Discusses programming projects in applied technology courses, examining documentation, formal reports, and implementation. Includes recommendations based on experience with a sophomore machine elements course which provided computers for problem solving exercises. (DH)

Describes how computers have been integrated into the engineering technology curriculum at Murray State University, focusing on their use in instructional programs, required programming, simulation, and computational projects. Also focuses on computer assisted instructional formats. Indicates no restructuring of course content, expansion of…

Discusses current problems in chemical engineering education at the University of Queensland (including those related to the laboratory, student/staff ration, literacy, motivation, course content, and structural changes). Also describes a proposed plan of the Queensland department to implement a scheme for resource-based education in chemical…

Examines three broad areas related to the formal learning of engineering. These areas focus on: (1) approaches to learning; (2) developing engineering curricula; and (3) curriculum planning for the future. Also considers whether current engineering curricula can accommodate needed changes. (JN)

This guide describes the requirements for courses in computer-aided design and computer-aided manufacturing (CAD/CAM) that are part of engineering technology programs conducted in vocational-technical schools in Georgia. The guide is organized in five sections. The first section provides a rationale for occupations in design and in production,…

Argues in favor of establishing an accreditable curriculum in "pure" astronautical engineering (leading to a bachelor of science degree in this field), giving reasons why such reform is needed (including equating "astronautics" with "aeronautics") and why a new curriculum is needed. (JN)

Questionnaires were sent to 534 contractors in Pennsylvania asking which construction courses best prepare students for careers in construction engineering. Results (based on a response rate of 38 percent, N=104) of the contractors attitudes toward seven subjects and their background are presented and discussed. Implications for the curriculum are…

Describes the work of a curriculum committee established to create a "transfer curriculum" for engineering technology students transferring from two-year to four-year programs. The resulting program (which allows flexibility while providing some guidance for engineering technology programs), transfer problems, issues, and public response…

PLATO has become a successful method for computer-based education in a statics course since it offers diversified teaching/learning activities as well as alternative ways to teach content and exercise skills. Advantages for student learning are discussed, course guidelines are given, and a description of the course's computer graphics is provided.…

Presents a critique of existing methodology used in curriculum updates in academic institutions, suggesting that an integrated approach is more realistic and meaningful to study and to bridging the gap between academic curriculum and industry's needs. Specifically recommends that curriculum-related and job-related data be analyzed simultaneously.…

Describes: (1) the selection of honors students; (2) components of a superior education; and (3) honors programs at Iowa State University (ISU). Programs at ISU include honors courses, honors seminars, converted courses, independent study, as well as altering requirements. (JN)

A major problem in developing a microcomputer course is that the hardware is likely to become obsolete in a short space of time. This paper describes a solution to this problem in which a distinction between the computer system and application area is made. (Author)

Mechanics courses at West Virginia University are taught exclusively from programed instructional materials. Presents: (1) descriptions of these courses; (2) data indicating higher achievement by students participating in programed courses compared to students in courses using the lecture method; and (3) reasons for the success of the courses. (DH)

Discusses why educators should not rush headlong into creating robotics curricula and suggests methods of establishing meaningful courses. Indicates that the solution to the problem of building a robotic curriculum is to incorporate the three major areas of robotics (design, operations, maintenance) into existing curricula where they best fit. (JN)

Reported are the results of a 1987 survey of U.S. chemical engineering departments on health and safety. Some details of what is being done at the University of Alabama are provided. A syllabus and reading resources for a survey course on safety, health, environmental, and ethical issues are included. (MVL)