Abstrak. Kami telah mendesain model pembelajaran untuk meningkatkan kemampuan representasi dan pemecahan masalah fisika. Model pembelajaran tersebut disebut Investigation Based Multiple Representation (IBMR). Model pembelajaran IBMR memiliki sintaks orientasi mahasiswa pada fenomena, melakukan investigasi ilmiah, membuat multi representasi, aplikasi pada pemecahan masalah, dan mengevaluasi proses dan hasil pemecahan masalah fisika. Makalah ini memaparkan kendala-kendala model pembelajaran IBMR. Uji coba dilaksanakan pada perkuliahan fisika dasar di mahasiswa Pendidikan Matematika Universitas PGRI Semarang. Pada saat pembelajaran berlangsung, dilakukan observasi kendala-kendala setiap fase model pembelajaran IBMR. Kendala yang ditemukan antara lain kemampuan penggunaan alat dan merangkai alat percobaan. PendahuluanModel pembelajaran IBMR dikembangkan sebagai program intervensi untuk meningkatkan kemampuan representasi dan pemecahan masalah fisika [1]. Model pembelajaran IBMR didukung oleh teori belajar konstruktivis. Teori belajar konstruktivis memandang belajar sebagai proses yang dilakukan oleh individu secara aktif dalam membangun pengetahuan berdasarkan pengalaman personal pada saat berinteraksi dengan orang lain dan lingkungan [2]. Mahasiswa mengkonstruksi pengetahuan multi representasi melalui kegiatan investigasi, serta mahasiswa mengkonstruksi pemecahan masalah melalui aplikasi pemecahan masalah.Multi representasi yang dibuat berdasarkan investigasi akan membangun pemahaman terhadap situasi yang nyata secara mendalam. Hasil penelitian Siswanto juga menyimpulkan bahwa multi
There are many benefits from using AbL and WbL, especially in the learning process through all subjects. Also, it is necessary always to discover novelty, innovation, improvement, and development of AbL or WbL to increase the quality of the study environment. This research analyzes bibliometrics on ‘AbL’ and 'WbL' keywords and compares them. Scopus is used to collect the metadata, and the VOSViewer application will be an assist tool. This research is expected to reach trends, patterns, novelty, and future research in the AbL and WbL through broad fields of Education during the past ten years (2012-2021). The research results show that trends of AbL and WbL research tend to increase each year. Finally, based on the analysis of the selected papers, the use of AbL, should be more boarder and widely in the classroom. Furthermore, the use of WbL also tends to be effective and efficient. Using WbL in classrooms is believed can improve several skills of students. But, it is necessary to find a better design to improve the learning concepts in integrating WbL. These findings also can be a recommendation for future research that optimizes AbL for the teaching and learning process in schools or universities/institutions. However, the use of appropriate learning media can improve and provide a positive response from many aspects of education in the classroom, especially in generating knowledge in abstract material like a physics subject.
The elaboration of the education sector as one of the main pillars for the progress of the nation's next generation and the digitalization of technology need to adjust to the times so as not to be left behind both in the field of education technology and the learner curriculum compared to developed countries. However, using the digital pocketbook in Physics learning boosts academic motivation, literacy ability, and student learning achievements. This study summarizes several literature reviews on the advantages, practical implementation, limitations, and opportunities of using the digital pocketbook in Physics learning. This research uses literature study methods with qualitative descriptive analysis. According to the literature study results, we developed and implemented an e-pocket book in Physics learning, proven to improve student learning outcomes. These e-pocket books can be one of the alternative learning media that attract the interest and attention of the students. Therefore, teachers could develop or implement the e-pocket book in Physics learning with further learning models to support the digital revolution.
The research aims to describe the improvement of students’ Higher Order Thinking Skills (HOTs) and compare the differences in effectiveness between the two levels of the inquiry learning model. Two types of learning model levels were applied in this research, namely the Inquiry Lab and Guided Inquiry learning models. This research took place on Fluid Mechanics material on 11th grade of Islamic Senior High School Samarinda. The samples were 108 students out of all students at school as the population. The data obtained were then analyzed using N-gain and inferential statistics. The results showed that the students' HOTS increased significantly with a significance level of 5% after the Inquiry Lab and Guided Inquiry learning model was applied. Based on the calculation of N-gain, there was an increase for the class of 11th Science 2 with very high category (98%), class of 11th Science 1 with high category (83.62%), and a class of 11th Science 3 with low category (34%). Hence, the 11th Science 3 class was statistically significantly different (consistent). The implications of this research for universities include that the curricula for university courses should focus more on mini-research activities, especially those related to open inquiry. Furthermore, there was a significant difference in the effectiveness between the two levels of inquiry and conventional strategies in improving higher-order thinking skills. There are significant differences between the two levels of inquiry, namely Laboratory Inquiry learning and Guided Inquiry itself. The most significant in improving students' HOTs is Laboratory Inquiry.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.