Claim Missing Document
Check
Articles

Found 2 Documents
Search
Journal : Physics Learning and Education

Design of Cognitive Conflict-Based Generative Learning LKPD on Measurement Material to Improve Creative Thinking Ability of Class X High School Learners Fitri, Hidayatul; Akmam, Akmam; Ratnawulan, Ratnawulan; Suherman, Dea Stivani
Physics Learning and Education Vol. 3 No. 2 (2025): June Edition
Publisher : Department of Physics Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/ple.v3i2.221

Abstract

Education and learning play an important role in developing individual character and skills. Learning is a process that is specifically designed to help individuals develop their thinking skills. Learning models can be an effective tool to achieve optimal learning. LKPD will certainly be more effective with the help of learning models in improving student learning outcomes. The problem found is that the use of LKPD in learning has not helped students to construct new knowledge with old knowledge they already have, the learning model is not optimal for building new knowledge of students and students' creative thinking skills are still relatively low. This research aims to develop a valid and practical cognitive conflict-based generative learning LKPD. This research uses the Research and Development (R&D) method with the 4D development model (define, design, develop, disseminate). The define stage includes needs analysis and problem identification. At the design stage, the LKPD was designed by considering the content, structure, and aesthetic components. The develop stage involves validity testing by experts, as well as practicality testing by practitioners and users. Based on the validation and practicality instruments that have been analyzed, it can be concluded that the LKPD for cognitive conflict-based learning on measurement material produced is valid with Aiken's V of (0.9) with a valid category. While the practicality of educators and students is obtained at (90.1) and (90.4) with a very practical category.
Needs Analysis of Physics E-Modules Based on Dual Space Inquiry Framework to Stimulate Students' Creative Thinking Ability on Static Fluid Material Hayati, Fitri; Novitra, Fuja; Mufit, Fatni; Suherman, Dea Stivani
Physics Learning and Education Vol. 3 No. 3 (2025): September Edition
Publisher : Department of Physics Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/ple.v3i3.231

Abstract

In order to encourage students' creative thinking regarding static fluid material, this study aims to assess the need for physics e-modules based on the Dual Space Inquiry framework. This research employs a development (R&D) methodology using the Dick and Carey instructional design model. Descriptive quantitative data analysis was used in the study. The results showed that students’ creative thinking abilities were still categorized as low, with an average percentage of 24.22%. Observations revealed that the learning approach used had not effectively encouraged students’ creative thinking, and that teachers were still relying on print-based instructional resources. Furthermore, based on a questionnaire completed by students, static fluid was identified as a topic that is difficult for them to understand. In light of these issues, there is a need for teaching materials that are both technology-based and capable of stimulating students' creative thinking skills. Therefore, the researchers propose a physics e-module based on the Dual Space Inquiry framework as a solution to enhance students’ creative thinking in learning static fluid material.