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Articles 1 - 13 of 13
Full-Text Articles in Engineering
Year Seven Annual Report: Activities, Findings And Evaluators' Reports, Ncete Faculty
Year Seven Annual Report: Activities, Findings And Evaluators' Reports, Ncete Faculty
Reports to NSF
The National Center for Engineering and Technology Education (NCETE) is a collaborative network of scholars with backgrounds in technology education, engineering, and related fields. Our mission is to build capacity in technology education and to improve the understanding of the learning and teaching of high school students and teachers as they apply engineering design processes to technological problems. This year’s accomplishments include: completion of doctoral dissertations and post-doctoral research; continuation of research program; exploration of a strategic alliance of engineering and technology education groups in major doctoral-degree-granting universities; development of a caucus on high school engineering design challenges; and ongoing …
Building A Framework For Engineering Design Experiences In Stem: A Synthesis, Cameron D. Denson
Building A Framework For Engineering Design Experiences In Stem: A Synthesis, Cameron D. Denson
Publications
Since the inception of the National Center for Engineering and Technology Education in 2004, educators and researchers have struggled to identify the necessary components of a “good” engineering design challenge for high school students. In reading and analyzing the position papers on engineering design many themes emerged that may begin to form a narrative for engineering design in a high school setting. Before educators can provide a framework for engineering design in STEM courses, four questions need to be answered: (a) To what degree should engineering design challenges be open-ended or well-structured? (b) What are the relationships between engineering design …
Infusing Engineering Design Into High School Stem Courses, Morgan Hynes, Merredith Portsmore, Emily Dare, Elissa Milto, Chris Rogers, David Hammer, Adam Carberry
Infusing Engineering Design Into High School Stem Courses, Morgan Hynes, Merredith Portsmore, Emily Dare, Elissa Milto, Chris Rogers, David Hammer, Adam Carberry
Publications
Society is recognizing the need to improve STEM education and introduce engineering design concepts before college. In the recent National Academy of Engineers report, Engineering in K-12 Education: Understanding the Status and Improving the Prospects, the authors suggest that the STEM disciplines not be treated as ―silos‖ and that engineering might serve as a motivating context to integrate the four STEM disciplines (Katehi, Pearson, & Feder, 2009). Recent research has suggested that integrated technology and engineering design curriculum can serve as a positive model for mathematics and science learning and retention (Ortiz, 2010; Wendell, 2011). The Tufts University Center for …
Engineering Design Thinking And Information Gathering Final Report, Nathan Mentzer
Engineering Design Thinking And Information Gathering Final Report, Nathan Mentzer
Publications
The objective of this research was to explore the relationship between information access and design solution quality of high school students presented with an engineering design problem. This objective is encompassed in the research question driving this inquiry: How does information access impact the design process? This question has emerged in the context of an exploratory DR-K12 grant project titled, Exploring Engineering Design Knowing and Thinking as an Innovation in STEM Learning. The research work presented here has expanded the data set developed in the DR-K12 and examined the larger data set with a focus on how information access impacts …
A Possible Pathway For High School Science In A Stem World, Cary Sneider
A Possible Pathway For High School Science In A Stem World, Cary Sneider
Publications
Today‘s high school science teachers find themselves in a period of transition. For the past decade there have been calls for replacing a narrow focus on science education—the traditional courses in physics, chemistry, biology, and Earth and space science—with a broader curriculum on STEM (that is, the four allied fields of science, technology, engineering, and mathematics). However, at present there are no guidelines on what that broader curriculum should include or how it should be designed, and the gulf that has separated science and mathematics seems as wide as ever, despite decades of efforts to bridge the two disciplines. Next …
Mapping Engineering Concepts For Secondary Level Education, J. L. Daugherty
Mapping Engineering Concepts For Secondary Level Education, J. L. Daugherty
Publications
No abstract provided.
