There is substantial body of literature in science education focusing on students' understanding of the theory of evolution by natural selection. However, despite decades of research on the evolution versus creationism debate there is still widespread concern that particular misconceptions about evolution persist. The study aimed to recalibrate…

Presents a framework that connects concepts such as expert consensus models, target models, intermediate models, preconceptions, learning processes, and natural reasoning skills for thinking about cognitive factors involved in model construction in the classroom. Provides guidance to teachers in the form of instructional principles and reminds…

Discusses students' (n=10,058) problems with naming oxo salts following a given formula. Many students incorrectly named oxo salts as oxides, and the students' own names for the compounds were more helpful to find the correct formula than the common names. Concludes that high school students are more interested in intellectually challenging…

Describes an investigation of first-year chemical engineering students' understanding of the mole concept. Finds that a series of activities designed to provide students with visual or experiential points of reference for the mole concept had a strong positive effect on student misconceptions. Contains 16 references. (Author/WRM)

Examines 9th grade students' explanations of chemical reactions using two forms of open-ended essay questions, those providing students with key terms to be used as "anchors" on which to base their essay, and those that do not provide terms. Results indicate that more misunderstandings were elicited by the use of key terms as compared to…

Based on a purposive sample of 15 second-year chemical engineering students, this study investigates students' conceptions of evaporation, condensation and vapour pressure. During individual interviews the students were questioned on three tasks that had been designed around these topics. Qualitative analysis of student responses showed a range of…

Explores changes in students' (n=250) thinking about basic chemical ideas during a context-based curricular approach. Suggests that 16- to 18-year-old students enter chemistry courses with a wide range of misunderstandings about chemical reactions, but understanding improves steadily as the course progresses. Concludes that even misunderstandings…

Argues for using "conflict maps" as a way of enhancing science teaching and learning. The conflict map emphasizes not only the use of discrepant events, but also the resolution of conflict between students' alternative conceptions and the scientific conception. Discusses the conflict map as an instructional aid for teachers or as a…

Explores the tension between subject knowledge and pedagogic content knowledge in elementary teacher education by documenting students' and inservice teachers' learning about forces in the context of floating and sinking. Describes significant features of the learning process and examines subject-specific aspects of learning by demonstrating how…

Attempts to find connections and bridges between social constructivism and Piagetian constructivism so that both may be enriched, to the benefit of science teaching. (Contains 95 references.) (Author/WRM)

Discusses some difficulties in teaching the concept of voltage to secondary school students. Presents and describes the content of a teaching sequence introducing voltage as a primary concept through relationships with other variables. Provides an example of the delivery of the teaching model. (YP)