Describes an interactive BASIC program with 192 statements and 18 comments for use with a Tektronix 4051 computer. (SK)

Describes a "gradebook program" capable of recording, editing, recoding, weighting, and scaling multiple choice test scores. (SK)

Suggests using musical instruments to demonstrate physics concepts. Topics include: pitch and frequency; string vibrations; string-resonator system; wind instruments; harmonic content; transients; scales and temperament; psycho-acoustical affects; and electronic music. (SK)

Describes technologies applicable for educational use, including computers, calculators, video storage, and word processing devices among others. Applications of the new technologies to basic skills in reading and comprehension are given. Three goals for the 1980s resulting from new information technologies are suggested. (JN)

Discussed are (1) expenditures for computing in higher education; (2) microcomputers in higher education, pre-college education, and home; (3) videodiscs; and (4) major computer and microcomputer programs in the Directorate for Science Education. (JN)

Describes how computer simulations can enhance students' learning of physiology. Discusses how computer models enhance experimentation; using computer modeling in high school science; three steps in students' writing of a simulation; and the value of simulations. Lists six software vendors who offer packages on the PC or Macintosh platforms. (AEF)

One aim of this report is to show and emphasize that in the computational approaches to most of today's pressing and challenging scientific and technological problems, the mathematical aspects cannot and should not be considered in isolation. Following an introductory chapter, chapter 2 discusses a number of typical problems leading to…

The capabilities and applications of interactive video in science education are examined in four chapters. Chapter 1 discusses technology in science education, providing a comparative evaluation of interactive videodisc (IVD) systems and the microcomputer. Specific uses of microcomputers in science education are noted. Chapter 2 is a discussion of…

Several directions for potential research efforts in the field of computer-based education (CBE) are discussed. (For the purposes of this paper, CBE is defined as any use of computers to promote learning with no intended inference as to the specific nature or organization of the educational application under discussion.) Efforts should be directed…

The first part of this paper addresses the following topics: (1) the usefulness of microcomputers; (2) applications for microcomputers in analytical chemistry; (3) costs; (4) major microcomputer systems and subsystems; and (5) which microcomputer to buy. Following these brief comments, the major focus of the paper is devoted to a discussion of…

Suggestions are offered for using computers to solve scientific problems rather than focusing on computer science itself. Suggested are scientific language programming, assembly-language programming, and logical design and business language programming. A summary of available equipment and some suggestions for program implementation are included.…

Describes the Interactive Microcomputer Peripheral (including major features, source, and current cost) and physics experiments using the instrument. The instrument can also be used for such purposes as counting, timing, and frequency measurement as well as for experiments in biology and experimental psychology. (JN)

Explains how self-produced software can be used to perform rapid number analysis or number-crunching duties in geology classes. Reviews programs in mineralogy and petrology and identifies areas in geology where computers can be used effectively. Discusses the advantages and benefits of integrating department-generated software into a geology…

Presents seven papers on computer applications in chemical education. Topics include current status and future of teaching with microcomputers, improving undergraduate experiments with online microcomputers, chemistry's mathematical models with computer simulations, computer uses in freshmen chemistry (tutorial-drill programs, laboratory…

Describes information-processing research, showing how computer models are used to explain thinking and how information processing approaches can be used systematically. Clarifies why students find factor-label method so difficult to master and discusses guidelines and suggestions for using information-processing ideas. (JM)