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Rini Budiharti
Universitas Sebelas Maret
Education Physics

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Pengembangan Modul Elektronik Fisika berbasis Saintifik Menggunakan Software Sigil pada Materi Suhu, Kalor, dan Perpindahan Kalor Erlina Fatkur Rohmah; Rini Budiharti; Ahmad Fauzi
Jurnal Materi dan Pembelajaran Fisika Vol 12, No 2 (2022): Jurnal Materi dan Pembelajaran Fisika
Publisher : Universitas Sebelas Maret

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20961/jmpf.v12i2.50125

Abstract

This study has the following objectives: (1) Explaining the stages of the development process of electronic modules on temperature, heat, and heat transfer materials using Sigil software, (2) Explaining the final specifications of scientific-based electronic modules on temperature, heat, and heat transfer materials using Sigil software. This study uses three steps of the development method with the ADDIE model, namely (1) analysis, (2) design, and (3) development. The research instruments used in this study include a needs analysis questionnaire, a validation questionnaire for the validator, a student test sheet questionnaire, and a draft interview question. The data are qualitative data and quantitative data. The study was conducted in three high schools in Surakarta Residency, namely SMAN 1 Surakarta, SMAN 1 Kartasura, and SMAN 1 Ngemplak Boyolali. The data sources consisted of two experts, three high school physics teachers, and 90 students. The data analysis technique used is qualitative analysis and quantitative analysis. The conclusions of this development research are (1) The development step of the scientific-based physics learning electronic module using Sigil software on the material of temperature, heat, and heat transfer includes the stage, completion step, and module testing step. (2) The developed physics learning electronic module presents temperature, heat, and heat transfer material which consists of 6 sub-materials, namely temperature, heat, the effect of heat on changes in substances (solids), expansion of solids, black principle, and heat transfer. The background of the module display in each learning activity is based on a scientific flow. Based on the results of expert validation and student assessment, the developed module meets the criteria very well. This research can be used as a preliminary research and reference in developing similar products.
Pengembangan Modul Elektronik Fisika Berbasis Saintifik menggunakan Software Sigil pada Materi Fluida Statis Anisah Salma Pigi Taqiyyah; Rini Budiharti; Pujayanto Pujayanto
Jurnal Materi dan Pembelajaran Fisika Vol 13, No 1 (2023): Jurnal Materi dan Pembelajaran Fisika
Publisher : Universitas Sebelas Maret

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20961/jmpf.v13i1.50742

Abstract

This study aims to (1) explain the stages of scientific-based electronic module development using Sigil Software on Static Fluid Material with good criteria, and (2) explain the specifications of the electronic module being developed. This study uses the ADDIE development method which consists of three stages, analysis, design, and development. The data obtained is in the form of qualitative data supported by quantitative data sourced from questionnaires. The data sources consisted of 2 experts, 3 physics teachers, and students. The students consisted of 3 students in the one-to-one trial, 9 students in the small group trial, and 90 students in the field trial. The data analysis technique used is qualitative analysis and quantitative analysis. The conclusions from this study are: (1) The electronic module development stage includes: (a) the preparation stage by compiling the material and determining the application to be used, (b) the electronic module manufacturing stage using the main software, namely Sigil and other supporting applications, (c ) the completion stage is validating the electronic module to experts and revising according to suggestions and input from experts, (d) testing the electronic module to students and making revisions according to suggestions and input from students then publishing the file in the form of a Google Drive link. (2) The developed electronic module presents Static Fluid material. Each sub-material is complemented by student activities, learning video content, materials, sample questions and evaluations, and their discussion. There is also a final evaluation at the very end of the module which includes all learning indicators. The final result of this development research is to obtain a scientific-based electronic module using sigil software on static fluid material that meets the criteria very well and is suitable for use.
Pengembangan Modul Elektronik Interaktif Berbasis Exe-Learning dengan Pendekatan Saintifik pada Materi Gerak Melingkar Beraturan Lintang Nurhayati; Rini Budiharti; Dwi Teguh Rahardjo
Jurnal Materi dan Pembelajaran Fisika Vol 13, No 1 (2023): Jurnal Materi dan Pembelajaran Fisika
Publisher : Universitas Sebelas Maret

