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Berkala Ilmiah Pendidikan Fisika
Published by Universitas Lambung Mangkurat
ISSN : -     EISSN : -     DOI : -
Core Subject : Science, Education,
Education Physics
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Articles 573 Documents
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Find Out Publications for Decade in Local Wisdom: Contribute to Education and Physics Education Mohd Zaidi Bin Amiruddin; Mohd Zaidi Bin Amiruddin; Binar Kurnia Prahani; Binar Kurnia Prahani; Nadi Suprapto; Nadi Suprapto; Suliyanah Suliyanah; Suliyanah Suliyanah; Achmad Samsudin; Achmad Samsudin
Berkala Ilmiah Pendidikan Fisika Vol 11, No 3 (2023)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v11i3.16715

Abstract

The development of local wisdom from various sectors continues to increase yearly, especially in Indonesia. This study aims to find trends, topics, and contributions of local wisdom to the education sector. This research used quantitative research with bibliometrics and assisted with VoSViewer, Word Cloud, MS Excel, and MS Word software to analyze and visualize metadata results obtained from Scopus. The results of this study reveal trends in the development of local wisdom, with the top 100 cited from 2012 to 2021. Then, the topic of local wisdom is dominated by researchers from Indonesia. In addition, the contribution of local wisdom in education continues to grow along with the times, especially in physics education. Furthermore, it is hoped that there will be further research on local wisdom that can be used as a reference source for all things and preserve local wisdom and communities that still need to be held due to changing times. On the other hand, local wisdom can also be known with the slogan “Glocalization”.
Design and Build a KIT Humoris (Ohm's Law for Dynamic Electricity) for Science Learning in Junior High School Rizky Agassy Sihombing; Siti Darmilah; Umi Sayidatus Zakiya; Muslim Muslim; Ida Kaniawati; Sjaeful Anwar
Berkala Ilmiah Pendidikan Fisika Vol 12, No 2 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v12i2.18944

Abstract

The role of tools as educational media is crucial in facilitating the learning of scientific concepts, allowing students to master science materials and develop their skills effectively. This research aims to develop a KIT as an experimental approach to learning focused on investigating the relationships among voltage, current, resistance, and power. This study employs a research and development (R&D) approach to design and implement an impactful science learning tool for science experiments. The envisioned impact of this learning tool is to captivate students' interest and concept understanding in science education, especially in Ohm's law for the dynamic electricity topic. The design of the KIT Humoris is specifically structured to establish and illustrate the relationships between voltage, current, and resistance, as well as to calculate power based on voltage and current values. The user-friendly design and visually appealing features of the KIT Humoris make it a practical tool that enhances the tangible understanding of science concepts. Integrating this tool with the Merdeka Curriculum allows teachers to customize lessons according to the unique needs of their students. The design process involves meticulous planning, prototype development, and continuous evaluation to ensure the tool's effectiveness. Results from the trial phase indicate heightened student engagement, improved conceptual understanding, and a profound practical learning experience. KIT Humoris is a valuable science learning tool, providing an engaging and practical approach aligned with the Merdeka Curriculum. Its successful implementation increases student enthusiasm and a deeper comprehension of scientific principles. The implications are contributing to the innovation of teaching methods, especially in the context of the Merdeka Curriculum. From a practical standpoint, the tool has a positive impact on students and their understanding of science concepts.
Design and Build a KIT Humoris (Ohm's Law for Dynamic Electricity) for Science Learning in Junior High School Rizky Agassy Sihombing; Siti Darmilah; Umi Sayidatus Zakiya; Muslim Muslim; Ida Kaniawati; Sjaeful Anwar
Berkala Ilmiah Pendidikan Fisika Vol 12, No 2 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v12i2.18944

Abstract

The role of tools as educational media is crucial in facilitating the learning of scientific concepts, allowing students to master science materials and develop their skills effectively. This research aims to develop a KIT as an experimental approach to learning focused on investigating the relationships among voltage, current, resistance, and power. This study employs a research and development (R&D) approach to design and implement an impactful science learning tool for science experiments. The envisioned impact of this learning tool is to captivate students' interest and concept understanding in science education, especially in Ohm's law for the dynamic electricity topic. The design of the KIT Humoris is specifically structured to establish and illustrate the relationships between voltage, current, and resistance, as well as to calculate power based on voltage and current values. The user-friendly design and visually appealing features of the KIT Humoris make it a practical tool that enhances the tangible understanding of science concepts. Integrating this tool with the Merdeka Curriculum allows teachers to customize lessons according to the unique needs of their students. The design process involves meticulous planning, prototype development, and continuous evaluation to ensure the tool's effectiveness. Results from the trial phase indicate heightened student engagement, improved conceptual understanding, and a profound practical learning experience. KIT Humoris is a valuable science learning tool, providing an engaging and practical approach aligned with the Merdeka Curriculum. Its successful implementation increases student enthusiasm and a deeper comprehension of scientific principles. The implications are contributing to the innovation of teaching methods, especially in the context of the Merdeka Curriculum. From a practical standpoint, the tool has a positive impact on students and their understanding of science concepts.
Sanja Kuning Phenomenon in Students’ Worksheets to Train Science Process Skills Nur Aina; Nur Aina; Mastuang Mastuang; Mastuang Mastuang; Dewi Dewantara; Dewi Dewantara; Mazlena Binti Murshed; Mazlena Binti Murshed
Berkala Ilmiah Pendidikan Fisika Vol 12, No 1 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v12i1.17465

