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The Effect of Discussion Learning on Cognitive Students 'Ability in Teaching Learning Strategies Nurulwati, Nurulwati; Zulfahmi, Zulfahmi; Susanna, Susanna
International Journal for Educational and Vocational Studies Vol 2, No 3 (2020): March 2020
Publisher : Universitas Malikussaleh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29103/ijevs.v2i3.2154

Abstract

The purpose of this study was to determine whether or not there was an increase in the cognitive abilities of student learning by applying discussion learning to teaching and learning strategies and student responses to the application of discussion learning. The research was carried out in the physics education department that followed the teaching and learning strategies. The population in this study were all students who took the teaching semester strategy V semester 2019 as many as 60 people. While the research sample was 27 students class 01. Sample selection by purposive sampling. The research method used is the Pre Experiment with the design of Pre test and Post test One Group. The results showed that: tcount> ttable means 20.21 > 1.71. This shows an increase in cognitive learning of students who are taught by learning discussion. While the response of students to the learning process of discussion strongly agreed and agreed at 94.06%. In accordance with the criteria of the percentage of student responses, the response to learning discussion is in the range of 76-100% including the very interested category. Students are motivated to learn by learning discussions that practice his thinking skills and critical thinking in conveying the ideas discussed in class and arises self-confidence in expressing ideas and opinions to others.
Development of Guided Inquiry based on Blended Learning (GIbBL) Teaching Module for Physics in the Independent Curriculum Herliana, Fitria; Kasli, Elisa; Azhariah, Siti Kalsuma; Mahzum, Elmi; Farhan, Ahmad; Nurulwati, Nurulwati; Syukri, Muhammad; Mohtar, Lilia Ellany
Jurnal Penelitian & Pengembangan Pendidikan Fisika Vol 9 No 2 (2023): JPPPF (Jurnal Penelitian dan Pengembangan Pendidikan Fisika), Volume 9 Issue 2, D
Publisher : Program Studi Pendidikan Fisika Universitas Negeri Jakarta, LPPM Universitas Negeri Jakarta, HFI Jakarta, HFI

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21009/1.09210

Abstract

This study aims to develop a teaching module with a guided inquiry model based on blended learning (GIbBL) that can be applied in the independent curriculum. This kind of research uses the ADDIE development paradigm, which consists of the following steps: 1) Analysis, 2) Design, (3) Development, 4) Implementation, and 5) Evaluation. Due to time constraints, the teaching module in this study was only develop to the development stage. The feasibility of the teaching modules was assessed through expert validation tests and practicality tests, which involved gathering responses from research subjects. The subjects of this study were physics teachers and students of class XI SMAN 7 Banda Aceh. The data collection technique employed in this study utilized a questionnaire instrument, comprising a material and learning design expert validation questionnaire, as well as a teacher and student response questionnaire. Data analysis involved percentage descriptive analysis. The results of the material expert validation test demonstrated a percentage of 93,25%, while the learning design expert validation test yielded 91,5%, both falling within the "very valid" category. Furthermore, the teacher response test resulted in a percentage of 96,2%, and the student response test amounted to 88%, both categorized as "very good." Based on the research findings, it can be concluded that the guided inquiry based on blended learning (GIbBL) teaching module is deemed feasible for application in the learning process within an independent curriculum.
ANALISIS PENGETAHUAN TPACK GURU IPA SMP DAN FISIKA SMA SE-ACEH BARAT DAYA Musdar, Musdar; Susanna, Susanna; Saputri, Mawarni; Nurulwati, Nurulwati; Fatmaliana, Andia
ORBITA: Jurnal Pendidikan dan Ilmu Fisika Vol 9, No 2 (2023): November
Publisher : Universitas Muhammadiyah Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31764/orbita.v9i2.15950

