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INDONESIA
Jurnal Penelitian dan Pembelajaran Fisika Indonesia
Published by Universitas Mataram
ISSN : 27469972     EISSN : 27771288     DOI : https://doi.org/10.29303
Core Subject : Science, Education,
Physics Other
Jurnal Penelitian dan Pembelajaran Fisika Indonesia (JPPFI): |p-ISSN: 2746-9972, e-ISSN: 2777-1288| diterbitkan dua kali dalam setahun (Periode Juni dan Desember) dan dimulai pada bulan Desember 2019 oleh Program Studi Pendidikan Fisika FKIP Universitas Mataram. Artikel dapat diterima dalam Bahasa Indonesia dan Bahasa Inggris. JPPFI merupakan wadah publikasi ilmiah bagi dosen, guru, mahasiswa, dan peneliti bidang fisika dan pembelajarannya. Cakupan dari jurnal ini, adalah: Penelitian Pendidikan Fisika, Pembelajaran Fisika, dan Fisika Terapan.
Arjuna Subject : Umum - Umum
Articles 73 Documents
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Developing Programming Competence Among Physics Education Students With Multi-Platform E-Learning During COVID-19 Syahid, Muhammad Taufik; Sutrio, Sutrio; Wahyudi, Wahyudi; Zuhdi, Muhammad; Arduha, Jannatin
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 5 No. 2 (2023)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v5i2.242

Abstract

This research examines the effectiveness of a multi-platform e-learning approach in developing programming competence among physics education students at Mataram University's Faculty of Teaching and Education during the COVID-19 pandemic. The R2D2 model, an iterative and cyclical constructivist learning design process emphasizing creative learning experiences, serves as the methodological framework. Data collection employs questionnaires and tests. The research yields two primary findings: the development of a multi-platform e-learning media for a computer programming course by combining features from SIA, SPADA Unram, YouTube Channel, Google Drive, and WhatsApp groups; and student learning outcomes falling within the "satisfaction" category. Statistical analysis of class A and B data (means and standard deviations: 76.429/0.782 and 74.57/1.06, respectively) reveals insufficient evidence to conclude a significant difference in data variability between the two groups. Keywords: Programming Competence, Multi-platform e-Learning, Physics Education Students, Covid-19.
Effect of Gap Width on the Distance between Bright Patterns in Yellow Rahmawati, Amalia Darozatun; Ayu Febrianti, Dilla; Faturahman, Faturahman; Malik, Adam
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 5 No. 2 (2023)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v5i2.249

Abstract

This research aims to determine the effect of gap width on the distance between bright patterns in the yellow color experiment. This research was carried out in a virtual laboratory, with the method used is a quantitative method with an experimental method, namely the method used to determine the effect of the independent variable on the dependent variable. Data collection was taken during the practicum using the PhET website in the Wave Interference – Slits section, with yellow light which has a wavelength of around 670-690 nm. The distance between two slits is 1500 nm and three different slit widths are used, namely 500 nm, 600 nm, and 700 nm. This research shows that the smaller the value of the gap width, the greater the value of the dark light pattern. Where, the wider the gap, the denser the light-dark pattern on the screen, and the smaller the gap width, the more sparse the light-dark pattern on the screen. Keywords: Gap Width; PhET; Dark Light Pattern.
Analisis Pengaruh Ketinggian Lintasan Terhadap Gaya Gesek dan Kecepatan Benda Pada Bidang Miring Menggunakan PhET Simulation Rahmawati, Diah; Malik, Adam
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 6 No. 1 (2024)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v6i1.255

Abstract

Physics is an empirical science, meaning that physics is based on observation and experimentation. One of the fundamental concepts in physics that is the foundation for many calculations is the law of mechanical energy conservation, especially on inclined planes. This study aims to analyze the effect of track height on the friction force and velocity of objects when crossing an inclined plane. This research uses a virtual PhET Simulation laboratory with a virtual experimental research design. This research uses a quantitative approach, the data analysis technique uses statistical methods to determine the effect of track height on the friction and speed of objects. The result of this study is that the height of the track affects the value of the friction force, with increasing track height, the value of the friction force will decrease, this is due to the normal force acting on the inclined plane. In addition, with increasing track height on an inclined plane, the value of mechanical energy will increase. This is because the higher the trajectory, the greater the gravitational potential energy possessed by the object. Keywords: Altitude, Inclined plane, Mechanics, Speed.
Analisis Pengaruh Suhu Terhadap Nilai Konduktivitas Pada Perpindahan Panas Secara Konduksi Menggunakan Virtual Lab Amrita Saoqibillah, Lutfi; Malik, Adam
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 6 No. 1 (2024)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v6i1.256

