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INDONESIA
Jurnal Inovasi Pendidikan IPA
Published by Universitas Negeri Yogyakarta
ISSN : 24069205     EISSN : 24774820     DOI : 10.21831
Core Subject : Education, Agriculture,
Agriculture, Biological Sciences & Forestry Education Mathematics
Arjuna Subject : -
Articles 10 Documents
 1 
Search results for , issue "Vol. 9 No. 2: Oktober 2023" : 10 Documents clear
The Effect of the PjBL-STEM Model on Students' Critical Thinking Ability in Science Learning Herlita, Fintya; Yamtinah, Sri; Wati, Icha Kurnia
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.57963

Abstract

This study aims to prove the effectiveness of the PjBL-STEM model on students' critical thinking ability in science learning. This research is a quasi-experimental study with a pretest-posttest control group design. The experimental class in this research received the treatment of the PjBL-STEM model, and the control class received the treatment of the PjBL model. The research population was class VIII students of SMP Negeri 1 Dukun for the 2022/2023 academic year, which consisted of six classes. Meanwhile, the research sample was selected using a cluster random sampling technique, with class VIII E as the experimental class and class VIII F as the control class. This research data is the difference in pretest-posttest scores (gain scores) of students' critical thinking ability, which was analyzed by the right-sided t-test. The results of the independent sample t-test showed tcount>ttable (4.012>1.669) and Pvalue<0.05 (0.000<0.05), which means the test decision is H0 is rejected. So, it can be proven that the effect of the PjBL-STEM model on students' critical thinking skills in science learning is greater than the control class, which is supported by the N-gain value in the experimental class of 0.417 (medium) and control class of 0.246 (low).
The Development of Interactive Learning Media Based on Visual Basic for 8th Grade Junior High School in Application (VBA) on Additive, Addictive and Psychotropic Substances Wati, Erlina; Afiqah, Nurul; Sari, Anggi Kusuma; Rahmayumita, Restesa; Nasir, Muhammad
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.57185

Abstract

This study aims to develop interactive learning media. The research method used is the ADDIE development research method. There are five stages of developing this interactive media, namely analysis, design, development, implementation, and evaluation. The assessment instrument consists of three experts and users. The data analysis technique used is the descriptive data analysis technique. The data that has been analyzed is then described qualitatively to find out the research category in each aspect, the design aspect with an average score of 0.819 with the high category, the pedagogic aspect 0.817 with the high category, the content aspect 0.817 with the high category, then for the last aspect the technique 0.07 moderate  category. The developed simulation can be used, interactive, and can explain the concept well. Keywords: Addictive Substances, Learning Media, Interactive, Powerpoint VBA.
Development of Augmented Reality (AR) Learning Media to Increase Student Motivation and Learning Outcomes in Science Yusa, Ilham Widia; Wulandari, Ana Yuniasti Retno; Tamam, Badrud; Rosidi, Irsad; Yasir, Mochammad; Setiawan, Achmad Yusuf Bagus
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.52208

Abstract

This research aims to 1) develop AR learning media regarding the interaction of living things and the environment, 2) determine the feasibility and response to AR media, and 3) determine differences in students' motivation and science learning outcomes before and after implementing AR media. AR-based mobile application. The study of AR media development uses the Waterfall development model which consists of 5 stages, namely analysis, design, code, testing, and maintenance. In-depth research data collection techniques use observation sheets, interview guides, media expert and material expert validation questionnaires, student response questionnaires as well as science learning motivation questionnaires and cognitive tests. The learning trial used a quasi-experimental design method with a research pattern using a nonequivalent control group pretest and posttest design involving 2 classes, namely class VII-C as the control group and VII-D as the experimental group. The results of the research show that 1) AR-based mobile applications can be used anytime and anywhere, the resulting applications are equipped with animations, games, and 3-dimensional and 2-dimensional images, 2) the product is valid and AR-based AR-based mobile applications are suiTabel for testing and response results in students towards AR-based mobile applications received a very good response from students, 3) learning using AR-based mobile applications can increase learning motivation and student learning outcomes, especially in the subject of interaction between living things and the environment.
Effects of Mind Mapping And Visual Imagery Instruction Strategies on Senior Secondary Schools Students' Scientific Attitude to Mechanics in Ekiti State of Nigeria Ukoh, Edidiong E; ALADEJANA, Alaba Lawrence
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.54458