Abstract

Integrating local wisdom is important in learning, especially in the students' worksheet, a reference for student learning. The phenomenon of sanja kuning is very memorable for the people of South Kalimantan, with its various mythologies. This will be interesting if discussed through physics learning to support students’ science process skills. This study aims to analyze the effect of students’ worksheets integrated with local wisdom, namely the sanja kuning phenomenon, and the effectiveness of learning and improving students' science process skills. This quasi-experimental study applies students' worksheets integrated with local wisdom, namely the sanja kuning phenomenon. Data were obtained through one group pretest-posttest design with a total sample of 28 people. Data were analyzed using N-gain, and student learning outcomes obtained a gain of 0.38 with medium criteria. The data were also analyzed using a paired t-test, and the results showed that there was an effect on the learning of students' worksheets integrated with local wisdom of the Sanja kuning phenomenon. The results of this study conclude that student worksheets integrated with local wisdom, namely the Sanja kuning phenomenon, affect the teaching of light waves. In addition, the effectiveness is in the medium category. This student's worksheet can be used as an alternative to learning about light waves. The weaknesses of the research show that further development of this students' worksheet is needed to be maximized to improve the students' science process skills.
Development of the TALUBA Model to Increase Science, Islam, and Local Wisdom and Instill Taluba Character Lutfiyanti Fitriah; Agil Karwi Wadila Vanianingrum; Agil Karwi Wadila Vanianingrum; Rini Wulan Sari; Rini Wulan Sari; Risda Rokhmania Nur Hikma; Risda Rokhmania Nur Hikma; Fahmi Yahya; Fahmi Yahya
Berkala Ilmiah Pendidikan Fisika Vol 12, No 1 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v12i1.17552

Abstract

This research aimed to create TALUBA learning model-assisted modules that enhance three different forms of literacy. These were the literacy of science, Islam, and indigenous wisdom. The other was to maintain honorable character. The South Kalimantan people's local characters, especially Baiman (faithful), Bauntung (fortunate), and Batuah (dignified), are known as the taluba (three ‘ba’) characters. Using the ADDIE design, this study was a research and development project. Twenty-eight students studying work and energy in Basic Physics served as the research sample. The study instruments were the validation sheets, observation sheets, test questions, and questionnaires. Tests, observations, and surveys were the methods utilized to acquire data. The Aiken formula, N-Gain, mean, and percentage were employed in the data analysis. With a value of 0.92-1.00, learning models and modules were known to be valid based on the data analysis results. In the very good category, the average application of the learning model by lecturers was 4.85, while for students, it was 4.30. According to the test findings, the N-gains for literacy in scientific, Islamic, and local wisdom were 0.93, 0.92, and 0.94 in the high group, respectively. The very good category's average taluba character was 4.61. Additionally, there was a good reaction from students to the learning models and modules. This suggests that the proposed TALUBA learning model is appropriate for lecture use.
Development of Higher Order Thinking Skills (HOTS) Test Instruments on Parabolic and Circular Motion Materials in High Schools Muhammad Aizri Fadillah; Sahyar Sahyar
Berkala Ilmiah Pendidikan Fisika Vol 11, No 3 (2023)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v11i3.16697

Abstract

This research intends to produce HOTS test instruments on high school parabolic and circular motion materials. The Borg and Gall model of research and development (R&D) includes six stages: (1) preliminary investigation, (2) planning and equipment preparation, (3) expert initial product testing and revision, (4) limited field testing, (5) revision based on the results field testing, and (6) broader field test. The data analysis used was qualitative and quantitative. The HOTS test instrument consists of 20 multiple-choice questions, including ten on parabolic and circular motion. According to three experts from material, construction, and language, the outcomes of HOTS instrument validation showed valid and feasible to use with an average value of 0.95 (high validity). The characteristics of HOTS questions have met the criteria of validity as many as 18 questions, high reliability with a value of 0.71, nine questions with a medium difficulty level, an average differentiating power of 0.41 with a good category, and 17 questions have the effectiveness of effective deception. This research concluded that HOTS-based parabolic and circular motion instruments are feasible. Thus, the instrument can be used as training material and assessment of students’ HOTS in high schools.
Development of Higher Order Thinking Skills (HOTS) Test Instruments on Parabolic and Circular Motion Materials in High Schools Muhammad Aizri Fadillah; Sahyar Sahyar
Berkala Ilmiah Pendidikan Fisika Vol 11, No 3 (2023)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v11i3.16697

