As well-developed as they may be, standards are not curriculum. It is the job of teachers and curriculum teams to use the Standards as the basis for designing the specific pathway for teaching and learning. In this article, the authors explore the use of Understanding by Design (UbD), a widely-used curriculum development framework, for honoring…

Systematic changes to higher education curriculum typically occur within the extended timeframes of formal curriculum review processes. Programmes need to be reviewed periodically for internal and external accountability or to determine whether the curriculum has lost its coherence due to the accumulative effect of continual small-scale changes.…

Recent efforts in engineering education focus on introducing engineering into secondary math and science courses to improve science, technology, engineering, and math (STEM) education (NAS, 2010). Infusing engineering into secondary classrooms can increase awareness of and interest in STEM careers, help students see the relevance of science and…

Engineering has gained considerable traction in many K-12 schools. However, there are several obstacles or challenges to an effective approach that leads to student learning. Questions such as where engineering best fits in the curriculum; how to include it authentically and appropriately; toward what educational end; and how best to prepare…

There are many professional benefits to pursuing undergraduate design opportunities and capstone projects to both students and faculty advisors. Using a case study on a group of graduates and undergraduates who took part in the Hydrogen Ambassador Competition in 2005 this study will examine the benefits and challenges from the point of view of all…

Describes a chemical engineering course for senior undergraduates and first year graduate students in biochemical engineering. Discusses five experiments used in the course: aseptic techniques, dissolved oxygen measurement, oxygen uptake by yeast, continuous sterilization, and cultivation of microorganisms. (MVL)

Explores a graduate level bioprocess engineering course in protein purification and downstream processing. Designed to provide students with hands-on training in the design and implementation of product processing for the biotechnology industry. Includes syllabus and plan of study. (MVL)

Describes an engineering course for graduate study in random media. Summarizes random media as bulk properties of ordered and disordered two-phase materials. Gives course outline for one semester. Topics include: disordered systems, microstructure determination, survey of models, connectivity, and effective properties. (MVL)

Research on the study behavior of first-year engineering students compared secondary school science study with that for a core undergraduate engineering course. Results indicated that some traditional students begin study as much at risk academically as nontraditional counterparts; workloads force students to adopt strategic approaches to study;…

Reexamines the recommendations of "A National Action Agenda for Engineering Education." Cites at least one exemplary effort related to each. Covers the overburdened curriculum; practice oriented graduate programs; design, manufacturing, and construction; instructional laboratories; faculty pool, professional development for faculty;…

Discusses the Undergraduate Curriculum Development in Engineering program. Provides a short history of the program. Describes 10 curriculum projects ranging from engineering design to industry participation. Each program is encouraged to develop: analytical ability, ability to innovate and synthesize, integrating ability, and contextual…

Presented is a blueprint for restructuring the first two years of the engineering curriculum. Four new concepts for the first two years are discussed: (1) the mathematical and scientific foundations of engineering, (2) fundamentals of engineering, (3) the engineering laboratory, and (4) the professional and personal enrichment program. (MVL)

Describes a graduate engineering course which specializes in model predictive control. Lists course outline and scope. Discusses some specific topics and teaching methods. Suggests final projects for the students. (MVL)

Discusses the restructuring of the graduate program to accommodate emerging fields in engineering. Notes half of the graduate degrees Cornell grants each year are M.Eng. degrees. Offers 12 specialties: aerospace, agriculture, chemical, civil, electrical, mechanical and nuclear engineering; computer science, engineering physics; geological…

Describes an engineering course for graduate study in process control. Lists four major topics: interaction analysis, multiloop controller design, decoupling, and multivariable control strategies. Suggests a course outline and gives information about each topic. (MVL)