Students become attentive, curious, and passionate about learning when they can see its relevance to their lives and when they're empowered to use that learning to solve problems that matter. Regardless of the subject or grade level you teach, you can infuse your instruction with the meaning students crave by implementing design thinking. Design…

How do children learn math--and why do some children struggle with it? The answers are in "Number Sense and Number Nonsense," a straightforward, reader-friendly book for education professionals and an invaluable multidisciplinary resource for researchers. More than a first-ever research synthesis, this highly accessible book brings math…

Describes a theory of a topology of awareness, in which higher levels organize reality through dialectical logic, whereas lower levels construct reality based on Aristotelian logic, binary oppositions, and experiencing entities as discreet and independent. Argues that metaphor, poetry, and narrative are linguistic tools that enable clients to…

Suggests basic principles to guide the construction of an integrated sequential guide for thinking skills instruction throughout the K-12 curriculum. Strategies emphasize introducing and reinforcing cognitive operations such as information processing, problem solving, critical thinking, and decision making. (TE)

Many science curriculum development projects have the goal of increasing students' ability to employ scientific or formal reasoning strategies. Argues that longitudinal data of students who acquired formal reasoning strategies as a consequence of specific instruction are needed to provide evidence that these skills will help in other academic…

Surveys artificial intelligence and the development of computer-based tutors and speculates on the future of artificial intelligence in education. Includes discussion of the definitions of knowledge, expert systems (computer systems that solve tough technical problems), intelligent tutoring systems (ITS), and specific ITSs such as GUIDON, MYCIN,…

Describes a stage structure concern for children and phonics. Discusses that among all of the cognitive concepts and abilities constructed by young children, quantitative operations are most closely associated with early successful use of phonics. (JK)

The article defends the teaching of philosophy at elementary and secondary levels and examines some existing precollege philosophy curricula; special attention is given to the American Institute for the Advancement of Philosophy for Children and a Canadian effort to establish moral education in the schools. (SB)

Compiled to illustrate that teachers in New York state--in all curricular areas and at all grade levels--are working to improve students' ability to think logically and creatively, this document outlines programs on thinking skills across the curriculum, from kindergarten through grade 12. The document begins with a chart listing program titles,…

A general model of conceptual change which is largely derived from current philosophy of science, but which can illuminate learning as well, is described. Some features of this model are illustrated by interviews with students studying special relativity in physics. Finally, some pedagogical implications are presented. (Author/PB)

This book offers ideas and strategies for teaching thinking in schools. Sixteen chapters and a concluding discussion, each preceded by an introductory article, are written by experts recognized in their fields. The chapters include: (1) "Reading and Thinking with History and Science Text" (Isabel L. Beck and Janice A. Dole; (2) "Developing…

In the light of significant changes in contemporary society that demand high level thinking skills of professional workers, this monograph explores the nature of independent thinking and principles of teaching independent thinking, particularly to college freshmen. A section on independent thinking outlines abstract, creative, and systematic…

Reviews a monograph which addresses children's higher-order thinking skills. Suggests the following for teaching problem solving: identify and develop content-independent and content-dependent problem-solving skills, connect developed skills through workshop-style activities to subject discipline, and help students identify and reconstruct their…

This paper presents a rationale for teaching higher level thinking skills to students with special needs, including those with mild mental handicaps and learning disabilities. It briefly reviews the literature on teaching such skills, stressing that thinking skills can be taught through specific teaching methods such as a four-step method…