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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 248 Documents
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Video project in distance learning during the pandemic: Readiness, processes, and benefits Abdul Rasid Saraha; St. Hayatun Nur Abu; Fitriyana Ibrahim; Nurfatimah Sugrah; Khusna Arif Rakhman
Jurnal Inovasi Pendidikan IPA Vol 8, No 2: Oktober 2022
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v8i2.45285

Abstract

Research on video-making on project-based distance learning (VPjDL) was conducted for prospective chemistry teacher students to solve the problem in an educational system due to the Coviv-19 pandemic. In this study, a questionnaire analysis was conducted on the readiness of resources, the learning process and student motivation in distance learning based on video-making projects. In contrast, learning outcomes are measured based on aspects of creative thinking skills. This study aimed to determine the relationship between resource readiness, learning process, and motivation for distance learning based on video-making projects on creative thinking skills. The relationship between resource readiness, learning process and motivation on VPjDL is the novelty of this article. In this study, the number of samples used was 30 students. Data analysis was performed using the Pearson Bivariate correlation. The data analysis results show a relationship between resource readiness, learning process, and motivation to students' creative thinking skills. On the other hand, student creativity is shown by video products with a very high level of originality.
Learning instructional using webbed models based on local potential "Pulau Kembang" to enhance ecological literacy skill Desy Purwasih; Insih Wilujeng; Vietgar Membalik; Suhandi Hasan
Jurnal Inovasi Pendidikan IPA Vol 8, No 2: Oktober 2022
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v8i2.49288

Abstract

The research is developing a webbed integrated science learning model based on the local potential "Pulau Kembang" discovery learning (DL) model to improve ecological literacy skills. The purpose of this research is to produce a product that is feasible, practical, and effective for use in learning. The type of research is educational research design by adapting the Borg Gall development model, consisting of ten stages. Media experts, material experts, and practitioners conducted the feasibility assessment, totaling five people. The effectiveness was obtained from a limited trial with a pretest experimental design and a posttest control group design. There is one control class and one practical class with 49 students. The effectiveness analysis used the Analysis of Variance (ANOVA). The product practicality test provides a response questionnaire with a 4-Likert scale, totaling 27 statements. The results show that the average lesson plan is 1.00 in the excellent category, the student worksheets are on average 3.56 in the excellent category, the handout is on average 3.44 in the excellent category, and the assessment instrument with a V-Aiken value of 1.00 is in an excellent category. The results of the ANOVA test get a p-value 0.005 and an effect size of 0.171 in the large category. Practicality test with an average of 3.08 suitable type. Overall, it shows that the webbed integrated model of science learning instructional based on local potential "Pulau Kembang" is feasible and practical to use in learning.
Improving the skills of prospective elementary teachers in designing earth and space science digital teaching materials: TPACK framework Diki Rukmana; Sri Lestari Handayani
Jurnal Inovasi Pendidikan IPA Vol 8, No 2: Oktober 2022
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v8i2.45474

Abstract

This study aims to implement an Earth and Space Science lecture program based on the TPACK framework to improve the skills in designing earth and space learning materials prepared for teaching at the elementary school level by integrating pedagogy and technology. The lecture program is structured based on 3 levels of the TPACK framework where at the first level 3 basic competencies are introduced, namely pedagogical knowledge (PK), content knowledge (CK), and technological knowledge (TK). At the next stage, lecture activities are designed by integrating two of the three basic knowledge, namely pedagogical content knowledge (PCK), technology pedagogical knowledge (TPK), and technology content knowledge (TCK). In the last stage, lecture activities were designed to combine the three basic knowledge aspects, namely technology pedagogical content knowledge (TPCK) into a learning video product. The results show an increase in the TPACK competence of prospective teachers in the medium category. In addition, based on an assessment of the resulting digital teaching products, the TPACK framework-based lecture program is able to facilitate the formation of the skills of prospective teachers in making teaching materials in terms of the appearance of the presentation of teaching materials, content management, and the integration of pedagogical strategies and technology in a good category.
Golabz-based interactive learning design about simple harmonic motion on pendulum swing Erwin Hartaman Gea; Alvama Pattiserlihun; Debora Natalia Sudjito
Jurnal Inovasi Pendidikan IPA Vol 8, No 2: Oktober 2022
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v8i2.42962

