Engineering Commons^™

Driven By Beliefs: Understanding Challenges Physical Science Teachers Face When Integrating Engineering And Physics, Emily A. Dare, Joshua A. Ellis, Gillian H. Roehrig

Journal of Pre-College Engineering Education Research (J-PEER)

It is difficult to ignore the increased use of technological innovations in today’s world, which has led to various calls for the integration of engineering into K-12 science standards. The need to understand how engineering is currently being brought to science classrooms is apparent and necessary in order to address these calls for integration. This multiphase, mixed-methods study investigated the classroom practices and beliefs of high school physical science teachers following an intensive professional development on physics and engineering integration.

Classroom observations showed that teachers new to incorporating engineering into their physical science classrooms often struggled to maintain focus on …

Integrating Cognitive Science With Innovative Teaching In Stem Disciplines, Mark A. Mcdaniel, Regina F. Frey, Susan M. Fitzpatrick, Henry L. Roediger Iii

Books and Monographs

This volume collects the ideas and insights discussed at a novel conference, the Integrating Cognitive Science with Innovative Teaching in STEM Disciplines Conference, which was held September 27-28, 2012 at Washington University in St. Louis. With funding from the James S. McDonnell Foundation, the conference was hosted by Washington University’s Center for Integrative Research on Cognition, Learning, and Education (CIRCLE), a center established in 2011. Available for download as a PDF. Titles of individual chapters can be found at http://openscholarship.wustl.edu/circle_book/.

Interpreting, Stephanie Jo Kent

Doctoral Dissertations

What do community interpreting for the Deaf in western societies, conference interpreting for the European Parliament, and language brokering in international management have in common? Academic research and professional training have historically emphasized the linguistic and cognitive challenges of interpreting, neglecting or ignoring the social aspects that structure communication. All forms of interpreting are inherently social; they involve relationships among at least three people and two languages. The contexts explored here, American Sign Language/English interpreting and spoken language interpreting within the European Parliament, show that simultaneous interpreting involves attitudes, norms and values about intercultural communication that overemphasize information and discount …

Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno

Jessica Townsend

The Franklin W. Olin College of Engineering was created to address several perceived needs for engineering graduates of the future and to be an experimental laboratory for engineering education. As such, Olin College is not only dedicated to innovation within its boundaries but also to catalyzing change throughout the engineering enterprise. The curriculum aims to support life-long learning, teamwork, communication, and contextual understanding, along with rigorous quantitative and qualitative skills.

Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno

Vincent P. Manno

The Franklin W. Olin College of Engineering was created to address several perceived needs for engineering graduates of the future and to be an experimental laboratory for engineering education. As such, Olin College is not only dedicated to innovation within its boundaries but also to catalyzing change throughout the engineering enterprise. The curriculum aims to support life-long learning, teamwork, communication, and contextual understanding, along with rigorous quantitative and qualitative skills.

Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno

Lynn Andrea Stein

The Franklin W. Olin College of Engineering was created to address several perceived needs for engineering graduates of the future and to be an experimental laboratory for engineering education. As such, Olin College is not only dedicated to innovation within its boundaries but also to catalyzing change throughout the engineering enterprise. The curriculum aims to support life-long learning, teamwork, communication, and contextual understanding, along with rigorous quantitative and qualitative skills.

Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno

Mark Somerville

The Franklin W. Olin College of Engineering was created to address several perceived needs for engineering graduates of the future and to be an experimental laboratory for engineering education. As such, Olin College is not only dedicated to innovation within its boundaries but also to catalyzing change throughout the engineering enterprise. The curriculum aims to support life-long learning, teamwork, communication, and contextual understanding, along with rigorous quantitative and qualitative skills.

Integrating Technology And Engineering In A Stem Context, Barry N. Burke, Philip A. Reed, John G. Wells, Robert E. Yager (Ed.), Herbert Brunkhorst (Ed.)

STEMPS Faculty Publications

(First paragraph) Imagine students entering the classroom with an enthusiasm that cannot be contained. They come from all walks of life and with different experiences and backgrounds and are eager to engage in learning. Inspiration and innovation are on their mind. What they learned in their science and math classes is now being applied in another class they take called Technology and Engineering. Opportunity is what they see for their future. Something about connecting all the dots from all their classes propels them to change their outlook, to get involved, to get excited about school and to envision their future.