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Journal : Momentum: Physics Education Journal

Inkuiri Terbimbing dengan Pendekatan Saintifik (Scientific Approach) untuk Meningkatkan Berpikir Kritis Sudi Dul Aji; Agustinus Bernadino; Muhammad Nur Hudha
Momentum: Physics Education Journal Vol 1 No 2 (2017)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (50.488 KB) | DOI: 10.21067/mpej.v1i2.2148

Abstract

The purpose of this study is to describe the quality of learning Inkuiri model Guided by Scientific Approach (scientific approach) and know the improvement of critical thinking skills of SMK students on the topic Fluid Static. This research uses qualitative approach and the type of research used is Classroom Action Research (PTK), carried out through a process of gradual assessment consisting of 4 stages of planning, implementation, observation, and reflection. Based on the analysis of Learning Outcomes in the first cycle is 73.45% and on the second cycle 81.77%. The students' critical thinking ability in the first cycle of the average of 71.67 students who meet the KKM is 17 students or 56.66% and on the second cycle 80.16 that meet the KKM is 23 students or 76.66%. Based on this research can be concluded that Inkuiri model Guided by Scientific Approach (Scientific Approach) can increase critical thinking of student Tujuan penelitian ini yaitu mendeskripsikan kualitas pembelajaran model Inkuiri Terbimbing dengan Pendekatan Saintifik (scientific approach) dan mengetahui peningkatan kemampuan berpikir kritis siswa SMK pada topik Fluida Statis. Penelitian ini menggunakan pendekatan kualitatif dan jenis penelitian yang digunakan adalah Penelitian Tindakan Kelas (PTK), dilaksanakan melalui proses pengkajian bertahap yang terdiri dari 4 tahap yaitu perencanaan, pelaksanaan, observasi, dan refleksi. Berdasarkan analisis hasil Keterlaksanaan Pembelajaran pada siklus I adalah 73,45% dan pada siklus II 81,77%. Kemampuan berpikir kritis siswa pada siklus I rata-rata siswa 71,67 yang memenuhi KKM adalah 17 siswa atau 56,66% dan pada siklus II 80,16 yang memenuhi KKM adalah 23 siswa atau 76,66%. Berdasarkan penelitian ini dapat disimpulkan bahwa model Inkuiri Terbimbing dengan Pendekatan Saintifik (Scientific Approach) dapat meningkatkan berpikir kritis siswa.
Pengembangan bahan ajar media pembelajaran fisika dengan pendekatan multi representasi untuk meningkatkan kemampuan pembuatan alat-alat praktikum calon guru fisika Chandra Sundaygara; Hestiningtyas Yuli Pratiwi; Muhammad Nur Hudha
Momentum: Physics Education Journal Vol 2 No 2 (2018)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (811.7 KB) | DOI: 10.21067/mpej.v2i2.2709

Abstract

Tujuan penelitian ini adalah untuk memperoleh bahan ajar media pembelajaran fisika berbasis multi representasi untuk mengembangkan kemampuan membuat dan merangkai alat-alat percobaan fisika dan mengetahui kelayakan serta respon siswa terhadap bahan ajar ini pada materi listrik dan magnet. Metode penelitian ini adalah penelitian dan pengembangan (R&D). Desain penelitian menggunakan desain Four-D yaitu Define, Desain, Develop, Disseminate oleh Thiagarajan, dkk., 1974. Instrumen penelitian adalah angket. Data penelitian terdiri dari data uji kelayakan oleh validator dan data ujicoba terbatas yang diberikan kepada mahasiswa yang diperoleh melalui pemberian angket. Hasil penelitian menunjukkan bahwa: (1) Uji kelayakan yang didasarkan validasi ahli media dan ahli materi diperoleh nilai rata-rata uji kelayakan sebesar 3,51 yang dikategorikan baik/valid sehingga bahan ajar layak digunakan, (2) Respon siswa terhadap bahan ajar media pembelajaran fisika berbasis multi representasi melalui ujicoba terbatas diperoleh nilai rata-rata ujicoba terbatas sebesar 3,58 yang dikategorikan baik/valid Kata Kunci: Bahan Ajar, Multi Representasi, Media pembelajaran Fisika
The Impact of Guided Inquiry Model Integrated with Peer Instruction towards Science Process Skill and Physics Learning Achievement Hestingtyas Yuli Pratiwi; Muhammad Nur Hudha; Mathilda Asri; Nur Jahan Ahmad
Momentum: Physics Education Journal Vol 3 No 2 (2019)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (302.243 KB) | DOI: 10.21067/mpej.v3i2.2768

