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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 180 Documents
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The implementation of RADEC learning model in thematic learning to increase the concept understanding of electrical phenomenon Wati Rohmawatiningsih; Indriyani Rachman; Kodama Yayoi
Momentum: Physics Education Journal Vol 5 No 2 (2021)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v5i2.5412

Abstract

This research is motivated by the large number of elementary school classrooms that do not offer quality science experiences to students so that it has an impact on students' low understanding of the science concept. The RADEC (Read-Answer-Discuss-Explain And Create) learning model seems suitable for increasing students' understanding of science concepts. This learning model has scientific stages that encourage the cons-truction of students' knowledge. This study aims to analyze the increased understanding of the concept of electrical phenomena through the application of the RADEC learning model. The study involved twenty-eight grade 5 students in the 2019-2020 academic year. Quasi-experimental method with one-group pretest-postest design was used in this study. To find out the understanding of students' concepts about electrical phenomena, tests were carried out before and after the implementation. This study uses descriptive analysis to analyze data collected before and after implementation. From the results of the analysis, it is known that students' understanding of the concept of electrical phenomena after the implementation of the RADEC learning model is higher than before. Thus, it can be concluded that the application of the RADEC learning model can improve students' conceptual understanding of electrical phenomena.
High impact on students’ understanding of atomics radius on crystals geometry concept through implementation of JITT with 3D animation Hena Dian Ayu; Akhmad Jufriadi; Ratri Andinisari
Momentum: Physics Education Journal Vol 5 No 2 (2021)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v5i2.5557

Abstract

This study was conducted to analyze the students 'initial and final understanding after the application of JITT with 3D animation, to identify students' responses and arguments, and to determine the impact of using JITT with 3D animation. This research involved 43 students of the 6th semester of the 2019-2020 academic year of the Physics Education study program of the Universitas PGRI Kanjuruhan Malang who took solid state physics course. Students' initial and final understanding was analyzed through responses and arguments presented during the pretest, while the impact of JITT application with 3D animation was analyzed based on the results of the pretest and posttest as well as student responses during the learning process expressed through short interviews and discussions. The qualitative and quantitative data generated from the mixed-method approach were analyzed simultaneously. The results show that the students understand that the atomic radius for all the different crystal lattices is the same, namely a/2. This was awakened by an early understanding of the general definition of the radius. However, after following the JITT stages with 3D animation, their understanding changed that the atomic radius of each crystal lattice is different in length. In addition, the results of statistical analysis showed that there was a very significant increase in the students' mastery of concepts from an average of 26.9 to 96.7. Meanwhile, the N-gain value is very high, namely 0.96 in the very effective category, which illustrates that JITT with 3D animation has had a high impact on students' understanding of atomic radius in the concept of crystal geometry.
Prospective physics teacher’s ability in developing HOTS questions: CRI analysis Nurul Ain
Momentum: Physics Education Journal Vol 5 No 1 (2021)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v5i2.5566

Abstract

Higher order thinking skills (HOTS) are very important skills to be taught to students in the 21st century. The role of teachers is very important in improving students' high-level skills. This study aims to determine whether or not prospective physics teachers have misconceptions in compiling HOTS cognitive questions. The emergence of miscon-ceptions shows that the ability of prospective physics teachers is still low in composing HOTS cognitive questions. The research subjects were all final semester prospective physics teachers who took the learning evaluation course at the Universitas PGRI Kanjuruhan Malang in the even semester of 2019/2020. The data collection technique is documentation. The data is taken from the final project document in the learning evaluation course, where prospective physics teachers are asked to make cognitive ques-tions from levels C1 to C6 and are asked to state their beliefs about the questions they have made. The data were analyzed in the descriptive qualitative way to determine the misconceptions of prospective physics teachers. The results showed that prospective physics teachers were not yet able to compile HOTS cognitive questions. Recommenda-tions for the preparation of HOTS questions are also given in this paper.
Analyzing student inquiry in online and offline classes during the Covid-19 pandemic through momentum and impulse worksheets Habibah Khusna Baihaqi; Jumadi Jumadi; Annisaa’ Mardiani; Racy Religia
Momentum: Physics Education Journal Vol 5 No 2 (2021)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v5i2.5567

