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The Influences Virtual Physics Laboratory (VPL) For Assessment the Millennial Character Education through System Recording Students Character (SRSC) Firmanul Catur Wibowo; Soffan Nurhaji; Agus Setiawan; Wisnu Ardlian Sugiyarto; M. Noor Faizin; Dina Rahmi Darman; Achmad Samsudin; Andi Suhandi; Bayram Coştu
Journal of Education and Learning (EduLearn) Vol 12, No 4: November 2018
Publisher : Intelektual Pustaka Media Utama

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (22.528 KB) | DOI: 10.11591/edulearn.v12i4.9923

Abstract

Virtual Laboratory are frequently measured effective learning tools, meanwhile their visual and concept power empower students to better known physical structures and phenomena. However, in previous research has not been much developed Virtual Physics Laboratory that is used to measure the character education of students. This research aims to Influences and apply Virtual Physics Laboratory (VPL) for assessment millennial character education with System Recording Students Character (SRSC). The study focused on the VPL Conceptual Change of Character Education test results. The sample consisted of 60 students’ whose age ranging from 20 to 21 years old with research design Randomized post-test only experiment group. Data to draw conclusions of research results, collected through the provision of concept tests. Conceptual Change data of Character Education that will be obtained from both groups are searched for the average Gain. Specific targets to be achieved in this research are innovations in the development of assessment tools that are valid and easy to use and can be done with Virtual Physics Laboratory for assessment millennial character education with System Recording Students Character can be done anytime and not limited by time. The result of the research showed that the N-gain mastery of the experimental group concept was 0,33 (32,6%) The conclusions of VPL with SRSC research can be used in the evaluation of physics learning because of the quality of the material according to expert judgment in the category of "excellent" and effective in facilitating assessment to character education of students.
Effectiveness interactive digital modul physics (IDMP) based interactive lecture demonstration of concepts vector Wibowo, Firmanul Catur; Awaliyah, Siti Rubihatul; Nasbey, Hadi; Rustana, Cecep E; Darman, Dina Rahmi; Ahmad, Nur Jahan; Costu, Bayram; Prahani, Binar Kurnia; Samsudin, Achmad
THABIEA : JOURNAL OF NATURAL SCIENCE TEACHING Vol 6, No 2 (2023): THABIEA : JOURNAL OF NATURAL SCIENCE TEACHING
Publisher : Institut Agama Islam Negeri Kudus

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21043/thabiea.v6i2.19808

Abstract

This research explores the effectiveness of Interactive Digital Module Physics (IDMP) for additional teaching materials in vector concepts. The IDMP which was developed according to the ADDIE model and its implementation uses the Interactive Lecture Demonstration (ILD) learning model. A total of 65 participants were students enrolled in a Basic Physics course at a university in a special area in the central district of Indonesia. The instrument used to validate the IDMP uses a scale of 1-5 and has a scoring rubric and processing effectiveness data using technique Cohen's D formula. The intervention group was given training assignments in using ILD-based IDMPs while the control group was given ILD-based assignments only. The results of this study obtained data that the intervention group was significantly better than the control group, found there was no significant increase. Cohen's D score in the intervention group had a large impact on the control group of 1.17 with a 95% confidence interval. Furthermore, they get learning experience by providing feedback that the course material using ILD-based IDMP can challenge students to learn independently.
Penerapan Model Problem Based Learning (PBL) Berbantu Mind Mapping dalam Pembelajaran Fisika untuk Meningkatkan Kemampuan Pemecahan Masalah pada Materi Usaha dan Energi Asuri, Ayu Rosdianti; Suherman, Andri; Darman, Dina Rahmi
Jurnal Penelitian Pembelajaran Fisika Vol 12, No 1 (2021): APRIL 2021
Publisher : Universitas PGRI Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26877/jp2f.v12i1.7624