Abstract

The aim of the research is to find out the difference in science process skill and learning achievement between students who are taught using guided inquiry model integrated with peer instruction and conventional method in VII students in one of the junior high schools in Malang. The method used is quasy-experimental with only post-test group design. The sample was selected using purposive sampling technique, from the 10 population of VII grade students; the researchers selected two classes which were considered to have the same initial skill with total 32 students in each class to be the experimental class and the control class. Instruments used were the observation sheets to measure the science process skill and the test of multiple choices to measure the learning achievement. The researchers gained average score of 81 for science process skill in experimental class and 58 in control class, while the average score of 77.8 for learning achievement in experimental class and 71.3 in control class as the result of the data analysis. The hypothesis test used T-test, that was the independent sample T-test on Microsoft excel by looking up the score of Ttable on the rate of sig 0.05 for the science process skill and it gained Tcount > Ttable (18.846 > 1.669), while the learning process gained Tcount > Ttable (8.465 > 1.669). It was concluded that the guided inquiry model integrated with peer instruction can improve student’s science process skill and learning achievement compared to conventional method
Enhanced learning: Designing bifocal modeling practicum tools with ESP32 for exploring kinetic theory of gases Sujito, Sujito; Sulur, Sulur; Hudha, Muhammad Nur; Winarno, Nanang; Sunardi, Sunardi
Momentum: Physics Education Journal Vol. 8 No. 2 (2024)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v8i2.10046

Abstract

This research was conducted to obtain an initial design for a laboratory practical tool based on bifocal modeling assisted by an ESP32 microcontroller for kinetic gas theory. This study was conducted to obtain an initial design for a practical laboratory tool based on bifocal modeling assisted by the ESP32 microcontroller on the kinetic theory of gases. This study was conducted descriptively through a literature review of various book articles and materials. Interviews were conducted with students and physics teachers in high schools (9 students and two teachers in Malang, 15 students and three teachers in Bandung) in Indonesia. Interviews were conducted to obtain an overview of the application of physics learning and reveal other potential problems students and teachers face. The design of the bifocal modeling tool developed has been consulted with physics and ICT learning experts. The results are that it needs to be further developed and maintained until the manufacturing stage. Bifocal modeling based on the design developed in this study has the potential to facilitate students to conduct scientific experiments related to the kinetic theory of gases. Based on the equipment to be developed, it is expected that students will be able to observe macroscopic gas phenomena through actual experiments, monitor microscopic phenomena visualized through computer models, collect data in actual experiments and computer simulations, and compare data. Students' understanding of the concept of the kinetic theory of gases has the potential to be improved by conducting practical work using bifocal modeling-based tools.
Low Carbon Virtual Lab (LCVL) on electricity to empower sustainability literacy of junior high school students Nisa', Salsabila Kholifahtun; Hudha, Muhammad Nur; Indriyanti, Nurma Yunita; Probosari, Riezky Maya; Mahardiani, Lina; Gunawan, Kadek Dwi Hendratma
Momentum: Physics Education Journal Vol. 9 No. 1 (2025)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v9i1.11178

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Electricity is a conceptual and complicated physics subject, hence technological integration is required to help understanding. Using the ADDIE development research approach, this study will investigate how the design, practicality, and characteristics of Low Carbon Virtual Lab (LCVL) media might empower students' sustainability literacy. The LCVL was built using low carbon education values and sustainability literacy indicators to test student abilities through quizzes and discussion topics. The feasibility of LCVL was rated as very good. Material experts scored 96.59%, media experts scored 86.98%, and language experts scored 95.60% (very feasible). The teacher and student response test to LCVL also yielded an overall average, with student responses of 91% and instructor responses of 82.41%. LCVL possesses the following characteristics: (1) an interactive digital simulation media, (2) packed in the form of a website link, (3) user-friendly, (4) utilized to empower students' sustainability literacy, and (5) the concept of electrical material supplied is combined with low carbon education. Thus, LCVL is appropriate for use in the learning process to improve students' sustainability literacy.
Exploring science education students' understanding of nuclear physics concepts through field study implementation with non-stationary calorimetry methods Hudha, Muhammad Nur; Gunawan, Kadek Dwi Hendratma; Ramawati, Dian Sinta Khusnul; Nisa’, Salsabila Kholifahtun
Momentum: Physics Education Journal Vol. 9 No. 2 (2025)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v9i2.12855

Abstract

This study explores the implementation of field studies using non-stationary calorimetric methods to understand the learning experience of science education students on the concept of nuclear physics. The study involved 72 science education S1 students who participated in an experiment to determine thermal power at the Kartini Reactor facility through a descriptive qualitative approach. The field study used reactor operation at a constant power of 100 kW by shutting down the cooling system to demonstrate the principle of heat accumulation. Students collected temperature data from three digital thermometers every 5 minutes for 35 minutes, then performed a linear regression analysis to calculate thermal power. Thematic analysis from student observations, interviews, and reflections reveals the development of conceptual understanding in four key areas. The students managed to calculate thermal power of 107.99 kW, 106.40 kW, and 109.08 kW with deviations in acceptable tolerances. The findings show that hands-on experience facilitates an understanding of energy conservation principles, heat transfer mechanisms, and experimental validation techniques. This study reveals students' ability to develop connections between theoretical concepts of nuclear physics and practical applications through authentic learning experiences.
Innovating IoT instruction through simulation-based modules: An R&D study in higher education Gunawan, Kadek Dwi Hendratma; Utami, Budi; Bramastia, Bramastia; Suciati, Suciati; Hudha, Muhammad Nur; Ridhani, Jovita; Adimudra, Dyah Ayu Saraswati
Momentum: Physics Education Journal Vol. 9 No. 2 (2025)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v9i2.12897

