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The Effect of Jigsaw-Type Cooperative Learning Model with a Multimodal Approach on Students' Physics Concept Understanding Lalu Azikri Amrullah; Gunawan Gunawan; Kosim Kosim
Indonesian Journal of STEM Education Vol. 8 No. 1 (2026): Edisi Januari-Juni 2026
Publisher : Indonesian Publication Center

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.67434/ijse.v8i1.2053

Abstract

The low level of students' physics concept understanding is often caused by conventional learning processes and the lack of varied representational media. This study aims to investigate the effect of the Jigsaw-type cooperative learning model with a multimodal approach on students' physics concept understanding. This research employed a quasi-experimental method with a non-equivalent control group design. The population comprised all Grade 11 students at MA Nurul Iman, with samples selected via purposive sampling. Data were collected using a physics concept understanding test instrument consisting of multiple-choice items. Data analysis was performed using IBM SPSS Statistics 25, involving prerequisite tests followed by an Independent Sample T-test. The results indicated that the mean posttest score of the experimental class (84.29) was significantly higher than that of the control class (75.75). Hypothesis testing revealed a significance value (Sig. 2-tailed) of 0.018 < 0.05, leading to the rejection of H0 and the acceptance of Ha. Consequently, it can be concluded that the Jigsaw-type cooperative learning model with a multimodal approach has a significant effect on improving students' physics concept understanding. The integration of various representational modes effectively helps students visualize abstract concepts and strengthens cognitive construction through peer tutoring interactions.
The Effect of Jigsaw-Type Cooperative Learning Model with a Multimodal Approach on the Creativity of Grade XI Students Lalu Azikri Amrullah; Gunawan Gunawan; Kosim Kosim; Aris Doyan
Indonesian Journal of Innovation and Educational Technology Vol. 1 No. 1 (2026): Edisi Januari-Juni 2026
Publisher : Indonesian Publication Center

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.67434/ijiet.v1i1.2071

Abstract

Creativity is a crucial aspect of physics learning that is often overlooked due to the dominance of conventional learning methods. This study aims to analyze the influence of the Jigsaw cooperative learning model with a multimodal approach on the creativity of grade XI students at MA Nurul Iman. This research is a quasi-experiment using a non-equivalent control group design. The research instrument consisted of a creativity test in the form of four complex essay items that were declared valid (rxy>0,443) and reliable (r11>0.443). The results showed that the average posttest score of the experimental class (78) was higher than the control class (65.05). The Independent Sample T-test results obtained a significance value (2-tailed) of 0.002 < 0.05, so Ha was accepted. It can be concluded that the implementation of the Jigsaw model with a multimodal approach has a significant effect on students' creativity. The synergy between individual responsibility in groups and the diversity of representation modes effectively stimulates indicators of fluency, flexibility, originality, and elaboration.
Instructional Models for Enhancing Science Literacy Skills: A Literature Review Irman Muliadi; Lalu Azikri Amrullah; Ahmad Hardyan Isnaini; Neli Yuliani; Salwa Salwa; Shelliana Iqlima
Indonesian Journal of Innovation and Educational Technology Vol. 1 No. 1 (2026): Edisi Januari-Juni 2026
Publisher : Indonesian Publication Center

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.67434/ijiet.v1i1.2440

Abstract

The low 2022 PISA scores highlight a serious challenge for scientific literacy in Indonesia, triggering the need for a transformation from conventional models toward pedagogical innovation. This study aims to analyze effective learning models for enhancing scientific literacy in the digital era. Using a Systematic Literature Review (SLR) method with the PRISMA model, this research reviewed 20 selected articles within the 2019–2026 interval. The analysis identified nine primary models and approaches proven to significantly improve scientific literacy: inquiry-based learning, problem-based learning (PBL), project-based learning (PjBL), STEAM-PjBL, guided inquiry, discovery learning, differentiated instruction, the ethnoscience approach, and the RADEC model. Findings indicate that these models, supported by technology integration such as interactive e-books and digital media, produce N-Gain scores in the medium to high categories. The ethnoscience approach also proved to enhance learning relevance through local wisdom. Despite their effectiveness, implementation still faces obstacles related to school facilities and teacher competency readiness. This study concludes that the synergy between student-centered innovative models and the reinforcement of teacher TPACK is crucial for creating meaningful, competitive, and adaptive science education for the modern era.
The Role of Website-Based Learning Media in Enhancing Students' Conceptual Understanding: A Literature Review Ahmad Hardyan Isnaini; Irman Muliadi; Lalu Azikri Amrullah; Holis Angga Saputra
Indonesian Journal of Teacher Education Vol. 7 No. 1 (2026): Edisi Januari-Juni 2026
Publisher : Indonesian Publication Center

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.67434/ijte.v7i1.2258

Abstract

The development of information and communication technology has encouraged the use of website-based learning media as an innovation in the educational process. This study aims to analyze the role of website-based learning media in improving students’ conceptual understanding through a literature review approach. The method used is a literature review by examining scientific articles published between 2015 and 2024. The systematic selection process followed standard protocols, including identification of 50 relevant records, screening based on inclusion criteria (educational level and conceptual understanding variables), and eligibility assessment. Based on this process, 15 articles were selected and analyzed qualitatively. The results show that website-based learning media can enhance students’ conceptual understanding through the visualization of abstract materials, interactive content delivery, and support for self-directed and contextual learning. In addition, this media also increases students’ motivation and engagement in the learning process. However, its implementation still faces challenges such as limited infrastructure and the readiness of human resources. Therefore, the development and utilization of website-based learning media need to be optimized to support more effective learning in the digital era.