Describes four classroom activities that deal with a variety of scientific concepts. Discusses lessons on the cycles of matter in ecosystems, the calculation of the height of tall objects, bleaching techniques for bones, and the effects of force on sound when closing doors. (TW)

Recounts an interview with chemist, educator, and executive Mary Good. Opinions are expressed about the status of basic research in chemistry, the relationship of chemical research to several federal agencies, the value of education in chemistry, and the perceptions of the public regarding the chemical community, particularly the health risks. (TW)

Describes procedures for examining a beetle's anatomy with microsurgical tools. Instructions for experimental exercises dealing with the insect's structure and digestive enzymes are outlined. Tips on how to make a microscalpel are also included. (TW)

Discusses the current status and future direction of science at liberal arts colleges. Summarizes findings of a conference attended by leaders of 50 private colleges and small universities on college science. States that students from small colleges fare well in later science endeavors. (ML)

Provides ideas for using the same port connection of personal computers to interface with laboratory instruments. Contains specific instructions on how to build transducers. Includes plans and diagrams for thermistors and light meters as well as computer programs for displaying instrument readings on monitors. (TW)

Describes a chemical engineering course for liberal arts students that is taught from a scientific, social, and symbolic perspective. A summary of the early days of oil refining is included as representative of one of the major content segments of the course. (ML)

Advocates the accuracy of the common belief that the possession of energy drives, gives potential for, or accounts for change. Argues that the term "free energy" or entropy represents the possibility of change. Recommends that educators reexamine their use of these terms to prevent common misconceptions about energy. (TW)

Describes a framework for the construction of computer-aided learning programs and for the BBC microcomputer which has been used successfully as the basis of a set of genetics teaching programs called "Linkage." Includes program design principles and procedures. (ML)

Describes two different approaches to joint teaching by a health educator and a physician. Provides the script for a dual monologue, which is the basis for the first teaching activity. The second example differentiates between traditional, transitional, and modern models of health educations and the role physicians play in each. (TW)

Reviews the neural modeling principles of learning, perception, cognition, and motor control, discusses their applications to sensory-motor problem solving, and explores possible relationships between that pattern of problem solving and aspects of higher order formal operational problem solving. Cites implications for science education. (ML)

Designed to refine and extend the procedures and analyses of prior science teacher competency research, this study focused on the competencies perceived as important to effective science teaching. Included are explanations of the research approach, instrument development, sampling populations, and educational implications. (ML)

Discusses the use of ratio diagrams, which plot the calculations of equilibrium concentrations of the species of the carbonate system. Provides examples to describe how these diagrams can be used to illustrate the behavior systems of interest in volumetric analysis, where absorption or loss of carbon dioxide takes place. (TW)

Outlines a simple, inexpensive way of demonstrating electroplating using the reaction between nickel ions and copper metal. Explains how to conduct a demonstration of the electrolysis of water by using a colored Na2SO4 solution as the electrolyte so that students can observe the pH changes. (TW)

Provides background theory and an experiment relating to chemometrics. Describes the phenomenon where solutions are dichromatic or dichromic. Discusses the difficulty students have in describing such solutions that appear to be several different colors at the same time. (TW)

Discusses the importance of studying the far-from-equilibrium phenomena in college chemistry. Presents a system using the gas pendulum which displays all of the essential characteristics of dissipative systems. Promotes the use of the gas pendulum as a teaching example of a nonlinear far-from-equilibrium process. (TW)