The progression from simple interest to compound interest leads naturally and quickly to the number e, involving mathematical discovery learning through writing programs. Several programs are given, with suggestions for a teaching sequence. (MNS)

Some techniques for managing the classroom and teaching programing that have worked well are described. Hardware placement and use, classroom management, instructional recommendations, and programing ideas are each discussed. (MNS)

The kind of learning experience provided by the LOGO programing language, its efficiency as a learning tool within the school curriculum, and the role of the teacher in the LOGO environment are each discussed. (MNS)

A teaching strategy for problem solving with computers is detailed. The approach provides a "midline" level of help that encourages exploratory activity yet provides enough guidance to increase chances of pupil success. (MP)

Explores a particular method of searching for roots that lends itself well to discovery learning through writing a computer program. The teacher-student interaction is given, and two computer program listings are included. (MNS)

A variety of activities and information about computers and programing are included. (MNS)

Reasons other than utility are needed to justify the place of algebra in the mathematics curriculum for all children. The possibility of considering generalized arithmetic and computer algebra are each discussed. (MNS)

The suggested program is designed for mathematics teachers. It concerns the solution of systems of linear equations, but it does not complete the job on its own. The user is the solver while the computer is merely a computing assistant. (MNS)

Examples are given of how calculator-sized pocket computers, which can receive, store, and execute BASIC programs, can be used in mathematics classrooms. (MNS)

A module built around programing the computer is described. It recognizes the need of many children to have algebra introduced in a practical way and to give some concrete meaning to it. (MNS)

This booklet is designed to introduce computers to children. A letter to parents is provided, explaining that a unit on computers will be taught which will discuss the major parts of the computer and programming in the computer language BASIC. Suggestions for teachers provide information on starting, the binary system, base two worksheet, binary…

The mathematical content involved in self-teaching enrichment models for students in grades 8-12, the pedagogy employed in a summer institute for such students, and the results obtained are presented. (MNS)

An approach to help teachers understand the elementary constructs of the BASIC programing language and to begin writing simple programs is described. Short programs that illustrate educationally sound uses of computers in the classroom are used. A lesson scenario is given, with 10 program listings. (MNS)

A first computer lesson in algebra is described, with illustrations of programing by students. Standard algebraic notation with BASIC are discussed, and further activities described. The purpose is to use the computer so that it develops a rational understanding of the mathematical concepts involved. (MNS)

Describes how microcomputers are used to teach science, mathematics, and computer literacy in a two-year course for secondary students in San Diego. Skills are reinforced through drill and practice, simulations, and program writing. Specific skills and the sequence in which they are taught are discussed. (AM)