Abstract

During the Covid-19 pandemic, it is necessary to develop an effective physics learning media used in a short learning time. This study aims to develop a package of worksheets based on an inquiry learning model that is integrated with traditional games. This research is a research and development using 4D model which is carried out at the define, design and develop stages. Validation was carried out by 3 experts and the worksheets were tested on 45 students of class X consisting of online and offline classes. The results of the development show that the momentum practicum worksheet is 3.68 in the valid range, the law of conservation momentum practicum worksheet is 3.66 in the valid and very good range, the coefficient of restitution and type of collision practicum worksheets are 3.74 and 3.73 in the valid and very good range, also the worksheet package scored 3.67 which means valid and very good. The implementation of learning is 98.21% and the readability questionnaire shows that 82.27% of students agree that the worksheet developed is very interesting and easy to use. The achievement of the inquiry process in the online class is 86.10 while in the offline class is 93.84. The results show that this worksheet is effective in optimizing the inquiry process both online and offline so that it can be used to investigate the topic of momentum and impulse by class X science students during the Covid-19 pandemic.
Mathematical physics e-module: A study of students' perception based on gender Astalini Astalini; Darmaji Darmaji; Dwi Agus Kurniawan; Nadia Natalia Simamora
Momentum: Physics Education Journal Vol 5 No 2 (2021)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v5i2.5602

Abstract

Student’s perception is the student's assessment of something or information. The objective of this study was to discover how students' general perceptions and gender differences in electronic modules of mathematical physics. The research type is survey-based research with quantitative approach. The research population consists of physics education students from Universitas Jambi with the sample of 80 students from class A and class B. The data analysis techniques used in the study are descriptive statistics analysis and inferential data analysis using t-tests. The results showed that, overall, students have a positive perception with a Sig. (2-tailed) value of 0.011 < 0.005, which means that there is a significant difference in students’ perception. The perception of class A students with gender differences has a Sig. (2-tailed) value of 0.003, while the grade B students have a Sig. (2 tailed) values of 0.020 and 0.013. This means that class A and classs B students have a discernible difference of perception. Student’s perception may be used as a determining factor in the choice of learning materials. This research can be used as a guideline for the development of student perception assessment in the electronic module of Mathematical Physics in the future. The update of this study aims to compare students' perceptions of the overall online module of mathematics and gender differences.
Conceptual framework on teaching capacitors and inductors Mustafa Erol; Esra Bilal Önder
Momentum: Physics Education Journal Vol 5 No 2 (2021)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v5i2.5630

Abstract

The objective of this work is to suggest a conceptual framework on teaching capacitors and inductors in order to improve teaching abilities and to eliminate some fundamental misconceptions. The effort initially deals with resolution of physical structure and structural concepts/parameters of the devices and then resolves DC and AC responses of the inductors and capacitors. The resolutions are achieved by considering basic serious RL and RC circuits and resolving the circuits both theoretically and experimentally. As a result, an alternative teaching approach is offered and also a novel instructional material is developed and suggested. Some teaching clues are briefly inserted to guide teachers/instructors to reach a higher comprehension level. It is believed that the implications of the developed teaching material would be quite high and beneficial.
Design and development EduPocket A+ Norfaridatul Akmar; Nur Yasmin Nadhirah; Ainul Tasneem; Iman Sabrina; Fitrah Nasuha
Momentum: Physics Education Journal Vol 5 No 1 (2021)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v5i1.5700

Abstract

The objective of Science, Technology, and Engineering Mathematics (STEM), is not only focused on scientific knowledge and concepts but 21st century skills such as collaborative skills, communication, critical thinking, creativity and computational thinking should be emphasized in science learning. This concept paper discusses how to develop the EduPocket A+ and this application features easy-to-grasp notes and animations to present the Physics syllabus in a simple manner. EduPocket A+ is an (Android APK) application where individuals are able to access notes) through interactive means as well as prep individuals to answer essay questions for the SPM Physics Paper 2. A review of the literature shows that educational games can improve student academic achievement. In addition, this learning approaches provide a fun learning environment, increasing active engagement students in learning, and increase students ’interest and motivation in STEM education. However, studies on game-based learning involving students as educational games designers or inventors are still lacking in Malaysia, especially at the secondary school. Furthermore, relatively little research has focused on the development of Edu-PocketA+ as effectiveness of educational games mastery of 21st century skills in STEM. Therefore, this concept paper discusses the development of EduPocketA+ that involving students in making games in learning, facilitating strategies in physics learning concepts and improve 21st century skills among students.
Needs analysis of physics e-module based on hybrid-PBL model on critical thinking skills improvement Fitri Rahmawati; Sarwanto Sarwanto; Sri Budiawanti
Momentum: Physics Education Journal Vol 5 No 2 (2021)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v5i2.5740

