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Articles 1 - 10 of 10
Full-Text Articles in Engineering Education
Scope Process: Fostering Students' Design Outcome Effectiveness, Andrew J. Hughes, Cameron D. Denson
Scope Process: Fostering Students' Design Outcome Effectiveness, Andrew J. Hughes, Cameron D. Denson
Educational Leadership & Technology Faculty Publications
The purpose of this article is to help Technology and Engineering Educators scaffold engineering design and problem-solving experiences so that students taking technology and engineering courses will develop an improved ability to design. Technology and Engineering Education seems to increasingly focus on problem-solving, design, and engineering. Technology and Engineering Education is not the only discipline with this focus. The fact that both Science and Technology and Engineering Education are similarly focused on the teaching and learning of engineering begs the question of what separates technology and engineering educators from science educators in the teaching of engineering? Lewis (2004) cautioned that …
Making Connections: Evaluation Of A Professional Development Program For Teachers Focused On Stem Integration, Judy Lambert, Carmen Cioc, Sorin Cioc, Dawn Sandt
Making Connections: Evaluation Of A Professional Development Program For Teachers Focused On Stem Integration, Judy Lambert, Carmen Cioc, Sorin Cioc, Dawn Sandt
Journal of STEM Teacher Education
This article reports on a 2-year evaluation of a STEM integration professional development (PD) program for 40 math, science, and special education teachers in Grades 5–9 from a large Midwestern public school district. The National Research Council’s framework for integrated STEM education (Honey, Pearson, & Schweingruber, 2014) was used to explain the goals, outcomes, nature and scope, and implementation of the program. Teachers were measured on their growth in STEM content knowledge, technology integration, teaching confidence, pedagogical beliefs, and impact of PD. Increases resulted in all these areas with statistically significant improvements in most of them, particularly in Year 2. …
Professional Development For The Integration Of Engineering In High School Stem Classrooms, Jonathan E. Singer, Julia M. Ross, Yvette Jackson-Lee
Professional Development For The Integration Of Engineering In High School Stem Classrooms, Jonathan E. Singer, Julia M. Ross, Yvette Jackson-Lee
Journal of Pre-College Engineering Education Research (J-PEER)
Science, Technology, Engineering, and Mathematics (STEM) education in the U.S. is in transition. The recently published A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas as well as the Next Generation Science Standards are responsive to this call and clearly articulate a vision that includes engineering practices as key components. This shift presents significant challenges to school districts owing to a stark lack of research-based engineering-focused instructional materials and corresponding teacher professional development. The purpose of this study was to investigate the impact of a professional development program on high school STEM teachers’ ability to enact design-based …
Integrating Cognitive Science With Innovative Teaching In Stem Disciplines, Mark A. Mcdaniel, Regina F. Frey, Susan M. Fitzpatrick, Henry L. Roediger Iii
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/.
Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno
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
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
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
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.)
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.
Defining Characteristics Of An Integrated Stem Curriculum In K-12 Education, Vinson Robert Carter
Defining Characteristics Of An Integrated Stem Curriculum In K-12 Education, Vinson Robert Carter
Graduate Theses and Dissertations
The purpose of the study was to obtain consensus concerning the defining characteristics of integrated STEM (Science, Technology, Engineering, and Mathematics) curriculum. This study utilized a three round modified Delphi study to solicit recommendations from experts of STEM education in order to: 1) create a set of categorical and defining curricular components needed to develop and implement appropriate integrated STEM curriculum; 2) identify the characteristics that set integrated STEM education curriculum apart from single-discipline curricula; 3) discuss the components necessary to gauge whether an initiative, project, or curriculum should be referred to as integrated STEM education; and 4) examine whether …