If the concepts used in curriculum, textbooks, classroom teaching, and assessment are not consistent, students may have difficulty in understanding the concepts of science correctly and this may lead to the formation of misconceptions. The purpose of this study is to measure the alignment of science concepts by analyzing the semantic networks of curriculum, textbooks, classroom teaching, and student assessment with respect to the contents on meiosis as covered in Life Science I. The semantic network method using the NetMiner 4.0 program was applied. 11 concepts were extracted from the curriculum commentary. The textbook presented 36 concepts; classroom teaching presented 54 concepts; a total of 23 concepts were presented from assessment. With respect to alignment of relevant concepts, 6 (gamete, chromosome, meiosis, gene, daughter cell and cell division) were linked to all 4 sources (curriculum, textbooks, classroom teaching, and assessment). These concepts are mainly used to explain the process of meiosis. It is concluded that the key concepts of meiosis exhibited alignment in curriculums, textbooks, classroom teaching and assessment. However, there are many concepts used only in textbooks and classroom teaching. The greater number of concepts in textbooks and teaching can become one of the causes of a deficit in learning. Keywords: concepts’ alignment, meiosis concepts, upper secondary school, semantic network
Teachers are highly reliant on textbooks for teaching. In the Republic of Korea, science textbooks help students to understand scientific terms through inquiry activities. However, there is a lack of analysis on whether the inquiry activities suggested in these textbooks appropriately cover the terms included in the main text. Therefore, this study assesses the life science units included in widely used lower secondary school science textbooks in the Republic of Korea by analysing the connection between the terms presented in the inquiry activities and the main text using the NetMiner 4.0 programme. The results reveal that the life science units included in the lower secondary school science textbooks are well structured for learning life science terms through the inquiry activities, as the terms presented in the inquiry activities and the main text are well connected. However, the number of terms included in each unit greatly differs and needs to be supplemented with the optimization of the number of terms per unit. The results provide basic data for the future development of lower secondary school science textbooks. Future research should analyse how the terms used in inquiry activities and the main text are connected in real science classes. Keywords: biological terms, connection network, terms connection, inquiry activity, main text
Textbooks can have a fundamental and positive effect on both learning and teaching. As such, in order to understand how students structure concepts in their minds, it is necessary to analyze the structure in which those concepts presented in textbooks are described. This study examined a network of concepts used in the domain of biotechnology in the Iranian 12 th grade biology textbook and investigated the alignment of science concepts used in its sub-domains. The findings of this study suggest that too many concepts, as well as unconnected ones, were used in biotechnology domain, which led to a complicated conceptual network. Therefore, this paper recommends that the number of biology concepts described in the later text books in the biotechnology domain at Iranian high schools should be reduced in order to facilitate a better formation of connections between concepts and their descriptions.
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