Abstract

This study aims to determine the effect of temperature value on conductivity value (conduction heat rate) in conduction heat transfer. The method used in this research is an experimental method with variable temperature and variable conductivity values of materials using amrita virtual lab simulation software. The variable variation used in this study is the difference in materials using cardboard and glass with variations in voltage, current, diameter and thickness of the same material. The results of this study indicate the effect of temperature on the conductivity value, if the conductivity value of a material is small then the temperature will be large because this experiment was conducted on insulating materials on both objects. Temperature will inhibit heat transfer by conduction, it can be concluded that both materials are good heat insulators. Keywords: Conduction heat transfer, Temperature, vlab Amrita.
Analisis Faktor yang Menyebabkan Penyimpangan Galvanometer dan Kondisi Lampu dengan Hukum Faraday Menggunakan Laboratorium Virtual PhET Rahmawati, Amalia Darozatun; Malik, Adam
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 6 No. 1 (2024)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v6i1.261

Abstract

This study aims to explore the concept of Faraday's Law by allowing us to understand what factors can affect the deviation of the galvanometer needle and lamp conditions. The method used is experimental method using PhET virtual laboratory. This study shows that there are factors that affect the deviation of the galvanometer needle, namely the orientation of the poles on the magnet that is moved near or away from the coil. The factors that affect the condition of the lamp are the number of turns on the coil and the speed of the magnet movement when approaching or moving away from the coil. Keywords: EMF, Faraday's Law, PhET Virtual Laboratory.
Pengaruh Model Pembelajaran Berbasis Masalah dan Sikap pada Fisika Terhadap Kemampuan Pemecahan Masalah Fisika Peserta Didik Sadiah, Riskha Lestari; Ali, Muh. Sidin; Khaeruddin, Khaeruddin; Helmi, Helmi; Arsyad, Muh.
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 6 No. 1 (2024)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v6i1.269

Abstract

This study aims to analyze the effect of learning models and attitude in physics on the problem solving. This research is a true experiment with a 2x2 factorial design. The population is all class X SMA Negeri 7 Luwu Utara years 2022/2023. The sample of two classes using simple random sampling techniques. Methods of data collection using attitude questionnaire on physics and physics problem-solving skill tests. Data analysis using two-way ANOVA The results showed that: There were differences in the physics problem-solving skills of students who were taught using problem-based learning models and those who were taught using discovery learning models, for attitudes to high physics, there were differences in problem-solving skills physics taught using problem-based learning models with those taught using discovery learning models, for low physics attitudes, there are differences in the physics problem-solving skills of students who are taught using problem-based learning models with those taught using discovery learning models, and there is no interaction between the learning model and attitudes toward physics on students' physics problem-solving skills. Keywords: PBL, attitude in physics, problem solving skill.
Pengaruh Sudut Terhadap Besar Resultan Gaya Vektor: Kajian Eksperimental Menggunakan Praktikum Cookbook Laboratory Sipayanti, Sipayanti; Naswa Nurhaliza, Ulfi; Lestari, Wulan; Hidayah, Pikiyatul; Malik, Adam
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 6 No. 1 (2024)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v6i1.322

