ESCALATION IN STUDENTS’ SCIENCE PROCESS SKILLS ON CHAPTER WAVE VIBRATION AND SOUND THROUGH GUIDED INQUIRY LEARNING MODEL
DOI:
https://doi.org/10.15575/jotalp.v5i2.8613Keywords:
taraskaAbstract
This study aims to determine: (1) the effect of guided inquiry models on students' science process skills, (2) improvement of skills the science process of students with learning inquiry models, This research is a quasi-experimental study with non-equivalent control group design. Data collection techniques used were test and non-test. The instruments in this study were a pretest-posttest cognitive ability test sheet, student worksheets and an observation sheet for science process skills. The data analysis technique used is non-parametric statistics with the Mann Whitney U test, Normalized Gain (N-Gain) and descriptive analysis. The results of this study are that (1) Physics learning using guided inquiry learning models influences the cognitive abilities of students with a significance level (sig. 2-tailed) of 0.013. (2) Physics learning using guided inquiry learning models can improve students' cognitive abilities with an average value of n-gain of 0.701 which is included in the high criteria.
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Keywords: Guided Inquiry, Science Process Skills, Cognitive Skills, Wave Vibration and Sound.
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Journal of Teaching and Learning Physics is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License