Abstract

This study developed and evaluated a computer simulation–based Internet of Things (IoT) lecture module for the Artificial Intelligence for Science Education course to address the gap between abstract IoT concepts and classroom practice in science teacher education. Adopting an R&D approach with the ADDIE model, the module was structured into five subtopics aligned with explicit learning outcomes and supported by simulations, examples, and authentic projects. Expert validation (five validators: content, media, instructional, and evaluation) examined content, language, and presentation using Aiken’s V and Percentage of Agreement. Practicality was assessed via expert questionnaires (ease of use, attractiveness, usefulness, contextual relevance). Implementation involved a trial with 40 prospective science teachers, including a 5-point Likert readability survey. Content validity increased from 0.860 (valid) to 0.960 (very valid), and inter-rater reliability rose from 0.712 (fair) to 0.757 (good) after systematic revisions. Language validity improved from 0.833 to 0.950 (very valid); presentation remained strong at 0.893 (very valid) with qualitative enhancements to visual design. Expected practicality averaged 92% across dimensions (ease of use 91%; attractiveness 92%; usefulness 92%; contextual relevance 92%). Readability scores were consistently “highly readable” across seven dimensions (4.44–4.56), indicating clear language and style, logical sequencing, effective multimodal supports, manageable cognitive load, strong contextual relevance, and robust technical accessibility. The module is ready for classroom adoption, offering a scalable template for integrating IoT through simulations and authentic cases in preservice teacher education.
Co-Authors Ade Gafar Abdullah, Ade Gafar Adi, Delisma Wisnu Adimudra, Dyah Ayu Saraswati Agustinus Bernadino Ahmat Mustakim Ajeng Intan Nur Rahmawati Akhmad Jufriadi Akhmad Zaini, Akhmad Alfiana, Rinda Anatolia Gurtin Anna Permanasari Arief Rahman Hakim Arisanti, Aini Astri Rismawati Astri Wahyuningtyas Batlolona, John Rafafy Binar Kurnia Prahani Bramastia, Bramastia Budi Utami Chandra Sundaygara Cholisina Anik Perwita Daniar Pangastiningasih Etikamurni Dita Fitrin Nurilyasari Eko Pramudya Laksana Endah Vennita Rahayu Putri Eni Sri Wahyuni Etikamurni, Daniar Pangastiningasih Fajriyah, Mujtahidatul Ilmi Farida Nur Kumala Fatma, Ayun Faidah Grusche, Sascha Gunawan, Kadek Dwi Hendratma Hena Dian Ayu Hestingtyas Yuli Pratiwi Hestiningtyas Yuli Pratiwi Husni Mubarok Ida Hamidah Ida Hamidah Imam Ariffudin Indriyani Rachman Intan Permatasari Ayunda Rasuli Intan Prameswari IRWANTO Isma Aziz Fakhrudin Jayanti, Y. M. Jayanti, Y. M. Johannis Takaria Karvita Firdayani Khasanah, Annisa Nur Klarisa Megaria Novita Kristanti Diana Malo Kristiyaningsih, Else Kurriawan Budi Pranata, Kurriawan Budi Kurtulus, Muhammed Akif Laila, Luthfiyaul Leniana Ajul Lestari, Nurita Apridiana Lia Yuliati Lina Mahardiani Mahesti Zuli Alfianita Man Un, Visensius Marianus Mathilda Asri Mega Putri Kurniawati Mila Dwi Agustina Mujtahidatul Ilmi Fajriyah Nada Damai Azka Nadi Suprapto Nanang Winarno Nisa', Salsabila Kholifahtun Nisa, Nabillah Zuhrotun Nisa’, Salsabila Kholifahtun Nur Jahan Ahmad Nur Shabrina Safitri Nurma Yunita Indriyanti Nurul Ain Perwita, Cholisina Anik Pujayanto Pujayanto Rahmad Prastiyan Rahmad Prastiyan Ramawati, Dian Sinta Khusnul Rasuli, Intan Permatasari Ayunda Ridhani, Jovita Riezky Maya Probosari Rinda Alfiana Rismawati, Astri Yuni Rosyidah, Firda Ulya Nur Safitri, Nur Shabrina Sasmi, Rinda Rahmanisa Setyo Admoko Sholikhan Sholikhan Solihah, Hilwa Mar’atus Sriyono Sriyono Suciati Suciati Sudi Aji Sudi Dul Aji Sujito Sujito Sulistyo Lestari Sulur Sunardi Sunardi Supurwoko Sutopo Sutopo Syarief Fajaruddin Takaria, Johannis Takaria, Johannis Tri Andi, Tri Utama Alan Deta Uulaa, Rizki Fitri Rahima Wahyuningtyas, Astri Wartono Wartono Wartono Wartono Wati, Icha Kurnia Wulandari, Elvina Tri Y. M. Jayanti Yohana Susana Wolla Baga Yokbet Badelwaer Zuhannisa’, Shofitri