LEARNING CONCEPT NETWORKS IN THE PHOTOSYNTHESIS BASED ON STUDENTS’ COGNITIVE LEVELS
LEARNING CONCEPT NETWORKS IN THE PHOTOSYNTHESIS BASED ON STUDENTS’ COGNITIVE LEVELS
Author(s): Soo-min Lim, Hyunju Chun, Hyonyong Lee, Youngshin KimSubject(s): Social Sciences, Education
Published by: Scientia Socialis, UAB
Keywords: cognitive level; concept network; connected concept network; learning concept; photosynthesis;
Summary/Abstract: An important educational goal is enabling students to learn scientific concepts. The scientific concepts learned in class are developed within students’ cognitive structures. Despite the successful application of Semantic Network Analysis (SNA) to study these cognitive structures, there has been limited examination of students' concept networks based on their individual characteristics. Therefore, this study aims to evaluate the differences in students’ characteristics based on their cognitive levels, which influence their thinking and behavior. To analyze these differences, this study compares concept and connected concept networks, focusing on photosynthesis, a challenging life sciences topic. The study’s results indicate that students could not clearly distinguish concepts by subtopic, but there were changes in the concept network after class. Although the types and number of concepts students knew were similar depending on their cognitive level, the concept network structure differed. Additionally, some students could not distinguish between similar concepts. Thus, teachers are advised to differentiate between similar concepts during instruction and address personal variables such as students' cognitive levels.
Journal: Journal of Baltic Science Education
- Issue Year: 23/2024
- Issue No: 4
- Page Range: 658-678
- Page Count: 21
- Language: English