Design Principles For High School Engineering Design Challenges: Experiences From High School Science Classrooms, Christian Schunn
Design Principles For High School Engineering Design Challenges: Experiences From High School Science Classrooms, Christian Schunn
Publications
At the University of Pittsburgh, we have been exploring a range of approaches to design challenges for implementation in high school science classrooms (Apedoe, Reynolds, Ellefson, & Schunn, 2008; Ellefson, Brinker, Vernacchio, & Schunn, 2008; Schunn, Silk, & Apedoe, in press). In general, our approach has always involved students working during class time over the course of many weeks. So, our understanding of what works must be contextualized to that situation (i.e., without significant home support, by students enrolled in traditional classrooms, involving content that is connected to traditional science classrooms). However, our approach has been implemented with thousands of …
Understanding Of Student Task Interpretation, Design Planning, And Cognitive Strategies During Engineering Design Activities In Grades 9-12, Oenardi Lawanto
Understanding Of Student Task Interpretation, Design Planning, And Cognitive Strategies During Engineering Design Activities In Grades 9-12, Oenardi Lawanto
Publications
The objective of this study was to describe the task interpretation of students engaged in a design activity and determine the extent to which students translate their understanding of their design task to their planning and cognitive strategies. Twenty-nine students at one Colorado high school participated in this study. Students worked individually in the Architectural Design class (n=7), and in teams in the Robotics Design class (n=22). To capture students’ perceptions of their understanding of the task, planning strategies, and cognitive strategies, the Engineering Design Questionnaire (EDQ) was used. The development of the EDQ was guided by Butler and Cartier’s …
Design Problems For Secondary Students, David H. Jonassen
Design Problems For Secondary Students, David H. Jonassen
Publications
Are there different kinds of design problems? According to Brown and Chandrasekaran (1989), Class 1 design problems are open-ended, non-routine creative activities where the goals are ill-structured, and there is no effective design plan specifying the sequence of actions to take in producing a design model. Class 2 problems use existing, well-developed design and decomposition plans (e.g. designing a new automobile). Class 3 designs are routine where design and decomposition plans are known as well as customary actions taken to deal with failures (e.g., writing a computer program). Jonassen (2011) argued that problems vary in terms of structuredness, complexity, and …
Engineering Design Challenges In High School Stem Courses A Compilation Of Invited Position Papers, Daniel L. Householder
Engineering Design Challenges In High School Stem Courses A Compilation Of Invited Position Papers, Daniel L. Householder
Publications
Since its initial funding by the National Science Foundation in 2004, the National Center for Engineering and Technology Education (NCETE) has worked to understand the infusion of engineering design experiences into the high school setting. Over the years, an increasing number of educators and professional groups have participated in the expanding initiative seeking to acquaint all students with engineering design. While there is strong support for providing students with engineering design experiences in their high school STEM courses, the lack of consensus on purposes and strategies has become increasingly apparent as the work continues. Among the unsettled issues are the …
Engineering Design Challenges In A Science Curriculum, Arthur Eisenkraft
Engineering Design Challenges In A Science Curriculum, Arthur Eisenkraft
Publications
Create a light and sound show to entertain your friends. Design an improved safety device for a car. Develop a 2-3 minute voice-over for a sports clip explaining the physics involved in the sport. Modify the design of a roller coaster to meet the needs of a specific group of riders. Design an appliance package for a family limited by the power and energy of wind generator. Develop a museum exhibit to acquaint visitors with the atom and nucleus and create a product that can be sold at the museum store after visitors leave your exhibit. All of these challenges …
Mapping Engineering Concepts For Secondary Level Education, Jenny L. Daugherty
Mapping Engineering Concepts For Secondary Level Education, Jenny L. Daugherty
Publications
Much of the national attention on science, technology, engineering, and mathematics (STEM) education tends to concentrate on science and mathematics, with its emphasis on standardized test scores. However as the National Academy of Engineering Committee on K-12 Engineering Education stressed, engineering can contribute to the development of an effective and interconnected STEM education system (Katehi, Pearson, & Feder, 2009). In addition, engineering can provide authentic learning contexts for science, technology, and mathematics. Numerous K-12 engineering initiatives have emerged across the U.S. developing curriculum and conducting teacher professional development (Brophy, Klein, Portsmore, & Rogers, 2008). The focus of pre-college engineering education …
Integrating Engineering Design Challenges Into Secondary Stem Education, Ronald L. Carr
Integrating Engineering Design Challenges Into Secondary Stem Education, Ronald L. Carr
Publications
Engineering is being currently taught in the full spectrum of the P-12 system, with an emphasis on design-oriented teaching (Brophy, Klein, Portsmore, & Rogers, 2008). Due to only a small amount of research on the learning of engineering design in elementary and middle school settings, the community of practice lacks the necessary knowledge of the trajectory of students' learning progressions towards design mastery and expertise and the appropriateness of otherwise established design pedagogies. The issue is even more pressing since many states are embedding engineering into their standards without a clear notion of how engineering (often conceptualized as design) works …