Abstract

The study examined the effects of visual imagery and mind mapping strategies on physics students' scientific attitude to mechanics in Ekiti state, Nigeria. The study adopted 3 X 1 pretest-posttest control group quasi experimental research design. Eight senior secondary schools were be purposively selected for the experimental groups, while four schools were purposively selected for the control group. This made a total of twelve schools that were selected from twelve local government areas across all the three senatorial districts of Ekiti state for the study. A total number of two hundred and forty six physics students from the selected schools were used. The instrument that the researcher used for the study was self-designed instruments titled: Students' Scientific Attitude to Mechanics. The data collected were analysed using descriptive statistics (mean, standard deviation) as well as inferential statistics such as Analysis of Covariate (ANCOVA) which was used to determine the significant mean and interaction effects to the variables of the study. Estimated Marginal Mean (EMM) was used to determine the performance of each group. Bonferroni pair wise and Scheffe Post-hoc analyses were also employed to trace the source of observed significance among the groups. The finding of the study revealed that there was significant effect of treatment on students' scientific attitude to mechanics. The result further showed that those exposed to visual imagery had the highest scientific attitude mean score, closely followed by those exposed to mind mapping while those taught with conventional method of teaching had the least. Also, the finding of the study showed that there was  significant main effect of gender on students' scientific attitude to mechanics. Similarly, the finding showed that there was significant interaction effect of treatment and gender on students' scientific attitude. Based on these findings, it was therefore recommended that mind mapping and visual imagery instructional strategies should be used in improving students' scientific attitude.
Divulging two decades of multimedia applications in biology education Abdullah, Khairul Hafezad
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.57361

Abstract

Biology is an indispensable component of Science, Technology, Engineering, and Mathematics (STEM) education. Accordingly, effective biology teaching necessitates multimedia to assist students in fathoming complex scientific themes. This study aims to scrutinise the bibliometrics of preceding publications on multimedia applications in biology education from the Scopus and Web of Science databases. This study explores descriptive publishing patterns and the emergence of academic discourse about multimedia applications in biology education using ScientoPy and VOSviewer. The results reveal publications on this topic have been volatile, with less than ten publications in both databases. The United States has bested others as the most noteworthy multimedia applications in biology education publication hubs. The top three keywords yielded by ScientoPy were "biology education", "visual literacy", and "science education". The keywords "active learning," "science education," "visual literacy," and "anatomy diagrams" generated by VOSviewer have been among the most employed keywords since 2016. In the abstract's content analysis, the keywords "visual representation" and "image" have often been utilised. This study provides an overview of the applications of multimedia in biology education. It will aid researchers interested in advancing or discovering new knowledge in this domain and developing splendid biology education research ideas and practices.
Project-Based Learning E-Modules Based on Research Results on the Nutritional Content of Sawi Asin (Fermented Mustard) Febriyanti, Nisa; Rahayu, Hanum Mukti; Setiadi, Anandita Eka
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.62358

Abstract

The project-based learning model focuses on directing students to be more active in learning. The learning model will be effective if combined with e-module media. Because e-modules provide facilities for students to learn independently. One of the materials in class XII Biology that is applied in e-modules is biotechnology related to local potential, namely Sawi Asin fermentation. The study aims to develop project-based learning e-modules based on research results on the nutritional content of Sawi Asin fermentation. The research method uses Research and Development which adapts the Alessi and Trolip development model. There are three stages carried out, namely, planning (planning), designing (design), and developing (development). The results of e-module validation by media experts showed an average score of 94.22% (very feasible), material experts 80.83% (feasible), and language experts 87.333% (very feasible). The results of the small group test with 12 students of class XII IPA showed an average value of 81.09% (very positive) and the large group test with 32 students of class XII was IPA 87.04% (very positive). It can be concluded that the project-based learning e-module based on the results of research on the nutritional content of Sawi Asin fermentation developed is very feasible to use and gets a very positive response from students.Keywords: E-module, Development, Project Based Learning
STEM-PBL integrative electronic module: Is that effective in improving students' critical thinking skills? Phandini, Intan; Miharja, Fuad Jaya; Husamah, Husamah; Fauzi, Ahmad; Nuryady, Mohammad Mirza
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.60871

Abstract

The aim of this research is to develop an electronic module that integrates STEM and PBL projects to improve students' critical thinking skills. Development research conducted using the ADDIE model. The research was conducted at Muhammadiyah 2 Junior High School (JHS) of Batu. Product trials were carried out involving 25 class VII students. The data collection instrument was carried out using a questionnaire given to media experts, material experts, teachers and students to test the feasibility and practicality of the media, as well as the pretest-posttest to measure students' critical thinking skills. The results of the study show four things: 1) the E-Module learning media is in the very feasible category with a weighting percentage of eligibility, namely 77.5% by media experts and 98% by material experts. 2) E-Module learning media is included in the very practical category by science teachers with a percentage of 97%, and the practical category by students with a percentage of 79%. 3) The results of the implementation show that students are very enthusiastic in participating in learning activities using the E-Module, seen from the percentage of aspects of interest in the media which reaches 86%. 4) E-Module learning media has a significant effect so that it has the potential to improve students' critical thinking skills (Sig = 0.000). Thus, the E-Module with the STEM approach based on the PBL Model can be used in learning environmental pollution material by students.
Distance Learning Design: A Problem-Based Learning with Flipped Classroom Model through improving student learning outcomes and learning motivation Laswadi, Laswadi; Setiawan, M Eval; Efyanti, Yasni; Pentang, Jupeth Toriano; Taresh, Sahar M
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.63166

