Presents a study to determine the methods inquiry geneticists use to solve dynamic complex computer-generated transmission genetics problems; specifically, their strategies and conceptual knowledge. Develops a hierarchical framework and pathway for solving problems through geneticist solution protocols and interviews. (Contains 32 references.)…

Discusses the importance of inquiry and discovery in science and mathematics education. Presents three science problems for students to develop their own solutions. Concludes that curriculum materials must engage and support teachers in the process of integrating mathematics and science. (ASK)

Education in this 21st century is concerned with developing intelligences. Problem solving in real-world contexts involves multiple ways of knowing and learning. Intelligence in the real world involves not only learning how to do things effectively but also more importantly the ability to deal with novelty and growing our capacity to adapt, select…

Presented the application of problem-solving strategies in the classroom. (Editor/RK)

Critical thinking can best be taught using higher cognitive questioning which includes the process of analysis, synthesis and evaluation. The learner is required to use knowledge in a problem solving manner. Thus, higher cognitive questioning should be used as a tool for developing critical thinking--a vital intellectual operation. (Author/NQ)

Presents a position strongly advocating inquiry training in science for students at all levels, but particularly at the elementary level. (SL)

Delineates three prevailing positions in social education theory: (1) traditional (positivist), (2) liberal/neoliberal, and (3) radical. Argues that the analysis of these positions provides a more powerful understanding of such issues as indoctrination and student selection of social problems to be studied. (JDH)

Reports research findings on the relationship between play and science as complementary aspects of problem solving. The playful approach and the science approach are compared along with skills and attitudes necessary for solving scientific problems. Research findings and suggested actions on play in the classroom are summarized. (BC)

The author examines the nature of reflective thinking and its necessity as an educational goal. The work of John Dewey, empirical approaches to reflective judgment, evidence of students' ability to use it, and implications for education are discussed. (SK)

Compares two laboratory treatments: (1) Constructing and Applying the Concepts of Physics (CACP) which is guided-inquiry; and (2) Toys in Motion (TIM) which focuses on problem solving skills and design work. Discusses the two laboratory courses and assessment procedures. (YDS)

An inquiry-oriented teacher education program entitled PROBE (Problem-Based Teacher Education) is described. The fundamental concept of PROBE is based on John Dewey's philosophy that learning is rooted in experience and knowledge derives from a process of inquiry. (JD)