Presents one approach to developing a technology-based curriculum for the elementary school. Three models are examined which help establish a curriculum structure: (1) curriculum content structure; (2) five dimensions of the study of technology; and (3) curriculum webbing/sunburst technique. (CT)

Outlines the structural elements useful for systematic construction of an industrial arts curriculum. Steps include (1) curriculum foundations (definition, rationale, goals); (2) curriculum content (scope, sequence, specifications); and (3) curriculum evaluation. (SK)

Reviews the energy crisis, discusses energy conservation, and suggests methods for integrating components of energy education into industrial arts curriculum. Consumer and occupational aspects of energy are discussed briefly. (TA)

The article discusses the need for industrial arts teachers to have an understanding of the sources, conversion, control, transmission, and utilization of power and energy, and outlines a proposed scope and sequence in power and energy technology in an industrial arts education college curriculum. (MF)

Presents a future-oriented curriculum approach for industrial technology programs. Major global issues provide the basic structure for curriculum development. These issues include energy management, resource management, technological advancement, and international relations. Rationales for industrial technology are discussed and a curriculum…

Design is not getting the attention it deserves in industrial arts, at a time when designed products are everywhere. Design is creative problem-solving to meet a specific need. Integrating design concepts into the industrial arts curriculum is not difficult; the author explains how to do it. (AJ)

The authors describe the process by which curriculum guidelines were developed in a Federally funded State project; the guidelines set career education objectives appropriate for industrial arts courses, suggest learning activities, and identify resource materials. There are three sets--for elementary, junior high school, and secondary levels. (AJ)

The inherent characteristics of industrial arts can provide many opportunities for promoting the developmental growth of children. Industrial arts curricular activities and learning experiences that are based on the student's developmental tasks can foster self realization and personal growth. (SK)

Describes a ninth-grade transportation technology course developed by the Technical Education Program at West Virginia University for a junior high school with no existing industrial arts curriculum. Although not developed for the usual industrial arts lab, the course information could be useful in updating present industrial arts curricula. (MF)

Studies have shown middle grade learners to differ in needs from the elementary and high school learners. By incorporating subject areas, an interdisciplinary or "unified" approach in teaching will make learning a more meaningful experience. (Editor)

The author identifies seven basic steps that can be considered in dealing objectively with classroom problems. He argues that using this research method to resolve classroom problems is one of the best tools available to enhance problem-solving opportunities for both industrial arts instructors and students. (SSH)

Describes a teaching unit designed to create in students an awareness of and an appreciation for the possibilities for energy conservation as they relate to architecture. It is noted that the unit can be adapted for use in many industrial programs and with different teaching methods due to the variety of activities that can be used. (Editor/TA)

Architectural drafting and building construction teachers need to become informed about barrier-free access. This information should be included in programs to give students experience and competence in this area. Industrial educators should assume a leadership role in training personnel to design and build a barrier-free environment. (JOW)

A problem-solving model for teaching industrial technology values and value judgments in industrial arts classes is presented, with an example of a curriculum plan format to include the values level in teaching graphic arts. Values clarification techniques are intended to help students in solving life problems. (MF)