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All Journal Jurnal Penelitian Pendidikan IPA (JPPIPA) JURNAL PENDIDIKAN DAN ILMU FISIKA Jurnal Luminous: Riset Ilmiah Pendidikan Fisika APLIKATIF: Journal of Research Trends in Social Sciences and Humanities
Nurul Amalia Aris
Universitas Negeri Makassar
Agriculture, Biological Sciences & Forestry Arts Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Economics, Econometrics & Finance Education Languange, Linguistic, Communication & Media Materials Science & Nanotechnology Physics Social Sciences

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Strengthening Physics Scientific Literacy in the Millennial Generation through the Blended Learning Model Amalia Aris, Nurul; Nurhandayani, Nurhandayani; Angraini, Nurvadillah; Rahmayani, Sitti; Masri, Mawardi Jalil
APLIKATIF: Journal of Research Trends in Social Sciences and Humanities Vol. 4 No. 2 (2025): APLIKATIF: Journal of Research Trends in Social Sciences and Humanities
Publisher : Lembaga Junal dan Publikasi, Universitas Muhammadiyah Buton

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59110/aplikatif.v4i2.662

Abstract

This study aims to analyze the improvement of scientific literacy in millennial students during physics learning through the implementation of the blended learning model. A quasi-experimental design with a nonequivalent control group was used. The experimental class applied the blended learning model, while the control class used conventional learning methods. Data were collected through scientific literacy tests administered as pretests and posttests, which were then analyzed using descriptive statistics and t-tests to examine the significance of differences between the two groups. The results indicate a significant difference in posttest scientific literacy scores between the experimental and control classes. The average posttest score in the experimental class was higher than that of the control class, suggesting that the blended learning model was more effective in enhancing students' scientific literacy. The t-test yielded a t-count of 2.053, which was greater than the t-table value of 1.996, with a significance level of 0.05. Based on these findings, it can be concluded that the blended learning model is more effective in improving the scientific literacy of millennial students, particularly in physics education. Future research could explore further optimization of blended learning implementation to enhance various aspects of scientific literacy.
Academic Ethics in the Age of AI: A case study at STKIP DDI Pinrang Walid, Abdul; Masri, Mawardi Jalil; Sulaiman, Sulaiman; Aris, Nurul Amalia; Nurhandayani, Nurhandayani
APLIKATIF: Journal of Research Trends in Social Sciences and Humanities Vol. 4 No. 3 (2025): APLIKATIF: Journal of Research Trends in Social Sciences and Humanities
Publisher : Lembaga Junal dan Publikasi, Universitas Muhammadiyah Buton

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59110/aplikatif.v4i3.667

Abstract

This study explores the extent of Artificial Intelligence (AI) usage among students and its implications for academic ethics, with a specific focus on STKIP DDI Pinrang. Employing a mixed-methods approach, quantitative data were collected through Likert-scale questionnaires distributed to 40 students, while qualitative insights were gathered via interviews with selected respondents. The findings indicate that students’ AI usage is very high (mean score: 4.45), particularly through tools such as ChatGPT, Grammarly, and Quillbot. However, their ethical awareness remains moderate, both in terms of understanding academic ethics (3.1562) and awareness of the ethical implications of AI use (3.04). Correlation analysis reveals a negative relationship between the intensity of AI usage and students' ethical perceptions. Thematic analysis of interviews confirms that students tend to use AI as a substitute rather than a support, and lack institutional guidance on its ethical boundaries. These findings highlight a critical gap between technological proficiency and ethical literacy. The study recommends integrating digital ethics education across curricula and establishing clear institutional policies to ensure responsible AI use in academic settings.
Efektivitas Strategi Whole Brain Teaching dalam Mengoptimalisasi Hasil Belajar Fisika Siswa Sekolah Menengah Atas Nurhandayani; Nurul Amalia Aris; Nurvadillah Angraini. A; Ihfa Indira Nurnaifah Idris
Jurnal Luminous: Riset Ilmiah Pendidikan Fisika Vol. 6 No. 2 (2025): Juli 2025
Publisher : Program Studi Pendidikan Fisika FKIP Universitas PGRI Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31851/luminous.v6i2.19441

