Discusses the use of computer adventure games and simulations to teach children critical thinking. Provides lists of mid-elementary to adult-level adventure games (with manufacturer and current price) and software helpful in teaching critical thinking (indicating name of package, manufacturer, age level, and current price for each entry). (JN)

The simulation of titration and qualitative analysis experiments by means of computer-driven laser videodisc recordings is described. (JN)

Describes a computer program (for the IBM microcomputer) which simulates pulsatile events in the heart in time frames that approach the speed of physiological events. The program also simulates the experimental laboratory in which the mechanics of an isolated heart can be studied. (Author/JN)

Describes an experiment which allows students to identify the nature of the time-course for chymotrypsin and to obtain mechanistic information on the two kinetic phases in terms of their concentration dependence. Also describes the computer simulation (available from the author) used in the experiment. (JN)

Discusses the theoretical foundations, history, and advantages of educational simulations. Describes two computer simulation programs. (FL)

Describes the "Buffon's Needle" problem, which is calculating the probability that a needle will cross one of two separated lines. Calculates the probability when the length of the needle is greater than the space of the two lines. Provides an analytic solution and the results of a computer simulation. (YP)

Presented is a simulation program for Apple II computer which assays the effects of a series of variables on bacterial growth and interactions between microbial populations. Results of evaluation of the program with students are summarized. (CW)

Investigates the problem of finding the expected number of questions necessary to identify 1 out of a set of 30 attribute blocks. Solutions include the use of a tree diagram or a computer simulation. Generalizes the problem for increased numbers of attributes. (MDH)

Shares some reflections about using simulations on the Internet to teach statistics. Discusses problems of learning statistics, Internet terminology, statistical resources on the Internet, interactivity, and problems related to the use of Internet resources. (ASK)

The Summer Institute of Computer Literacy, held at Pepperdine University in 1982, dealt with the uses of computing in higher education administration. These proceedings contain papers from presenters at the Institute. Every presentation paper could not be obtained; in such cases permission was secured to print a previously published paper authored…

Microcomputers can be used with simulation software to provide students both with experience in the "real world" of decision making and feedback on the decisions made. Such software allows individual students to choose the roles they wish to play from a menu of diverse roles and provides alternatives for them to consider for each decision to be…

Described is the use of a microcomputer and computer software to simulate the use of geological equipment. The technique uses pictures of the control panel (with switches and dials that can be activated) and a story board that can provide the simulation. A simple seismograph is used as an example of possible simulations. (RH)

Describes computer strategies designed to emphasize teaching of an integrative view of cardiovascular physiology. They include: (1) a group of simulated laboratories which emphasize an explicit integration of ideas; (2) fault-finding exercises in which those ideas are put to use; and (3) a novel testing device for measuring student progress. (JN)

Provides examples of the use of computer simulation to help beginners develop a grasp for difficult statistical concepts. The implementation of this teaching methodology is discussed and analysis of simulation output through use of standard statistical software packages is illustrated. (Author/MBR)

Presents algorithms for the simulation and motion display of the three basic kinematic devices: (1) four bar linkages; (2) the slider crank; and (3) the inverted slider crank mechanisms. The algorithms were implemented on a Commodore-VIC 20 microcomputer system with 6500 bytes of available memory. (Author/JN)