Abstract

ABSTRAKTujuan dari penelitian yang dilakukan ini adalah ingin menganalisis sejauh mana Pengetahuan Teknologi, pedagogi dan Content Knowledge Guru Guru IPA SMP dan Fisika SMA yang ada di Aceh Barat Daya, Pada Penelitian ini menggunakan Metode penelitian Analisis Kuantitatif,  Data pada penelitian di peroleh  dengan cara mengedarkan Angket yang telah disusun dan divalidasi, butir angket penelitian terdiri dari item pertanyaan yang mencakup Pedagogical Knowledge, Content Knowledge, Teknological Knowledge. Pedagogical Content Knowledge, Tecnological Content Knowledge, Tecnological Pedagogical Knowledge dan Tecnological Pedagogical And Content Knowledge  butir soal berjumlah 36 butir soal dengan 5 item pilihan sedangkan sampel yang terdiri dari guru IPA dan Fisika berjumlah 42 orang, Analisis data pada penelitian ini menggunakan persentase setiap komponen, untuk bagian Tecnologi Knowlede Kategori tinggi (51%) untuk Pedagogical Knowledge di dominasi kategori tinggi (49%), untuk bagian Contect Knowledge didominasi kategori sedang (49%), untuk perpaduan teknologi dengan konten materi di kategori sedang (51%), untuk kategori perpaduan pedagogi dengan konten materi dikategori sedang (51%) sedangkan perpaduan teknologi dengan pedagogi didominasi kategori tinggi (47%)  berdasarkan hasil Analisis data secara keseluruhan pengetahuan guru IPA SMP dan Fisika SMA di kabupaten Aceh Barat Daya berkategori sedang dengan jumlah persentase sebanyak 56, 67 % . Berdasarkan data tersebut Guru guru IPA dan Guru Fisika SMA di kabupaten Aceh Barat daya sudah mengetahui Apa itu TPACK bahwa sudah menerapakan di dalam proses Pembelajaran serta mengintegrasikan didalam penggunaaan Teknologi Pembelajaran Kata kunci: pengetahuan guru; TPACK, ABSTRACTThe purpose of the research conducted is to analyse the extent of Technological Knowledge, pedagogy and Content Knowledge of Junior High School Science Teachers and High School Physics Teachers in Southwest Aceh, in this study using the Quantitative Analysis research method, the data in the study were obtained by circulating questionnaires that had been prepared and validated, the research questionnaire items consisted of question items that included Pedagogical Knowledge, Content Knowledge, Technological Knowledge. Pedagogical Content Knowledge, Tecnological Content Knowledge, Tecnological Pedagogical Knowledge and Tecnological Pedagogical And Content Knowledge question items totaled 36 items with 5 choice items while the sample consisting of 42 science and physics teachers, Data analysis in this study uses a percentage of each component, for the Tecnologi Knowlede section the high category (51%) for Pedagogical Knowledge is dominated by the high category (49%), for the Contect Knowledge section is dominated by the medium category (49%), for the combination of technology with material content in the medium category (51%), for the category of pedagogical integration with material content in the medium category (51%) while the combination of technology with pedagogy is dominated by the high category (47%) based on the results of data analysis overall knowledge of junior high school science teachers and high school physics in Southwest Aceh district is in the medium category with a total percentage of 56, 67%. Based on this data, science teachers and physics teachers in in Aceh Barat Daya district already know what TPACK is, that they have applied it in the learning process and integrated it in the use of learning technology. Keywords: teacher knowledge; TPACK
Development of Physics Blended Discovery Learning Tools (PBDLT) in alignment with The Merdeka Curriculum Herliana, Fitria; Farhan, Ahmad; Mutiara, Mutiara; Nurulwati, Nurulwati; Elisa, Elisa; Mahzum, Elmi
Momentum: Physics Education Journal Vol. 9 No. 1 (2025)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/mpej.v9i1.9816

