Heidi A. Diefes‐Dux scite author profile

Contributors Michael Alley, The Pennsylvania State University; Cindy Atman, University of Washington; David DiBiasio, Worcester Polytechnic Institute; Cindy Finelli, University of Michigan; Heidi Diefes‐Dux, Purdue University; Anette Kolmos, Aalborg University; Donna Riley, Smith College; Sheri Sheppard, Stanford University; Maryellen Weimer, The Pennsylvania State University; Ken Yasuhara, University of Washington Background Although engineering education has evolved in ways that improve the readiness of graduates to meet the challenges of the twenty‐first century, national and international organizations continue to call for change. Future changes in engineering education should be guided by research on expertise and the learning processes that support its development. Purpose The goals of this paper are: to relate key findings from studies of the development of expertise to engineering education, to summarize instructional practices that are consistent with these findings, to provide examples of learning experiences that are consistent with these instructional practices, and finally, to identify challenges to implementing such learning experiences in engineering programs. Scope/Method The research synthesized for this article includes that on the development of expertise, students' approaches to learning, students' responses to instructional practices, and the role of motivation in learning. In addition, literature on the dominant teaching and learning practices in engineering education is used to frame some of the challenges to implementing alternative approaches to learning. Conclusion Current understanding of expertise, and the learning processes that develop it, indicates that engineering education should encompass a set of learning experiences that allow students to construct deep conceptual knowledge, to develop the ability to apply key technical and professional skills fluently, and to engage in a number of authentic engineering projects. Engineering curricula and teaching methods are often not well aligned with these goals. Curriculum‐level instructional design processes should be used to design and implement changes that will improve alignment.

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What is an Engineer? Implications of Elementary School Student Conceptions for Engineering Education

Capobianco

Diefes‐Dux

Mena

et al. 2011

J of Engineering Edu

250

212

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BACKGROUNDResearch in engineering education tends to focus on students' factual knowledge about engineering, their interests and attitudes, and on students' conceptions of the engineer and the relation to curriculum development. Thus, it is essential to expand our understanding of students' conceptions about the engineer phenomenon as the foundation for informing STEM education standards and curriculum. PURPOSE (HYPOTHESIS)The purpose of this study was to investigate students' conceptions about engineers specifically: (1) What are elementary school students' conceptions of an engineer? (2) How might students' conceptions vary by grade level, gender, and community setting? (3) What are implications of students' conceptions for engineering education? DESIGN/METHODThis study was descriptive in nature and reflected a cross-age design involving the collection of qualitative data from about 400 Grade 1 through 5 students from urban and suburban schools located in the Midwest, United States. Data were analyzed using content analysis and statistical testing. RESULTSStudents conceptualized an engineer as a mechanic, laborer, and technician. Students' conceptions entailed the engineer fixing, building, or making and using vehicles, engines, and tools. Students' conceptions were relatively consistent across urban and suburban school communities with the exceptions that laborer was more common among urban students and technician was more common among suburban students. More than half of the students who drew a person drew male engineers. CONCLUSIONSA framework for organizing and interpreting students' conceptions is presented. Curricular recommendations and implications are made that build on students' conceptions and reinforce connections between national standards and the engineer concept.

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Models for early prediction of at-risk students in a course using standards-based grading

Marbouti

Diefes‐Dux

Madhavan

2016

Computers & Education

276

189

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A preliminary validation of Attention, Relevance, Confidence and Satisfaction model‐based Instructional Material Motivational Survey in a computer‐based tutorial setting

Huang

Diefes‐Dux

et al. 2005

Brit J Educational Tech

128

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This paper describes a preliminary validation study of the Instructional Material Motivational Survey (IMMS) derived from the Attention, Relevance, Confidence and Satisfaction motivational design model. Previous studies related to the IMMS, however, suggest its practical application for motivational evaluation in various instructional settings without the support of empirical data. Moreover, there is a lack of discussion regarding the validity of the instrument. Therefore, this study empirically examined the IMMS as a motivational evaluation instrument. A computer-based tutorial setting was selected owing to its wide application in teaching large entry-level college courses. Data collected from 875 subjects were subjected to exploratory and confirmatory factor analyses, and measurement modelling LISREL. Findings suggested that 16 original items should be excluded from the IMMS; the retained 20 items were found to fall into different constructs, indicating that instructional features of the tutorial may influence the validity of the survey items. The implication of the study supports the situational feature of the IMMS. Therefore, a preevaluation adjustment on the IMMS items is recommended to identify suitable items before the full motivational evaluation. Future research should focus on the further validation of the IMMS based on this preliminary evidence.

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