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MAGNETON: Jurnal Inovasi Pembelajaran Fisika
Published by Universitas Katolik Widya Mandira
ISSN : -     EISSN : 29855764     DOI : 10.30822/magneton
Core Subject : Science, Education,
Physics Other
Magneton: Jurnal Inovasi Pembelajaran Fisika UNWIRA merupakan terbitan berkala ilmiah yang dikelolah oleh Program Studi Pendidikan Fisika Fakultas Keguruan dan Ilmu Pendidikan (FKIP) Universitas Katolik Widya Mandira (UNWIRA) yang terbit 2 kali dalam setahun atau tiap 6 bulan yaitu bulan Januari dan Juli. Magneton memiliki nomor ISSN (online) 2985-5764 berdasarkan SK ISSN 29855764/II.7.4/SK.ISSN/02/2023. Magneton memuat artikel-artikel hasil penelitian pada bidang pendidikan fisika, pengembangan teori dan hasil pemikiran para praktisi yang bergerak di bidang pendidikan fisika dengan scope: Inovasi pembelajaran fisika; Metode, model, dan pendekatan pembelajaran fisika; Media pembelajaran fisika; TIK dalam pembelajaran Fisika; Evaluasi dan asesmen pembelajaran fisika; Etnofisika. Hasil Penelitian, pengembangan teori dan hasil pemikiran para praktisi yang dimuat pada jurnal ini berasal dari dosen-dosen yang berlatar belakang IPA Khususnya Pendidikan Fisika, Guru-guru IPA dan Fisika, Mahasiswa dan Alumni pada Program Studi Pendidikan Fisika FKIP Universitas Katolik Widya Mandira serta hasil penelitian dari guru-guru maupun dari peneliti-peneliti lainnya.
Arjuna Subject : Ilmu Sosial - Pendidikan
Articles 41 Documents
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Pengaruh Minat Belajar Terhadap Hasil Belajar Peserta Didik Melalui Penerapan Model Inkuiri Terbimbing Berbantuan Simulasi PhET Pada Materi Gerak Harmonik Sederhana Maria Avila; Oktavianus Ama Ki`i; Maria Ursula Jawa Mukin
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 2 No 2 (2024): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | July 2024
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v2i2.3520

Abstract

The problem that is often faced is that many students are less interested and less motivated in learning physics, especially on the concept of simple harmonic motion. This has a negative impact on their learning outcomes, as indicated by low test scores and overall academic achievement. Therefore, an intervention is needed that can improve students' interest in learning and learning outcomes. This study aims to determine the interest and learning outcomes of physics students in class X IPA 6 SMA Negeri 2 Kupang in the guided inquiry learning model assisted by PhET simulation on simple harmonic motion material. This research is a descriptive quantitative study with a simple regression approach that aims to determine the effect between the variable of interest in learning on the variable of learning outcomes. The results of descriptive test analysis for interest variables and learning outcomes showed that the average percentage of interest in learning on pretest was 61% (high category) and on posttest was 72% (very high category); the average percentage of learning outcomes on pretest was 22 (low category) and on posttest was 86 (very high category). The regression test results show a significant effect of learning interest on student learning outcomes on simple harmonic motion material in guided inquiry learning assisted by PhET simulation. The application of guided inquiry learning model assisted by PhET simulation can increase students' learning interest, which in turn significantly improves their learning outcomes on simple harmonic motion material.
Pengembangan Modul Ajar Kurikulum Merdeka Topik Usaha Energi Berbasis Inkuiri Terintegrasi Keterampilan Kolaborasi Yurike Yiniar; Endang Lovisia; Yaspin Yolanda
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 2 No 2 (2024): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | July 2024
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v2i2.3539

