This is the tenth in a series of articles entitled "The Legacy Project." The Legacy Project focuses on the lives and actions of leaders who have forged our profession into what it is today. Members of the profession owe a debt of gratitude to these leaders. One simple way to demonstrate that gratitude is to recognize these leaders and…

The Tufts University Center for Engineering Education and Outreach (CEEO) strives to improve STEM education through engineering and believes every student should have the chance to engineer. Situated in Massachusetts, the first state to adopt engineering education at all levels in public schools (Massachusetts DOE, 2001), the CEEO supports the…

Project-based learning is one of the main successful student-centered pedagogies broadly used in computing science courses. However, this approach can be insufficient when dealing with practical subjects that implicitly require many deliverables and a great deal of feedback and organizational resources. In this paper, a worked e-portfolio is…

The development of a continuing vocational training programme at the Information Satellite Systems Joint-Stock Company (ISS JSC) during the transition from the planned Soviet economy to what is now called the Russian market economy is briefly outlined. How the collapse of a planned economy led to the degradation of engineering higher education…

Engineering technology students can attain a meaningful mathematics learning if they are allowed to actively participate in hands-on activities. However, the current dissemination of knowledge in the classroom still focuses on teacher-centered paradigm of teaching. A study to explore lecturers' views regarding a newly developed integral calculus…

The holistic approach to restructuring engineering technology education at the New Jersey Center for Advanced Technological Education includes partnerships for articulated programs, recruitment and retention of underrepresented groups, involvement of industrial personal, and faculty development in innovative instructional methods. (SK)

This fourth part outlines a strategy for overcoming the limitations of the knowledge system for engineering by combining intellectual maps, preventive approaches, umbrella concepts, and round tables as described in the earlier parts. A discussion of the issues faced by modern medicine illustrates the paradigmatic nature of the diagnosis and…

Engineering faculty and students must have more exposure to business and industry considerations. (IR)

The kind of engineer most needed can harness the resources of the world for results most beneficial to society; can couple science, economics and human organizations. (Editor)

A brief review of recent developments in engineering education leads to basic reflections about the importance of design education. Aircraft design is singled out as a field where demands on design are particularly high and urgent. Basic needs are determined. Additional challenges posed by engineering technology, continuing studies,…

The impact of technology on higher education from increasingly complex computers and technological systems will cause higher education to include technological courses in the liberal arts curriculum, prepare liberal arts students for careers in nontraditional areas in which technology is an important component, and broaden the base of engineering…

A need has emerged in the curriculum for more teamwork experience, for the development of better communication and critical thinking skills, and for the acquisition of specialized knowledge. A focus on the processes by which problems are solved has served our discipline well and can continue to serve us if in the classroom we make appropriate…