Abstract

Tujuan penelitian ini adalah untuk mengetahui pengaruh model pembelajaran Problem Based Learning (PBL) berbantu Mind Mapping terhadap peningkatan kemampuan pemecahan masalah peserta didik pada materi usaha dan energi. Penelitian ini dilaksanakan di SMA Al Husna pada tahun 2020/2021. Metode yang digunakan dalam penelitian ini adalah metode Quasi Eksperimen (eksperimen semu). Penelitian ini menggunakan desain rancangan nonequitevalent control group design. Populasi penelitian tindakan kelas dilaksanakan di kelas X MIA SMA Al Husna. Teknik pengambilan sampel dengan menggunakan teknik non probability sampling dengan mengambil 2 kelas secara tidak acak yang terdiri dari 65 peserta didik. Kelas X MIA 1 adalah kelas eksperimen. Kelas X MIA 2 adalah kelas kontrol. Instrumen penelitian menggunakan 6 soal tes essay kemampuan pemecahan masalah yang telah dinyatakan valid. Hasil penelitian menunjukkan bahwa terdapat perbedaan peningkatan kemampuan pemecahan masalah fisika pada pesera didik kelas X khususnya pada X MIA 1 dan X MIA 2. Uji normal gain pada kelas eksperimen sebesar 0,36 dan dikategorikan sebagai G Sedang, dan pada kelas kontrol sebesar 0,15 dikategorikan sebagai G rendah. Pengujian hipotesis diperoleh 0,00  0,05 hal ini disimpulkan H1 diterima dan H0 ditolak sehingga model Problem Based Learning (PBL) berbantu mind mapping pada kelas eksperimen lebih baik dari kelas kontrol dengan menggunakan model konvensional.
Designing of Virtual laboratory on Thermal Expansion Darman, Dina Rahmi; Suhandi, Andi; Kaniawati, Ida; Samsudin, Achmad; Wibowo, Firmanul Catur
Journal of Natural Science and Integration Vol 7, No 1 (2024): Journal of Natural Science and Integration
Publisher : Universitas Islam Negeri Sultan Syarif Kasim Riau

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24014/jnsi.v7i1.24804

Abstract

This research aims to produce a virtual laboratory that can be used in teaching physics about thermal expansion. This research uses Design Development Research (DDR) with the ADDIE development model. The development results produce virtual laboratory characteristics consisting of two experiments, three independent and control variables, namely the type of material and length of the cylindrical rod, and changes in temperature, as well as the dependent variable, namely temperature. change in cylinder rod length. Data collection is carried out by asking for validator responses to the virtual laboratory that has been developed. The validators consist of five physics lecturers who are experts in learning media and physics concepts. Validation data is processed using the average percentage of expert responses. The virtual laboratory aspect of thermal expansion validation results in quality, appearance and interactivity was 96%, 93% and 92.5% with very valid criteria. The validation results for all aspects conclude that the virtual laboratory on thermal expansion is very valid with a value of 93.8% and can be used for physics learning.Keywords: virtual laboratory, thermal expansion, physics learning
Technology Augmented Reality Integration Hydrometeorology (TARIH) as Media Solution in Disaster Management for Physics Teacher Candidate Wibowo, Firmanul Catur; Sanjaya, Lari Andres; Darman, Dina Rahmi; Basyir, Syifa Nabila; Gregersen, Andrea Fransiska Møller
Journal of Natural Science and Integration Vol 5, No 1 (2022): Journal of Natural Science and Integration
Publisher : Universitas Islam Negeri Sultan Syarif Kasim Riau