Abstract

The problem in this study is how to create a learning tool that is able to increase the knowledge and skills of students and be able to increase the interest of students in participating in learning. The objectives of this study were (1) to develop teaching tools in the form of inquiry-based teaching modules, (2) to improve collaboration skills and (3) to improve students' communication skills after using inquiry-based teaching modules in learning effort and energy. This research is a development research using the 4D development model. The subjects of this research were students of class XI MAN 2 Lubuklinggau. The data collection technique used is in the form of validation sheets, and skill observation sheets. Validation obtained based on three validators, namely media experts 51, linguists 73 and material experts 47. Thus, the inquiry-based teaching module is very feasible to use as a learning tool. The results of collaboration skills amounted to 0.71 with a high category, while communication skills amounted to 0.74 with a high category. Based on the research conducted according to the data obtained, the development of inquiry-based teaching modules can improve collaboration skills and communication skills so that it is feasible to use in learning.
Analisis Kemampuan Mahasiswa Fisika Menggunakan Multimeter Analog Dalam Praktikum Elektronika Analog Aura Fatima; Yessy Umi Salma; Windy Atika Sari; Pujianto; Bayu Setiaji
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 2 No 2 (2024): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | July 2024
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v2i2.3546

Abstract

The ability of physics students related to the use of multimeters in practicum is still invaluable. This results in the data of practicum conducted by students. This study aims to determine the ability of physics students in the use of multimeters. The research method used is a quantitative method using an observation questionnaire when the practicum is carried out for one semester. The research was conducted on students of the physics study program in 2nd semester. In the use of multimeters as ohm meters, there are 46.66% of groups that have done the first step, 40% of the groups have done the second step, and 73.33% of the groups have done the third step. Then, in the use of multimeters as ammeters, 40% of the group has done the first step, 53.33% of the group has done the second step, and 73.33% of the group has done the third step. Meanwhile, in the use of multimeters as voltmeters, 40% of the group has done the first step, 46.66% of the group has done the second step, and 66.66% of the group has done the third step. The results of this study show that most students still go through several steps that need to be taken in the use of analog multimeters, starting from their use as ohmmeters, ammeters, to voltmeters.
Analisis Kelayakan Modul Model Project Based Learning Berbasis Kearifan Lokal Dalam Upaya Meningkatkan Pemahaman Konsep Fisika Materi Suhu Dan Kalor Melani Dyah Ayu Sukma; Tsania Nur Diyana
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 2 No 2 (2024): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | July 2024
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v2i2.3549

Abstract

This development research aims to determine the feasibility of learning tools in the form of learning modules with a project based learning model to increase students' conceptual understanding of temperature and heat material. This research is based on the results of preliminary research which states that students still have a low understanding of concepts in the material and lack the latest innovations in learning tools. This research was carried out using the 4D model, but in this research This is only done until the development stage. The learning tools developed in this research are learning modules. The feasibility of the learning module was reviewed based on the validation results carried out by 4 expert validators, with the results of the analysis all producing scores in the very good category for all aspects of the learning module. Based on the results of the validator analysis, it can be concluded that in this research the learning module with the project based learning model developed by the researcher is suitable for use to increase students' understanding of physics concepts in temperature and heat material.
Efektivitas Media Pembelajaran Simulasi PhET Terhadap Kemampuan Literasi Digital Dan Hasil Belajar Siswa Pada Materi Elastisitas Dan Hukum Hooke Koilmo, Olifa; Suban Hali, Antonius; Kameo, Welhemina
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 3 No 1 (2025): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | January 2025
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v3i1.3640

