Nanotechnology is an emerging technology poised to benefit society both technically and socially, but as with any new advance, there is potential risk. This paper describes a novel deliberative exercise involving nanotechnology that engages the public in debate regarding the funding of nanotechnology-related research while also discussing…

A Web-based stereochemistry tutorial is described that details the core definitions and structural representations of stereochemistry in an organic chemistry course. The Cahn-Ingold-Prelog rules and their application for assigning "R" and "S" orientations to stereocenters and "E" and "Z" orientations to…

Many versions of the classic Ira Remsen experience involving copper and concentrated nitric acid have been used as lecture demonstrations. Remsen's original reminiscence from 150 years ago is included in the Supporting Information, and his biography can be found on the Internet. This article presents a new version that makes the demonstration more…

David W. Galenson, a professor of economics at the University of Chicago, has used quantitative tools to describe whether teaching is an art or a science. Galenson's work has indicated that scientific methods can help in improving teaching.

Discusses how color-coded overhead transparencies of computer-generated dot-density diagrams can be used to illustrate hybrid orbitals and the principle of the indistinguishability of electrons. (MLH)

This first article includes background material on computers that will be of value in understanding subsequent papers in the series. It also discusses the advantages and problems of implementing computer-based educational materials at locations and on machines for which the materials were not originally designed. (BB)

In addition to traditional sources, includes experiments, computer models and simulations, and films. (MLH)

References are divided into three areas: general; air; and resources, wastes, and recycling. Includes books, periodicals, abstracts, government documents, experiments, computer models, simulations, and films. (MLH)

Surveys the types of computers being used in high school and university chemistry courses. Identifies types of hardware found on Apple and MS-DOS computers. Makes recommendations for the upgrading of current equipment. (ML)

Discusses topics and issues related to (1) international impact of microcomputers; (2) minimum guidelines for software development; (3) achieving minimum standards; and (4) accomplishments in the areas of introductory chemistry, organic chemistry, analytical chemistry, and physical chemistry. Challenges for the future are noted. (JN)

Describes: (1) spreadheet programs (including VisiCalc) for experiments; (2) event-driven data acquisition (using ADALAB with an Acculab Infrared Spectometer); (3) microcomputer-controlled cyclic voltammetry; (4) inexpensive computerized experiments; (5) the "KC? Discoverer" program; and (6) MOLDOT (space-filling perspective diagrams of…

Discusses several issues important to chemistry: enticing top-notch students into the discipline, keeping up with the tremendous growth of chemical information, and promoting chemistry to the general public. Suggests eight methods to answer these issues. (MVL)

Reports on presentations and discussions at a meeting (called Powwow) designed to examine and evaluate the current status of computer use in chemistry and to consider appropriate directions for future developments involving computers in the chemistry curriculum. Also reports on activities of Project SERAPHIM. (JN)

Examines various trends and issues in educational computing. Areas addressed include hardware advances, personal databases, laboratory data handling, graphic displays, national networking (including access of Project SERAPHIM materials through the CompuServe Information Service), software advances, Project SERAPHIM activities, and future…