Reviews evidence on gender inequities in science education and gender differences in "ways of knowing" and argues that making science instruction more effective can promote greater equity. Describes a conceptual change approach to science instruction that explicitly activates students' preexisting conceptions and misconceptions and helps students…

Describes the application of a teaching model to the teaching of a science course entitled Changes in Matter. Discusses the teaching sequence and the outcomes of the unit in terms of students' conceptual development. Concludes that the approach requires a conceptual, methodological, and attitudinal change for teachers and students. (DDR)

Describes grade-appropriate weekly activities designed to appeal directly to students by giving them open-ended questions. Activities may be worked on individually, in pairs, or in small groups. This particular set of activities focuses on stories from literature involving measurement, earning money, marketing a product, and setting up a…

Examines the scientific concept of evaporation. Attempts to show how students develop their understanding through the levels of the Structure of the Observed Learning Outcome (SOLO) taxonomy. Shows how designing learning experiences to suit the learners' developmental stages in understanding a concept is paramount to the overall growth of the…

An instructional package, LD.Trainer, was developed from a computer-based expert system (CLASS.LD2) combined with strategies of effective concept instruction. Evaluation with 97 preservice and in-service educators found users of LD.Trainer scored significantly higher on a posttest of ability to accurately identify learning-disabled students. (DB)

This paper defines the concept of structured processing as an activity that encourages students to reflect, describe, analyze, and communicate that which was recently experienced. The paper explores structured processing, outlines a cognitive processing hierarchy, and suggests methods for designing and leading processing activities for…

A theory for the visual and cognitive processing, which accounts for slower naming of pictures than reading of words, is introduced. Two experiments assessed the differences distinguishing word reading and picture naming, using 58 undergraduates. The coding of the mind is neither intrinsically linguistic nor imagistic; it is abstract. (TJH)

Presents an account of observations, descriptions, and interpretations of children's representations. Offers examples of ways teachers and parents can help children expand their language, actions, and images to symbolize their experiences. (BB)

Discusses the design of introductory physics course for elementary education majors and nonscience majors. Describes the learning cycle used for constructing hands-on activities. Provides an example of a week's activity on energy. Presents an evaluation of the course based on examinations and the teacher's impressions. (YP)

Documents cognitive processes mediating the observational learning of conservation. Findings suggest the presence of demand characteristics for high undifferentiated ratings under a public format of certainty appraisal. This contamination prevents valid monitoring of the course of cognitive rule processing. (RH)

This study examines whether the concepts held by teachers are communicated to students during instruction and if students' concepts of reading reflect their teachers' concepts of reading. Implications for teacher education are discussed. (IAH)

Learning-disabled ninth-graders (n=58) completed a modified Piagetian isolation-of-variables task, and were compared to normally achieving ninth-graders and fourth-graders. Through cluster analysis, four different patterns of task approach were identified, representing normal performance, general conceptual disorder, specific developmental delay,…

Examines 11 elementary science texts in terms of conceptual structure and reasoning demands using concept maps. Reports that (1) the conceptual structures vary widely across texts; (2) most of the structures are well defined; and (3) the reasoning demands are above the developmental capabilities of most of primary-level children. (Author/YP)

Abstracts six conference papers from the ISRAEL Association for Computers in Education. Included topics are spreadsheets for problem solving, concept acquisition with microcomputers, numerical mathematics, learning math as a science, studying polygons with LOGO, and a growth curve simulation of microorganisms. (MVL)

Cites the misconceptions that students beginning the study of electric circuits often have about electricity. Explains the use of capacitors with circuits of batteries and light bulbs to introduce electrostatic forces and help to alleviate the problem of misconceptions. (RT)