The backbone of economic growth in the United States relies on engineering innovation. However, e... more The backbone of economic growth in the United States relies on engineering innovation. However, engineering innovation cannot occur without engineers and scientists. Unfortunately however, many K-12 students do not have a good understanding of the engineering design process or the vast field of engineering. As a result, many students lose interest in math and science and do not pursue Science, Technology, Engineering and Math (STEM) fields. This paper will describe a unique partnership among the Teacher Education Program and School of Engineering at the University of Dayton (UD) and the Dayton Regional STEM Center (DRSC). This partnership initiated with the development of the STEM Education Quality Framework (SQF). The SQF resulted in a variety of educational tools, including a STEM curriculum template, that was implemented in the DRSC’s teacher professional development and curriculum development program entitled the STEM Fellow Program. The STEM Fellow program was modeled in a uniq...
Volume 9: Engineering Education and Professional Development, 2008
ABSTRACT The natural world has long been impacted by technological society; however, in recent ye... more ABSTRACT The natural world has long been impacted by technological society; however, in recent years environmental impacts and constraints are increasingly on the global, rather than local or regional, scale. Moreover, the interconnectivity of biological systems with energy and material flows is increasingly evident. Today, it is well understood that climate change, energy constraints and biological degradation are largely a consequence of technological production and energy use. In this context, one would expect engineering education to have evolved to prepare engineers to be capable of addressing these issues. Rather, excluding the resurgence in design education, we see a curriculum that remains largely unchanged. In this context, we propose an integrated mechanical engineering curriculum that emphasizes sustainable engineering and whole-system design. The curriculum provides mechanical engineering students with a deeper understanding of the broader impact of the products and processes they design, the tools to assess that impact, and the system level thinking to design technologies for a sustainable future.
The backbone of economic growth in the United States relies on engineering innovation. However, e... more The backbone of economic growth in the United States relies on engineering innovation. However, engineering innovation cannot occur without engineers and scientists. Unfortunately however, many K-12 students do not have a good understanding of the engineering design process or the vast field of engineering. As a result, many students lose interest in math and science and do not pursue Science, Technology, Engineering and Math (STEM) fields. This paper will describe a unique partnership among the Teacher Education Program and School of Engineering at the University of Dayton (UD) and the Dayton Regional STEM Center (DRSC). This partnership initiated with the development of the STEM Education Quality Framework (SQF). The SQF resulted in a variety of educational tools, including a STEM curriculum template, that was implemented in the DRSC’s teacher professional development and curriculum development program entitled the STEM Fellow Program. The STEM Fellow program was modeled in a uniq...
Volume 9: Engineering Education and Professional Development, 2008
ABSTRACT The natural world has long been impacted by technological society; however, in recent ye... more ABSTRACT The natural world has long been impacted by technological society; however, in recent years environmental impacts and constraints are increasingly on the global, rather than local or regional, scale. Moreover, the interconnectivity of biological systems with energy and material flows is increasingly evident. Today, it is well understood that climate change, energy constraints and biological degradation are largely a consequence of technological production and energy use. In this context, one would expect engineering education to have evolved to prepare engineers to be capable of addressing these issues. Rather, excluding the resurgence in design education, we see a curriculum that remains largely unchanged. In this context, we propose an integrated mechanical engineering curriculum that emphasizes sustainable engineering and whole-system design. The curriculum provides mechanical engineering students with a deeper understanding of the broader impact of the products and processes they design, the tools to assess that impact, and the system level thinking to design technologies for a sustainable future.
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