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The Panel on Undergraduate Engineering Education prepared this report as part of the overall effort of the National Research Council's Committee on the Education and Utilization of the Engineer. The panel studied the academic preparation of engineers for practicing their profession. This document provides an analysis of the research done by the panel. Its findings and recommendations deal with: (1) "The Goals of Undergraduate Engineering Education"; (2) "Undergraduate Students"; (3) "Faculty"; (4) "The Curriculum"; (5) "The Role of Laboratory Instruction"; and (6) "The Two-Tiered System." The major conclusions of the study are described in the executive summary. (TW)
The current state of engineering graduate study in the United States, its future, and its relationship to research are examined in this report of the National Research Council Committee on the Education and Utilization of the Engineer. The study focuses principally on increasing the supply of highly qualified doctoral recipients who are United States citizens particularly with respect to academic employment. It also gives attention to the importance of master's level work and to the need for access to part-time programs for engineers who are employed full time. Report sections include: (1) an executive summary; (2) the background (reviewing previous reports and studies in engineering education); (3) supply and demand (providing data on the supply of Ph.D.s and recommendations for increasing the supply); (4) women and minorities in engineering (examining representation patterns); (5) master's degree (presenting findings and recommendations); (6) doctor's degree (with findings and recommendations); (7) nontraditional graduate programs (analyzing existing approaches); (8) engineering faculty (addressing needs for faculty development); and (9) university-industry interactions (discussing conflicting and complementary interests). A list of 66 reference notes is included. (ML)
Traces engineers' struggle to win intellectual, financial and organizational recognition within the National Science Foundation. This book analyzes the tools and arguments, how they altered over time, and how budgetary and philosophical debates were played out through organizational manipulation.
This book presents selected papers from the ‘World Engineering Education Forum & Global Engineering Deans Council,’ held in November 2016 in Seoul, Korea. The massive changes currently underway in all areas of society, especially in engineering (and consequently in engineering education), call for new pedagogic qualifications and approaches. To face these current real-world challenges, higher education has to find innovative ways to quickly respond to these new needs. The papers gathered here address three essential problems:- The main approach to engineering in the 21st century is collaboration - at many levels, within universities or colleges, between institutions, and on a global scale. At the same time, we need a new quality of collaboration between academia, industry, professional and governmental organizations. - The complexity of engineering projects and solutions is rapidly growing, and increasingly includes non-technical aspects. - One of the key tasks for future engineers will be the development of a sustainable society, which is essential to keeping the global environment in balance.
Engineering education in K-12 classrooms is a small but growing phenomenon that may have implications for engineering and also for the other STEM subjects-science, technology, and mathematics. Specifically, engineering education may improve student learning and achievement in science and mathematics, increase awareness of engineering and the work of engineers, boost youth interest in pursuing engineering as a career, and increase the technological literacy of all students. The teaching of STEM subjects in U.S. schools must be improved in order to retain U.S. competitiveness in the global economy and to develop a workforce with the knowledge and skills to address technical and technological issues. Engineering in K-12 Education reviews the scope and impact of engineering education today and makes several recommendations to address curriculum, policy, and funding issues. The book also analyzes a number of K-12 engineering curricula in depth and discusses what is known from the cognitive sciences about how children learn engineering-related concepts and skills. Engineering in K-12 Education will serve as a reference for science, technology, engineering, and math educators, policy makers, employers, and others concerned about the development of the country's technical workforce. The book will also prove useful to educational researchers, cognitive scientists, advocates for greater public understanding of engineering, and those working to boost technological and scientific literacy.