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All Journal Jurnal Pendidikan IPA Indonesia Jurnal Pendidikan dan Pembelajaran IPA Indonesia
K. Selamet
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PENGARUH MODEL PEMBELAJARAN KONTEKSTUAL REACT TERHADAP PEMAHAMAN KONSEP FISIKA DAN KETERAMPILAN PROSES SAINS SISWA KELAS VIII SMP Selamet, K.; Sadia, I. W.; Suma, K.
Jurnal Pendidikan IPA Vol 3, No 1 (2013)
Publisher : Jurnal Pendidikan IPA

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Abstrak Penelitian ini bertujuan untuk (1) menganalisis perbedaan pemahaman konsep fisika dan keterampilan proses sains antara kelompok siswa yang belajar dengan model pembelajaran kontekstual REACT (MPKREACT) dengan kelompok siswa yang belajar dengan model pembelajaran konvensional (MPK). (2) Menganalisis perbedaan pemahaman konsep fisika antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK. (3) Menganalisis perbedaan keterampilan proses sains antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK. Jenis penelitian ini adalah kuasi eksperimen dengan rancangan pretest and posttest control group design. Subjek penelitian ini adalah siswa kelas VIII SMP PGRI 9 Denpasar tahun pelajaran 2012/2013. Pengambilan sampel penelitian dilakukan dengan teknik simple random sampling. Data yang diperoleh dianalisis dengan statistik deskriptif dan MANOVA satu jalur. Berdasarkan hasil penelitian dapat disimpulkan bahwa (1) terdapat perbedaan pemahaman konsep fisika dan keterampilan proses sains antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK (F=25,715; p<0,05). (2) Terdapat perbedaan pemahaman konsep fisika antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK (F=47,844; p<0,05). (3) Terdapat perbedaan keterampilan proses sains antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK (F=8,795; p<0,05).   Kata kunci: Pembelajaran kontekstual REACT, pemahaman konsep fisika, keterampilan proses sains Abstract This study aims to (1) analyze the differences in understanding of physics concepts and science process skills among groups of students who study with contextual teaching and learning REACT model (MPKREACT) with a group of students who studied with conventional learning models (MPK). (2) Analyze the differences in understanding of physics concepts among groups of students who study with MPKREACT with a group of students who studied with MPK. (3) Analyze the differences in science process skills among groups of students who study with MPKREACT with a group of students who studied with MPK. The subjects were eighth grade students of SMP PGRI 9 Denpasar academic year 2012/2013. Sampling of the research was conducted by simple random sampling technique. Data were analyzed with descriptive statistics and MANOVA one lane. Based on the results of this study concluded that (1) there are differences in understanding of physics concepts and science process skills among the group of students who studied with MPKREACT with a group of students who studied with MPK (F=25,715; p<0,05). (2) There are differences in understanding of physics concepts among the group of students who studied with MPKREACT with a group of students who studied with MPK (F=47,844;         p<0,05). (3) There are differences in science process skills among the group of students who studied with MPKREACT with a group of students who studied with MPK (F=8,795; p<0,05). Keywords: Contextual teaching and learning REACT, understanding of physics concept, science process skills
PENGARUH MODEL PEMBELAJARAN KONTEKSTUAL REACT TERHADAP PEMAHAMAN KONSEP FISIKA DAN KETERAMPILAN PROSES SAINS SISWA KELAS VIII SMP K. Selamet; I. W. Sadia; K. Suma
Jurnal Pendidikan dan Pembelajaran IPA Indonesia Vol 3, No 1 (2013)
Publisher : Jurnal Pendidikan dan Pembelajaran IPA Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (119.977 KB)

Abstract

Abstrak Penelitian ini bertujuan untuk (1) menganalisis perbedaan pemahaman konsep fisika dan keterampilan proses sains antara kelompok siswa yang belajar dengan model pembelajaran kontekstual REACT (MPKREACT) dengan kelompok siswa yang belajar dengan model pembelajaran konvensional (MPK). (2) Menganalisis perbedaan pemahaman konsep fisika antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK. (3) Menganalisis perbedaan keterampilan proses sains antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK. Jenis penelitian ini adalah kuasi eksperimen dengan rancangan pretest and posttest control group design. Subjek penelitian ini adalah siswa kelas VIII SMP PGRI 9 Denpasar tahun pelajaran 2012/2013. Pengambilan sampel penelitian dilakukan dengan teknik simple random sampling. Data yang diperoleh dianalisis dengan statistik deskriptif dan MANOVA satu jalur. Berdasarkan hasil penelitian dapat disimpulkan bahwa (1) terdapat perbedaan pemahaman konsep fisika dan keterampilan proses sains antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK (F=25,715; p<0,05). (2) Terdapat perbedaan pemahaman konsep fisika antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK (F=47,844; p<0,05). (3) Terdapat perbedaan keterampilan proses sains antara kelompok siswa yang belajar dengan MPKREACT dengan kelompok siswa yang belajar dengan MPK (F=8,795; p<0,05).   Kata kunci: Pembelajaran kontekstual REACT, pemahaman konsep fisika, keterampilan proses sains Abstract This study aims to (1) analyze the differences in understanding of physics concepts and science process skills among groups of students who study with contextual teaching and learning REACT model (MPKREACT) with a group of students who studied with conventional learning models (MPK). (2) Analyze the differences in understanding of physics concepts among groups of students who study with MPKREACT with a group of students who studied with MPK. (3) Analyze the differences in science process skills among groups of students who study with MPKREACT with a group of students who studied with MPK. The subjects were eighth grade students of SMP PGRI 9 Denpasar academic year 2012/2013. Sampling of the research was conducted by simple random sampling technique. Data were analyzed with descriptive statistics and MANOVA one lane. Based on the results of this study concluded that (1) there are differences in understanding of physics concepts and science process skills among the group of students who studied with MPKREACT with a group of students who studied with MPK (F=25,715; p<0,05). (2) There are differences in understanding of physics concepts among the group of students who studied with MPKREACT with a group of students who studied with MPK (F=47,844;         p<0,05). (3) There are differences in science process skills among the group of students who studied with MPKREACT with a group of students who studied with MPK (F=8,795; p<0,05). Keywords: Contextual teaching and learning REACT, understanding of physics concept, science process skills
The Effectiveness of Introduction to Astronomy Teaching Materials to Improve Problem-Solving and Generic Science Skills Pujani, N. M.; Arsana, K. G. Y.; Suma, K.; Selamet, K.; Erlina, N.
Jurnal Pendidikan IPA Indonesia Vol 11, No 2 (2022): June 2022
Publisher : Program Studi Pendidikan IPA Fakultas Matematika dan Ilmu Pengetahuan Alam (FMIPA)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpii.v11i2.34801

Abstract

This study aims to analyze the effectiveness of introductory astronomy teaching materials with inquiry settings on students' problem-solving and generic science skills. This study used a quasi-experimental design with the one-group pretest-posttest design. The research subjects were one class of 23 fourth-semester science education students. Data on problem-solving skills were collected using a test method with ten essay questions, and generic science skills data were collected using 30 multiple-choice questions. Data analysis was carried out descriptively, and a t-test with a significance level of 0.05. The analysis results showed that the use of inquiry-based introductory astronomy teaching materials in astronomy learning was effective in improving the problem-solving skills (p0.05, g = 0.67 medium categories) and generic science skills (p0 .05, g = 0.53 moderate type). So, it can be concluded that introductory astronomy teaching materials with inquiry settings effectively improve students' problem-solving and generic science skills.
Co-Authors Arsana, K. G. Y. Erlina, N. I. W. Sadia K. SUMA N. M. Pujani