Abstract

Physics learning is inseparable from curriculum updates that always coexist with educational progress. To ensure that students can understand relevant physics concepts/principles/laws and provide them with the skills they need to face problems in the future, it is very important to develop physics learning tools that are aligned with Merdeka's curriculum. The goal of this project is to provide workable Physics Blended Discovery Learning Tools (PBDLT) for the Merdeka curriculum. Research and development using the ADDIE development model—Analysis, Design, Development, Implementation, and Evaluation—is the nature of this kind of study. In this study, PBDLT development was limited to the development stage with research subjects, i.e., 30 students of class VIII-8 of SMPN 2 Banda Aceh in physics subject and 3 science teachers. Expert validation questionnaires (material and learning design specialists) and practicality tests were used to gauge the viability of PBDLT. Following data collection, descriptive quantitative methods with percentage analysis were used to examine the data. The learning design expert validation test yielded 91.5% with a very valid category and a rate of 93.25% for the material expert validation exam. Furthermore, the student response exam yielded 93% with a very good category while the instructor response test yielded 92.7%. The Physics Blended Discovery Learning Tools (PBDLT) developed by the researchers are viable for use in large-scale trials in the learning process within the Merdeka curriculum, according to the research's findings.
Development of Problem Based Learning Teaching Modules Based on Blended Learning in the Implementation of the Independent Curriculum Maulisa, Asra; Herliana, Fitria; Mahzum, Elmi; Elisa, Elisa; Farhan, Ahmad; Nurulwati, Nurulwati
Current STEAM and Education Research Vol. 2 No. 2 (2024): Current STEAM and Education Research, Volume 2 Issue 2, August 2024
Publisher : MJI Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58797/cser.020201

Abstract

The implementation of the independent curriculum in the education system requires teachers to develop teaching modules while conducting instructional activities in the right direction. This research aims to develop a problem-based learning teaching module based on blended learning that is suitable for implementation within the context of the independent curriculum. The type of this research is Research and Development using the ADDIE development model, which stands for analysis, design, development, implementation, and evaluation. In this research, the implementation is limited to the development stage only. The suitability of the teaching module is measured through the validation results of the teaching module, as well as the responses from teachers and students. The subjects of this research are physics teachers and 11th-grade students at SMA Methodist Banda Aceh. Data collection techniques involve the validation questionnaire for the teaching module by experts and practitioners, as well as questionnaires to gather responses from teachers and students. The research data is then analyzed using quantitative descriptive methods with percentage techniques. The overall validation results of the teaching module by content experts indicate a score of 99.7%, construction experts at 91.5%, and practitioners at 90%, all falling under the category of highly valid. Additionally, the results from the teacher response questionnaire show a score of 90%, and the student response questionnaire indicates a score of 86%, both falling into the category of very good. Based on the research findings, it can be concluded that the development of a problem-based learning teaching module based on blended learning is suitable for implementation within the framework of the independent curriculum.
Desain Kurikulum Untuk Pelatihan Manajemen Bencana Dalam Pendidikan Vokasi di SMK Mustari, Andi; Sari, Nurmala; Nurulwati, Nurulwati; Novriza, Ferdiansyah
VOCATECH: Vocational Education and Technology Journal Vol 6, No 1 (2024): October
Publisher : Akademi Komunitas Negeri Aceh Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.38038/vocatech.v6i1.187

