Key factors in mathematics remediation for high school students are examined. Levels of learning are discussed, and suggestions are given for working at different learning levels. Examples are given for remedial activities with area, multiplicain, and decimals and percent, and additional references are included. (MNS)

Students who can compute mathematical problems in their heads have learned a skill that is important for estimating and for understanding the number system. Practice activities that can help students master mental computation skills are described. (PP)

A way to use tongue depressors in a model of multiplication is presented. The original intent was to use the sticks to teach about fractions, but "mistakes" in student responses led to new ideas. It is felt that teachers should use the model in teaching multiplication. (MP)

A learning pattern designed to help students cut down the amount of memorization needed in learning the basic multiplication facts is suggested and reviewed. (MP)

The frequency with which games must be used in order to help students maintain multiplication skills is the subject of this study. (MP)

Directions for making a device that parents can use to help children practice basic skills are given. (MK)

Piaget's theoretical position assumes that the ability to solve complete multiplication will be an earlier development in the child than partial multiplicative classification and his experimental findings support this hypothesis. The present experiment using 159 children aged 4:7 to 7:6 years re-examined the issue. (Editor/RK)

This article offers specific strategies to diagnose and remediate difficulties students may have in learning multiplication facts. Analyzes strategies students use to go from a known fact to an unknown fact. The point is made that, for many students, the order of interpretation of a number fact may affect accuracy. (DB)

A parent intervention using the "Copy, Cover, and Compare" method of teaching multiplication facts to an 8-year-old with learning disabilities was examined. Results indicated that repeated use of the 16-minute procedure was successful in increasing percent correct for the targeted multiplication facts. (Author/DB)

Curriculum for teaching multiplication and division story problems was delivered via either computer-assisted tutorial or teacher-assisted instruction to two groups of mildly handicapped middle school students (n=19). No significant differences were found, indicating that computer-assisted instruction is effective when sound instructional design…

Described is an approach to computational matrix algebra that takes advantage of a high quality, low cost microcomputer software package. The examples and applications discussed focus on matrix multiplication. (Author/CW)

Describes environments for concretely enacting multiplication and division. Discusses difficulties occurring when students use one of the concrete environments to model situations involving modified environments. (YP)

Studied were the misconceptions that preservice elementary teachers have about multiplication and division. Results indicated that they are influenced by the same primitive models as students; the most common errors made by both groups are quite similar. (MNS)

This article explains how to use constant time delay to teach multiplication facts to students who have learning disabilities. Specific techniques for using time delay on an individual or small group basis are outlined, a sample student data sheet is presented, and the role of reinforcement is addressed. (Author/JDD)

This study compared the effects of two cover, copy, and compare interventions on the written multiplication performance of two elementary school students with behavioral disorders. The verbal response condition resulted in greater increases in written multiplication performance and occasioned more than twice the number of opportunities to respond…