How set theory, combinatorics, probability, and the study of algorithms can be used in solving two problems is described in detail. Three computer programs are listed. (MNS)

Advantages and disadvantages of common ways to justify the answer to a probability problem are discussed. One explanation appears superior to the others because it is easy to understand, mathematically rigorous, generalizes to a broader class of problems, and avoids the deficiencies of the other explanations. (MNS)

Given is an example of the solution of maximum-minimum problems by replacing differentiation techniques with microcomputers and simple BASIC programs. (MNS)

A realistic problem is presented, computing the probability of winning a sports playoff series if the probability if winning a single game is known. Only simple permutation formulas and some basic logic are required to solve the problem. Two computer programs and a discussion of solution methods are included. (MNS)

Use of the computer to simulate or imitate probability problems that are difficult to analyze in any other way is discussed. How the Monte Carlo method works is clarified, with sample problems and programs. (MNS)

Two uses of computers are outlined. The first discusses and presents a model of a program which is designed to teach students the reasoning involved in solving certain problems. The second looks at the ability of computers to count at high rates of speed, as a start for student explorations. (MP)

Three pieces of computer software are described and reviewed: HyperCard, to build and use varied applications; Iggy's Gnees, for problem solving with shapes in grades kindergarten-two; and Algebra Shop, for practicing skills and problem solving. (MNS)

A hypothetical classroom discussion is used to present concepts and problems students can master. Three computer programs are listed for binomial probabilities. (MNS)

The use of the computer language Logo offers an excellent opportunity to use technology to help develop problem-solving skills and other mathematical concepts. Examples of explorations are presented. (MNS)

Suggestions for how teachers can use the programs in the Micro Primer Software Packs are given. While the reader needs to be familiar with the programs to make full use of the comments, some ideas concerning the interaction between child, computer, and teacher can be garnered. (MNS)

Computers have the power to make drastic changes in modern life and in education particularly. It is uncertain, however, how smoothly computers can be integrated into society and into the schools. The speed of the growth of computer technology is often referred to as a revolution, with a constantly increasing ability to store and recall…

How to take photographic slides of computer software for demonstration to large groups is explained in the first portion of this column. Then follow items on a Pythagorean curiosity and a computer approach to a nonroutine problem. (MNS)

Two topics are discussed that can be presented in a discussion of the annual percentage rate (APR): difference equations and fixed-point iteration. A program in BASIC using the iteration procedure is included. (MNS)

Research on the effectiveness of microcomputer software for drill and practice is briefly summarized, as well as research on other ways of using microcomputers. (MNS)

Seven applications problems are presented for gifted students to solve by writing microcomputer programs. (MNS)