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JIPI (Jurnal IPA dan Pembelajaran IPA)
Published by Universitas Syiah Kuala
ISSN : 26140500     EISSN : 2620553X     DOI : https://doi.org/10.24815/jipi.v7i3.31681
Core Subject : Science, Education, Social,
Biochemistry, Genetics & Molecular Biology Chemistry Education Environmental Science Physics
JIPI (Jurnal IPA dan Pembelajaran IPA) aims to serve original articles on the latest issues and trends in high-quality research focused on technology-integrated science and/or science learning (chemistry, biology, physics, and environment). Technology integration includes learning media, curriculum, assessment processes and science learning outcomes, as well as the application of the latest technology in pure science research. The editors welcome submissions of papers on recent theoretical and experimental research related to: Results of theoretical and empirical research studies on science learning with integrated technology. We invite manuscripts that investigate science learning with the integration of web-based technology, Android, Arduino, nanotechnology, virtual labs, technological and pedagogical content knowledge research, STEM and/or STEAM, sociological issues, virtual reality, augmented reality, and other relevant issues. relevant to science learning. The results of research on the application of science learning media which focuses on studies related to the latest trends in the use of technology-based science learning media at all levels of education and in society. The results of research related to the implementation of the science learning curriculum (chemistry, biology and physics) have contributed to developing the latest trends in the implementation of the science learning curriculum with the integration of technology at all levels of education including science learning design, competency analysis and syllabus. The results of research related to the assessment of science learning processes and outcomes contribute to developing the latest trends in technology-integrated science learning assessment at all levels of education. The results of research related to science teacher education include original theoretical and empirical studies, including professional preparation of teachers, implementation of their work, and/or career development based on the latest technology. Research results related to technology-based science learning in everyday life outside the formal classroom. Papers should examine experiences in environments such as the community, home, internet, museums, and other aspects that develop interest, knowledge, and/or application of science. Science learning that emphasizes attention to aspects of problems and factors related to equality. Research results related to pure science research that is currently trending (chemistry, physics, biology and the environment).
Arjuna Subject : Umum - Umum
Articles 284 Documents
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Effectiveness of a Project Based Learning Model Integrated With Sasambo Local Wisdom to Enhance Students' Scientific Attitudes Rahman*, Nanang; Liswijaya, Liswijaya; Hendratmoko, Ahmad Fauzi; Nagy, Emese K.; Mashwani, Hazrat Usman
Jurnal IPA & Pembelajaran IPA Vol 9, No 1 (2025): MARCH 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v9i1.42626

Abstract

The primary issue in higher education is the low level of scientific attitudes among students, which include curiosity, open-mindedness, and environmental sensitivity. One approach to addressing this problem is through the project based learning (PjBL) model integrated with local wisdom. This study aims to measure the effectiveness of the PjBL integrated sasambo local wisdom model, which incorporates values such as cooperation, respect for nature, and social harmony, in enhancing students' scientific attitudes. The study employed a quasi-experimental design with a one-group pretest-posttest approach. The research subjects consisted of 70 students from Muhammadiyah Mataram University and Hamzanwadi University. Data were collected using a scientific attitude questionnaire with five indicators: curious attitude, respect for facts, an open-minded attitude, perseverance, and sensitivity toward the environment. The data were analyzed using normalized N-gain to measure the improvement in scientific attitudes and inferential statistical tests to assess the significance of the results. The findings reveal that the sasambo integrated PjBL model effectively improves students' scientific attitudes. The average N-gain was categorized as high (0.81 and 0.83) at both universities. Among the indicators, sensitivity toward the environment showed the greatest improvement, while respect for facts showed moderate improvement. Statistical tests indicated a significant difference between pretest and posttest scores, with consistent results across both universities. In conclusion, the the PjBL integrated sasambo local wisdom model significantly and consistently enhances students' scientific attitudes. This model holds potential as a culturally relevant innovative strategy for improving the quality of science education and fostering students' character development
Exploring Differentiated Learning Strategies to Respond to Differences in Students' Level of Understanding of Metal Inorganic Chemistry Course Napitupulu*, Mery; Walanda, Daud K; Griffiths, Zoe; Nurmayanti, Yuli; Poba, Detris
Jurnal IPA & Pembelajaran IPA Vol 9, No 1 (2025): MARCH 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v9i1.42452

