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The Use of Inquiry-Based Mobile Pocket Book on Students’ Knowledge Based on Critical Thinking Skills on Global Warming Sarwanto, Sarwanto; Febrianti, Valinda Putri; Zahroh, Shofi Hikmatuz
JIPF (Jurnal Ilmu Pendidikan Fisika) Vol 9, No 2 (2024): May 2024
Publisher : STKIP Singkawang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26737/jipf.v9i2.4604

The purpose of this study was to analyze: (1) differences in the effect of using learning media mobile pocket book and electronic book on student knowledge learning outcomes on Global Warming material, (2) differences in the effect of critical thinking skills with high and low categories on student knowledge learning outcomes on Global Warming material, (3) interaction between learning media mobile pocket book and electronic book with critical thinking skills on student knowledge learning outcomes on Global Warming material. This study used a quasi-experimental method with a sample of grade XI students’ divided into two classes. The data analysis technique used was Kruskal-Wallis Test. The results showed: (1) there is a difference in the effect of using learning media mobile pocket book and electronic book on student knowledge learning outcomes, (2) there is no difference in the effect of critical thinking skills with high and low categories on student knowledge learning outcomes on Global Warming material, (3) there is an interaction between learning media mobile pocket book and electronic book with critical thinking skills on student knowledge learning outcomes on Global Warming material.

The Influence of Using Module with Computational Thinking Unplugged Approaches and Module with Scientific Approaches Based on Student's Critical Thinking Ability Towards Cognitive Ability the Subject of Temperature and Heat Transfer Fauzi, Ahmad; Zahroh, Shofi Hikmatuz; Ekawati, Elvin Yusliana
Widyagogik Vol 10, No 1 (2022): Widyagogik
Publisher : Universitas Trunojoyo Madura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21107/widyagogik.v10i1.17587

The purpose of this research was to determine (1) the difference effect between the use of module with an unplugged computational thinking approach and module with a scientific approach to students' cognitive abilities on the subject of temperature and heat transfer, (2) the differences effect of students' critical thinking abilities in the high and low category on students' cognitive abilities on the subject of temperature and heat transfer, (3) the interaction between the effect of using module with a computational thinking unplugged approach and module with a scientific approach and students' critical thinking skills on students' cognitive abilities on the subject of temperature and heat transfer. This research used a quasi-experimental method with a 2x2 factorial design. The population in this research were all students of the first semester of physics education at Universitas Sebelas Maret. Data collection techniques used are tests and questionnaires. Data were analyzed using a two-way ANOVA with different cell contents. The results of the study show that: (1) there is a difference in the effect between the use of module with a computational thinking unplugged approach and module with a scientific approach to students' cognitive abilities on the subject of temperature and heat transfer ( 2) there is a difference in the effect of students' critical thinking skills in the high and low categories on students' cognitive abilities on the subject of temperature and heat transfer, and (3) there is no interaction between the effect of using module with a computational approach thinking unplugged and module with a scientific approach and students' critical thinking skills on students' cognitive abilities on the subject of temperature and heat transfer.

Development of Project Based Learning Media Using Google Sites on Alternative Energy Topics Laluna, Tazkia Dick; Supurwoko, Supurwoko; Zahroh, Shofi Hikmatuz
Jurnal Materi dan Pembelajaran Fisika Vol 14, No 2 (2024): Jurnal Materi dan Pembelajaran Fisika
Publisher : Universitas Sebelas Maret

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20961/jmpf.v14i2.82204

Learning is carried out to arrange and organize the environment around students to foster their learning process. The student's learning process is carried out through inquiry, responding to questions regarding a problem or a complex challenge. This learning process can be conducted by applying the project-based learning model. The project-based learning model can be applied in the field of information and communication technology in line with the 21st century, such as using Google Sites. Therefore, this research aims to describe the specifications of Google Sites as a learning media using the project-based learning model on alternative energy topics and describe the assessment results from experts, educational practitioners, and learners regarding Google Sites as a learning media using the project-based learning model on alternative energy materials. This development research employs the 4D model by Thiagarajan, which consists of the following stages: define, design, develop, and disseminate. The learning media obtained validation from two experts and assessment from educational practitioners regarding content, media, and language aspects. The development trial of this media was conducted with phase E students. Data collection techniques included interviews and questionnaires, with data analysis performed qualitatively and quantitatively. The learning media comprises a primary topic, alternative energy, organized based on project-based learning syntax. It consists of three menus: the welcome menu, the main page, and the author's identity. Validation by experts and assessment by educational practitioners indicate that the learning media meets excellent content, media, and language criteria. The development trial results show that the learning media meets excellent criteria at each trial stage.

