Students' needs and research on learning should inform teaching practices. Makes suggestions for improving instruction such as using students as ombudspersons to provide feedback on class concerns, focusing on process skills, and incorporating problem-based learning into the curriculum. Also includes examples of successful programs and summaries…

Describes an investigation of students' problem-solving strategies as seventh-grade students (n=10) attempted to design a solution to a technological problem. Concludes that novice designers use highly iterative rather than linear strategies, develop their ideas using three-dimensional materials rather than two-dimensional sketches, and develop…

The goal of technology education is universal technological literacy. Technology study in middle school must be more than an added science curriculum unit. Three instructional approaches predominate: student projects, technological problem solving (design under constraint), and modular technology education. The National Middle School Association's…

Using technology can empower students, but most U.S. schools fall short of this goal. The power of technology as related to other school subjects and problem solving is well documented in projects promoting integration of technology education with mathematics and science. National Science Education Standards are summarized. (26 references) (MLH)

Describes how interaction with several polymer manufacturing companies through industrial short courses and research projects has led to the development of dynamic and up-to-date undergraduate and graduate curriculums in polymer science and engineering technology. (DDR)

Discusses the foundations of engineering design and highlights the problems confronting students who are required to make creative input into a design problem. Describes a way to implement creativity in teaching engineering design. Contains 38 references. (DDR)

A method for teaching problem-solving skills to mathematics students is presented. By subtly incorporating engineering applications, the students are simultaneously exposed to an effective outreach programme. The process includes offering a complex problem that challenges students' abilities. Before allowing the students to become frustrated, the…

The development of Design and Technology curricula has always been premised on the importance of the act of designing and of the value of the contingent activity of creative thinking. Despite this, there has been a great deal of uncertainty about methods for developing creative thinking abilities in design and technology students. However, the…

The purpose of this study was to describe a process of preparing technology education teachers to teach engineering design concepts in the context of technology education. This process was identified through a study of professional development activities that were organized and conducted by technology teacher education partner universities of the…

This guide, which is designed to be used in a two-course sequence, is intended to prepare college-bound high school juniors and seniors for engineering and related courses at the college level. The guide was developed as part of an experimental competency-based curriculum that integrates the high-tech applications of mathematics and science…

Experimental learning environments based on simulation usually require monitoring and adaptation to the actions the users carry out. Some systems provide this functionality, but they do so in a way which is static or cannot be applied to problem solving tasks. In response to this problem, we propose a method based on the use of intermediate…

Describes a non-credit tutorial course held for engineering students to improve their skill in problem solving. In the group sessions, each student writes his approach to a given problem on a transparency; the class then analyzes the various approaches while viewing them on overhead projectors. (MLH)

Describes an approach which integrates experiential learning with the study of subject matter. The foundation of this program is a systems design called SAM, Self-Actualized Model. Presents design details of the program and an initial evaluation. (GS)

High-performance computers coupled with highly efficient numerical schemes and user-friendly software packages have helped instructors to teach numerical solutions and analysis of various nonlinear models more efficiently in the classroom. One of the main objectives of a model is to provide insight about the system of interest. Analytical…

This project had three major goals: (1) investigate the extent to which introductory physics students misuse or misunderstand formulas; (2) catalogue the typical ways in which they do this; and (3) begin the larger task of identifying key types of knowledge that successful problem solvers use to give formulas meaning. Exploratory interviews and…