Abstract

Penelitian ini bertujuan untuk mengetahui perbandingan hasil belajar Fisika siswa kelas X SMAN 3 Pinrang yang diajar menggunakan strategi Whole Brain Teaching (WBT) dengan mereka yang menerima pembelajaran melalui metode konvensional, serta perbedaan hasil belajar antara keduanya. Penelitian ini dilaksanakan dengan pendekatan kuantitatif menggunakan rancangan kuasi-eksperimen. Populasi penelitian adalah seluruh siswa kelas X MIA SMAN 3 Pinrang sejumlah 153 orang, dengan teknik purposive sampling yang menghasilkan 61 siswa sebagai sampel. Instrumen yang digunakan dalam penelitian ini terdiri dari tes hasil belajar, lembar observasi untuk peserta didik, serta lembar observasi untuk guru. Analisis data dilakukan secara deskriptif dan inferensial. Hasil penelitian menunjukkan bahwa rata-rata hasil belajar Fisika siswa yang menggunakan strategi WBT sebesar 84,18 (kategori sedang), sedangkan pada metode konvensional sebesar 70,03 (kategori rendah). Terdapat selisih sebesar 20,20% antara kedua kelompok, yang menunjukkan bahwa strategi WBT lebih efektif dalam meningkatkan hasil belajar. Simpulan dari penelitian ini adalah strategi Whole Brain Teaching terbukti efektif diterapkan dalam pembelajaran Fisika untuk meningkatkan capaian akademik siswa. Penelitian ini merekomendasikan eksplorasi lebih lanjut terhadap variabel lain seperti keaktifan belajar, minat, dan keterampilan sosial dalam penerapan strategi WBT.
Pengembangam Modul Ajar Fisika Berbasis Literasi Sains untuk Meningkatkan Kemampuan Berpikir Analisis Peserta Didik Aris, Nurul Amalia; Arsyad, Muhammad; Abdullah, Helmi
Jurnal Penelitian Pendidikan IPA Vol 10 No 6 (2024): June
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v10i6.7724

Abstract

This research is a type of R&D research using a 4D model. The 4D stages include define, design, develop, and disseminate. This research and development aims to analyze the validity of the content of the developed science literacy-based physics teaching module design, analyze practitioners' assessments of science literacy-based physics teaching modules, and analyze the effectiveness of using science literacy-based physics teaching modules to improve students' analytical thinking skills. Based on the results of the analysis, it can be concluded that the science literacy-based physics teaching module developed based on expert assessment using the Aiken V index analysis is declared valid and feasible to use with a little revision, the science literacy-based physics teaching module in terms of practitioner (teacher) responses for all aspects obtained an average score percentage of 86% which is on very good criteria,  and the effectiveness of using science literacy-based physics teaching modules is obtained from the results of tests of students' analytical thinking skills as many as 77% of students are on an N-gain score of  56% or with effective criteria where this means there is an increase in students' analytical thinking skills in physics learning.
Analisis Konseptual Fenomena Fisika pada Lopi Sandeq Berbasis Studi Literatur untuk Pembelajaran Masri, Mawardi Jalil; Rasyid, Juniar; Aris, Nurul Amalia; Sulfianty; Afdalia
Jurnal Pendidikan dan Ilmu Fisika Vol 5 No 2 (2025): Desember 2025
Publisher : Universitas Garut

