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All Journal International Journal of Evaluation and Research in Education (IJERE) Jurnal Inovasi Pendidikan IPA Jurnal Penelitian Pendidikan IPA (JPPIPA) Jurnal Bakti Saintek: Jurnal Pengabdian Masyarakat Bidang Sains dan Teknologi Journal of Advanced Sciences and Mathematics Education
Nurma Yunita Indriyanti
Universitas Sebelas Maret
Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Education Materials Science & Nanotechnology Mathematics Physics Social Sciences Other

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Pendampingan Produksi Low-Carbon STEM Project untuk Meningkatkan Kualitas Pembelajaran IPA Ramah Lingkungan Nurma Yunita Indriyanti; Riezky Maya Probosari; Isma Aziz Fakhrudin; Sri Widoretno; Arifin Septiyanto; Annisa Nur Khasanah
Jurnal Bakti Saintek: Jurnal Pengabdian Masyarakat Bidang Sains dan Teknologi Vol. 5 No. 1 (2021)
Publisher : Fakultas Sains dan Teknologi, UIN Sunan Kalijaga Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Tujuan dari kegiatan pengabdian ini adalah mendampingi guru disekolah  memproduksi perangkat pembelajaran berbasis Low Carbon STEM Project untuk meningkatkan kualitas pembelajaran IPA ramah lingkungan. Low Carbon STEM Project adalah perangkat pembelajaran yang dikemas dalam bentuk project  berdasarkan sintaks STEM (Define, Learn, Plan, Try, Test, and Decide) yang menerapkan konsep ramah lingkungan. Low carbon STEM project yang sudah diproduksi diterapkan pada perangkat pembelajaran yang dikembangkan pada Kompetensi Dasar IPA SMP untuk meningkatkan pembuatan project teknologi yang baru. Project teknologi yang baru perlu ditekankan karena selama ini guru disekolah hanya mengulang fakta dan konsep yang sudah ada dan sangat jarang menciptakan sesuatu yang baru. Hasil akhir dari kegiatan ini diharapkan guru dapat menerapkan Low Carbon STEM Project pada perangkat pembelajaran IPA di tingkat kelas yang lain dan ditularkan dalam ranah yang lebih luas seperti MGMP IPA. Metode yang dilaksanakan dimulai dengan koordinasi dengan mitra yaitu guru IPA SMPN 3 Surakarta dan SMPN 4 Surakarta. Kegiatan dilanjutkan dengan workshop materi Low Carbon STEM Project kepada guru sekolah mitra yang dipandu oleh ketua pengabdian yang diselenggarakan secara luring. Kegiatan dilanjutkan dengan pendampingan produksi Low Carbon STEM project yang dipandu oleh semua tim pengabdi. Metode akhir yang digunakan adalah deskriptif kualitatif. Deskriptif kualitatif didapatkan dari angket dan wawancara setelah pendampingan produksi Low Carbon STEM Project. Hasil angket dan wawancara disajikan dalam data deskriptif kualitatif. [The purpose of this community service activity is to assist teachers in schools to produce learning tools based on the Low Carbon STEM Project to improve the quality of environmentally friendly science learning. Low Carbon STEM Project is a learning tool packaged in the form of a project based on the STEM syntax (Define, Learn, Plan, Try, Test, and Decide) which applies environmentally friendly concepts. The low carbon STEM project that has been produced is applied to the learning tools developed in the Junior High School Science Basic Competencies to improve the creation of new technology projects. New technology projects need to be emphasized because so far school teachers only repeat existing facts and concepts and very rarely create anything new. The end result of this activity is expected that the teacher can apply the Low Carbon STEM Project to other science learning tools at the classroom level and be transmitted in a broader realm such as the Science teacher Organization. The method implemented begins with coordination with partners, namely science teachers at SMPN 3 Surakarta and SMPN 4 Surakarta. The activity was continued with a workshop on the Low Carbon STEM Project material for partner school teachers guided by the community service leader which was held offline.  The activity was continued with production assistance for the Low Carbon STEM project which guided by all member of team. The final method used is descriptive qualitative. Qualitative descriptive was obtained from questionnaires and interviews after the production assistance of the Low Carbon STEM Project. The results of questionnaires and interviews are presented in descriptive qualitative data.]
Constructive controversy dan inkuiri terbimbing sesuai representasi tetrahedral pembelajaran kimia ditinjau dari kemampuan berpikir kritis Siti Khoirun Annisak; Nurma Yunita Indriyanti; Bakti Mulyani
Jurnal Inovasi Pendidikan IPA Vol 5, No 1: April 2019
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (910.493 KB) | DOI: 10.21831/jipi.v5i1.20448