Abstract

Differentiated learning refers to educational schemes and materials individually developed about the varied needs of each student to improve knowledge understanding as individuals, as well as participation involvement. The study applied differentiated learning in the metal inorganic chemistry class of chemistry education to address student understanding variability. These strategies and their effect on student performance were studied through observations, surveys, and interviews in a mixed-method design. The findings portrayed that the application of differentiated learning helps boost the student's performance in understanding the concepts inorganic chemistry of metals. Additionally, the students showed higher satisfactions and engagements when the instructor incorporated different teaching modes, materials (videos, presentation materials, and books), and practical use of examples. Group discussion and collaborative learning among the students helped them better understanding and retention of the knowledge of metal inorganic chemistry
Development of Linear Motion Assessment Using Evidence-Centered Design Hulu, Hepi Kharisda; Sirait*, Judyanto; Firdaus, Firdaus; Balta, Nuri
Jurnal IPA & Pembelajaran IPA Vol 9, No 1 (2025): MARCH 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v9i1.42940

Abstract

Linear motion is one of the basic concepts in physics, so an assessment that can measure students' abilities in this material is necessary. The assessments created by teachers tend to only evaluate students' abilities in formula calculations without measuring their understanding in depth. This research aims to develop assessments on the topic of linear motion using the evidence-centered design (ECD) framework. ECD is a framework that focuses on evidence of students' abilities. ECD consists of three components: claim, evidence, and task. The process of developing this assessment uses the research and development method by following the ADDIE stages: analysis, design, development, implementation, and evaluation. Data were collected through interviews with physics teachers, analyzing teachers documents, validating the assessment, and conducting task trials. The trials were conducted in two stages: one-to-one trials with one student and small-scale trials with 10 students. The analysis techniques included calculating validity using the Aiken Index, descriptive analysis of student responses in the one-to-one trial, and small-scale trials. The competencies measured in the assessment are based on scientific practice, including using and developing representations, analyzing and interpreting data, explaining with evidence, and evaluating information. Each measured competency in the assessment consists of two essay tasks. The validation results show that the developed assessment has high validity with an average Aiken score of 0.97. Teachers can use this assessment as a reference through stages to develop assessments that evaluate the achievement of learning objectives
Identifying Students' Interest in Inheritance of Traits and Breeding of Living Things to Support ESD Dewanti*, Amanda Putri; Pertiwi, Faninda Novika
Jurnal IPA & Pembelajaran IPA Vol 8, No 1 (2024): March 2024
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v8i1.37306

Abstract

The genetic strategy, namely the inheritance of traits and breeding of living things, is a complex material at the secondary school level. The difficulty of understanding the material is due to the absence of discussion of this material at the elementary school level and the use of science terms that students rarely hear. This study aims to determine students' interest in the material inheritance of traits and reproduction of living things, methods and learning resources used, and students' ability to identify the material inheritance of traits and reproduction of living things using indicators of reading ability. The method used in this research is quantitative-qualitative to see junior high school students' interest and identification results. Researchers used data from statistical analysis and interviews with students. Data analysis was done by reducing, presenting, and drawing conclusions. The results showed that interactive and varied learning resources, methods, and models can influence students' interests and learning outcomes. Interactive learning models can improve student learning outcomes in the material of inheritance of traits and breeding of living things and help students understand the concept of sustainable development
Environmental Education Based on The Potential of Kuala Selangor Nature Park Through Experiential and Joyful Learning-Marine Edutourism Hayati*, Riza Sativani; Jariah, Ainun; Astutik, Julia
Jurnal IPA & Pembelajaran IPA Vol 7, No 4 (2023): DECEMBER 2023
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v7i4.34304