Abstract

Digital literacy is one of the most important skills for students to master in the current digitalization era. The use of technology-based learning media has a considerable impact on students' digital literacy skills. This can help students in developing digital literacy skills through the use of interactive learning media. The purpose of this study was to determine the effectiveness of PhET simulation virtual lab learning media on digital literacy skills and student learning outcomes. This research is a type of pre-experiment research with a one group pretest-posttest research design. The subjects of this study were all students of class XI IPA 2 SMA Negeri Kapan, totaling 30 students. The results of the data were analyzed using the N-Gain test and obtained data on students' digital literacy skills with an average N-Gain value of 0.73>0.7 and N-Gain percentage (%) of 73>70, and student learning outcomes obtained from the average N-Gain value of 0.72>0.7 and N-Gain percentage (%) of 72>70. Based on data analysis, it is said that the use of PhET simulation virtual lab learning media is effective in improving digital literacy skills and student learning outcomes
Implementasi Project Based Learning Dengan Pendekatan STEM Untuk Meningkatkan Kreativitas Berpikir Santri Pada Materi Termodinamika Aini, Qurotul; Saefullah, Asep; Rostikawati, Diana Ayu
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 3 No 1 (2025): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | January 2025
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v3i1.3689

Abstract

This study was conducted to determine how the effect of the implementation of the Project Based Learning (PjBL) model with the STEM approach on improving students' creative thinking skills on the material of the law of thermodynamics, with data collection techniques through pretest, posttest and questionnaire. The STEM approach is believed to be able to stimulate students to be more creative by integrating science, engineering, mathematics, and engineering in the learning process. The sampling technique used was Purposive Sampling, the sample amounted to 30 people who were students of Pondok Pesantren Modern Assa'adah Serang Banten. The analysis method used in this research is Quantitative Data Analysis. The results showed that there was an effect of the PjBL model with the STEM approach on improving the creative thinking skills of students on the material of the law of thermodynamics. The results of the posttest analysis obtained a p-value = 0.002. This shows that the p-value (sig) <0.05, so H0 is rejected. The PjBL model with the STEM approach is proven to improve the creative thinking skills of students on the material of the law of thermodynamics. The average N-gain score of the experimental class (Pjbl STEM Model) is 0.6640 or 66.4%, the minimum N-gain score is 50.00% and the maximum is 94.00%, including the moderately effective category. While the N-gain score of the control group (PBL Model) was 0.3707 or ineffective category of 37.1%, the minimum N-gain score was 11.00% and the maximum was 80.00%. Respondents' perceptions of learning with the Pjbl STEM model are in the good/satisfied category. The results of the average calculation to have the smallest value of 2.93, the largest value of 3.33 and the average value of each item as a whole obtained a value of 3.19 in the range of 3.41-4.20.
Penerapan Metode Eksperimen Berbantuan Lembar Kerja Peserta Didik Untuk Meningkatkan Minat Belajar Fisika Peserta Didik Kelas X SMA Puri, Putri Rose Amanda; Pujianto, Pujianto
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 3 No 1 (2025): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | January 2025
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v3i1.3701

Abstract

Physics learning does not only include products, but also includes processes and attitudes so that it requires experimental methods that can encourage students to carry out scientific activities. Students' interest in learning is one of the obstacles faced in learning physics today so that the purpose of this research is to increase students' interest in learning physics using experimental methods assisted by LKPD. Quantitative method with pseudo experiment type was used in this research. This research was conducted at SMA N 1 Sanden involving 33 students of class XB as the experimental group and 33 students of class XC as the control group. The results of the data analysis of physics learning interest using the Independent Sample T-Test test obtained a significance value of 0.968 which showed that there was no significant difference in the physics learning interest of students who used the experimental learning method assisted by LKPD with students who used the conventional model in the control group. In using the experimental method, teachers must provide preliminary material first, ensure the number of experimental tools is sufficient, and allocate sufficient time so that students' interest in learning can increase
Penerapan Video Animasi IPA Berbasis Saintifik Untuk Meningkatkan Hasil Belajar Siswa Kelas VIII Sakinah, Fera Nur; Amin, Ahmad; Gumay, Ovilia Putri Utami
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 3 No 1 (2025): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | January 2025
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v3i1.3728