Abstract

The purpose of this study is to improve learning outcomes in the form of cognitive abilities and student learning motivation through the development of the learning design Problem-Based Learning within flipped classroom model. The study used quasi-experimental research with One Group Pretest-Post Test Design. In the research process, instruments are needed in the form of (1) multiple-choice tests as instructional cognitive measurements of students, and (2) observation sheets of learning motivation measurements in the form of motivational rubrics developed based on arcs rubrics. The increased motivation was analyzed based on the results of the questionnaire produced based on the ARCS rubric develop the results of student learning (post-test) are calculated using the t-test and then continued with the conclusion of the learning hypothesis. Based on the hypothesis test, it was found that 0.000 <0.005, it can be concluded that there is a real difference between learning outcomes in the pretest and posttest data. This result means that the application of this learning method can improve the learning outcomes of students. In addition, there is an increase in motivation in the learning process with flipped classrooms and problem-based learning design. Increased student motivation in the learning process I to learning III by 3% to 13%. But from this study, it is expected that there will be further research using the same model in other subjects and by using a larger sample and taking measurements on affective and psychomotor aspects
The Development of Science E-modules in Junior High Schools Integrated with Al-Qur'an Verses and Assisted by Virtual Simulations on the Subject of Vibration, Waves and Sound Permana, Niki Dian; Ramadan, Cahaya Pitri; Syarif, Muhammad Ilham; Mahartika, Ira; Setyaningsih, Rini; Wibowo, Firmanul Catur
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.61041

Abstract

This research aims to produce junior high school science teaching materials in the form of e-modules that are integrated with verses from Al-Qur'an and assisted by virtual simulations on the subject of vibrations, waves and sound. The research method used is development research (R & D) which is adapted from the Borg and Gall development model. The stages of development research carried out are research and information collecting, planning, developing preliminary product, preliminary field testing, and main product revision. Data collection was carried out using questionnaires given to students, material experts, teaching materials experts, science-Al Qur'an integration experts and science teachers to determine student responses, validity and practicality of the products being developed. The research results showed that the validity score of material experts was 89.25% in the very valid category, science-AlQur'an  integration experts were 71% in the valid category, and teaching materials experts were 72.62% in the valid category. So overall the average validity of the products developed is 77.63% in the very valid category. The practicality test results obtained a score of 94.27% in the very practical category and student responses were 97.67% in the very good category. So it can be concluded that the integrated junior high school science e-module with Al-Quran verses assisted by virtual simulations on vibration, wave and sound material that was developed obtained very valid and very practical results and received a very good response from students.Keywords: Teaching Materials, E-Module, Integrated Al-Qur'an Verses, Virtual Simulation, Vibration, Waves and Sound
The Effectiveness of the PhET-Assisted Creative Problem Solving Model on Students' Creative Thinking Abilities and Cognitive Learning Outcomes Yani, Liyana Putri; Widiyatmoko, Arif
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 2: Oktober 2023
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v9i2.45902

Abstract

This research aims to determine the effectiveness of the PhET-assisted creative problem solving model on creative thinking abilities and student learning outcomes in vibration, wave and sound materials. In this research, the samples taken were determined based on the characteristics of the two classes which were almost the same (homogeneous). The characteristics used are the average UAS scores of two classes which are close to the same and the science teacher who teaches in the same class. The sample chosen was class VIII with class A as the control class and class B as the experimental class with a total of 16 students in each class. This research uses an experimental method with a nonequivalent control group design. Data on students' cognitive learning outcomes were taken using a test method in the form of 15 multiple choice questions, while students' creative thinking abilities used a test method in the form of 5 descriptive questions which had been tested for validity and reliability with a significance level of 5%, resulting in rcount > rtable. Research data was obtained from pretest-posttest scores and analyzed using the MANCOVA statistical test. The results of the multivariate analysis show that the sig value is <0.05, namely 0.001 <0.005, which means that there is a significant influence. The N-gain results show an increase in creative thinking abilities by 56.57% and an increase in students' cognitive learning outcomes by 57.08% which is included in the medium category. Therefore, it can be concluded that the use of the creative problem solving model assisted by PhET significantly increases students' creative thinking abilities compared to conventional learning. In addition, there is a significant increase in the cognitive learning outcomes of students who use this model. The implementation of PhET as an interactive learning tool opens up opportunities for students to understand science concepts in a more in-depth and contextual way. Implications of these findings include increased student engagement, development of innovative learning models, and emphasis on problem-based learning. This research contributes to educational practitioners and researchers in understanding the potential of the PhET-assisted creative problem solving model as a practical approach to improving students' learning outcomes and creative thinking abilities in the context of science learning.

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