Abstract

Materi kimia kelarutan dan hasil kali kelarutan (Ksp) merupakan salah satu materi yang sulit sehingga dibutuhkan kemampuan berpikir kritis. Inovasi pembelajaran untuk meningkatkan kemampuan berpikir kritis sangat penting. Penelitian ini bertujuan untuk mengetahui: (1) pengaruh penerapan model pembelajaran Constructive Controversy (CC) dan inkuiri terbimbing berdasarkan representasi tetrahedral kimia terhadap prestasi belajar siswa pada materi Ksp; (2) pengaruh kemampuan berpikir kritis siswa terhadap prestasi belajar siswa pada materi Ksp; (3) interaksi antara penerapan model pembelajaran CC dan inkuiri terbimbing berdasarkan representasi tetrahedral kimia dengan kemampuan berpikir kritis terhadap prestasi belajar siswa pada materi Ksp. Penelitian ini merupakan penelitian eksperimen semu dengan desain faktorial 2x2. Hasil penelitian menunjukkan bahwa: (1) tidak ada pengaruh penerapan model pembelajaran CC dan inkuiri terbimbing berdasarkan representasi tetrahedral kimia terhadap prestasi belajar aspek pengetahuan, sikap dan keterampilan pada materi Ksp; (2) ada pengaruh kemampuan berpikir kritis siswa terhadap prestasi belajar siswa aspek pengetahuan tetapi tidak ada pengaruh terhadap aspek sikap dan keterampilan pada materi Ksp; (3) tidak ada interaksi antara penerapan model pembelajaran CC dan inkuiri terbimbing berdasarkan representasi tetrahedral kimia dengan kemampuan berpikir kritis terhadap prestasi belajar aspek pengetahuan, sikap, dan keterampilan pada materi Ksp. Constructive controversy and guided inquiry corresponding to the tetrahedral representation chemistry learning viewed from critical thinking ability AbstractChemical subject of solubility and solubility product constant (Ksp) is one of the materials that is difficult so it needs critical thinking ability. Learning innovation to improve critical thinking skill is very important. This research aimed to determine: (1) the influence of implementing Constructive Controversy (CC) and guided inquiry learning model based on chemical tetrahedral representation towards students achievement on Ksp subject matter; (2) the influence of the student’s critical thinking ability towards students achievement on Ksp subject matter; and (3) the interaction between implementing CC and guided inquiry learning model based on chemical tetrahedral representation with critical thinking ability towards students achievement on Ksp subject matter. This research was quasi experiment research with factorial design of 2x2. The results show that: (1) there is no influence of implementing CC and guided inquiry learning model based on chemical tetrahedral representation towards students achievement of cognitive, affective, and phycomotor aspect on Ksp subject matter; (2) there is an influence of the student’s critical thinking ability towards student’s achievement of cognitive aspect while there is no influence of critical thinking ability toward student’s achievement of affective and phycomotor aspect on Ksp subject matter; (3) there is no interaction between implementing CC and guided inquirylearning model based on chemical tetrahedral representation with  critical thinking ability towards students achievement of cognitive, affective, and phycomotor aspect on Ksp subject matter.
Teachers and Students Needs Analysis for the Development of Subject Specific Pedagogy (SSP) Blended Learning Based on Multiple Representations Rachma Kharolinasari; Sri Mulyani; Elfi Susanti VH; Nurma Yunita Indriyanti
Jurnal Penelitian Pendidikan IPA Vol 9 No 7 (2023): July
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v9i7.3600

Abstract

This article discusses the needs analysis of the teachers and students towards the development of a multiple-representation-based blended learning Subject Specific Pedagogy (SSP) used in chemistry learning. The subjects of this study consisted of 15 chemistry teachers in Central Java and 34 high school students in class XII IPA. Primary data were obtained by providing teacher questionnaires consisting of the characteristics of reaction rates material, the use of learning media that are usually used, and students' critical thinking skills and learning using SSP blended learning based on multiple representations. While the student questionnaire consists of students' interests and learning methods in understanding chemical material, students' opinions regarding the reaction level material, and students' general critical thinking skills. The results of this need analysis show that teachers and students need integrated learning tools to support learning activities. The conclusion of this study is to develop a multiple-representation-based blended learning Subject Specific Pedagogy (SSP) to improve critical thinking skills and student learning outcomes
Students’ interests and attitudes toward science, technology, engineering, and mathematics careers Arifin Septiyanto; Dwi Oetomo; Nurma Yunita Indriyanti
International Journal of Evaluation and Research in Education (IJERE) Vol 13, No 1: February 2024
Publisher : Institute of Advanced Engineering and Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11591/ijere.v13i1.25040

