Describes a possible exam or homework problem for a physical chemistry course. Investigates the temperature and concentration dependence of homogeneous chemical equilibria. Provides acceptable solutions. Offers a computer program able to provide partial credit on questions requiring four-seven sequenced items. Program available from author. (MVL)

Describes two computer programs used to aid in data analysis: (1) Develops a method for the propagation of error involving the direct calculation of the error in the dependent variable using a spreadsheet; (2) Examines a simple numerical method for solving complex equilibria. Lists a FORTRAN 77 program. (MVL)

Discusses algebraic programing languages, availability of these languages, and programing problems. Also discusses the future of these languages in chemical research and chemical education. A program illustrating the general algebraic and algebraic matrix manipulating capabilities of the REDUCE language is included. (JN)

Provides instructions for "seeding" the random number generator (RND) in Apple computer programs. If RND is not seeded, students would see the same examples, questions, graphics features, or other information each time they turn on the microcomputer and run a program. (JN)

Explains the attributes of a good laboratory language and the advantages and disadvantages of specific computer languages such as Forth, Pascal, C, APL, BASIC, and Fortran. Attributes considered focus on user/computer, instrument/computer, and user/user communication. (JN)

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)

Presented are sources of information on a wide range of topics related to microcomputers in general and chemistry in particular. Sources described include "Journal of Chemical Education,""Collegiate Microcomputer,""SIAM News,""Creative Computing,""Byte," and others. Types of articles/information found in these publications are briefly considered.…

Strategies for incorporating a calculator made within FORTRAN programs and a Response Analysis Scheme during interactive sessions are described highlighting salient features of the programs. (Author/SK)

Following a discussion of how computers are used to solve chemical problems, offers suggestions for avoiding common problems, reviews successful applications and languages (BASIC and FORTRAN), speculates on future trends, and discusses why chemists need to know about computers. (SK)

Discusses the design of computational exercises useful for a course in numerical methods for chemists. Some of the exercises make use of available programs while others require the student to write programs incorporating numerical routines. The emphasis throughout is on the use of numerical methods to solve chemical problems. (Author)

Describes the New Jersey Chemistry Olympics involving events such as library research, laboratory experimentation, model building, and computer programing. The goals, operational plan, competition events, and evaluation of the Olympics are discussed. (YP)

Describes the development, content, and implementation of a two-credit graduate course for teachers at the University of Wisconsin at Stevens Point in the use of microcomputers for teaching high school chemistry. (JJD)

Suggests a model of human cognition by describing similarities between human and electronic computers. This model might guide the development of software so that it is sufficiently powerful and flexible to be of value to human computers as they construct new knowledge in chemistry. (JN)

Highlights four workshops held at the Seventh Biennial Conference on Chemical Education (Stillwater, Oklahoma 1982). Workshops focused on microcomputer tools for chemists, writing software for microcomputers, Project SERAPHIM instructional computer programming contest, and preparing three-dimensional photographs of models and structures. (JN)

Uses of Zenith Z-100 microcomputers by chemistry students at Clarkson College are discussed. These include: (1) programing; (2) word processing; (3) numerical methods, statistical/plotting programs; (4) laboratory data acquisition and manipulation; (5) simulations; (6) computer assisted instruction; and (7) computer managed instruction. (JN)