The declining cost of hardware and the growing availability of supporting accessories (peripherals) have contributed to growth in the use of computers in chemistry. Examples of such uses are provided. (JN)

Computers are integrated into science education when they are used as the most appropriate tool or delivery system to support the goals of science education. The goals of science education can be condensed into two general areas. One area concerns the preparation of a science-literate citizenry; the second area concerns understanding the…

Discusses using an Apple II microcomputer as a Laboratory Data System (LDS) for the analysis of data fed from a UV-Visible Spectrophotometer. (SK)

Describes the innovative uses of Apple microcomputers in elementary and secondary school classrooms. They include: (1) helping students understand geometric relationships using LOGO; (2) computer-based science workstations; (3) using word processing; and (4) other projects. (JN)

Compares Apple Macintosh and IBM PC microcomputers in terms of their usefulness in the laboratory. No attempt is made to equalize the two computer systems since they represent opposite ends of the computer spectrum. Indicates that the IBM PC is the most useful general-purpose personal computer for laboratory applications. (JN)

Describes a college-level physics course which focuses on both physics knowledge/skills and use of microcomputers. Types of experiments done with the computers and how students use the computers to treat data are considered. (JN)

Discusses an easy way of interfacing physics experiments to a microcomputer, providing information on the "analog input port" of a BBC microcomputer. Also describes a capacitor discharge experiment with suggestions for several student activities such as investigating decay curve shapes. Program listing is available from author. (DH)

Reports on a program designed to increase computer literacy of faculty and to help them incorporate the use of microcomputers into their classes. The approach included formal 2-week summer workshops and peer groups to facilitate development of discipline-oriented microcomputer applications. (JN)

Relates the experiences of a naive computer-using teacher attempting to integrate the microcomputer into a course unit on human anatomy. Based on these experiences, advice is offered to others who are incorporating computers into their courses for the first time. (JN)

In a modular approach, instruments are considered as systems composed of modules, each module performing a particular function. Examines process of relating specifications for instruments to those for particular modules, effect of microcomputers on modular approach, and extension of the approach to such devices as "hyphenated" or tandem…

Describes impact of micrographics; microcomputer simulations of scintillation spectrometry and chemical/enzyme kinetics experiments; various computer programs (formulas and equations and equilibrium demonstration and lunar data plotting, among others); multiplexing in instrument readout displays; microcomputer-controlled flash photolysis…

Describes (1) interfacing the Commodore VIC-20 using joystick game ports; (2) a chromatographic integrator for the TRS-80; (3) upgrading input/output capabilities of the TRS-80 color microcomputer; (4) IBM PC interfaced to a Perkin-Elmer DSC-1 differential scanning calorimeter; and (5) an undergraduate experiment in which students design a…

Microcomputers can record laboratory measurements which human laboratory partners can never collect. Simple, harder, and general-purpose interfaces are discussed, with suggestions for several experiments involving an exercise bike, acceleration, and pendulums. Additional applications with pH meters, spectrophotometers, and chromatographs are also…

Describes a computerized grading system using mark-sense cards to record experimental data. Gives hardware requirements, provides estimated budget, and lists experiments for which mark-sense cards have been developed and are available. Discusses the grading process and programs. (JM)

Discusses the unique user interface of Apple's Macintosh microcomputer which is changing the way researchers interact with their data. Topic areas addressed include: desktop, mouse, and windows; preparing scientific illustrations; MacPaint; and charts and graphics. Limitations are also noted. (DH)