Provides a brief history of industrial arts curriculum development, a rationale for a technology-based study of industrial arts, and the use of a systems view in understanding and interpreting technology. (SK)

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)

Discusses various elements which must be considered in the development of industrial arts curriculum: society and culture, human adaptive systems, the universal systems model, system processes, the role of schooling, and curriculum theory. (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)

Describes a project to revise "The Wisconsin Guide to Local Curriculum Improvement in Industrial Education, K-12", originally prepared in 1973. Four figures from the guide are included: (1) model of a field objective, (2) curriculum planning model, (3) instructional development process, and (4) process for developing objectives. (MF)

The author presents a communications-content domain model to assist educational planners create a graphics communications cluster which can better prepare students for a future of change. The concept of clustering is explored, especially in its applicability to graphics communications. (AJ)

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)