The relationship of cognitive development to learning science is considered. Views of thinking from both a psychological and a scientific standpoint are compared in order to shed light on current science teaching practice. Metacognition and problem solving are discussed. (Author/MT)

Provides teachers with some ideas about the development of physical knowledge to make them more receptive to the differences between their own and their students' thinking. Illustrates an adapted version of Piaget's model of the growth of physical knowledge using the development of classical mechanics. Contains 12 references. (Author/JRH)

Uses Laudan's model of scientific change to obtain corresponding features on conceptual change in science learning. Discusses some practical consequences for science education. (MDH)

Synthesizes current thought in neuropsychology, philosophy of cognition, and science education. Suggests that dualistic views and those based solely on biological structural-functional analyses may be insufficient to explain the active role of the learner. Presents 10 principles of neurocognition as a context for analysis of learner-centered…

Offers a theory of how commonsense reasoning about motion may develop. Takes as fundamental the basic categories: action, object, space, cause, time, and movement. Suggests that very primitive elements could combine to provide schemes of motion recognizable in psychological accounts of infancy and generate prototypes of and rules for motion. (DK)

Addresses the importance of recognizing the prior knowledge and misconceptions of science educators. Provides perspectives on the nature of knowledge, conceptions of learning, nature of science and of teaching, and the relationship between general principles of learning and teaching. (ML)

Discussed is the teaching of physics with an emphasis on the learning of concepts before problem solving. Examples of this approach are provided. (CW)

Explored are several facets of the quality of the science curriculum at the undergraduate level. Discussed are maturation of disciplines, entry-level courses, the development of intellectual skills, and academic majors. Recommendations for college science departments are provided. (CW)

Discusses the role constructivist learning theory is taking in the change of teaching strategies in the science laboratory. The laboratory moves from a place where knowledge is verified to one where relationships are actively investigated through hands-on, cooperative activities. (MDH)

Presents results of longitudinal study of secondary school students. Focuses on the relationship between students' cognitive development and the understanding of dynamics. Shows that majority of younger pupils show little or no cognitive progress during three-year period whereas older pupils make reasonable progress. Concludes that different…

Offers perspectives on how conceptual changes actually take place in students. Proposes that elements of Kuhn's concept of scientific paradigms and Wittgenstein's concept of the "language-game" be considered in an analysis of conceptual change. Explains how components of these models relate to science learning. (ML)

Examines science education in the United Kingdom for young children with special needs in science, and the theoretical underpinnings to children's early scientific experiences. Discusses methods of identifying young children with scientific aptitude. Examines use of children's early descriptions and explanations as emergent theorizing and use of…

Examines the role of social interaction as a facilitator of learning in general and conceptual change in particular. Three conditions are proposed as necessary for social interaction to facilitate knowledge construction--horizontal information, comparable domain knowledge, and availability of cognitive tools. Suggests that these conditions assure…

After proposing and defining the superordinate concept of "historicality," fundamental interrelationships between time, events, memory, meaning, personal knowledge, public knowledge, and the histories of science are explored. Relevant research findings that demonstrate the confluence of scholarly thought concerning historicality across…

Analyzing the paradigmatic shift from Peripatetic to Galilean physics can help to understand students' difficulties in learning Newtonian mechanics. Promotes the use of historical texts in physics teaching as a means to support students in becoming aware of the structural differences between everyday life and scientific views of the world. (Author)