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All Journal Jurnal Penelitian LPPM (Lembaga Penelitian dan Pengabdian kepada Masyarakat) IKIP PGRI MADIUN Jurnal Edukasi Matematika dan Sains Jurnal Pendidikan Jurnal Terapan Abdimas Momentum: Physics Education Journal Jurnal Pendidikan Fisika dan Keilmuan (JPFK) Edukasia: Jurnal Pendidikan dan Pembelajaran
Erawan Kurniadi
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Astronomy Education Languange, Linguistic, Communication & Media Mathematics Physics Social Sciences Other

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PENGEMBANGAN MEDIA MODUL BERBASIS KOMPUTER PADA MATAKULIAH FISIKA MODERN Jeffry Handhika; Erawan Kurniadi
JEMS: Jurnal Edukasi Matematika dan Sains Vol 1, No 2 (2013)
Publisher : Universitas PGRI Madiun

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (706.975 KB) | DOI: 10.25273/jems.v1i2.115

Abstract

Penelitian ini bertujuan untuk mengembangkan media modul berbasis komputer padamatakuliah fisika modern pada materi relativitas. Pengembangan media modul tersebut diharapkan dapat membantu mahasiswa dalam belajar mandiri dan memahami konsep fisika modern yang bersifat abstrak. Jenis penelitian ini adalah penelitian pengembangan produk, berupa modul berbasis komputer. Pengembangan media modul menggunakan model pengembangan ADDIE yang meliputi 5 tahap, yaitu Analysis (Analisis), Design (Perancangan), Development (Pengembangan), Implementation (Implementasi), Evaluation (Evaluasi). Subjek penelitian ini adalah semester 4 (empat) program studi pendidikan fisika IKIP PGRI Madiun. Instrumen yang digunakan dalam penelitian ini adalah serta pedoman wawancara, kuisioner media modul dan evaluasi materi beserta saran dari pakar maupun respon mahasiswa kelas kecil, dan kuisioner respon mahasiswa pengguna. Berdasarkan hasil wawancara dengan mahasiswa menunjukkan bahwa dosen yang menggunakan media berbasis komputer hanya tiga orang pada matakuliah tertentu, sembilan dari 10 mahasiswamenyatakan lebih tertarik jika dosen mengajar menggunakan media berbasis komputer, hanya satu dari 10 orang mahasiswa yang mampu berfikir analitik dan abstrak. Kuisioner desain dan penggunaan media modul memberikan presentase skor tinggi (77,78%), evaluasi materi pada skor sedang pada tahap I (58,33%), dan diperbaiki pada tahap II (72,22%), mahasiswa kelas kecil memberikan persentase respon tinggi (77,33%) dan mahasiswa pengguna 79,93% (tinggi). 
Conflict between physical analysis and mathematics causing failure: A case on diode circuits Kurniadi, Erawan; Hidayat, Arif; Handayanto, Supriyono Koes; Supriana, Edi; Mayasari, Tantri
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.v8i2.9649

Abstract

This study aims to describe the causes of students' failures in solving diode circuit problems. Research data were obtained through tests, dialogs, and interviews with 12 students of the physics education study program at Universitas PGRI Madiun. The research began by providing diode circuit test questions. Referring to the answers to the diode circuit test questions, an investigation was conducted through a basic circuit mastery test, followed by dialogs and interviews. The data from the test results, dialogs, and interviews in this study led to the conclusion that the common causes of students' failures in solving diode circuit problems are the inability to apply Ohm's law and Kirchhoff's law correctly, as well as the inconsistency and lack of systematic application of basic circuit concepts. A specific finding regarding the causes of failure in solving diode circuit problems is the conflict between physical and mathematical analyses. Based on the common causes of students' failures in solving diode circuit problems, a series of conceptual scaffolding needs to be designed. In conceptual scaffolding, complex circuits are transformed into several basic circuits to facilitate scaffolding for each basic concept. Procedural scaffolding needs to be designed to address failures resulting from the conflict between physical and mathematical analyses. One necessary step in procedural scaffolding is confirming answers using Kirchhoff's law.
PELATIHAN PENGGUNAAN TEKNOLOGI DIGITAL GUNA MENINGKATKAN PENGUASAAN MATERI DAN LITERASI DIGITAL PADA GURU FISIKA Kurniadi, Erawan; Mayasari, Tantri; Handhika, Jeffry; Huriawati, Farida; Hudaa, Perdana Miftachul; Aritonang, Johan
Jurnal Terapan Abdimas Vol 9, No 2 (2024)
Publisher : UNIVERSITAS PGRI MADIUN