Abstract

This research aims to design a Disaster Risk Reduction (DRR) curriculum integrated into vocational education at vocational high schools (SMK), specifically in the fields of Civil Engineering, Mechanical Engineering, and Hospitality. Given Indonesia's susceptibility to natural disasters such as earthquakes and tsunamis, this curriculum is designed to enhance students' preparedness for these disaster risks. The research methods include industry needs analysis and local risk evaluation through literature review, surveys, and interviews with experts. The results indicate that integrating DRR into vocational curricula can improve technical competencies and student readiness for disasters, while also strengthening community resilience. The study concludes with an emphasis on the importance of implementing a curriculum that adapts to local conditions and the development of teacher capacity through specialized DRR training. This study recommends a phased implementation of the DRR curriculum, teacher training, and continuous evaluation to ensure the curriculum's relevance and effectiveness. The findings support enhancing local community resilience and graduate preparedness for disaster scenarios in the workplace.Indonesia merupakan salah satu negara dengan tingkat kerawanan bencana alam yang sangat tinggi, terutama gempa bumi dan tsunami, yang sering kali mengakibatkan kerusakan besar dan korban jiwa. Di tengah ancaman ini, sektor pendidikan memiliki peran penting dalam meningkatkan kesadaran dan kesiapsiagaan masyarakat, termasuk melalui integrasi mitigasi bencana dalam kurikulum. Namun, kurikulum pendidikan vokasi di Sekolah Menengah Kejuruan (SMK) saat ini masih kurang memperhatikan aspek Pengurangan Risiko Bencana (PRB), terutama dalam kaitannya dengan bidang kejuruan yang relevan. Penelitian ini bertujuan untuk merancang kurikulum PRB yang diintegrasikan ke dalam pendidikan vokasi di SMK, khususnya pada jurusan Teknik Sipil, Teknik Mesin, dan Perhotelan. Metode penelitian yang digunakan mencakup analisis kebutuhan industri dan evaluasi risiko lokal melalui studi literatur, survei, dan wawancara dengan para ahli. Hasilnya menunjukkan bahwa integrasi PRB dalam kurikulum vokasi dapat meningkatkan kompetensi teknis dan kesiapan siswa dalam menghadapi bencana, sekaligus memperkuat resiliensi komunitas. Kesimpulan dari penelitian ini menekankan pentingnya pelaksanaan kurikulum yang adaptif terhadap kondisi lokal serta pengembangan kapasitas guru melalui pelatihan khusus PRB. Studi ini merekomendasikan implementasi kurikulum PRB secara bertahap, pelatihan guru, dan evaluasi berkelanjutan untuk memastikan relevansi dan efektivitas kurikulum. Temuan ini mendukung peningkatan resiliensi komunitas lokal dan kesiapan lulusan dalam menghadapi bencana di lingkungan kerja.
The Effect of Google Sites-Based Physics Learning Media with Problem-Based Learning on Student Outcomes Nurulwati, Nurulwati; Amelia, Faraz Rizky; Susanna, Susanna; Elisa, Elisa; Hamid, Abdul; Wahyuni, Agus; Ali, Ruslan Mat
Asian Journal of Science Education Vol 7, No 1: April 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/ajse.v7i1.42368

Abstract

The limited integration of technology and innovative approaches in physics education has frequently hindered students' ability to comprehend abstract and complex concepts, contributing to suboptimal learning outcomes. This study investigates the impact of google sites-based physics instructional media, implemented in conjunction with a problem based learning model, on the learning outcomes of class XI students at SMAN 1 Darul Imarah, explicitly focusing on momentum and impulse topics. This research employs a quantitative approach using a quasi-experimental methodology with a nonequivalent control group design. The entire cohort of class XI students served as the population, with purposive sampling used to select class XI F-4 as the experimental group and XI F-5 as the control group. Data collection was performed through pretests and posttests, utilizing 20 multiple-choice questions designed to assess student comprehension. Data analysis was conducted using an independent sample t-test to determine the significance of differences between groups. The analysis revealed that a t-value (count) of 2.205 exceeded the critical t-value (table) of 1.996, indicating a statistically significant difference in learning outcomes associated with google sites-based physics instructional media using the probkem based learning model with respect to learning outcomes. These findings demonstrate that the integration of google sites as an instructional medium, coupled with the problem based learning approach, significantly enhances students' learning outcomes in the study of momentum and impulse.
The Effect of Discussion Learning on Cognitive Students 'Ability in Teaching Learning Strategies Nurulwati, Nurulwati; Zulfahmi, Zulfahmi; Susanna, Susanna
International Journal for Educational and Vocational Studies Vol. 2 No. 3 (2020): March 2020
Publisher : Universitas Malikussaleh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29103/ijevs.v2i3.2154

Abstract

The purpose of this study was to determine whether or not there was an increase in the cognitive abilities of student learning by applying discussion learning to teaching and learning strategies and student responses to the application of discussion learning. The research was carried out in the physics education department that followed the teaching and learning strategies. The population in this study were all students who took the teaching semester strategy V semester 2019 as many as 60 people. While the research sample was 27 students class 01. Sample selection by purposive sampling. The research method used is the Pre Experiment with the design of Pre test and Post test One Group. The results showed that: tcount> ttable means 20.21 > 1.71. This shows an increase in cognitive learning of students who are taught by learning discussion. While the response of students to the learning process of discussion strongly agreed and agreed at 94.06%. In accordance with the criteria of the percentage of student responses, the response to learning discussion is in the range of 76-100% including the very interested category. Students are motivated to learn by learning discussions that practice his thinking skills and critical thinking in conveying the ideas discussed in class and arises self-confidence in expressing ideas and opinions to others.
Pengembangan E-Modul Berbasis Etnofisika Pada Materi Gelombang Bunyi Humaira, Siti; Ngadimin, Ngadimin; Wahyuni, Agus; Nurulwati, Nurulwati; Musdar, Musdar
EduFisika: Jurnal Pendidikan Fisika Vol 10 No 2 (2025): EduFisika: Jurnal Pendidikan Fisika Volume 10 Nomor 2 August 2025
Publisher : Program Studi Pendidikan Fisika FKIP Universitas Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59052/edufisika.v10i2.46439