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24014/jnsi.v5i1.16641

Abstract

This study aims to develop Augmented Reality Integration Hydrometereology (TARIH) technology as a learning media solution for disaster management from an early warning to the effects of land subsidence. The research method used in this study is the Model ADDIE (Analysis, Design, Develop, Implement, and Evaluate). The chosen subjects of the current study were 69 physics teacher candidates aged 21-23 years at a university in Jakarta and Banten, Indonesia. Based on reliability tests obtained in this line of research, the findings disclosed that the response to the application of TARIH as media in hydrometereology learning, the reliability of the System Quality aspect was 0.69 and the mean was 4.43. Most importantly, the reliability of the information quality aspect was 0.43 and the mean was 4.39 and the reliability of the service quality aspect was 0.74 and the mean was 4.45. Based on results obtained in this line of research, the study indicated that TARIH media can be used as a learning media solution in Disaster Management from an early warning.Keywords: technology augmented reality integration hydrometeorology (TARIH), learning media, disaster learning media, physics teacher candidate.
Dissemination of interactive digital physics modules (IDMP) to improve teachers' Scientific Inquiry Literacy (SIL) in depth learning Wibowo, Firmanul Catur; Nasbey, Hadi; Darman, Dina Rahmi; Hamidah, Iffah; Prasetiyo, Thomas Enggar Dwi; Steeven, Daniel; Mahmuda, Muhammad Suryauno; Yacobi, Muhammad Abrar Asyrafy; Agustino, Rinto; Arymbekov, Beken
Journal of Environment and Sustainability Education Vol. 3 No. 3 (2025)
Publisher : Education and Development Research

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62672/joease.v3i3.111

Abstract

The Background of study is strengthening Scientific Inquiry Literacy to a critical urgency to equip the younger generation with logical, analytical, and evidence-based thinking skills to face complex challenges in the 21st century. The study objective examines the dissemination of the Interactive Digital Module Physics (IDMP) in improving teachers’ Scientific Inquiry Literacy (SIL) in immersive learning. The of study of method Through a mixed-methods approach with 55 science teachers in Jakarta, Indonesia aged 35-55 years as participants, data were collected through the SIL pretest-posttest and implementation observations. The results showed an adoption rate of 83.3% of the IDMP, with 73.3% of teachers successfully integrating it into their lesson plans. The implementation of the Interactive Digital Module Physics (IDMP) led to a significant improvement in teachers’ scientific inquiry literacy, with N-Gain scores of 25%, 23%, and 22% in designing investigations, guiding inquiry, and evaluating scientific processes, respectively. The implication of study for demonstrate the effectiveness of the IDMP in supporting immersive learning through interactive simulation features. The development of collaborative features such as discussion forums and experimental data banks is recommended to facilitate ongoing practice among teachers.
Dissemination of interactive digital physics modules (IDMP) to improve teachers' Scientific Inquiry Literacy (SIL) in depth learning Wibowo, Firmanul Catur; Nasbey, Hadi; Darman, Dina Rahmi; Hamidah, Iffah; Prasetiyo, Thomas Enggar Dwi; Steeven, Daniel; Mahmuda, Muhammad Suryauno; Yacobi, Muhammad Abrar Asyrafy; Agustino, Rinto; Arymbekov, Beken
Journal of Environment and Sustainability Education Vol. 3 No. 3 (2025)
Publisher : Education and Development Research

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62672/joease.v3i3.111

Abstract

The Background of study is strengthening Scientific Inquiry Literacy to a critical urgency to equip the younger generation with logical, analytical, and evidence-based thinking skills to face complex challenges in the 21st century. The study objective examines the dissemination of the Interactive Digital Module Physics (IDMP) in improving teachers’ Scientific Inquiry Literacy (SIL) in immersive learning. The of study of method Through a mixed-methods approach with 55 science teachers in Jakarta, Indonesia aged 35-55 years as participants, data were collected through the SIL pretest-posttest and implementation observations. The results showed an adoption rate of 83.3% of the IDMP, with 73.3% of teachers successfully integrating it into their lesson plans. The implementation of the Interactive Digital Module Physics (IDMP) led to a significant improvement in teachers’ scientific inquiry literacy, with N-Gain scores of 25%, 23%, and 22% in designing investigations, guiding inquiry, and evaluating scientific processes, respectively. The implication of study for demonstrate the effectiveness of the IDMP in supporting immersive learning through interactive simulation features. The development of collaborative features such as discussion forums and experimental data banks is recommended to facilitate ongoing practice among teachers.