This paper discusses what chemistry students might see while working with animations found on the Internet and how these electronic illustrations can potentially interact to reinforce rather than resolve misconceptions about chemical principles that a student may possess. The Daniell voltaic cell serves as an example to illustrate the ways in…

The use of visual representation to learn science can be traced to Louis Agassiz, Harvard Professor of Zoology, in the mid-19th century. In Agassiz's approach, students were to study nature through carefully observing, drawing and then thinking about what the observations might add up to. However, implementation of Agassiz's student-centered…

Outlining, making data tables, and sequencing events are commonly used for teaching specific topics in science but not as general learning tools. Discusses how the teaching and application of these visual representation techniques helps students realize their usefulness as learning tools and to learn more efficiently. (LZ)

Extensive and detailed overhead projections, a complete set of reduced overhead miniatures in booklet form for each student, and tape recordings are used in a lecture setting to capitalize on the learning preferences of both visual and auditory learners. The use of the strategy in introductory chemistry is described. (JN)

Describes the design of a learning environment, called the Climate Visualizer, intended to facilitate scientific sense-making in high school classrooms by providing students the ability to craft, inspect, and annotate scientific visualizations. Discusses how visualizations can promote creation of scientific theories, especially in conjunction with…

Describes the development of a 3-D virtual environment for secondary school and college physics and chemistry. Discusses individual learning styles; the effectiveness of visual stimuli in science education; implications of visual learning in designing instruction for differences in learning styles; and conceptual understanding. (LRW)

Reports on an investigation into characterizing the guided design instructional method in engineering education using Jungian typology to evaluate specific teaching-learning interactions. Proposes that the guided design method offers a well-balanced learning process which accommodates different learning styles and teaches decision making. (TW)

The Image Processing Technology Project explores the possibility of using digital image processing in mathematics and science education. Describes the origin of the project and reports the results of a 4-week teacher workshop that trained over 80 teachers in the techniques and technology of image processing. (MDH)