Abstract

Vectors are fundamental concepts in mathematics and physics that play a crucial role in various scientific and engineering applications. This study investigates the relationship between the angle and magnitude of the resultant force vector using the Cookbook Laboratory practical approach. The experiment involved combining two forces at different angles and measuring the resultant force. The results indicate a linear relationship between the angle and magnitude of the resultant force, suggesting that as the angle increases, the magnitude of the resultant force also increases. However, this finding contradicts the theoretical prediction of an inverse relationship. This discrepancy is attributed to experimental limitations, particularly parallax error, which may have affected the accuracy of the measurements. Further experiments are recommended to minimize parallax error and obtain more accurate results. A thorough understanding of vector concepts and measurement techniques is essential for comprehending the relationship between angle and resultant force magnitude. Keywords: Angle; Cookbook Laboratory; Resultant Force; Vector.
Transformasi Pembelajaran Laboratorium: Peningkatan Keterampilan Eksperimen dan Adaptasi Terhadap Tantangan Pembelajaran Abad 21 Lestari, Wulan; Malik, Adam
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 6 No. 2 (2024)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v6i2.332

Abstract

In the modern era of education, the significance of laboratory learning extends beyond physical experiments to the development of essential skills for students facing the challenges of the 21st century. This article examines the transformation of laboratory learning through project-based approaches and the integration of digital technology. Research indicates that these approaches enhance students' practical skills and conceptual understanding, while preparing them for dynamic, technology-driven work environments. Literature reviews underscore the importance of adapting laboratory curricula to incorporate 21st-century skills such as critical thinking and creativity. Moreover, the use of virtual laboratories and computer simulations has proven effective in facilitating safe and controlled practical learning, particularly amidst the COVID-19 pandemic. This transformation supports the vision of laboratories as holistic and dynamic learning environments, equipping students with relevant and robust skills to meet future challenges. Keywords: laboratory learning, transformation, digital technology.
Turunan Radial dari Anomali Gravitasi untuk Identifikasi Injeksi Air pada Reservoir Zuhdi, Muhammad; Busyairi, Ahmad
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 6 No. 1 (2024)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v6i1.354

Abstract

Time Lapse micro-gravity or 4D microgravity has been developed and applied for various purposes related to the dynamics change beneath the earth's surface. The principle is a repeated and periodic measurement to determine the change in gravity value at time interval as a yield of the dynamics changes in the density change of the subsurface. This method can be used for monitoring and identify water or gas injections in reservoirs. Mass density taht changes due to gas injection provide changes in the values of gravity over time. This change allows us to identify the dynamics of gas movement in reservoir. A reservoir model has been made in this research with gas injected in reservoir bulk. The time lapse gravity respons value is calculated numerically. Oil-gas contact is an edge between gas injection front with oil which move direction away from injection point. The first and second radial derivatives of 4D gravity can provide as a front of the gas movement in the reservoir. A radial derivatives is a horizontal derivative of gravity anomaly along radial direction from a point which selected as a entre of the anomaly. The second radial derivative is derivative of radial deriative. Radial derivatives value of this model response have range of 20 microGals/m and second radial derivative has a values of 0.05 microGals/m2. Graphics of absolute value of radial derivative and second radial derivative of 4D gravity anomaly seemingly correlated with the oil-gas contact of reservoir models. Radial derivative and second radial derivative has been proven as new available method wich has ability to shows a boundary of a horizontal layer with vertical density contrast. Keywords: Radial derivatives, reservoir, gas injection.
Literature Review: Misconception Analysis of Static Fluid Material in High School Students Amrullah, Lalu Azikri; Handrianto, Handrianto; Busyairi, Ahmad
Jurnal Penelitian dan Pembelajaran Fisika Indonesia Vol. 6 No. 2 (2024)
Publisher : Prodi Fisika FKIP Unram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppfi.v6i2.629

Abstract

This article presents a literature review on misconceptions of static fluid material in high school students, which is an important issue in physics learning. These misconceptions often stem from improper understanding of basic concepts, which can hinder students' academic achievement. Research shows that students often misunderstand key concepts such as hydrostatic pressure, Pascal's law and Archimedes' law, which negatively impacts their understanding of more complex physical phenomena. Through an in-depth analysis of 348 Google Scholar indexed publications from 2015 to 2024 with help from search tools such as Publish or Perish and Dimensions AI. This article identifies the causes of misconceptions and offers a constructivist approach as a solution to improve student understanding. By integrating findings from various studies, this review aims to provide a more comprehensive insight into the phenomenon of misconceptions and the strategies that can be applied to overcome them, so as to improve the effectiveness of physics learning at the high school level. Keywords: Misconceptions; Physics Materials; Static Fluid; High School Students.

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