Developing a deeper understanding of scientific concepts is one of the primary goals of science education. To improve students' conceptual understanding, it is necessary to explore the major characteristics of their learning process. Informed by previous work on conceptual understanding, this study focuses on the concept of evaporation, exploring…

This paper presents an analysis of cognitive skill levels expressed in high school students' performance using laboratory simulations. We address lower-order cognitive skills (LOCS) and higher-order cognitive skills (HOCS) situations in a virtual simulation activity, in order to identify and underly further discussions about students' reasoning…

Retrieval-based learning, using tests for content review, frequently proves more effective for knowledge retention compared to alternative methods. Extensive research has explored this with older students, often in contrast to more passive techniques like rereading or note rewriting, typically focusing on vocabulary content, in non-classroom…

Within chemistry education, there are various curricular and pedagogical approaches that aim to improve teaching and learning in chemistry. Efforts to characterize these transformations have primarily focused on student reasoning and performance, and little work has been done to explore student perceptions of curricular and pedagogical…

Student learning in simple electric circuits has been extensively studied, which has revealed a large number of persistent misunderstandings. This study applies the conceptual framework model to investigate student difficulties in the knowledge integration perspective. The results are used to guide the design of a concept test that targets the…

Conceptions of learning are drawn from an individuals' learning experiences, which are theoretically built upon the phenomenographic research method. Seven conceptions of learning in the domain of science are identified: "memorizing," "testing," "calculating and practicing," "increase of knowledge," "application," "understanding," and "seeing in a…

Argues that most teachers do not understand the nature of human memory. Presents an informal introduction to human memory, including information on long-term retention, prior knowledge, retrieval, and cues. States that instructors can design memory-compatible instruction that makes recording and retrieval of new knowledge easier. (TW)

Argues that the field of inorganic chemistry is facing an identity crisis. Proposes that the current call for curriculum reform in inorganic chemistry is an opportunity to return to a stronger discipline. Presents a history of freshman chemical education and recommends a new program for inorganic chemistry. (TW)