With various internet resources available to students, the main aim of a good university education today should not merely be to provide students with content knowledge, but rather to equip them with essential skills necessary to develop into lifelong learners. Among science educators, repeated calls have been made to promote a more holistic…

Some misconceptions about the roles of action and problem solving in environmental education are examined. It is argued that the use of the term problem solving exaggerates the abilities of environmental educators and students. The implications of establishing problem solving as a goal of environmental education are discussed. (KR)

A model of scientific inquiry is presented, and several instructional strategies that encourage the hypothesis generation component are described. (JMF)

Cites the shortcomings of the traditional educational experiences of chemists. Focuses on their training in engineering and concludes that training is lacking in the areas of mass balances in flow processes, heat balances, reactors, separation processes, and scaleup. (DDR)

Discusses the foundations of engineering design and highlights the problems confronting students who are required to make creative input into a design problem. Describes a way to implement creativity in teaching engineering design. Contains 38 references. (DDR)

Science is shown to have unique characteristics that make it a valuable component of a basic education. While stressing the physical world, it can also provide a good model for rational and moral behavior. (JMF)

This paper advocates a philosophy of science teaching that embraces intellectual conflict, suggesting that it is important to engage students in productive intellectual conflict in order to teach for conceptual change. Presents two approaches that could actualize the philosophy of "teaching the conflicts" within science instruction. (SM)

Presents concept mapping as an effective tool for developing an integrated curriculum. Includes examples of concept maps that represent an entire veterinary curriculum, specific courses, and case-based exercises. (21 references) (Author/JRH)

Argues that insights from scholarship in the sociology of science can provide a powerful basis for making science education more authentic and inclusive. Describes how adopting sociological ideas can provide unique opportunities for students. Contains 46 references. (DDR)

Contends that school science programs should return to the visionary programs of the 1960's, which developed logical thinking and problem solving. These have since given way to a barren emphasis on fact acquisition and "cookbook" lab activities. (TE)

Argues that science programs developed during the 1960's should be replaced by "science/technology/society" (S/T/S) programs, which build on students' curiosity and concern about local problems. (TE)

Explores the potential relationship of teaching and total quality management (TQM) and the subsequent benefits for individual medical teachers. Addresses issues such as defining teaching processes and quality teaching, responding to customers' needs, assessing current teaching practices, and improving one's own teaching. Contains 18 references.…

Responds to R.G. Bing-You's argument for the application of total quality management (TQM) techniques to medical teaching. Argues that attempts to apply TQM to medical education are fundamentally flawed because medical education is not an intrinsically commercial transition. (DDR)

Argues that scientific knowledge in school is a social construct in which curriculum proposals are simply points of departure that are transformed by the social interaction that takes place within the classroom. Considers discourse as playing an important role in knowledge construction. Contains 31 references. (DDR)

Implications for science curricula and instructions of new perspectives on scientific knowledge, on nature of evidence, and on how knowledge changes are considered. Argues that much of science education is mired in positivist assumptions and suggests ways in which science instruction can promote a more appropriate epistemological attitude and…