The development of the Science/Society/Technology (STS) movement in the United States is reviewed. The basic philosophy of STS instruction is discussed. Traditional instruction is compared to STS instruction. Suggestions for making STS instruction more effective are provided. (CW)

A model of personal and environmental influences on students' valuing of two deep-processing strategies for studying expository texts is described. Questionnaire data from 281 high school science students indicated that students' task orientation and perceptions about teacher expectations were central to students' attitudes. (TJH)

Examined are applications of computer spreadsheets from simple record/observation tables to custom built analysis systems. The advantages and disadvantages depending on the use of these software packages are discussed. Several examples are used to illustrate possible applications. (CW)

Discussed is the integration of microcomputers into the science laboratory curriculum. The approach provides an exposure to important aspects of computer technology while preserving concrete experiences provided by hands-on laboratories. (CW)

This paper focuses on the philosophy and development of an inquiry-based, level three interactive videodisc project for promoting critical thinking. The contents of the project include life, earth/space, and physical science with three discs in each area. Two flowcharts show the choices open to students in the videodiscs. (Author/YP)

Discusses an American Chemical Society (ACS)'s report on science education which is a synthesis of a series of policies developed by ACS. Summarizes recommendations in four areas: elementary teacher education; pre-high school curricula; university research funding; and underrepresented populations. (YP)

Uses the electron cloud and Lewis structure models to present resonance. Shows resonance bonding as an increase in dot density of the electron cloud. Provides classroom presentation ideas. (MVL)

Six activities complete with reproducible worksheets are presented. Materials and procedures for each are listed. Answers to the quiz and crossword puzzle are included. Topics include the water cycle, the world's oceans, the ocean floor, and fish. (CW)

Discusses a weather prediction activity connecting local weather network by computer modem. Describes software for telecommunications, data gathering, preparation work, and instructional procedures. (YP)

Proposes that a National Academy of Education is needed to set priorities, assess research in education, allocate resources, learn to implement approaches that work, and identify areas of study. Describes a successful program developed in New Haven as a model to others. (RT)

Describes interdisciplinary activities with real-world applications ranging from science to mathematics to technology. Cites the study and construction of model bridges as a way for students to learn about engineering concepts and some of their relationships. States that the exercise enhanced teacher cooperation between the different fields. (RT)

Explains uses of computer hardware when it's no longer needed to teach computer literacy. Describes a mini-lab pilot project which consists of several computers mounted on carts used similarly as audiovisual equipment. Lists advantages, disadvantages, and percentages of time used for instruction, interfacing, word processing, graphing, and…

Describes a program to improve computer expertise, encourage science teachers to use computers in science and technology, and to develop computer methods to enhance student achievement and understanding. Discusses participant selection, a summer institute, followup activities, and a network system. (MVL)

Describes a project that prepares teachers to be computer literate by writing computer programs, constructing computer modules, and then integrating the teacher generated hardware and software into science laboratory experiences. Presents goals, descriptions of interface modules, reaction of participants, and objectives. (MVL)

Discusses the need for a science-technology-society (STS) approach in science classroom and describes the characteristics of exemplary STS programs. Lists five domains for STS goals and indicates assessment instruments for the domains. (YP)