JIPF (Jurnal Ilmu Pendidikan Fisika)
Not a member yet
254 research outputs found
Sort by
The Effect of Guided Inquiry Accompanied by Virtual Laboratory on Students' Physics Learning Outcomes and Motivation
This research purpose was to examine the effect of applying the guided inquiry learning model accompanied by a virtual laboratory on the results and motivation of studying physics in high school students. The chosen physics material is static fluid. The type of research used is a true experiment with the Posttest Only Control Group design. The population of this study was students of class XI MIPA at one of the public high schools in Mojokerto Regency. The sample was selected by cluster random sampling technique and assigned to class XI MIPA 1 as the control class and class XI MIPA 4 as the experimental class. The treatment was carried out three times and the next meeting was used for the post-test and questionnaire filling. Data on learning outcomes were obtained from post-test scores which were analyzed using the independent sample t-test technique, while motivational data were obtained from filling out questionnaires which were analyzed using the independent sample t-test technique. Based on the results of the research, it can be concluded that there is an effect of applying the guided inquiry learning model accompanied by a virtual laboratory on the results and motivation of studying physics in high school students. The results of this research are expected to be useful for teachers who experience problems in learning physics, especially in terms of the need for practical implementation
Development of Physics Teaching Material: Guided Discovery Learning with Liveworksheet to Improve Work and Energy Problem Solving
This study aims to describe the characteristics of teaching material, identify the level of feasibility, and determine the level of readability of teaching material based on guided discovery learning assisted by liveworksheet applications to improve problem-solving ability in work and energy material. The research method used is research and development with the ADDIE research design developed by Mollenda and Reiser in 2003 consisting of 5 stages, namely: 1) analyze; 2) design; 3) develop; 4) implement; and 5) evaluate. In this study only up to the develop stage. The feasibility test data collection used a questionnaire sheet with a Likert scale, while the readability test used the overlap test. The subjects of this research include physics lecturers, physics teachers, and students totaling 36. The characteristics of the teaching material developed contain work and energy material in the form of interactive pdfs equipped with discussion activities and experiments assisted by liveworksheet applications, sample problems and discussions, and evaluations with Polya problem-solving ability indicators. The results of the feasibility test of the teaching material obtained a score of 88%, indicating that it included very feasible criteria. The readability test obtained a result of 76.67%, so it is included in the criteria for teaching material that is easily understood by students. The results of this research can be utilized by teachers to teach the topic of work and energy, as well as to design and develop other learning materials that are more effective and interactive
Integrating Augmented Reality Technology in Magnetic Field Learning: A Systematic Literature Review
The aim of this study was to uncover research trends in the use of augmented reality (AR) in magnetic field learning from 2012 to 2023. The review in this study followed the guidelines of Kitchenham, B. and Charters, which consisted of three stages: planning, conducting, and reporting the review. During the planning stages of the review, 107 articles were identified using keywords. The remaining articles were examined according to inclusion and exclusion criteria, so that 21 articles were further processed. A review stage is then carried out, followed by reporting of the review results. The results of this study suggest that the use of augmented reality (AR) to teach magnetic fields is primarily focused on teaching high school students. The aspects that have attracted the most attention when analyzing the implementation of AR in magnetic field education are learning/academic performance, perception and attitude. The most commonly used forms of AR in the study of magnetic fields are mobile applications, AR-based learning experiments, 3D simulations, and real-time simulations, all of which aim to explain abstract concepts and facilitate experimental explorations. Quantitative research design is the most commonly used approach in this field. The primary data collection tools used in this study include achievement tests, surveys, and questionnaires
Analysis of Technological Pedagogical And Content Knowledge Teachers physics Overcoming Misconceptions Newton's Law
Misconceptions in students must be corrected immediately so that there is no retention of misconceptions in subsequent knowledge. One way to prevent and reduce misconceptions that occur in students is with the ability of Technological Pedagogical and Content Knowledge (TPACK) of teachers. Teachers who integrate TPACK in learning can prevent misconceptions and find solutions to overcome the misconceptions that occur. This study aims to determine the TPACK ability of teachers in overcoming misconceptions,. The research method used in this study is a Mixed method with an unbalanced mixed research design (Concurrent Embedded design). The results showed that the teacher's TPACK ability can improve students' concept understanding. This is indicated by the N-Gain score= 0.72, which means that the teacher's TPACK ability is effective in improving concept understanding on newton's law material
Scratch-Assisted Computational Thinking in Physics: A Literature Review
One of the competencies needed in 21st century learning is Computational Thinking. Computational Thinking is a type of analytical thinking that uses mathematical thinking as an approach to solving a problem, designing a system, and evaluating a large and complex system so that it can be operated in the real world. In the context of the link between physics learning and computational thinking, media is needed in the learning process. One learning media that can help students learn abstract concepts is Scratch.The purpose of this research is to analyze the use of scratch in Computational Thinking skills in physics learning. The method used in this research is a literature review. The literature review was carried out by searching for keywords, namely: scratch, computational thinking, and physics. Collection of literature sources obtained from various sources through national and international journals. We obtained 25 articles that matched the keywords. These articles have been filtered by year of publication, over the last ten years. In addition to the effectiveness of scratching we investigate the impact of scratching. The results showed that after playing scratch the students' Computational Thinking abilities increased significantly