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25273/jta.v9i2.14057

Abstract

Abstract. The factors that must play a role in the success of learning today are mastery of the material, pedagogic skills, and digital literacy skills for teachers. In practice, more dominant pedagogic skills are mastered by the teacher. The solution that universities can do is to provide training that aims to improve material mastery and digital literacy. The method of implementing the training through 8 stages, namely: (1) Pretest, (2) Pretest Analysis, (3) FGD and Solutions, (4) Designing Training Materials, (5) Material Deepening Training, (6) Digital Technology Training, (7) Posttest, and (8) Reflection and Evaluation. The results for physics teachers from several MAN and Vocational Schools in Madiun City have an impact on (1) increasing mastery of physics concepts/content knowledge (kinematics, dynamics, and electrical circuits) materials and (2) increasing teacher skills in digital literacy. Abstrak. Faktor yang sangat berperan dalam keberhasilan pembelajaran saat ini adalah penguasaan materi, kemampuan pedagogik, dan kemampuan literasi digital bagi guru. Dalam praktiknya, keterampilan pedagogik lebih dominan dikuasai oleh guru. Solusi yang dapat dilakukan perguruan tinggi adalah memberikan pelatihan yang bertujuan untuk meningkatkan penguasaan materi dan literasi digital. Metode pelaksanaan pelatihan melalui 8 tahapan, yaitu: (1) Pretest, (2) Pretest Analysis, (3) FGD dan Solusi, (4) Merancang Materi Pelatihan, (5) Pelatihan Pendalaman Materi, (6) Pelatihan Teknologi Digital, (7) Posttest, dan (8) Refleksi dan Evaluasi. Hasil pelatihan pada guru fisika dari beberapa MAN dan SMK di Kota Madiun telah berdampak pada (1) peningkatan penguasaan materi konsep/isi pengetahuan fisika (kinematika, dinamika, dan rangkaian listrik) dan (2) peningkatan keterampilan guru dalam literasi digital.    
PELATIHAN PEMANFAATAN MEDIA DIGITAL (GOOGLE MEET) SEBAGAI PENUNJANG PEMBELAJARAN DAN KUALITAS PENYELENGGARAAN SEKOLAH DI SDN I SUKOREJO SARADAN MADIUN Kurniadi, Erawan; Mayasari, Tantri; Handhika, Jeffry; Huriawati, Farida
Jurnal Terapan Abdimas Vol 8, No 1 (2023)
Publisher : UNIVERSITAS PGRI MADIUN

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25273/jta.v8i1.13817

Abstract

Abstract. SDN I Sukorejo has done online learning but is still limited to using the WhatsApp application program. On the other hand, the free Google Meet application program allows active interaction between teachers and students that SDN has never used I Sukorejo teachers. This happens because these teachers have never practised/trained. Therefore, the lecturer of the UNIPMA physics education study program conducted training on the use of Google Meet for the teachers of SDN I Sukorejo for learning purposes and brave meetings. This Google Meet utnnnnnnnnn training is to support learning and improve the quality of school administration. After the training, the teachers of SDN I Sukorejo are ready to carry out lessons and meetings using Google Meet. Teachers are assisted by KKN students for two weeks, To ensure the success of the training. The impact of the training results will be measured at the following collaboration forum. Abstrak. SDN I Sukorejo telah melaksanakan pembelajaran daring, namun masih terbatas memanfaatkan program aplikasi WhatsApp. Program aplikasi gratis Google Meet yang memungkinkan terjadinya interaksi aktif antara guru dengan siswa belum pernah digunakan oleh guru SDN I Sukorejo. Ini terjadi karena guru-guru tersebut belum pernah berlatih/dilatih. Oleh karena itu, dosen program studi pendidikan fisika UNIPMA melakukan pelatihan pemanfaatan Google Meet pada guru-guru SDN I Sukorejo untuk keperluan pembelajaran dan pertemuan daring. Pelatihan pemanfaatan Google Meet ini ditujukan sebagai penunjang pembelajaran dan peningkatan kualitas penyelenggaraan sekolah. Setelah pelatihan, guru-guru SDN I Sukorejo telah siap melaksanakan pembelajaran maupun pertemuan daring menggunakan Google Meet. Untuk menjamin keberhasilan pelatihan, guru-guru didampingi oleh mahasiswa KKN selama 2 minggu. Dampak dari hasil pelatihan akan diukur pada forum kerjasama berikutnya.  
Innovative ADDIE-Based PhET Worksheet for Physics Learning in Limited-Laboratory Contexts Purwandari, Purwandari; Huriawati, Farida; Kurniadi, Erawan
EDUKASIA Jurnal Pendidikan dan Pembelajaran Vol. 7 No. 1 (2026)
Publisher : LP. Ma'arif Janggan Magetan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62775/edukasia.v7i1.2064

Abstract

This research is motivated by the main gap in physics learning, namely the lack of experimental activities due to limited laboratory facilities and the lack of systematic integration between PhET simulations and inquiry-based teaching tools. Although various studies have shown the effectiveness of virtual laboratories in improving conceptual understanding, there are still few studies that have developed structured digital LKPDs using the ADDIE model and empirically assess its impact on students' scientific attitudes. This research uses a Research and Development (R&D) design based on the ADDIE model which includes the analysis, design, development, and implementation stages. The effectiveness test was carried out using a one-group pretest–posttest design on 35 students in grade XI. Expert validation data was analyzed using a percentage of eligibility, while the improvement in students' scientific attitude was analyzed with descriptive statistics and N-Gain calculations to measure the relative improvement before and after treatment. The results showed that LKPD obtained the feasibility of 80.4% of material experts and 82.5% of media experts, both in the feasible category. The implementation of PhET-based LKPD resulted in an increase in scientific attitudes with an N-Gain value of 0.43 (medium category), indicating moderate effectiveness in facilitating virtual inquiry activities. Theoretically, this study contributes in the form of an integration model between digital LKPD, PhET simulation, and inquiry frameworks that can be replicated in the context of laboratory limitations. Practically, this product can be an innovative alternative teaching tool for physics teachers to support inquiry-based learning in limited facilities.
Co-Authors Ahwan Ahwan, Ahwan Arif Hidayat Aritonang, Johan Ariyani, Nurul Farida Huriawati, Farida Hudaa, Perdana Miftachul Irzaman, Irzaman Iskandar Muda Jeffry Handhika Jeffry Handhika Jeffry Handhika Mufliq Mufliq, Mufliq Purwandari Purwandari Supriana, Edi Supriyono Koes Handayanto Tantri Mayasari