Abstract

It is very urgent that environmental education is carried out to increase students' environmental literacy. Effective methods need to be developed to provide environmental experiences while increasing students' contribution to the environment. Malaysia has natural potential as a learning resource for environmental education, one of which is the Kuala Selangor Nature Park. This research aims to 1) conduct a study of the potential of the Kuala Selangor National Park mangrove ecosystem for the development of environmental education learning tools and 2) implement the experiential and joyfull learning-marine edutourism (EJoy-ME) learning model based on the potential of Kuala Selangor National Park to increase students' environmental literacy. The method used was observation of the natural resource potential of Kuala Selangor Nature Park and quasi-experimentation of the EJoy-ME learning model. The results of the study show that Kuala Selangor Nature Park has the potential to be developed as a learning resource for environmental education through EJoy-ME. The implementation of EJoy-ME has been proven to be able to increase students' environmental literacy. The EJoy-ME learning model also received positive responses from students, namely providing satisfaction with environmental materials, satisfaction with the learning process, and providing a pleasant learning experience
Development of Articulate Storyline Interactive Media on Colloid Material to Improve Students Visual Abilities Anugrahani, Putri Dwi; Dwiningsih*, Kusumawati; Destafia, Kharisma Kholidah; Miranti, Rizky Alicia; Khoiriyah, Fahma Sairil Ulumil; Arivi, Maharani Agustina
Jurnal IPA & Pembelajaran IPA Vol 9, No 4 (2025): DECEMBER 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v9i4.49398

Abstract

Learning chemistry on abstract colloid material often causes difficulties, so interactive media such as articulate storyline is needed to visualize concepts and improve student understanding. The purpose of this study is to ascertain whether articulate storyline interactive learning materials can enhance students' visual abilities of colloid content. Research and development (RD) using the ADDIE model was the research methodology employed. The average construct validity and content validity of the developed media were 94.84 and 98.18 percent, respectively, indicating that the media were suitable for use as learning tools. The practicality of the media received an average practicality percentage of 75, which was considered practical and classified as good. Based on the Wilcoxon test results, the effectiveness of the media was 0.000 (sig 0.05). In addition, students' visual abilities increased by an average of 0.44, falling into the medium category, based on the N-gain test results. Therefore, the developed learning media proved to be valid, practical, and effective in supporting chemistry learning and improving students' visual abilities
Identifying Student Misconceptions in Buffer Solution Concepts Using Mental Model-Based Diagnostic Test Ramlawati*, Ramlawati; Rosadi, Husna Hadi; Hussain, Halimah; Sari, Nur Indah; Ilmi, Nurul
Jurnal IPA & Pembelajaran IPA Vol 9, No 4 (2025): DECEMBER 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v9i4.49460

Abstract

Chemistry learning often faces challenges in the form of misconceptions, especially in buffer solution material, which is abstract because it involves the concepts of chemical equilibrium and acid-base properties. This study aims to produce information about the use of diagnostic tests with the Interview-About-Event method in exploring students' mental models on buffer solution material. The research method used was descriptive qualitative on 9 grade XII students at a high school in Makassar City using in-depth interviews that asked students to explain the phenomena given. Data collection was carried out using research instruments in the form of a diagnostic test and semi-structured interviews. The answers of each student were mapped to obtain a profile of their mental models. The results showed that the studChemistry learning often presents challenges in the form of misconceptions, particularly concerning buffer solutions. This material is abstract as it involves the concepts of chemical equilibrium and acid-base properties. This study aims to provide information on using diagnostic tests with the interview-about-event method to explore students' mental models. The research employed a descriptive qualitative method with nine 12th-grade students from a high school in Makassar City. Data was collected through in-depth interviews that asked students to explain given phenomena, utilizing research instruments in the form of a four-tier diagnostic test and semi-structured interviews. The answers of each student were mapped to obtain a profile of their mental models. The results indicated that students' mental models revealed diversity in their responses, especially at the submicroscopic level. Their mental models tended to be simple, incomplete, and macroscopic, characterized by misconceptions such as considering equilibrium shifts to be separate from the direct reactions of buffer components, misunderstandings in using arrows for partial and complete ionization, incorrect definitions of acids, and misconceptions about buffer solutions neutralizing pH or causing pH changes. The diversity and consistency of these misconceptions underscore the importance of a pedagogical approach focused on deep conceptual understanding and the integration of multiple levels of chemical representationents' mental models revealed diversity in their answers, especially at the submicroscopic level. Their mental models tended to be simple, incomplete, and macroscopic, characterized by misconceptions such as considering equilibrium shifts to be separate from the direct reactions of buffer components, misunderstandings in the use of arrows for partial and complete ionization, incorrect definitions of acids, and misconceptions about buffer solutions in neutralizing pH or causing pH changes. The diversity and consistency of these misconceptions emphasize the importance of a pedagogical approach focused on deep conceptual understanding and the integration of multiple levels of chemical representation
Exploring the Interplay Between Cognitive Ability and Argumentation Skills to Improve Scientific Reasoning in Physics Learning Kurniaty, Dewi; Muslim*, Muslim; Novia, Hera; Sihombing, Rizky Agassy
Jurnal IPA & Pembelajaran IPA Vol 9, No 4 (2025): DECEMBER 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v9i4.49305