Abstract

This research aims to determine the improvement in learning outcomes of class VIII students at SMP YP Bakti Ibu 11 Lubuklinggau after implementing scientific-based science animation videos. The researcher also conducted interviews with class VIII students at SMP YP Bakti Ibu 11 Lubuklinggau who thought that physics science lessons had a lot of formulas and a lot of calculated material, therefore the view emerged from class VIII students at SMP YP Bakti Ibu 11 Lubuklinggau that physics science lessons were difficult. In learning process conditions like this, the learning process is mostly monotonous and the learning atmosphere is passive. Even though the learning media at school are in the form of textbooks, power points and e-modules, students should be more creative in looking for learning media from various sources. So with the background of the problem based on interviews with teachers and students, we need a physical science learning media that attracts students' attention and makes students motivated in learning Physics Science which is considered difficult because there are many calculations, and can support the learning process in the 2013 curriculum, so the researcher wants to implement scientific-based science animation video learning media which aims to make it easier for teachers to convey learning material concisely, and attract students' attention so that they are motivated to learn physics science so that students no longer think that physics science lessons are difficult because of the large number of calculations and formulas.
Pengembangan Instrumen Tes Fisika Berbasis Multirepresentasi Pada Materi Gerak Melingkar Fitria, Wardatul; Syafrizal, Syafrizal; Halimatussakdiah, Halimatussakdiah; Fatmi, Nuraini; Ayunda, Desy Sary
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 3 No 1 (2025): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | January 2025
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v3i1.3890

Abstract

The multirepresentation ability of students at SMA N 2 Bireuen and SMA N 3 Bireuen is still very low based on the results of observations and interviews as well as the distribution of questionnaires to students and several physics teachers at the schools studied. This study aims to develop a multirepresentation-based physics test instrument on circular motion material, which is used as a tool for students' multirepresentation abilities and meets the eligibility criteria of validity, reliability, difficulty level, and item discrimination. The type of research used in this study is Research and Development (R&D) which uses the ADDIE development model, which uses five stages, namely (1) analysis, (2) design, (3) development, (4) implementation, and (5) evaluation. The results of students' multirepresentation abilities found that students were able to answer questions in the very low category 0%, low category 48.75%, medium category 36.25%, and high category 15%. So, it can be concluded that the percentage of students who have the ability to answer multirepresentation questions on average is still relatively low.
Optimalisasi Pemahaman Konsep dan Aktivitas Belajar Fisika Melalui Discovery Learning Berbasis Simulasi PhET pada Materi Hukum Newton Bui, Febriani Susanti; Naen, Alfons Bunga; Maing, Claudia Mariska M.; Freitas, Maria Lia Felizarda
MAGNETON: Jurnal Inovasi Pembelajaran Fisika UNWIRA Vol 3 No 1 (2025): MAGNETON: Jurnal Inovasi Pembelajaran Fisika | January 2025
Publisher : Program Studi Pendidikan Fisika Universitas Katolik Widya Mandira

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30822/magneton.v3i1.3896

Abstract

The lack of understanding of physics concepts and the low active participation of students during the learning process are the main obstacles in physics learning, especially in Newton's Law material, which requires deep conceptual understanding. This study aims to: 1) determine the improvement of students' understanding of physics concepts through the application of the discovery learning model assisted by PhET simulations in Newton's Law material at St. Rafael Oepoi Seminary Senior High School, Kupang, and 2) analyze students' learning activities during the learning process using the model. The research method used is pre-experimental with a One Group Pretest-Posttest Design. The research subjects consisted of 30 eleventh-grade students selected through purposive sampling. The research instruments included a conceptual understanding test in the form of pretest and posttest questions, as well as observation sheets for students' learning activities. The results showed a significant improvement in students' understanding of physics concepts, as indicated by an average N-Gain score of 0.79, categorized as high. Additionally, students' learning activities during discovery learning assisted by PhET simulations achieved a percentage of 90%, categorized as very high. These findings indicate that the application of the discovery learning model assisted by PhET simulations is effective in improving the understanding of physics concepts and encouraging active student participation. Therefore, the discovery learning model assisted by PhET simulations can be an alternative innovative learning strategy that is relevant for physics learning, especially in materials requiring deep conceptual understanding such as Newton's Law.

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