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All Journal RADIASI: Jurnal Berkala Pendidikan Fisika Jurnal Pendidikan Fisika Indonesia Briliant: Jurnal Riset dan Konseptual Science Education and Application Journal
Putri, Febi Dwi
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Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Education Energy Physics

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Conceptual Understanding in Static Fluid through the Recitation Program for Students at SMA Ar-Rohmah International Islamic Boarding School Maghfiroh, Alifiyah Nindi; Putri, Febi Dwi; Purwaningsih, Endang; Taqwa, Muhammad Reyza Arief
Science Education and Application Journal Vol 5 No 2 (2023): Science Education and Application Journal
Publisher : Program Studi Pendidikan IPA, Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/seaj.v5i2.758

Abstract

Conceptual understanding of physics is one of the important factors to improve the quality of learning physics. However, several studies have shown that student’s  conceptual understanding is low, especially in static fluid material. Several studies have attempted to use recitation programs and have succeeded in increasing understanding of the concept. Student's conceptual understanding can be improved through independent learning. Independent learning can use recitation programs, but not many available static fluid recitation programs are equipped with concept explanations and do not yet cover students who study in a formal and boarding school system, such as boarding school students. Existing recitation programs are widely used by students to support independent learning. Recitation of students is still rare because of the lack of independent learning. Therefore, this study aims to improve boarding school student’s conceptual understanding in static fluid material through recitation program. This research is quantitative research with a quasi-experimental and one group pretest-posttest design. The recitation program is given in the form of an interesting computer-assisted animation outside of learning. The subjects of this study were 40 students of class XI Natural Science 1 at the SMA International Islamic Boarding School Ar-Rohmah Dau, Malang. The research instruments included valid recitation programs and pretest-posttest questions. Data obtained from the results of the conceptual understanding test supported by interviews. The results showed that there was an increase in students' understanding of the concept which was calculated through an N-gain of 0.45 in the medium category and an effect-size of 1.68 in the strong category. The findings of this study imply that the recitation program can improve student's understanding of concepts like previous research, and practically that teachers can utilize the recitation program as student learning material.
Enhancing Students’ Concepts Mastery in Kinetic Theory of Gases Through the STEM-Discovery Learning Model Susanti, Shinta Dewi; Yuliati, Lia; Purwaningsih, Endang; Putri, Febi Dwi
Radiasi : Jurnal Berkala Pendidikan Fisika Vol. 17 No. 2 (2024)
Publisher : Universitas Muhammadiyah Purworejo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37729/radiasi.v17i2.5056

Abstract

Students' difficulties with gas kinetic theory material have led to low mastery of physics concepts. Improving mastery of the concept of the kinetic theory of gases can be supported by using learning models. There have been many studies that prove that discovery learning can influence physics learning outcomes. However, this study uses a STEM approach integrated into a discovery learning model that acts as part of the inquiry level in physics classes Merdeka curriculum. This research aims to improve students' mastery of concepts in the kinetic theory of gases material through the STEM-discovery learning model. This research used a one-group pretest and posttest design on 30 students of class XI Merdeka 4 at SMAN 1 Dolopo. The instruments used are the RPP and five questions describing the concept mastery test. The data obtained was then analyzed using the normality test, difference test, N-gain, and effect size, and categorizing the students' concept mastery level for each question. The results of this research reveal that STEM-discovery learning is able to increase students' mastery of concepts in kinetic gas theory material. Interestingly, this research also found that students' correct conceptions have not been able to be stored in memory very well, so it is necessary to link kinetic gas theory material to other physics material that is still relevant so that students are motivated to remember and retain concepts.
Konstruksi Identitas STEM (Science, Technology, Engineering, Mathematics) Siswa SMA: Studi Kasus di Pembelajaran Fisika Putri, Febi Dwi; Purwaningsih, Endang; Munfaridah, Nuril
BRILIANT: Jurnal Riset dan Konseptual Vol 9 No 1 (2024): Volume 9 Nomor 1, Februari 2024
Publisher : Universitas Nahdlatul Ulama Blitar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.28926/briliant.v9i1.1356

Abstract

STEM plays a very important role in the progress of a country. The choice of interest in work in the STEM field is influenced by STEM identity. The importance of STEM identity needs to be known for educational institutions to increase student interest in the STEM field. This research aims to describe the STEM identity construction of a high school student studying physics with independent curriculum guidelines. The type of research used is qualitative research with a case study method in the form of a single case study. Data collection was carried out through semi-structured interviews with one participant based on purposive sampling techniques. The data obtained was then confirmed through field notes during six physics learning meetings as a form of data triangulation. This research uses the STEM identity construct which includes three indicators. The main participant is a female student in class X high school who has a strong STEM identity among other students. The results of this study show that indicators of interest, recognition, and performance-competence influence the STEM identity construction formed by high school students. Increasing STEM identity can be done by optimizing the STEM approach in the independent curriculum.
Development of Electronic Independent Learning Activity Unit (E-ILAU) Using Project-Based Learning-STEM Integrated TPACK to Improve Higher-Order Thinking Skills Haritzah, Tan Zhauna Hafis; Purwaningsih, Endang; Taqwa, Muhammad Reyza Arief; Putri, Febi Dwi; Kurniawan, Fatah
Jurnal Pendidikan Fisika Indonesia Vol 20, No 1 (2024)
Publisher : Department of Physics, Faculty of Mathematics and Natural Sciences

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpfi.v20i1.42132

Abstract

High-order thinking skills (HOTS) are part of 21st-century abilities. However, students still need help solving problems, especially in simple harmonic motion material, which several studies have proved to be relatively low in HOTS. Students' HOTS abilities will be trained with various learning strategies, such as a combination of teaching materials and learning models using technology. This study aims to develop an E-ILAU (Independent Learning Activity Unit Electronic) using PjBL (Project Learning)-STEM (Science, Technology, Engineering, Mathematics) integrated with TPACK (Technological Pedagogical Content Knowledge) to improve the HOTS of high school students on simple harmonic motion topics. This research and development adapts the ADDIE design with the Analysis, Design, Development, Implementation, and Evaluation stages. Data collection instruments and data analysis techniques in this study included a product validation questionnaire to determine product validity, an E-ILAU readability test questionnaire to determine product legibility before being tested, a learning implementation observation sheet to determine product practicality, and a topic of higher order thinking skills in Simple Harmonic Motion topics to find out the effectiveness of the product obtained from the pretest-posttest in terms of the results of the difference test, n-gain, and effect size. E-ILAU was implemented using a one-group pretest-posttest design. The results showed that the validity of E-ILAU was a very valid category, the readability of E-ILAU was outstanding, and the practicality of E-ILAU in learning was carried out by the lesson plan, which received a positive response from students. As well as the effectiveness of E-ILAU in the practical category of increasing higher-order thinking skills. The results showed that the PjBL-STEM-based E-ILAU integrated with TPACK was classified as valid, practical, and effective for improving the high-level thinking skills of high school students in Simple Harmonic Motion topics.
Co-Authors Endang Purwaningsih Fatah Kurniawan, Fatah Haritzah, Tan Zhauna Hafis Lia Yuliati, Lia Maghfiroh, Alifiyah Nindi Nuril Munfaridah, Nuril Reyza Arief Taqwa, Muhammad Susanti, Shinta Dewi