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Momentum: Physics Education Journal
Published by Universitas Kanjuruhan Malang
ISSN : 25489127     EISSN : 25489135     DOI : 10.21067
Core Subject : Science,
Physics
Arjuna Subject : -
Articles 15 Documents
 1   2 
Search results for , issue "Vol. 7 No. 1 (2023)" : 15 Documents clear
Implementation of STEM Project-Based Learning (PjBL) student worksheet through the “otok-otok” boat game on engineering thinking skills Angelina, Oktania Putri; Handayani, Rif’ati Dina; Maryani, Maryani
Momentum: Physics Education Journal Vol. 7 No. 1 (2023)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v7i1.7238

Abstract

Physics learning is a science learning branch that explores and explains natural phenomena. Nevertheless, students still consider physics learning difficult because it has several abstract concepts and mathematics. Also, physics learning is rarely conducted in terms of higher-order thinking processes. This study aims to investigate students’ engineering thinking skills using STEM PjBL on the “Otok-Otok” boat game. This type of research is qualitative research with a single case study method. Data were gathered through interviews, observation, and documentation. The data obtained were analyzed using a content analysis method. The results showed that the students’ engineering thinking skills were excellent. STEM-PJBL directs students in structuring the engineering thinking skills. Students can solve problems in a structured way, from identifying issues to analyzing alternative solutions to problems. This study is expected as essential information to implement STEM-PJBL for teachers in their physics learning.
Developing Mobile Learning of Physics (MOBLEP) with android-based problem-based learning approach to improve students’ learning independence Fathurohman, Apit; Murniati, Murniati; Sukemi, Sukemi; Susiloningsih, Esti; Erni, Erni; Kurdiati, Lintang Auliya; Samsuryadi, Samsuryadi
Momentum: Physics Education Journal Vol. 7 No. 1 (2023)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v7i1.7980

Abstract

This development research aims to produce Mobile Learning of Physics (Moblep) by applying Android-based Problem Based Learning Approach to Increase Student Learning Independence which is valid and practical. The development model used is the Rowntree model modified with Tessmer's formative evaluation method. The tessmer's formative evaluation stages in this study include self-evaluation, expert review, one-to-one, and small group. At the expert review stage, data were collected through interviews, expert tests, and questionnaires using nine material experts, nine design experts, and eleven language experts. The one-to-one stage and the small group stage were carried out at SMA Negeri 1 Suak Tapeh. The results showed that the Mobile Learning of Physics (Moblep) with the Android-based Problem-Based Learning Approach that was developed, based on the results of the expert review, obtained a total percentage score of 94.73% from the validator and was included in the "very valid" category. Based on the results of the student response questionnaire at the one-to-one evaluation stage, the average percentage was 83.5%, and at the small group stage, the average percentage was 95.2%, so this Moblep was included in the "very practical" category.The implication of this research is that the results of this study can be applied as reference material and considered as additional references for further research.
The assessment of student numeracy ability for sustainable learning in Indonesia: A study in a high school science class Listianingrum, Serly Anggraini; Istiyono, Edi; Zakwandi, Rizki; Chusni, Muhammad Minan
Momentum: Physics Education Journal Vol. 7 No. 1 (2023)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v7i1.7724

Abstract

This study aimed to measure student numeracy ability within the context of physics on the kinetic theory of gases. This study employed a quantitative method with descriptive and parametric statistics analysis. Sixty-two sample students were measured for numeracy ability. The research instrument applied was the ten numeration questions that had been tested empirically. The research indicates that the student cognitive level positively influences numeracy ability with an effect size value of 0.682 and an Adj. R2 value of 0.676. Furthermore, gender-related analysis proves that there is no gap in the numeracy ability with an effect size value of 0.030 and Adj. R2 is 0.014. This study has implications for designing physics learning that develops numeracy ability, especially in determining learning designs that accommodate cognition level and gender.
Meta analysis of the effect of STEM application on higher order thinking skill in science learning Azizahwati, Azizahwati; Januarti, Januarti; Sari, Siti Wulan; Sari, Ranti Amelia; Ranti, Linda; Septyowaty, Rury
Momentum: Physics Education Journal Vol. 7 No. 1 (2023)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v7i1.7959

Abstract

The purpose of this research is to ascertain the impact of using the STEM approach in learning science and physics. The 20 research articles whose findings were examined in this study were all published in journals between 2018 and 2022. Effect size values used in the meta-analysis in this study were calculated using the OpenMEE program. Four indicators—level of education, learning models, learning media, and higher-order thinking skills—can be used to determine the impact of STEM (HOTS) learning. The average effect size on educational attainment is 1,590 at the junior high school level and 1,440 at the senior high school level. The average effect size for STEM learning with the PjBL learning model is 1.490, PBL is 1.250 and inquiry learning is 0.333. According to the average effect size results obtained for LKPD of 1.878, module of 1.818, and LKP of 1.503, this study examines the impact of STEM on the media. The average effect size score was obtained for higher order thinking skills (HOTS) for problem solving skills of 1.699, critical thinking skills of 1.899, scientific literacy abilities of 1.126, concept understanding of 0.997, and creative thinking abilities of 0.951. According to the findings of the effect size study, STEM learning is appropriate for use at the junior high school level with the PjBL learning approach using LKPD learning media to strengthen students' critical thinking skills.
The learning program validity of using the ExPRession model to stimulate students’ systems thinking and numeracy skills Haryanti, Septina Sri; Herlina, Kartini; Abdurrahman, Abdurrahman
Momentum: Physics Education Journal Vol. 7 No. 1 (2023)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v7i1.8096

Abstract

This study aims to describe a learning program using the ExPRession model which is valid in stimulating students' systems thinking and numeracy skills on the topic of light interference. The design of this research is Design and Development Research (DDR). The data from this study were in the form of validity test results which were analyzed using mixed methods (quantitative and qualitative). The results of the data analysis showed that the learning program developed obtained a score percentage of 91.1% with very valid criteria. Based on the results of data analysis, it can be concluded that the learning program with the Expression model is very valid to stimulate students' systems thinking and numeracy skills. This is because the content validity shows that the learning program using the Expression model can be applied in learning Physics in Senior High School Class XI in the even semester on the topic of Optics (Light Interference) to stimulate students' systems thinking and numeracy skills. Furthermore, in terms of media and design validity, the teaching materials in this learning program are very interactive or multimedia-based. Therefore, they can be innovations to attract interest and motivate students to learn.

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