Volume 07 Issue 03 March 2024
1Miftah Khairani, 2Jasruddin, 3Muhammad Arsyad
1Department of Physics Education, State University of Makassar, South Sulawesi, 90222.
2,3Faculty of Mathematics & Natural Sciences, State University of Makassar, South Sulawesi, 90222.
DOI : https://doi.org/10.47191/ijsshr/v7-i03-22Google Scholar Download Pdf
ABSTRACT
This research is a True experimental study with a 2x2 factorial design aimed at finding the influence of the STEM approach and students' collaboration abilities on physics problem-solving skills. Sampling in this study used a simple random sampling technique with the class lottery, resulting in a sample of 31 students in the experimental class and 31 students in the control class. This study was executed by providing treatment as a STEM approach to fluid material. Data on students' collaboration abilities were collected using questionnaires, while data on physics problem-solving skills were collected using tests. The research data were analysed using Two-Way ANOVA statistical tests. The research results show that: (1) πΉπππ’ππ‘ (625.72) > πΉπ‘ππππ (3.33), meaning there are differences in physics problem-solving skills between students taught using the STEM approach and the scientific approach, (2) πΉπππ’ππ‘ (1,793.79) > πΉπ‘ππππ (3.33), meaning for high collaboration abilities, there are differences in physics problem-solving skills between students taught using the STEM approach and the scientific approach, (3) πΉπππ’ππ‘ (1,792.37) > πΉπ‘ππππ (3.33), meaning for low collaboration abilities, there are differences in physics problem-solving skills between students taught using the STEM approach and the scientific approach, (4) πΉπππ’ππ‘ (-34,125.75) < πΉπ‘ππππ (3.33), meaning there is no interaction between the STEM approach and students' collaboration abilities on physics problem-solving skills.
KEYWORDS:STEM Approach, Collaboration Ability, Physics Problem Solving Skill
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