The programme outcomes are broad statements of knowledge, skills, and competencies that the students should be able to demonstrate upon graduation from a programme, while the Educational Taxonomy classifies learning objectives into different domains. The precise mapping of a course outcomes to the programme outcome and the educational taxonomy…

Early exposure to embedded computing systems is crucial for students to be prepared for the embedded computing demands of today's world. However, exposure to systems knowledge often comes too late in the curriculum to stimulate students' interests and to provide a meaningful difference in how they direct their choice of electives for future…

This book, prepared in the context of the "UN Conference on Sustainable Development (UNCSD)", also known as "Rio+20", contains the papers submitted to the "World Symposium on Sustainable Development at Universities (WSSD-U-2012)", which took place in Rio de Janeiro, Brazil on 5 and 6 June 2012. It pursues the following main aims: to document and…

A description of the purpose and course content of Carnegie-Mellon's program in Engineering and Public Affairs is provided. Problems of faculty participation are discussed. (DT)

Details of the operation of a program for freshmen engineering students and the evaluation of its effectveness are reported in this article. (DT)

Highlights a comprehensive analysis of post-secondary aviation programs in the United States published in a directory available from the University Aviation Association. The "Collegiate Aviation Directory" lists findings by state and includes level of institution, accreditation, public or private, and types of programs. (JN)

A course relating to energy and the environment and aimed specifically at engineering students is outlined. Course objectives, format, and content are specified; required problem sets, papers, and exams are briefly discussed. (DT)

Presents the history, curricula, and faculty accomplishments of Notre Dame's chemical engineering program from its inception in 1909 to the present. (WB)

Discusses a course sequence in process control in the chemical engineering department at the University of Maine. Various factors in teaching the sequence (which tends to be strongly applied in nature) are also discussed. These factors include texts, facilities, industrial response to the program, and others. (Author/JN)

Describes the undergraduate and graduate/research programs in chemical engineering at Yale University. Includes a list of course requirements for the B.S. in chemical engineering. (JN)

Described is an analysis of factors which relate to the establishment of staff development methods and the effect of these factors on staff development policy. A number of ways in which a department of engineering can formalize staff development programs are illustrated. (CW)

Described are the objectives, structure, and methods for the course. Differences in training for the technology teacher and the engineer are discussed. Student evaluation of the course is provided. (CW)

The needs, deficiencies, and possible solutions for undergraduate education of chemical engineers in Mexico were discussed in Volume XVI (Number 3) of this journal. In this paper, the authors extend their comments to the status of graduate education of chemical engineers in Mexico, focusing on the masters program. (Author/JN)

Swiss engineering education is detailed and the roles of public enterprise, society, industry, and the engineering profession are illustrated. Educational issues are discussed in an international context. (CW)

Describes the educational programs at the Institute Technologico de Costa Rica. The engineering technology curriculum is based on the results of a nationwide study to identify critical areas of industrial need. The programs are designed for six semesters with scheduled work experiences within the school year. (MA)