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All Journal Jurnal Pendidikan Indonesia Proceeding Biology Education Conference
Bakti Mulyani
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Biochemistry, Genetics & Molecular Biology Education Materials Science & Nanotechnology Medicine & Pharmacology Public Health

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PENERAPAN PENDEKATAN SCIENCE, ENVIRONMENT, TECHNOLOGY AND SOCIETY (SETS) BERBANTUAN MACROMEDIA FLASH DILENGKAPI ARTIKEL ILMIAH TERHADAP PENINGKATAN PRESTASI BELAJAR SISWA PADA MATERI PERUBAHAN FISIKA DAN KIMIA Nunuk Nurcahyani A; Lina Mahardiani; Bakti Mulyani
Proceeding Biology Education Conference: Biology, Science, Enviromental, and Learning Vol 9, No 1 (2012): Prosiding Seminar Nasional IX Biologi
Publisher : Universitas Sebelas Maret

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ABSTRAK   The aim of this research is to know the influence of Science Environment Technology and Society (SETS) learning approach using macromedia flash completed with scientific articles toward the improvement of  the student achievement on the subject matter of physical and chemical changes for seventh grade students SMP 14 Surakarta academic year of 2010/2011. This research used an experiment method using Randomize Control Group Pretest Postest Design. The population of this research was student of seventh grade of SMP 14 Surakarta in academic year 2010/2011. The sample consists of 2 classes, VII D as an experiment class (SETS learning approach using macromedia flash completed scientific articles) and VII E as the control class (conventional method) that obtained by cluster random sampling technique. The data of this research are collected by objective test to measure the cognitive achievement and questioner test to determine the affective achievement. Technique of analysis data used was t-test on the right. The result of this research showed that learning approach of SETS using macromedia flash completed scientific articles is more effective than conventional method toward the student achievement on the subject matter of Physical and Chemical Changes for seventh grade students even semester in SMP 14 Surakarta academic year of 2010/2011. It showed from the result of t-test that tobs > ttable are 3,63 > 1,67 for cognitive aspect achievement and 2,91 > 1,67 for affective aspect achievement. Furthermore, based on the average of cognitive achievement of the experiment class (21,611) was higher than control class (16.361). This result was also has the same value for affective achievement where for the experiment class (94,556) was higher than control class (88,111)   Kata Kunci: SETS, Macromedia flash, scientific article, Physical and Chemical  Changes.
Problem-Based Learning Model on Students' Chemical Literacy and Critical Thinking on Reaction Rate Material Fareza, Fadhila Shafa; Van Hayus, Elfi Susanti; Ari Syahidul Shidiq; Sri Yamtinah; Mohammad Masykuri; Maria Ulfa; Agung Nugroho Catur Saputro; Bakti Mulyani
Jurnal Pendidikan Indonesia Vol 13 No 3 (2024): September
Publisher : Lembaga Penelitian dan Pengabdian kepada Masyarakat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23887/jpiundiksha.v13i3.79331

Abstract

This study was motivated by students'students' low chemical literacy skills and critical thinking skills. One way to overcome this problem is to actively use a learning model involving students, such as problem-based learning (PBL). This research aims to analyze the effect of PBL on students' chemical literacy and critical thinking skills. This study used a quantitative approach with a quasi-experimental method. The research design used was a non-equivalent control group design. The sample selection technique used was cluster random sampling, which was done by selecting 70 second-grade high school students. Data collection using tests with instruments in the form of essay test sheets regarding posttest chemical literacy skills with as many as seven questions and posttest critical thinking skills with as many as five questions. Data analysis techniques using non-parametric statistical tests. Hypothesis testing using the Kruskal-Wallis test. The results showed a significant difference between students taught with the PBL model and students who were not trained with the model. Applying the PBL model is proven to affect students' chemical literacy and critical thinking skills. Thus, it can be concluded that the application of PBL can significantly improve students' chemical literacy and essential thinking skills compared to learning methods that do not use the model. This study implies that problem-based learning models can influence students' chemical literacy and critical thinking skills with implementation tailored to the context and material in this study, namely reaction rates.
Co-Authors Agung Nugroho Catur Saputro Ari Syahidul Shidiq Elfi Susanti Van Hayus Fareza, Fadhila Shafa Lina Mahardiani Maria Ulfa Mohammad Masykuri Nunuk Nurcahyani A Sri Yamtinah