Abstract

Science, technology, engineering, and mathematics (STEM) education teaches students critical thinking skills that they can use to solve problems even after they enter the workforce. This study aimed to i) determine student attitudes toward the STEM field in each school area; ii) determine student interest in the STEM field in each school area; and iii) determine the correlation between student attitudes toward the STEM field and school area and student interest in STEM. This was a quantitative study with a cross-sectional survey design. The sample for this study came from Boyolali Regency in Central Java, Indonesia, and was divided into three groups: rural schools (24%), suburban schools (36.2%), and urban schools (39%). The proportional stratified random sampling technique was used to select the research sample of students in grades 7–9. The Spearman Rank technique was used for data analysis. The results showed that there is a strong relationship between students’ attitudes toward STEM, school area, and interest in STEM careers. On the other hand, there is a weak correlation between students’ attitudes toward STEM, the school environment, and their interest in STEM careers.
Development of the climate change investigation (CCI) module to empowering sustainability literacy and global diversity in junior high school students Contias Edar Buana; Muhammad Nurhudha; Kadek Dwi Hendratma Gunawan; Nurma Yunita Indriyanti; Riezky Maya Probosari; Lina Mahardiani
Journal of Advanced Sciences and Mathematics Education Vol. 5 No. 1 (2025): Journal of Advanced Sciences and Mathematics Education
Publisher : CV. FOUNDAE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58524/jasme.v5i1.708

Abstract

Background: Environmental issues are integral to science education, addressing the causes, impacts, and prevention of environmental damage. Investigative learning is essential to help students better understand these complex topics.Aim: This study aimed to determine the characteristics and feasibility of the Climate Change Investigation (CCI) module in empowering students’ sustainability literacy and global diversity.Method: The research employed a Research and Development (R&D) approach using the ADDIE model, which consists of five stages: Analysis, Design, Development, Implementation, and Evaluation. Data collection included expert validation and student-teacher response questionnaires.Results: The findings showed that the CCI module is an effective and engaging tool for enhancing students’ understanding of environmental issues and cultural awareness. The module also benefits teachers by introducing interactive, low-carbon, and sustainability-based learning media. Validation scores from material, media, and language experts confirmed its high feasibility. Student and teacher responses indicated a high level of satisfaction with the module's clarity, content, and relevance.Conclusion. The CCI module enables students to understand various causes and impacts of environmental degradation, recognize the regional variations in climate effects, appreciate the role of biodiversity, evaluate the influence of eco-friendly technologies, and participate actively in discussions. The module supports independent learning and contributes to shaping environmentally and culturally conscious students aligned with 21st-century educational goals.
The effect of culturally responsive transformative teaching (CRTT) model in science learning on the environmental literacy ofseventh grade students Septi Reggina Anggita Wijayanti; Riezky Maya Probosari; Icha Kurnia Wati; Muhammad Nur Hudha; Kadek Dwi Hendratma Gunawan; Lina Mahardiani; Nurma Yunita Indriyanti
Journal of Advanced Sciences and Mathematics Education Vol. 5 No. 2 (2025): Journal of Advanced Sciences and Mathematics Education
Publisher : CV. FOUNDAE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58524/jasme.v5i2.950

Abstract

Background: Environmental damage in Indonesia is worsening, as shown by the low Environmental Performance Index and limited public awareness, which reflect low student environmental literacy. The Culturally Responsive Transformative Teaching (CRTT) model provides a contextual approach by integrating cultural values to enhance knowledge, attitudes, and pro-environmental behaviors.Aims and scope of paper: This study aims to determine the effect of the Culturally Responsive Transformative Teaching (CRTT) model on science learning on the environmental literacy of 7th grade students.Methods: This study used a quasi-experimental method with a pretest-posttest control group design. The sampling technique was selected using cluster random sampling. The research instrument was the MSELS instrument adapted from Mc.Beth and Volk (2009) in the form of multiple-choice tests and questionnaires tailored to the 7th grade science material on ecology and biodiversity. The research sample used class 7 H as the control class with a discovery learning model consisting of 32 students and class 7I as the experimental class with a CRTT model consisting of 31 students.Result: The results showed that the CRTT model in science learning had an effect on the environmental literacy of 7th grade students with a significance value of 0.000 (0.000< 0.05).Conclusion: The study concludes that the CRTT model effectively enhances students’ environmental literacy in science learning, highlighting the need for cultural integration and further research across diverse contexts.
Co-Authors Annisa Nur Khasanah Bakti Mulyani Contias Edar Buana Dwi Oetomo Elfi Susanti VH Icha Kurnia Wati Isma Aziz Fakhrudin Kadek Dwi Hendratma Gunawan Lina Mahardiani Muhammad Nur Hudha Muhammad Nurhudha Mulyani, Sri Rachma Kharolinasari Riezky Maya Probosari Septi Reggina Anggita Wijayanti Septiyanto, Arifin Siti Khoirun Annisak Sri Widoretno