Abstract

The purpose of this study was to determine the need for teaching materials in the form of physics e-module based on Hybrid-PBL model in schools. This research applied a descriptive method. Data were collected using a needs analysis questionnaire with 14 respondents of physics teachers spread across several regions in Indonesia and 36 respondents of class XI students in SMA Negeri 2 Sragen. Based on the results of the questionnaire, the teachers indeed need teaching materials in the form of e-module and all teachers also agree that the Hybrid-PBL model can be applied in physics learning. Students are also interested in learning physics using teaching materials that can display images, videos, animations, and simulations as well as learning by involving problems in the surrounding environment. So it can be concluded that teachers and students need a physics e-module based on Hybrid-PBL model.
Developing authentic assessment instrument based on multiple representations to measure students' critical thinking skills Muhammad Minan Chusni; Suherman Suherman
Momentum: Physics Education Journal Vol 5 No 2 (2021)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v5i2.5790

Abstract

The purpose of this study was to produce an instruments test used to measure students' critical thinking skills in natural science learning. This research uses a 4-D development model (define, design, develop, and disseminate) involving 118 students at the develop stage and 60 students at the disseminate stage. The instrument developed was an essay test based on multiple representations. Validity was proved by using CVI, and reliability was estimated by using the Item Response Theory. The results showed that the instrument had a very good foreign exchange value. This is reflected in the Aiken V scores on the aspects of substance, construct, language and appearance, respectively, about 1.00, 1.00, 1.00, and 1.00. According to Rasch analysis, the instruments has meet the assumption test for 14 items which is unidimensional, the local independence assumption test, and the parameter invariance assumption test. According to OUTFIT MNSQ Value, the items are fit with PCM 1-PL which functions normally in making measurements. Reliability estimated for items shows a very high consistency of measurement of 0.97 and for person shows a high consistency of measurement of 0.86. The results of the student's CTS measurement showed that the average score was 65.50, with a distribution of high, medium, and low abilities, respectively, about 16.67%, 63.33%, and 20.00%. Thus, according to these results, an authentic assessment based on multiple representations is suitable to measure students' critical thinking skills.
Teaching electromagnetism using interactive-invention instructional strategy and the learning outcome of secondary school students Edidiong Enyeneokpon Ukoh
Momentum: Physics Education Journal Vol. 6 No. 1 (2022)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v6i1.5463

Abstract

Electromagnetism is an important aspect of physics in Nigerian secondary school curriculum and has been identified as one of the difficult topics to learn by the students. There seem to be very little research on how to make the learning of electromagnetism easy and enjoyable. Therefore, this study determined the effect of teaching electromagnetism using interactive-invention instructional strategy on senior secondary II (SSII) physics students learning outcome. Pretest posttest control group quasi-experimental research design was employed with 125 SSII students from three randomly selected schools. Intact classes were used and two experimental groups were taught using interactive-invention instructional strategy: group I students worked individually and group II students worked in groups of five and control group was taught conventionally. Two research instruments were used to gather data for the study, namely physics achievement worksheets and in-class interview guide. Students in the experimental groups demonstrated better understanding of the concepts more than those in the control group. In-class interview was carried out at the end of the treatment and all the students in the experimental groups reported that they enjoyed learning the concepts because they had opportunity for hands-on activities and they will prefer that electromagnetic concepts be taught using instructional materials they could manipulate to observe what happens by themselves. It was recommended that teachers use this strategy where hands-on activity-based was emphasized to enhance easy learning of electromagnetism.

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