Imagine--you must bring water to a hurricane-ravaged area. There is only one bridge and only one truck, and the bridge can only hold so much weight. Your calculations determine if the truck--and its load of water--can make it safely over the bridge. This is a typical challenge during two-week summer camps for third-through fourth-grade students…

Science in early childhood is of great importance to many aspects of children's development. Planning for improvement of science instruction should take into consideration the problems teachers encounter in their performance of their task. However, exposition of problems of early years teachers, especially those with many years of experience, is…

Abstraction is a major concept in computer science and serves as a powerful tool in software development. Pattern-oriented instruction (POI) is a pedagogical approach that incorporates patterns in an introductory computer science course in order to structure the learning of algorithmic problem solving. This paper examines abstraction processes in…

In this paper we focus on some of the findings of the science education research community in the area of representations and problem solving. Problem solving depends on the construction and manipulation of mental models (internal representations) in the mind. A large knowledge base (declarative, procedural, strategic, situational, and schematic…

Not all demonstrations involve using exciting visual displays of one or a series of scientific principles. Demonstrations can be as simple as showing the interrelationship between scientific concepts or principles using concept maps. Concepts maps are tools that help people conceptualize and remember a conglomeration of facts making up complex…

Models occupy the content core of physics, and modeling is a major process for constructing and employing physics knowledge. A model is characterized by its domain, composition, structure, behavior, and organization. Problem solving is a schematic modeling process consisting of model selection, construction, validation, analysis, and deployment. A…

Vygotsky argued that children's development is most likely to occur when, in the course of collaboration, assistance is provided within their zone of proximal development--the distance between what a child can achieve independently and what he or she can do with the assistance of a more competent member of their culture. This paper reports the…

It has been shown previously that many students solve chemistry problems using only algorithmic strategies and do not understand the chemical concepts on which the problems are based. It is plausible to suggest that if the information is presented in differing formats the cognitive demand of a problem changes. The main objective of this study…

The Unified Science and Mathematics for Elementary Schools (USMES) Program was designed to teach students complex problem-solving skills. This paper reports the effects of USMES on basic skills, explains the effects, comments on difficulties in data collection, and recommends data-gathering that should complement or replace standard basic skills…

Describes a physics experiment which demonstrates the pitfalls of assuming that a model which represents an ideal system is applicable to a real experiment. Explains how the failure may give greater understanding of the problem and may lead to improvements in the model. (ML)

Describes an activity which introduces students to the nature and challenges of paleoanthropology. In the exercise, students identify diagrammed bones and make interpretations about the creature. Presents questions and tasks employed in the lesson. (ML)

Reviews articles and books which focus on topics and strategies related to problem-solving. Also describes the Kepner-Tregoe industrial training program. This program contains many problem-solving ideas and strategies appropriate for the college level. (JN)

Four papers are reviewed. They include a description of how instructional modules and small group problem-solving (PS) in a second-year plant anatomy course produced excellent PS skills and various ideas on PS in the context of chemistry. Also reviews guided-design as a strategy to help develop PS skills. (JN)

Methods used to investigate problems in the sciences include building-up strategies, insight, and change (or serendipitous discovery). Discusses appropriate learning experiences for the undergraduate science students so they are more likely to benefit from the second method of scientific discovery as they make a career in their chosen field. (JN)

Describes the nature and use of a "strategy", an organized approach that breaks down the overall mental task of problem-solving into stages, providing details of the McMaster Six-Step Strategy. Also provides instructions for working through a Whimby pair series of problems and the Schoenfeld management approach. (JN)