Abstract

This quantitative descriptivecorrelational study explored the connection between senior high school students' cognitive abilities and their argumentation skills within the context of physics learning. Conducted at a public high school in Ketapang, West Kalimantan, the research utilized a multiple-choice test based on Bloom's revised taxonomy (C1C5) to measure cognitive performance. Argumentation skills were evaluated using instruments aligned with Toulmins argument pattern (TAP). The findings revealed a decline in students' cognitive performance as task complexity increased, with scores of 78% for remembering, 61.25% for understanding, 45% for applying, 28.75% for analyzing, and 17.50% for evaluating. Similarly, argumentation skills showed a hierarchical pattern: 80% of students could state claims, 65.71% provided evidence, 51.43% explained phenomena, and only 34.29% were able to construct reasoned solutions. A Pearson correlation analysis indicated a strong, positive relationship between the two variables ( r0.6;p0.05). These results suggest that a higher level of cognitive ability is linked to stronger scientific argumentation, underscoring the necessity of integrating higher-order thinking skills into physics instruction to improve students' reasoning and scientific discourse
Developing of STEM Integrated Web-Students Worksheet with Scaffolding to Improve Conceptual Understanding for Physics Education Students Hendri*, Menza; Rasmi, Dian Pertiwi; Sirait, Jeliana Veronika; Siahaan, Asnidar; Sinaga, Lastama
Jurnal IPA & Pembelajaran IPA Vol 9, No 4 (2025): DECEMBER 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v9i4.49302

Abstract

The low conceptual understanding of physics education students, often caused by conventional teaching materials and a lack of self-study guidance, indicates the need for innovation. This research aims to develop a web-based student worksheet (web-LKPD) integrated with the STEM approach and supplemented with scaffolding. The developed web-LKPD is designed to improve the conceptual understanding of physics education students. The method used is research development with the ADDIE development model (analysis, design, development, implementation, and evaluation). The subjects of this study were physics education students at the Faculty of Teacher Training and Education, Jambi University. The instruments included questionnaires, interviews, conceptual understanding tests (pretest and posttest), and student response questionnaires. The data were analyzed using quantitative and qualitative descriptive techniques. The results showed that the developed web-LKPD was highly suitable for use, evidenced by the average feasibility percentage from media experts of 93% and material experts of 83.2% (very good). The product also received a positive response from students (89.7%, very good). Paired t-test analysis concluded that there was a significant difference between the pretest and posttest results, indicating that the web-LKPD has a significant impact on improving students' conceptual understanding
Development of Multimedia Google Sites for Ehancing Conceptual Understanding and Students Motivation in Digestive System Topic Hakimah, Wardatul; Nugraheni*, Dian; Habiddin, Habiddin; Mulyati, Yayuk; Hamimi, Erti
Jurnal IPA & Pembelajaran IPA Vol 9, No 4 (2025): DECEMBER 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v9i4.48945

Abstract

This research is based on the limited use of learning media which results in students experiencing difficulties in understanding lessons and a lack of learning motivation, which impacts low learning outcomes. This research aims to develop valid, effective, and practical google sites multimedia to improve conceptual understanding and student motivation in the material of the digestive system. The research method used was research and development (RD) with the ADDIE model, namely: analyze, design, development, implementation, evaluation. Data were collected through observation, interviews, and questionnaires. Validation by material experts showed a "very valid" category with a percentage of 87.74%, while media experts reached 90.22%. The effectiveness test produced a significance of 0.000 (0.05), indicating a significant difference between the pretest (63.28) and posttest (89.62) scores, with an average increase in N-Gain of 0.72 (high). The learning motivation questionnaire obtained a score of 88.77% (very high). The practicality test by teachers produced 99.10% and and user responses from students 92.07%, indicating this application is very practical. The research results prove that google sites is feasible, effective, and practical to use to improve students' conceptual understanding and motivation in the digestive system topic

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