Abstract

Physics learning about simple harmonic motion on a pendulum swing is interesting to be deeply learned because there are various physical quantities, practicum, formula derivation, and representation. In online learning, inquiry physics learning that provides independent practicum, online access, systematics, and interactive is needed. This research aims to design Golabz-based interactive learning and investigate its effect on students' understanding of simple harmonic motion on a pendulum swing. This research uses the RD methods of the ADDIE type. The respondents were 7 second-year undergraduate students of the Department of Physics Education, UKSW, randomly chosen. The research instruments used are a validation sheet of material and media experts, an observation sheet, an evaluation sheet, and a questionnaire. All data gathered are analyzed using the qualitative descriptive technique. The result showed that the material and media met the eligibility criteria of 70,66% and 78,66%; all respondents can do 88,8% learning on average; all respondents can give positive responses of 89,79% on average in the questionnaire; and all respondents get evaluation score of 91,84% in average. Thus, Golabz-based interactive learning design is adequate to help students understand simple harmonic motion on a pendulum swing and can be one of the alternative online learning that presents interactive inquiry learning.
Development of electronic handouts for class X high school ecosystem materials for online learning Jeklin Hutagaol; Ervan Johan Wicaksana; Jodion Siburian
Jurnal Inovasi Pendidikan IPA Vol 8, No 2: Oktober 2022
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v8i2.46536

Abstract

Students' low interest is the most common problem in online learning. As a solution, we need media that is attractive and easy to use. This study aims to (1) develop electronic handouts on the Ecosystem topic for class 10th-grade senior high school for online learning, (2) determine the feasibility of handouts, (3) determine teacher perceptions of handouts, and (4) determine student perceptions after using handouts in learning. This study uses a 4D development model. The subjects of this study were 10th-grade high school students consisting of small groups (6 students) and large groups (26 students). The results of this study indicate that the validity of the material reaches a percentage of 90% in the "very good" category, the validity of the media reaches a percentage of 95% in the " very good " category, the teacher's perception results in the percentage of 90.83% in the "very good" category, the percentage of satisfaction is average. The small group average was 89.72% in the "very satisfied" category, and the average satisfaction percentage for the large group was 90.12% in the "very satisfied" category. So it can be concluded that electronic handouts can be used in online learning. This research handout can be used as an alternative learning resource to increase students' interest in learning.
Remediation using SSCS model for reducing misconceptions about work and energy M Ahsanul Taqwim; Widha Sunarno; Murni Ramli
Jurnal Inovasi Pendidikan IPA Vol 8, No 2: Oktober 2022
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v8i2.49343

Abstract

Misconceptions are discrepancies between students' understanding of concepts and concepts defined by experts. Misconceptions are indicated as latent dangers in the learning process. One of the topics in science that has a high level of misconception among students is the concept of work and energy. The SSCS model is an approach put forward as an effective way to train students' conceptual understanding. This research aims to determine whether the misconceptions about the work and energy of grade 7 students will be reduced by applying the SSCS model (Search, Solve, Create, and Share) as a remediation approach. The experimental design was applied using a one-group pretest-posttest design. The research sample comprised 32 students (15 boys and 17 girls). Profiling of students' misconceptions before and after the action was measured using 14 two-level multiple-choice questions. There are four types of misconceptions based on initial measurements. The results show an average pretest score of 44.07 and an average posttest of 63.60. It can be concluded that the SSCS model significantly reduces student misconceptions. Further research on the types of errors present in mapping student profiles is recommended.
The effect of digital literacy on student learning outcomes in chemistry learning Abdul Latip; Nursida Sutantri; Aristo Hardinata
Jurnal Inovasi Pendidikan IPA Vol 8, No 2: Oktober 2022
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v8i2.40567

