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Multiple Intelligence Type Profile of Prospective Physics Teacher Students: Recommendations for Lecture Methods to Create a Superior and Globally Competitive Generation Hikmawati Hikmawati; Muhammad Taufik; Jannatin Ardhuha; Satutik Rahayu; Irman Muliadi
Kappa Journal Vol 8 No 3 (2024): Kappa Journal
Publisher : Universitas Hamzanwadi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29408/kpj.v8i3.28740

Abstract

The type of multiple intelligence possessed by students can be a consideration for lecturers in determining the right lecture method so that it can create effective learning. The effectiveness of learning has an impact on the quality of superior and competitive student competencies. This study aims to analyze the distribution of multiple intelligences of students and relate them to relevant learning methods in the Physics Curriculum Review course in the Physics Education Study Program, University of Mataram. The subjects of the study were 22 class 5C students who took the multiple intelligence test. This study uses a descriptive approach with quantitative data analysis. The study was conducted in August 2024. The instrument used to view the profile of students' multiple intelligence types can be accessed through the online platform "Aku Pintar". The results showed that intrapersonal intelligence had the highest average of 83%, followed by logical-mathematical intelligence (78%), visual-spatial (75%), and verbal-linguistic (73%). Naturalistic and Interpersonal intelligence were 71%, while Kinesthetic intelligence was 70%. Musical intelligence had the lowest average, which was 63%. Based on these findings, the recommended learning methods include Project-Based Learning, Small Group Discussion, Contextual Instruction, and Role-Play to accommodate various types of student intelligence. These methods are integrated with topics such as the history of curriculum development, review of learning models, review of the Independent Curriculum teaching module, and the Pancasila Student Profile Strengthening Project. The conclusion of the study emphasizes the importance of implementing adaptive and varied learning methods in supporting the potential of students' multiple intelligences, in order to prepare them as competent, creative, and innovative prospective teachers. In other words, the application of lecture methods used by lecturers according to the type of multiple intelligences of students will support the formation of a superior and globally competitive generation. It is recommended for lecturers to optimize project-based and collaborative approaches, and for students to actively explore their intelligence potential. This study also provides recommendations to study programs to align the curriculum with student needs and educational developments.
Pengenalan dan Penggunaan PPT Interaktif Dalam Proses Pembelajaran Fisika di Sekolah Putri Gifari; Irman Muliadi; Gunawan Gunawan
Indonesian Journal of Education and Community Services Vol. 6 No. 1 (2026): Edisi Januari-Juni 2026
Publisher : Indonesian Publication Center

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.67434/ijecs.v6i1.1900

Abstract

The use of technology-based learning media has become essential in 21st-century education, particularly in physics learning, which requires mastery of abstract concepts. This study aims to describe the effectiveness of introducing and implementing interactive PowerPoint in enhancing student engagement, conceptual understanding, and learning outcomes. A quasi-experimental pretest–posttest design was used with 36 tenth-grade students. Research instruments included concept mastery tests, learning activity observation sheets, and student response questionnaires. The results indicate an increase in average learning scores from 62.5 to 83.4, with an N-Gain of 0.56 (moderate category). Student activity increased from 58% to 86% (very active category). Most students (93.75%) responded positively to the interactive PPT, particularly to its physics simulation animations and interactive navigation buttons. Therefore, interactive PowerPoint is proven effective in improving the quality of physics learning and is highly recommended for broader implementation.