This is a must-have resource for all K-12 teachers and administrators who want to really make the best use of available technologies. Written by Doug Johnson, an expert in educational technology, "The Classroom Teacher's Technology Survival Guide" is replete with practical tips teachers can easily use to engage their students and make their…

Introduces the concept of artificial intelligence, discusses where it is currently used, and describes an expert computer system that can be used in the technology laboratory. Included is a learning activity that describes ideas for using intelligent computers as problem-solving tools. (Author/CH)

A sample mathematical application problem that can be solved with computer programing is discussed. (MP)

A computer program that uses determinants to solve simultaneous systems of equations is presented. The purpose is to show teachers how to use topics from algebra, geometry, and programing to lead pupils to appreciate the beauty and unity of mathematics. (MP)

Guidelines are offered to help teachers plan computer assisted instructional programs for gifted students. The flexibility of the computer enhances potential for academic acceleration. Examples of an alternative strategy for reviewing problem solving using BASIC are given. (CL)

A computer simulation of the Buffon Needle Problem for estimating the value of pi is discussed. (MP)

Five ways the computer can be used in psychology courses to teach thinking are described: using the computer to replace things that already work (e.g., a tachistoscope); programing the computer; simulating specialized procedures and situations; providing behavior to be observed and described; and posing problems for analysis and solution. (RM)

An exploration of a problem called solving quadratic congruences modulo p is detailed and is built around an alternate method of deriving the quadratic formula. Three practical pedagogical values that have been experienced by students and instructor when the material was presented to classes are noted. (MP)

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)

A programing language called DYNAMO, developed especially for writing simulation models, is promoted. Details of six, self-teaching curriculum packages recently developed for simulation-oriented instruction are provided. (MP)

Good computer simulations are those which make good use of the capability of the computer and which promote student decisions based on logic, observation, and their knowledge of the real world. (MP)

Suggestions for teachers are presented, involving audiovisual materials, magazines, worksheets, safety reports, computers, bulletin boards, storage, problem solving, computer-assisted job searches, visual aids, motivating techniques, visual communications, engine valve display, computer printouts for stencils, wheel alignment for tractor axles,…

The drawn ideas of inventors Edison and Bell are analyzed in a systematic way to help understand the inventive process and how inventors think. By storing sketches on a computer the researchers have been able to recreate the probable lines of reasoning used by the inventors. (KR)

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

A sample problem shows some pitfalls in approximating square roots when working with calculators or computers. (MP)