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20961/jmpf.v13i1.63579

Abstract

This study aims to describe the characteristics of Exe-Learning based electronic modules on physics material of Regular Circular Motion class X SMA and describe the assessment category of Exe-Learning based electronic modules on Regular Circular Motion material class X SMA by expert validators. The research model used in this research is Research and Development. The method used in this research is the development method with the ADDIE development model which is limited to three stages namely Analysis, design, and development. The data taken in the form of quantitative and qualitative data obtained from research subjects, namely expert validators, educators, and students. The data collection technique used a questionnaire technique. The data analysis used refers to the rating scale and interview by Sugiyono and the number line by Riduwan and Sunarto. The conclusion of this research is (1) the Exe-Learning-based electronic module on physics material for class X SMA regular circular motion has interactive characteristics in accordance with the scientific stages and consists of module cover, author biography, preface, table of contents, glossary, KI and KD, concept maps and competency maps, chapter 1 introduction, chapter 2 learning, evaluation, and closing, (2) based on expert assessments and the results of trials to students as research subjects, Exe-Learning-based electronic modules on physics material for class X SMA Regular Circular Motion based on material aspects, language aspects, and display aspects are categorized as at least good. After being tested to students, this module can be used in learning high school physics on the material of Regular Circular Motion.
Pengembangan Media Pembelajaran Fisika Berbasis Aplikasi Apper Dengan Model Discovery Learning Pada Materi Hukum Newton Elsi Prisma Katyagni; Elvin Yusliana Ekawati; Rini Budiharti
Jurnal Materi dan Pembelajaran Fisika Vol 13, No 1 (2023): Jurnal Materi dan Pembelajaran Fisika
Publisher : Universitas Sebelas Maret

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20961/jmpf.v13i1.63631

Abstract

This study aims to: (1) Describe the characteristics of the Apper application-based Physics learning media with the discovery learning model on Newton's Law material, (2) To find out how experts evaluate Apper application-based Physics learning media with discovery learning models on Newton's Law material based on material aspects , media design and language. The research method used is research and development with the ADDIE research model only in three stages, namely analysis, design and development. Sources of research data were obtained through the results of assessments by 2 supervisors as expert validators, 3 students as peer reviewers, 6 teachers as reviewers, and 72 students. This research was conducted in 2 senior high schools (SMA), namely SMA Negeri 1 Karanganyar and SMA Negeri Kebakkramat. Data types are divided into Qualitative Data and Quantitative Data. Qualitative data obtained from the results of the assessment of suggestions, input and criticism. Quantitative data were obtained from the validation stage, one-on-one trials, small group trials, and large group trials. Data collection techniques using questionnaires. Data analysis was carried out qualitatively and quantitatively based on Azwar's research. The conclusions of this study are: (1) The characteristics of Apper application-based Physics learning media with discovery learning models on Newton's Law material use features such as Guidelines, Competence, Newton I, Newton II, Newton III, Friction, Application, Evaluation , and Information. The application is 167 kB in size and can only be accessed online via a smartphone with a minimum operating system Android 5.0 Lollipop and iOS 8.1, (2) Expert assessment of the Apper application-based Physics learning media with the discovery learning model on Newton's Law material meets the very good category based on material aspects, media design and language.
Co-Authors Adventia Putri Pradita Ahmad Fauzi Anandya Pramesti Anisah Salma Pigi Taqiyyah Arina Zaida Ilma Aulia Nurmalita Dwi Teguh Rahardjo Elma Rakhmah Malika Elsi Prisma Katyagni Elvin Yusliana Ekawati Erlina Fatkur Rohmah Frendi Ihwan Syamsudin Hanifah Nur Khofiah Ichtiar Fijanatun Lintang Nurhayati Pujayanto Pujayanto Sabrina Kusuma Dewi Sari Puspita Catyaningtyas Sarwanto Sarwanto Sri Budiawanti