Analysis of Merdeka Curriculum-based Electronic Module Needs for Physics Learning Phase F Prastyo, Agung; Ekawati, Elvin Yusliana; Zahroh, Shofi Hikmatuz
Journal of Educational Sciences Vol 8. No. 1. January 2024
Publisher : FKIP-Universitas Riau

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31258/jes.8.1.p.128-139

This study aims to define the need for Merdeka curriculum-based electronic modules for physics learning phase F. This research uses a qualitative approach with a descriptive research type. Data was collected through interviews, questionnaires, and observation. The results showed that teachers and students used technology in learning physics. They realize that using teaching materials such as electronic modules based on the Merdeka curriculum is essential. However, the number of physics teaching materials is still limited, especially the electronic modules for physics learning phase F. Phase F teachers and students need physics teaching materials based on a Merdeka curriculum. Some students who have not met the minimum learning outcomes try to find these teaching materials through tutoring outside of school. Indicators of Merdeka curriculum-based teaching materials include: 1) teaching materials have process skill syntax, 2) learning is structured using the Understanding by Design approach, and 3) teaching materials have components that support strengthening the Profil Pelajar Pancasila in learning. This is by the mandate of learning in the Merdeka curriculum. The development of physics teaching materials needs to be done to achieve the objectives of learning physics in the Merdeka curriculum.

Analysis of Merdeka Curriculum-based Electronic Module Needs for Physics Learning Phase F Prastyo, Agung; Ekawati, Elvin Yusliana; Zahroh, Shofi Hikmatuz
Journal of Educational Sciences Vol. 8 No. 1 (2024): Journal of Educational Sciences
Publisher : FKIP - Universitas Riau

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31258/jes.8.1.p.128-139

This study aims to define the need for Merdeka curriculum-based electronic modules for physics learning phase F. This research uses a qualitative approach with a descriptive research type. Data was collected through interviews, questionnaires, and observation. The results showed that teachers and students used technology in learning physics. They realize that using teaching materials such as electronic modules based on the Merdeka curriculum is essential. However, the number of physics teaching materials is still limited, especially the electronic modules for physics learning phase F. Phase F teachers and students need physics teaching materials based on a Merdeka curriculum. Some students who have not met the minimum learning outcomes try to find these teaching materials through tutoring outside of school. Indicators of Merdeka curriculum-based teaching materials include: 1) teaching materials have process skill syntax, 2) learning is structured using the Understanding by Design approach, and 3) teaching materials have components that support strengthening the Profil Pelajar Pancasila in learning. This is by the mandate of learning in the Merdeka curriculum. The development of physics teaching materials needs to be done to achieve the objectives of learning physics in the Merdeka curriculum.

Profil Keterlaksanaan Pendampingan Penyusunan Modul Ajar Fisika Fase F di MGMP Fisika SMA Kabupaten Sukoharjo Zahroh, Shofi Hikmatuz; Sarwanto, Sarwanto; Sukarmin, Sukarmin; Haryani, Fairusy Fitria; Ekawati, Elvin Yusliana; Fauzi, Ahmad; Wahyuningsih, Daru; Pujayanto, Pujayanto; Sunarno, Widha
SEMAR (Jurnal Ilmu Pengetahuan, Teknologi, dan Seni bagi Masyarakat) Vol 13, No 1 (2024): Mei
Publisher : LPPM UNS