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52434/jpif.v5i2.43252

Abstract

This study aims to examine the physical phenomena at work in the Lopi Sandeq through a conceptual analysis based on a structured literature review as a foundation for developing contextual and ethnoscience-oriented physics learning resources. The Lopi Sandeq was selected as the object of investigation because it is a traditional boat of the Mandar people known for its remarkable speed and stability, thus embodying various physics principles that can be explained systematically. The research employed a qualitative method using a structured literature review approach to analyze scholarly sources related to traditional boat design, fluid mechanics, sail aerodynamics, object motion dynamics, and learning theories rooted in local wisdom. The analysis was conducted through the identification, categorization, and synthesis of findings from relevant references. The results indicate that the design and performance of the Sandeq represent implementations of physical principles such as buoyant force, rotational stability, fluid dynamics, aerodynamic lift on sails, momentum, impulse, and mass distribution equilibrium. Its slender hull shape minimizes wave drag, while the outrigger provides stabilizing torque to maintain balance. The sail system combines thrust and lift forces to generate efficient acceleration. Beyond its scientific contributions, the study reveals that the Sandeq has significant potential as a physics learning medium based on ethnoscience, offering real-life contexts closely connected to students’ sociocultural environments. The study concludes that analyzing the physical phenomena of the Sandeq can enrich conceptual understanding of physics while strengthening cultural literacy within the learning process.
Studi Pertumbuhan Kristal Glisin dalam Matriks Kitosan sebagai Media Praktikum Sensor Piezoelektrik Berbasis Biopolimer bagi Mahasiswa Pendidikan Fisika Nurhandayani, Nurhandayani; Angraini, Nurvadillah; Sari, Yusnita; Aris, Nurul Amalia
Jurnal Pendidikan dan Ilmu Fisika Vol 5 No 2 (2025): Desember 2025
Publisher : Universitas Garut

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52434/jpif.v5i2.43326

Abstract

This study aims to examine the growth of glycine crystals in a chitosan matrix and its potential as a biopolymer-based piezoelectric sensor laboratory medium for physics education students. The research methodology involved synthesizing chitosan-glycine films using a solution method, then observing the growth and morphology of glycine crystals visually and using simple optical instruments. The results showed that glycine was able to grow in the chitosan matrix with clearly and evenly formed crystal morphology, which was influenced by the interaction between glycine and the chitosan matrix. The resulting film structure was flexible and transparent, making it suitable for use as an observation medium in practical activities. This study was limited to observing crystal growth without measuring electrical properties or piezoelectric response. Practically, the results of this study provide a simple, inexpensive, and environmentally friendly alternative laboratory medium for introducing the concepts of crystal growth and piezoelectric materials. The social implications support sustainable science learning through the use of biopolymer materials in education
Analisis Kebutuhan dan Karakteristik Penggunaan Google Sites Berbasis AI dalam Pembelajaran Fisika Dasar Aris, Nurul Amalia; Angraini, Nurvadillah; Nurhandayani, Nurhandayani; Masri, Mawardi Jalil; Sulfianty, Sulfianty; Rasyid, Juniar
Jurnal Pendidikan dan Ilmu Fisika Vol 5 No 2 (2025): Desember 2025
Publisher : Universitas Garut

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52434/jpif.v5i2.43333

Abstract

Basic Physics learning for first-year university students still faces various challenges, particularly in understanding abstract and mathematical concepts. This condition highlights the need for interactive and flexible learning media that align with students’ characteristics. This study aims to analyze the needs and usage characteristics of AI-based Google Sites in Basic Physics learning. The research employed a descriptive quantitative approach using a survey method. The participants were  first-semester students of the Physics Education and Mathematics education Program at STKIP Darud Da’wah wal Irsyad Pinrang. Data were collected through a needs analysis questionnaire, classroom observations, and limited interviews. The results indicate that more than 80% of students experience difficulties in learning Basic Physics, 78% of respondents reported that lecturers predominantly use textbooks and presentation slides as the main learning media, 82.6% of students agreed or strongly agreed on the need for web-based learning media, and 81% of respondents perceived that AI integration in physics learning media has the potential to help them understand difficult materials. These findings suggest that AI-based Google Sites have strong potential to support Basic Physics learning and can serve as a foundational reference for the development of digital learning media in future studies.
Co-Authors Abdul Walid Afdalia Angraini, Nurvadillah Ihfa Indira Nurnaifah Idris masri, mawardi jalil Muhammad Arsyad nurhandayani nurhandayani Sitti Rahmayani Sulaiman Sulaiman Sulfianty Sulfianty Yusnita Sari, Yusnita