Determining The Depth of Hard Soil Layers Using Geoelectric Resistivity and Cone Penetration Test Methods (Case Study: Kelurahan Bontoramba Kecamatan Somba Opu Kabupaten Gowa)
Hard soil layers can impact the loading, stability, and behavior of structures in the geotechnical field. Comprehensive understanding of the depth and properties of hard soil layers can aid in designing suitable structures. Therefore, this study employed the resistivity geoelectric and Cone Penetration Test (CPT) methods to map the features of hard soil layers. Resistivity data were acquired through measurements utilizing the geoelectric method, while data on cone resistance, shear resistance, and friction ratio were gathered through field measurements using the CPT tool. The collected data was analyzed comprehensively to obtain a complete understanding of soil conditions. Based on resistivity values, the results indicated the research site comprises alluvium, very dry clay, and dry sandy soil. Based on the CPT test, it is determined that the layers contain mixtures of fine-grained soils, clay, silt, and sand. Therefore, it can be inferred that the dense sand lithology constitutes the hard soil layer geologically. The employment of both approaches delivers supplementary details on soil features and depth
Multiple Representations in Physics Learning: A Bibliometric Analysis
The application of multiple representation approach in physics learning has been adopted by several researchers, especially to improve the ability and achieve effective learning. The use of multiple representation approach in physics learning over the past few years has provided good results on student learning outcomes, including being able to improve and develop abstract physics concepts, scientific complex skills, metacognition skills, and problem solving. This research is the result of a review based on bibliometric analysis of multiple representations in physics learning. Data was obtained based on Scopus sources from 2013 to 2023, then obtained data as many as 121 articles which then the data was processed using RStudio and VOSViewer. Based on the results of the analysis using Rstudio and VOSViewer, it also displays other information such as year, country, author, institution, journal, co-word analysis, co-occurrence network, and visual density on occurrence. The results of this study provide a framework of the current trends of multiple representations in physics learning both in the present and some indicators that can be used as opportunities for future research
Computational-Thinking Based Learning Activities for Physics in Indonesian New Curriculum Through a Student Worksheet Development
This research aims to investigate the practicality of the CT-based learning integrated in the physics high school subject through a development of student worksheet. The CT-based learning adapted from Palts and Pedaste’s problem-solving cycle for CT and involved Weintrop’s taxonomy of CT activities in math and science as the reference activities. The study used Plomp’s model, started from the preliminary research, followed by the development phase and evaluation that contained the validity content and practicality evaluation. The content showed high validity scores thus it was continued with the practicality evaluation by carrying out a micro-evaluation to the target users that involved observation, interview, and questionnaire addressing. The evaluation showed that the learning activities through the student worksheet had high practicality scores thus it is possible to be used and adapted to other subject matters
Assessing Teachers’ Readiness in Implementing The 21st Science Teaching Pedagogical Practice: A Cross-Sectional Study in West Kalimantan-Indonesia
This cross-sectional survey was conducted to assess the level of readiness in implementing 21st century science teaching pedagogical practices among primary, secondary, and high school teachers in West Kalimantan-Indonesia. A total of 365 teachers was drawn as sample consisting of 180 primary, 120 secondary, and 65 senior high school teachers. To assess the teachers’ readiness level by using a Likert scale questionnaire. Based on data analysis, the findings of this research were: (1) The readiness level of implementation of science teaching pedagogical practices by teachers was in moderate category; (2) The level of readiness of senior high school was better than primary and secondary school teachers, the female was better than male teacher, and the senior was better than junior teacher. The supporting and inhibiting factors came from the content, environment, learning materials, teachers, and students. Innovative learning models based on Information and Communication Technology (ICT) need to be continued to build teacher professionalism skills in implementing meaningful science teaching pedagogy in schools
Trends and Hotspots in International Research on Problem Solving in Physics Education
Problem solving in physics education that have not been resolved to date causes obstruction of various interests. To comprehensively analysis the global application trends of problem solving in physics education and identify research points that promise problem solving in physics material based on bibliometrics and visual analysis. Publications related to problem solving in physics education from 2003 to 2023 were retrieved from the Scopus. The nation, institution, publication year, author, journal, average citations per item, H index, title, publication keywords evaluated. The VOS-viewer software was used to evaluate term co-occurrence results in order to anticipate problem-solving hotspots in physics education. There were 421 articles in all. (1) In general, the quantity of problem solving in physics education papers has increased during the last 20 years. The top three countries (USA, Indonesia, and Australia) accounted for 63.22% of all published articles. The United States has the most citation. The largest contributor is Universitas Pendidikan Indonesia. Suhandi, A. is the professor with the most articles published in the topic of problem solving in physics education. (2) The research field is organized into seven clusters: "HOTS studies," "cognitive systems ", "problem solving methods", "application program", "curriculum", "distance education", and "PER related to problem solving skill reconstruction will be published in the future". Matlab and problem solving in physics education employment research methodologies may be future hotspots in the field of problem solving in physics education