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20961/semar.v13i1.80503

Kurikulum Merdeka menuntut guru untuk memiliki kemampuan dalam mengembangkan perangkat ajar pembelajaran. Namun, hanya 5% guru dari 21 responden yang mengembangkan perangkat ajarnya sendiri. Oleh karena itu, grup riset Manajemen dan Inovasi Pembelajaran Fisika (MIPF) FKIP Universitas Sebelas Maret melaksanakan kegiatan pendampingan terhadap guru Fisika SMA Kabupaten Sukoharjo dalam menyusun modul ajar Fase F Kurikulum Merdeka. Tujuan dari kegiatan pendampingan antara lain, 1) memberikan pemahaman tentang Kurikulum Merdeka, asesmen diagnostic, dan proses penyusunan ATP dan modul ajar dan 2) melatih guru dalam menyusun modul ajar fisika fase F. Kegiatan pengabdian yang dilakukan grup riset MIPF diselenggarakan selama tiga (3) tahap dan melibatkan 33 guru Fisika SMA Kabupaten Sukoharjo selama bulan Juni-Agustus 2023. Berdasarkan hasil evaluasi, didapatkan bahwa guru fisika mendapatkan pemahaman yang lebih terkait prosedur pembuatan ATP (83,3% sangat paham), fungsi dan tujuan dari pembuatan ATP (83,3% sangat paham), hakikat modul ajar (83,3% sangat paham), komponen modul ajar (91,7% sangat paham), proses pembuatan modul ajar (91,7% sangat paham), tujuan asesmen diagnostic (83,3% sangat paham), dan jenis tes diagostik (91,7% sangat paham). Selain mendapatkan wawasan baru, guru fisika juga telah menyusun luaran berupa 14 modul ajar yang telah direview oleh tim grup riset MIPF. The Kurikulum Merdeka requires teachers to have the ability to develop learning and teaching tools. However, according to a survey conducted on Sukoharjo Regency High School physics teachers, only 5% of teachers from 21 respondents developed their teaching tools. Apart from that, Phase F of the Kurikulum Merdeka will be implemented in the 2023 academic year. Therefore, the Physics Learning Management and Innovation (MIPF) research group at FKIP Sebelas Maret University is mentoring Sukoharjo Regency High School Physics teachers in preparing Modul Ajar for Phase F of the Kurikulum Merdek. The mentoring activities have two main goals: 1) to give teachers a better understanding of the Independent Curriculum, diagnostic tests, and the process of creating ATP and lesson plans (Modul Ajar); and 2) to train teachers in creating phase F physics lesson plans (Modul Ajar). The service activities carried out by the MIPF research group were held in three (3) stages and involved 33 Sukoharjo Regency High School physics teachers from June to August 2023. Based on the evaluation results, it was found that physics teachers gained a greater understanding regarding the procedure for making ATP (83.3% really understood), the function and purpose of making ATP (83.3% really understood), the nature of the Modul Ajar (83.3% really understood), the components of the Modul Ajar (91.7% really understood), the process of making the Modul Ajar (91.7% really understood), the purpose of the diagnostic assessment (83.3% really understood), and the type of diagnostic test (91.7% really understood). Results Apart from gaining new insights, the service activities carried out by the physics teacher have also prepared output in the form of 14 Modul Ajar, which was prepared by the teacher and has been reviewed by the MIPF research group team.

Training Evaluation For Scientific-Based Electronic Module Development Using Sigil Software In MGMP Physics Teacher Surakarta Zahroh, Shofi Hikmatuz; Sunarno, Widha; Pujayanto, Pujayanto; Ekawati, Elvin Yusliana; Fauzi, Ahmad
SEMAR (Jurnal Ilmu Pengetahuan, Teknologi, dan Seni bagi Masyarakat) Vol 14, No 2 (2025): November
Publisher : LPPM UNS

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20961/semar.v14i2.98679

Professional and skilled teachers in e-learning-based instructions are needed to support the implementation of instructions that corresponds to the dynamics of the development of science and technology. For this reason, training is necessary for sustainability, both at school and outside of school. E-learning-related training requires no small amount of funds. That can be a problem in the professional development of the MGMP Physics teacher in Surakarta. To overcome these problems, the Physics Education Study Program FKIP UNS with the Physics Teacher Association (MGMP) Surakarta held training to develop scientific-based physics electronics modules using sigil software on several topics, that is (1) Elasticity and Hooke's Law (2) Temperature, Heat, and Heat Transfer, (3) Rotational Dynamics, (4) Static Fluids, (5) Dynamic Fluids, and (6) Kinetic Theory Gas. This training has four activities, that is (1) the explanation of the material about the nature of scientific-based electronic modules, (2) the introduction of the sigil and the procedures for its use, (3) training and practice to develop scientific-based electronic modules using Sigil software, and (4) discussion of the results of the electronic module development.

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