Abstract

Physics education in Indonesia often struggles to present abstract concepts in a way that is easily understood and engaging, leading to learning difficulties among students. Integrating ethnophysics—contextualizing physics within local cultural practices and knowledge systems—offers a promising approach, especially in culturally rich regions. Sound waves, as a fundamental topic, provide opportunities for such integration through instructional modules. This study aims to evaluate the feasibility of an ethnophysics-based electronic module (e-module) on sound wave material through a research and development (R&D) approach. The development process followed the ADDIE model, limited to the stages of analysis, design, and development, and was followed by a limited-scale trial. Data were collected using expert validation sheets and student and teacher response questionnaires. Four validators participated, comprising two subject matter experts and two media experts. The limited-scale trial was conducted with 11th-grade students (class F-6) at SMA Negeri 1 Darul Imarah, Aceh Besar. The validation results indicated high validity, with expert scores of 0.81 (subject matter) and 0.87 (media). Content validity scored 0.86, construct validity 0.85, and language validity 0.66, yielding an overall score of 0.84—classified as highly valid. Student and teacher response rates were 84.8% and 90.3%, respectively, indicating strong practicality. These findings suggest that the developed ethnophysics-based e-module is both valid and practical, with strong potential to support culturally relevant and effective physics instruction.
Integrating Articulate Storyline into Problem-Based Learning to Enhance Students’ Conceptual Understanding Saputri, Mawarni; Musdar, Musdar; Rizvia, Fuddhah; Nurulwati, Nurulwati; Susanna, Susanna; Nithieahvathiy, Nithieahvathiy
Jurnal Pendidikan MIPA Vol 26, No 3 (2025): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpmipa.v26i3.pp2003-2019

Abstract

Low conceptual understanding in physics remains a recurring problem in secondary education, particularly because learning is often dominated by conventional methods. Although the Problem-Based Learning (PBL) model can promote critical thinking, its potential is not maximized without the support of interactive media. This study aims to determine the effectiveness of integrating Articulate Storyline into PBL as a strategy to enhance students’ conceptual understanding of physics. This quasi-experimental research employed a non–equivalent control group pretest–posttest design, involving 50 tenth-grade students at SMAN 1 Labuhan Haji Barat, South Aceh, Indonesia. Class X IPA 1 (25 students) served as the experimental group, while Class X IPA 2 (25 students) acted as the control group, which was selected by the purposive sampling technique. Instruments consisted of a two-tier concept test and a student response questionnaire. Data were analyzed using N-Gain, an independent t-test, and qualitative categorization of conceptual understanding. The results showed that the experimental group achieved a higher N-Gain of 0.52, categorized as medium, compared to the control group of 0.26, which was categorized as low. An independent t-test revealed a significant difference between the two classes with an alpha value of 0.05. Qualitative analysis revealed a significant shift in students’ conceptual categories, as the number of students in the “not understanding” and “misconception” groups decreased. In contrast, those in the “understanding concept” category increased substantially. Moreover, 91.2% of students responded positively to the use of Articulate Storyline, particularly appreciating its visual simulations, structured learning flow, and interactive quizzes. Integrating Articulate Storyline into PBL effectively enhances students’ conceptual understanding and engagement in physics. This synergy provides empirical evidence that technology-enhanced PBL not only improves learning outcomes but also reduces misconceptions and fosters more meaningful learning experiences.    Keywords: articulate storyline, conceptual understanding, problem-based learning.