create orally and in writing. Teaching methods that generally use conventional models of learning activities that are not formed in groups cause students' science communication skills to be lacking, so learning activities are more teacher-centered. This learning causes students' science communication skills to be challenging to develop, especially toward understanding or science literacy. The development of this science interactive teaching case study aims to develop communication skills towards science literacy of grade VIII junior high school students. The type of research used is the mixed method. This research involved the subjects of Science 1 and Science 2 teachers in class VIII and students from 2 classes with 32 students taught by the two teachers. Data analysis was conducted through transcript coding using N-Vivo assistance and statistical analysis from SPSS statistics and Minitab. The study's results show that from the three indicators described, there are significant differences in interactive teaching carried out by Science Teacher 1 and Science Teacher 2. This is due to the different perspectives held by the two teachers in the communication skills approach used. Science Teacher 1 emphasizes exploration activities more, while science teacher 2 focuses more on discussion activities.
Improving Contextualized Problem-Solving Skills among Grade 8 Students Through "Digestive System" Problem-Oriented Learning: A Study Intervention Findings in the Complex Domain Alfanisa Dwi Pramudia Wardani; Wirawan Fadly; Juan David Martinez Zayas
Journal of Science Learning Vol 7, No 2 (2024): Journal of Science Learning
Publisher : Universitas Pendidikan Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17509/jsl.v7i2.64283

Abstract

Indonesia needs more appropriate learning methods and educational policies to improve literacy and numeracy skills, including problem-solving competence. These two capabilities are fundamental in this era of Industrial Revolution 4.0. This research investigates whether Digestive System learning designed to be oriented toward contextual problems with direct SESD-based teaching encourages students' ability to solve contextual problems better than conventional learning in the classroom. Data collection included paper and pencil assessments of students' problem-solving skills through a quasi-experimental study using a pretest-posttest experiment control group design. The experimental group received learning about the digestive system based on the principles of education for sustainable development. The study sample comprised class VIII students at SMPN 4 Ponorogo. The result of this research shows that the ANCOVA analysis with pre-test scores as a covariate: F (6.860) indicates that the experimental group displayed more autonomy, independence, and openness in their approach to problem-solving due to the treatment they received. With a Cohen's d of 0.60, 72.4% of the "treatment" group will be above the mean of the "control" group (Cohen's U3), 76.6% of the two groups will overlap, and there is a 66.3% chance that a person picked at random from the experimental group will have a higher score than a person picked at random from the control group.
Design-Based Research as Professional Development: Results of Prospective Teachers' Participation in the Development of Electrical Circuit Augmented Reality Sites for Students to Increase Scientific Thinking Skills Putri Dwi Agustiningrum; Wirawan Fadly; Primus Demboh
Journal of Science Learning Vol 7, No 1 (2024): Journal of Science Learning
Publisher : Universitas Pendidikan Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17509/jsl.v7i1.63608

Abstract

This research aims to develop ECARsites, an online site designed to support data-related activities in science learning and to facilitate the implementation of data, computational thinking (CT), and self-directed learning (SRL) practices in a more contextualized and relevant way for students. The approach used design-based research (DBR) methods, focusing on developing high-quality learning products or systems that meet user needs. The study was conducted at MA X in Magetan, Indonesia, involving four middle school science teachers and eighteen middle school students. The research findings showed that DBR can be an effective method of professional development for science teachers, focusing on developing relevant and contextual innovations for students. Integrating data practices, CT, and SRL frameworks into the DBR process facilitated the development of students' scientific thinking skills, leading to a more immersive and appropriate science education for today's digital age. The study highlights the importance of using real data in teaching, involving students in data processing, and supporting teachers in designing and implementing data-driven learning. The study also emphasizes the importance of effective professional development in computational thinking and self-directed learning and the need for investment in long-term professional development programs to prepare teachers for an increasingly technology-dependent world of education.
Co-Authors Alfanisa Dwi Pramudia Wardani Alfi Mufidah Juan David Martinez Zayas Nurul Huda Ramadhan Nurzatulshima Kamarudin Primus Demboh Putri Dwi Agustiningrum