Abstract

This research intends to produce HOTS test instruments on high school parabolic and circular motion materials. The Borg and Gall model of research and development (R&D) includes six stages: (1) preliminary investigation, (2) planning and equipment preparation, (3) expert initial product testing and revision, (4) limited field testing, (5) revision based on the results field testing, and (6) broader field test. The data analysis used was qualitative and quantitative. The HOTS test instrument consists of 20 multiple-choice questions, including ten on parabolic and circular motion. According to three experts from material, construction, and language, the outcomes of HOTS instrument validation showed valid and feasible to use with an average value of 0.95 (high validity). The characteristics of HOTS questions have met the criteria of validity as many as 18 questions, high reliability with a value of 0.71, nine questions with a medium difficulty level, an average differentiating power of 0.41 with a good category, and 17 questions have the effectiveness of effective deception. This research concluded that HOTS-based parabolic and circular motion instruments are feasible. Thus, the instrument can be used as training material and assessment of students’ HOTS in high schools.
Exploration of Students' Engineering Thinking Skills Through STEM Integrated PjBL Model Design Water Rocket Momentum Material Silvia Ainur Rohma; Rifati Dina Handayani; Albertus Djoko Lesmono
Berkala Ilmiah Pendidikan Fisika Vol 12, No 2 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v12i2.18638

Abstract

The research aims to analyse the engineering thinking skills of students by integrating the PjBL model with STEM water rocket design on momentum materials. This research is an experimental study. The design of this study was qualitative research. There are three stages to the research stage: preparation, implementation, and the final stage. The researchers collected data through observation, interviews, posttests, and documentaries. The focus of this study is on students' engineering thinking skills. The researchers interactively analyse the collected data during the phases of data collection, reduction, presentation, and conclusion. Additionally, the researchers conducted data credibility tests using triangulation techniques to assess the appropriateness of the research data. The research results predominantly classify the six indicators of engineering thinking as very good. Based on the findings and deductions, it is concluded that most students' engineering thinking abilities, when combined with the PjBL model and STEM water rocket design material, score highly on the six indicators of creative problem-solving. Students in this study experienced new knowledge and learning experiences that enabled them to solve daily problems by applying engineering thinking skills and physics concepts.
Improving the Attitudes and Creative Thinking Skills of Senior High School Students Using an ESD-Enhanced STEM Approach Dhara Fauziyah Aslam; Nur Khoiri; Joko Saefan, Saefan; Ernawati Saptaningrum; Sigit Ristanto
Berkala Ilmiah Pendidikan Fisika Vol 12, No 2 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v12i2.18510

Abstract

The STEM approach is a learning strategy to train students' creative thinking skills. This approach encourages students to conduct the engineering process by making prototypes or products to solve problems. Education for Sustainable Development (ESD) needs to be integrated into STEM learning to train students' thinking and questioning skills. This study aims to determine the improvement of ESD attitudes and creative thinking skills by using the ESD-integrated STEM approach. This study used a one-group pretest-posttest design. The research instruments used were a creative thinking skills test with creative thinking indicators and an ESD attitude questionnaire. The N-Gain test analysis obtained a result of 0.81 with a high category. The results showed that students' creative thinking skills improved significantly, and students' ESD attitudes improved very well through the STEM approach with ESD content in high school students. This research shows that the STEM approach with ESD content can be used as an alternative learning method to improve students' creative thinking skills and can contribute to the development of science by enriching the understanding of the STEM approach with ESD content, presenting a new perspective in education that focuses on sustainability and creativity.
Improving the Attitudes and Creative Thinking Skills of Senior High School Students Using an ESD-Enhanced STEM Approach Dhara Fauziyah Aslam; Nur Khoiri; Joko Saefan, Saefan; Ernawati Saptaningrum; Sigit Ristanto
Berkala Ilmiah Pendidikan Fisika Vol 12, No 2 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/bipf.v12i2.18510

Abstract

The STEM approach is a learning strategy to train students' creative thinking skills. This approach encourages students to conduct the engineering process by making prototypes or products to solve problems. Education for Sustainable Development (ESD) needs to be integrated into STEM learning to train students' thinking and questioning skills. This study aims to determine the improvement of ESD attitudes and creative thinking skills by using the ESD-integrated STEM approach. This study used a one-group pretest-posttest design. The research instruments used were a creative thinking skills test with creative thinking indicators and an ESD attitude questionnaire. The N-Gain test analysis obtained a result of 0.81 with a high category. The results showed that students' creative thinking skills improved significantly, and students' ESD attitudes improved very well through the STEM approach with ESD content in high school students. This research shows that the STEM approach with ESD content can be used as an alternative learning method to improve students' creative thinking skills and can contribute to the development of science by enriching the understanding of the STEM approach with ESD content, presenting a new perspective in education that focuses on sustainability and creativity.

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