Mastery learning is a philosophically based approach to teaching and learning which focuses on effective individualized instruction in the group oriented classroom setting. This article discusses the development and application of mastery learning theory and its implications for teachers. (JN)

Identified are common features of the present implementation of new school physics teaching in Southeast Asia. Implementation aids, methods, and teacher comprehension, student cognitive levels, learning styles, and a more functional physics curriculum are discussed. (DS)

The author describes activities he uses with secondary school science students to learn about their reasoning. (Author/SA)

Discusses the applications of Piaget's theory of cognitive development to elementary and junior high school science teaching. Topics include planning concrete experiences, inductive and hypothetical deductive reasoning, measurement concepts, combinatorial logic, scientific experimentation and reflexive thinking. (SA)

Reconceptualizes a cognitive apprenticeship method to provide foreign language teachers in charge of beginning language levels with the knowledge necessary to acquire the strategies of reciprocal teaching. The article gives teachers an example of a set of lesson plans that embeds the teaching of prerequisite declarative and procedural knowledge…

Summarizes major findings and implications from research on the characteristics of effective classrooms and on characteristics that distinguish schools that have unusually high student achievement from those that enroll similar groups of students with much lower achievement. Discusses how these findings relate to improving achievement in city…

Uses classroom anecdotes to illustrate how social forces limit literacy as a tool enabling students to think for themselves. Defines literacy as involving knowledge, learning, and culture. Appeals to teachers to enhance learners' inventive and analytical skills by putting them in touch with their own intelligence and intuition. (TES)

The research reported in this study was done to evaluate the understandings developed by students who meet science concepts through a textbook. Findings indicated that concrete concepts were better understood by eighth grade students than formal concepts and that students achieved some understanding of some formal concepts. (CW)

Developmental assumptions that are frequently regarded as constraints on elementary school science curricula are analyzed. The argument that elementary school children cannot function as experimentalists because they have not yet attained formal operational thought is not supported by the Piagetian or non-Piagetian research reviewed. (SLD)

This article describes a problem-solving strategy unit to be used as a supplement to the regular mathematics curriculum at the primary level. Specific teaching steps and examples are given for three developmental stages of thinking: (1) concrete, (2) representational, and (3) abstract. (DB)

Teaching the concept of integration differs depending on which of four perspectives is used to introduce the topic. Presents a method based on the historical development of the use of integration that introduces integral as antiderivative. Discusses examples of differential equations used in the development and ways to connect this to the other…

Discussed is the idea that energy is the cause of change. This idea, going back to early cognitive development, means that the teaching of energy needs to confront how, thermodynamically, people can perform actions. The change in energy caused by differences is emphasized. (KR)

Applies the Lesh Translation Model to develop conceptual understanding by showing relationships between five modes of representation proposed by Lesh to learn multiplication of fractions. Presents five teaching activities based on the translation model. (MDH)

Focuses on the enhancement of chemistry students' skill in problem solving utilizing problem categorization techniques. Indicates that explicit training in categorization skills can lead to higher achievement in complex problem-solving situations but that such achievement may be limited by the lack of linkages between students' conceptual…

Asserts that metacognition is one of the most important developments in the contemporary study of learning. Proposes a theoretical analysis of a number of interrelated issues with regard to their importance for metacognition. Focuses on strategy selection in light of the impasse-based theories of problem solving. (CFR)