Abstract

The study aims to determine the effect of digital literacy levels on learning outcomes of eleven-grade students in chemistry learning with a distance learning system during pandemic Covid-19. This study used a quantitative descriptive method with 74 students as a sample who took chemistry learning. The digital literacy level of students was determined through digital literacy instruments. Meanwhile, students' chemistry learning outcomes consisted of the results of daily tests on buffer solution and solubility product chapter. Based on the results, the digital literacy level of students consisted of 57% of students in the high category, 43% of students in the medium category, and no students in the low category. The results of the Mann-Whitney test between groups of students with high and medium category obtained the following results: 1) there is a significant difference in learning outcomes in the buffer solution chapter between students with high and medium digital literacy levels (p= 0.003), 2) there is a significant difference in learning outcomes in the solubility product chapter between students with high and medium digital literacy levels (p= 0.001). These results indicate that the students’ digital literacy level has a significant effect on students’ learning outcomes in chemistry distance learning.
Scaffolding in guided inquiry learning with google classroom: Effect on physics conceptual understanding Murih Rahayu; Ardian Asyhari; Adis Veliana Anjani
Jurnal Inovasi Pendidikan IPA Vol 8, No 2: Oktober 2022
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v8i2.48365

Abstract

The purpose of this study is to examine the impact of student's conceptual understanding on the topic of elasticity and Hooke's Law utilizing a scaffolding-based technique guided inquiry facilitated by Google Classroom. The quasi-experimental design method is used in this investigation. This study's design includes all class XI students from one of Bandar Lampung's schools for the 2018/2019 academic year. This study employed systematic random sampling to obtain 30 students in each of the experimental and control groups. The research instrument employed was a concept understanding exam consisting of 20 two-tier diagnostic questions with a reliability level of 0.84 in the high category and suitability. The results of this study show an average value of 58.6 in the control group and 73 in the experimental group. The hypothesis results reveal that the significant value of the t-count t-table with the choice H0 is rejected, and the effect size test results suggest that d = 1.08 where d 0.8. These findings imply that the experimental class outperforms the control class. As a result, the scaffolding-based guided inquiry technique supported by Google Classroom has the potential to alter students' physics conceptual understanding.
Scientific literacy on the topic of light and optical instruments in the innovation of science teaching materials Fahmi Fahmi; Nur Chalisah; Maya Istyadji; Yudha Irhasyuarna; Muhammad Kusasi
Jurnal Inovasi Pendidikan IPA Vol 8, No 2: Oktober 2022
Publisher : Faculty of Mathematics and Natural Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jipi.v8i2.41343

Abstract

This study aims to innovate science teaching materials based on scientific literacy on light and optical instruments. The study used the research and development (RD) method with the four-D (4D) model. The subjects in the study included three experts and 60 class VIII students with an age range of 13-15 years at the same level. This study collected quantitative data from product validation, questionnaire, and scientific literacy test. The questionnaire and test instrument have been proven valid and reliable based on expert judgment and empirical tests. The data were analyzed using descriptive and empirical statistic tests. The expert judgment proves that science teaching materials score 3.79 of 4 and scientific literacy aspects 3.71 of 4, which is valid. In addition, the teaching materials were also categorized as effective with an overall score (z = -4.731 and p-value = 0.000 0.05). In detail, the learning process increases student scientific literacy (p-value = 0.0000.05). Furthermore, science teaching materials based on scientific literacy could be optimized to improve students' scientific literacy skills sustainably.
Student's interest in PENILIK as sustainable development extracurricular program to support agricultural awareness Yani, Mely; Layyinah, Syifa Qalbiyatul; Zahra, Ince Raudhiah; Achwani, Annie Satriani; Riandi, Riandi; Sholihat, Rini; Amprasto, Amprasto
Jurnal Inovasi Pendidikan IPA Vol. 9 No. 1: April 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.v8i1.50393

Abstract

This study is a descriptive study that aims to describe the implementation of the PENILIK (Pasukan Petani Cilik) Program and find out students' interest in the program to support the agricultural awareness of students. PENILIK is an extracurricular program in regenerative agriculture in a school environment that focuses on training in farming competencies, which has several stages, such as identification, analysis, implementation, and reflection. This program is an effort to implement the value of education sustainable development to increase students' interest and awareness in the agricultural area. Student's response was taken from a questionnaire given to 26 extracurricular members who are able and committed to accomplish the program at one of the schools which has high potential area for agriculture. Based on the questionnaire results, students have a high interest in the program, and the programs can positively impact students, especially in increasing their awareness of the importance of agriculture. Furthermore, this program brings an opportunity for the school and surround society to explore the agricultural potency adjust with the goals of education sustainable development.  Therefore, support from all stakeholder, parents and the community involved in implementing the program's sustainability is needed.

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