Discusses the formation requirements for British engineers to work effectively within the framework of a European manufacturing industry. Highlights the importance of language skills and cultural awareness. Outlines various scenarios for education and training to be integrated within degree courses. (JRH)

Discusses the viability of cognitive apprenticeship for learning science in relation to findings from an investigation of a research project involving high school students working in a university chemical engineering laboratory under the mentorship of a university-based scientist. Reports that students were empowered to seek empirically viable…

Discusses matters that arose from the implementation of a national scheme to provide better career management for research staff. Proposes recognition of a role for researchers in the wider educational functions of a university. (DDR)

Describes and evaluates a four-session training program for Multidisciplinary Engineering Laboratory (MEL) teaching assistants at the Colorado School of Mines. The sessions focus attention on student development approaches to learning. (EV)

Explores the ideas that students aged 16-19 associate with the terms 'biotechnology' and 'genetic engineering'. Indicates that some students see biotechnology as risky whereas genetic engineering was described as ethically wrong. (Author/ASK)

Investigates the metacognitive development of students in a second year chemical engineering course which had such development as an explicit goal. Concludes, among other results, that there is a shift in student approach from a focus on solving problems towards a stronger valuing of conceptual understanding. (Author/MM)

Describes the multidisciplinary teaching approach implemented at Rowan University's engineering department. Explains how emerging technologies are integrated into the curriculum. (Contains 19 references.) (YDS)

Since its inception, the National Science Foundation (NSF) has supported two distinct yet interwoven missions: research and education. Education has been especially affected by changes in ideology, economic trends, and new technologies. Cogent lessons from this experience reveal avenues in need of attention now and in the decade to come. (Author)

Concerns a second-year chemical engineering course in which recommendations such as reducing content coverage, promoting active learning in the classroom, and using assessment methods that require students to demonstrate a high level of understanding and ability were adopted. Presents an in-depth investigation into the influence of the course…

Analyzes articles published in "I Wonder", a publication designed to promote scientific discourse among elementary students, offers an overview of the journal as a tool for promoting authentic inquiry and examine scientific and engineering projects published by students. (Author/MM)

Investigates the effectiveness of using trimetric pictorials instead of isometric pictorials on the Purdue Spatial Visualization Test - Visualization of Rotations (Guay, 1977). Records student responses and response times as well as information on gender, current major, and number of previous graphics courses completed. (Contains 18 references.)…

The comprehensive engineering program at Madison West High School in Wisconsin includes a principles of engineering course that explores the relationship between math, science, and technology. The course is organized around the concepts, skills, and attitudes necessary for an engineering career. (JOW)

Describes the way in which the Department of Industrial Engineering at the University of Sonora in Mexico is facing the challenged posed by sustainable development. (Author/CCM)

Problem-based learning is embedded in interactions between Aalborg University (Denmark) engineering students and industry partners. Focus on solving real industrial problems stimulates student creativity and innovation. The challenge is to balance the interests and objectives of both parties. (SK)

Questions teaching effectiveness in higher education and focuses on five points for the appraisal of teaching effectiveness: (1) educational goals; (2) performance criteria; (3) assessment process; (4) evaluation process; and (5) educational scholarship. Explains how to evaluate teaching effectiveness. (Contains 14 references.) (YDS)