Dina Rahmi Darman scite author profile

Penelitian ini bertujuan untuk mengetahui kelayakan media pembelajaran Virtual Physics Lab (ViPhyLab) dalam Praktikum Hukum Kirchhoff. Metode penelitian yang digunakan adalah metode Research and Development (R&D) menurut Sugiyono, dengan subjek penelitian ini adalah 3 validator untuk mengetahui kelayakan media ViPhylab dan 16 siswa kelas XI MIPA SMA Al-Fath Cilegon yang digunakan untuk mengetahui tanggapan siswa terhadapa media ViPhyLab. Hasil penelitian menyatakan kelayakan media ViPhyLab hasil pengembangan yaitu sebesar 87,45% dengan kategori sangat layak dan tanggapan siswa terhadap media ViPhyLab menyatakan sebanyak 90,4% siswa menanggapi media ViPhyLab dengan kategori sangat baik.

show abstract

Designing MOOCs with VMS (Virtual Microscopic Simulation) for Measurement Student’s Level Understanding (LU)

Dewi

Suherman

Wıbowo

et al. 2020

jpppf

View full text Add to dashboard Cite

The aims of this research to design Massive Online Open Courses (MOOCs) from now on referred to as Virtual Microscopic Simulation (VMS) to measure the Level Understanding (LU) of the construction of microscopic phenomena electric-field conceptions. The research method used is a mixed-method using embedded design. The research subjects are high school students, and one of the universities in Banten Province. The results of this study are software with features in the form of MOOCs-VMS that are categorized very well based on expert judgment on aspects of usability and learning content. The average score of media expert validation score is 96% with a very feasible category, the average score for material expert validation is 98% with a very decent category, and the average user response rate is 86% with a very good category. It can be concluded that the design of MOOCs-VMS can be used as an alternative media for conducting distance learning and is significant in building the level of understanding students.

show abstract

Microscopic Virtual Media (MVM) in Physics Learning to Build a Scientific Conception and Reduce Misconceptions: A Case Study on Students' Understanding of the Thermal Expansion of Solids

Wıbowo¹,

Suhandi²,

Rusdiana³

et al. 2016

View full text Add to dashboard Cite

A domain of research in physics teaching is focused on the study of the effects of different types of learning interventions aimed to help students build a scientific conception. Microscopic Virtual Media (MVM) is the application of a particular interest in physics learning because they can support microscopic powerful modeling involving physics concepts and processes. In this study, one group (experimental) of 19-20 year old students were studied to determine the MVM role in the development of a functional understanding of the concept of expansion of solids. The experimental group used MVM using DLSM (Dual Situated Learning Model). The results presented here indicate that students work with virtual media exhibited significantly higher scores in research tasks. Our findings strongly support that MVM can be used as an alternative instructional tool, in order to help students reduce their scientific misconceptions and develop an understanding of physics concepts.

show abstract

Effectiveness of Dry Cell Microscopic Simulation (DCMS) to Promote Conceptual Understanding about Battery

Wıbowo

Suhandi

Rusdiana

et al. 2017

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

Electricity is a concept that is abstract and difficult to see by eye directly, one example electric shock, but cannot see the movement of electric current so that students have difficulty by students. A computer simulation designed to improve the understanding of the concept of the workings of the dry cell (battery). This study was conducted to 82 students (aged 18-20 years) in the experimental group by learning to use the Dry Cell Microscopic Simulation (DCMS). The result shows the improving of students’ conceptual understanding scores from post test were statistically significantly of the workings of batteries. The implication using computer simulations designed to overcome the difficulties of conceptual understanding, can effectively help students in facilitating conceptual change.

show abstract

Pengembangan Buku Kerja Fisika Berbasis Kontekstual Pada Konsep Suhu Dan Kalor

Darman¹,

Wıbowo

Putra

et al. 2017

Gravity Untirta

View full text Add to dashboard Cite

Penerapan Model Problem Based Learning (PBL) Berbantu Mind Mapping dalam Pembelajaran Fisika untuk Meningkatkan Kemampuan Pemecahan Masalah pada Materi Usaha dan Energi

Asuri

Suherman

Darman

2021

J. Penel. Pemb. Fis.

View full text Add to dashboard Cite

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.

show abstract

12 3 4 5

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.