Panel session - preparing the engineers of 2020 - emerging evidence from six exemplary colleges and universities (original) (raw)
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2011 Frontiers in Education Conference (FIE), 2011
The E2020 Scholars Program is a National Science Foundation Scholarships in STEM (S-STEM) Program providing scholarships for cohorts of first-year and transfer undergraduate engineering students. The conceptual framework of the E2020 Scholars Program is designed to advance the academic and professional development of the scholar using the college's learning community infrastructure and building upon the aspirations and attributes of the National Academy of Engineering's (NAE) vision for the engineer of 2020. Programming includes a set of student development and learning opportunities consistent with this vision and includes curricular and co-curricular activities on the topics of leadership development, global awareness and understanding, systems thinking, and innovation.
Engineer of 2020 outcomes and the student experience
2013 IEEE Frontiers in Education Conference (FIE), 2013
An NSF Scholarships in STEM (S-STEM) program has provided scholarships for cohorts of undergraduate engineering students since 2009, giving specific attention to the National Academy of Engineering's vision for the engineer of 2020 (E2020). Four E2020 outcomes are emphasized in Iowa State's program: leadership, global awareness and understanding, systems thinking, and innovation and entrepreneurship. These outcomes, or pillars, are being integrated into curricular and co-curricular activities. The four pillar areas are introduced in a one-semester first-year seminar and reinforced in a two-semester second-year seminar. These seminars supplement the regular program of study for engineering students. In this paper, we describe the curriculum and its planned integration beyond the scholarship program. We present student feedback about their experience in the program. We also introduce relevant core competencies associated with the outcomes as judged by faculty and industry representatives.
Educating the Engineer of 2020: A Practical Implementation
Proceedings of the …, 2007
The College of Engineering (CoE) at Wichita State University (WSU) has launched a strategic initiative, Engineer of 2020, in order to prepare graduates for effective engagement in the engineering profession in the year 2020. This initiative is, in part, ...
The Center for the Advancement of Engineering Education: A Review of Results and Resources
Today's engineering graduates will solve tomorrow's problems in a world that is advancing faster and facing more critical challenges than ever before. This situation creates significant demand for engineering education to evolve in order to effectively prepare a diverse community of engineers for these challenges. Such concerns have led to the publication of visionary reports that help orient the work of those committed to the success of engineering education. Research in engineering education is central to all of these visions. The Need Research on the student experience is fundamental to informing the evolution of engineering education. A broad understanding of the engineering student experience involves thinking about diverse academic pathways, navigation of these pathways, and decision points-how students choose engineering programs, navigate through their programs, and then move on to jobs and careers. Further, looking at students' experiences broadly entails not just thinking about their learning (i.e., skill and knowledge development in both technical and professional areas) but also their motivation, their identification with engineering, their confidence, and their choices after graduation. In actuality, there is not one singular student experience, but rather many experiences. Research on engineering student experiences can look into systematic differences across demographics, disciplines, and campuses; gain insight into the experiences of underrepresented students; and create a rich portrait of how students change from first year through graduation. Such a broad understanding of the engineering student experience can serve as inspiration for designing innovative curricular experiences that support the many and varied pathways that students take on their way to becoming an engineer.
2017 ASEE Annual Conference & Exposition Proceedings
is a proponent of Hands-On Activities in the classroom and during out-of-school time programs. She believes that they complement any teaching style thereby reaching all learning styles. She just recently earned her doctorate in Mechanical Engineering from North Carolina State University where her research spanned three colleges and focused on Engineering Education. Her passions include but are not limited to Engineering Education and Energy Engineering. Lynn is currently an Assistant Professor in the newly founded School of Engineering at Campbell University.
Educating Future Engineers: An Example
Engineering education in the United States is going through a change, much of it driven by two recent reports from The National Academy of Engineering and the internationalization of the profession. This is a normal process of evolution in the education of future engineers to make them better prepared to be effective professionals in the environment they will face. As part of this evolution and the normal process of quality improvement, Wichita State University has recently launched a strategic initiative, Engineer of 2020. This paper reviews the background and the rationale for this initiative as well the implementation of it. Also discussed is the experience to date.
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Future Directions in Engineering Education: Educating Engineers of the 21st Century
Engineering schools today are facing challenges they have never faced before to produce graduates who are relevant in the 21st Century. Today's engineers are entering into a world marked by rapid and global change, exponential advancement in information and computer technologies, complex ethical issues, borderless global competition, changing demographics, sustainability, and a multitude of problems that only emerged in the new millennium. Just as business as usual will not survive in the 21st Century, education as usual will also not get us there. This paper briefly explores challenges in global engineering practice in the 21st Century, before laying down the status quo in engineering education. From here, based on numerous engineering education reports that have emerged from various parts of the world, the requirements as well as issues to overcome in educating engineers of the future will be dwelled.