Keith R. Bujak scite author profile

The performance of over 5000 students in introductory calculus-based mechanics courses at the Georgia Institute of Technology was assessed using the Force Concept Inventory (FCI). Results from two different curricula were compared: a traditional mechanics curriculum and the Matter & Interactions (M&I) curriculum. Post-instruction FCI averages were significantly higher for the traditional curriculum than for the M&I curriculum; the differences between curricula persist after accounting for factors such as pre-instruction FCI scores, grade point averages, and SAT scores. FCI performance on categories of items organized by concepts was also compared; traditional averages were significantly higher in each concept. We examined differences in student preparation between the curricula and found that the relative fraction of homework and lecture topics devoted to FCI force and motion concepts correlated with the observed performance differences. Limitations of concept inventories as instruments for evaluating curricular reforms are discussed.Each year more than 35% of American college and university students enroll in a physics course. 1 Only a small fraction of these students ultimately complete a degree in physics; the vast majority pursue a degree in engineering or another science. 2 Many are students in an introductory physics course; approximately 175,000 students each year enroll in introductory calculus-based physics. 3 However, many of these students fail to acquire an effective understanding of concepts, principles, and methods from these introductory courses. Rates of failure and withdrawal from these courses are often high and substantial research into this subject has shown that students' misconceptions in physics persist after instruction. 4,5 This paper describes an attempt to evaluate, using a multiple-choice concept inventory, 6 a reformed introductory mechanics curriculum 7 which aims to mitigate these issues by altering the goals and content (i.e., the curriculum) of the typical mechanics course.To help improve student learning in physics, many new methods of content delivery (pedagogy) have been developed in recent years. Typically, these methods have been implemented with little change to course curricula. Well established pedagogical modifications now used widely include tutorials, 8 clicker questions, 9 peer instruction, 10 Socratic tutorial homework systems, 11 multiple representations of concepts and principles, 12 and reconfigurations of the instructional environment. 13 There is ample evidence that students who experience these pedagogical reforms perform better on end-of-course concept inventories than students in passive lecture courses. Concept inventories are useful tools to make such comparisons in these cases where all courses (with and without pedagogical reform) share, for the most part, the same core content and goals.By contrast, there is sparse research on how student learning is affected by substantial alterations to the goals and content (curriculum) of introductory physics cours...

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The Evolving University: Disruptive Change and Institutional Innovation

Baker

Bujak

DeMillo

2012

Procedia Computer Science

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This conceptual paper extends the traditional view of disruptive change, which considers the effects of rivalry between an incumbent and new entrant firm, by examining the impact of disruption upon the 'innovation ecosystem' in its entirety-the group of organisations that collaborate in creating a holistic value proposition for the end-user. Following Adner's "ecosystem-as-structure" perspective, we develop propositions that anticipate structural differences between incumbent and disruptive innovation ecosystems, and then review these propositions in the context of three historical, disruptive innovation cases; Bakelite (a synthetic plastic), microwave oven, and photocopier. Through these cases, we illustrate that the manner of innovation ecosystem reconfiguration is likely to depend on the design attributes of the product, as well as the type of disruption experienced. We conclude by reflecting upon contemporary cases of disruption enabled through digital technologies, and proposing a framework that can guide future research.

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Room to Grow: Enhancing Learning by Supporting Autonomy

Rudiger¹,

Spencer²,

Bujak³

2013

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Leaving the Lecture Hall

Fausset¹,

Bujak²,

Kline³

et al. 2012

Ergonomics in Design: The Quarterly of Human Factors Applicatio

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Georgia Tech HF/E students initiated and managed a multisemester project to experience the nuances of conducting HF/E outside the classroom setting. This article focuses on the lessons learned beyond the classroom: project management, team coordination, communication with non-HF/E team members, application of research methods, and integration of data to prioritize and guide design changes. The goal of this article is to help guide other HF/E students and educators when implementing similar projects by providing the lessons we learned from this experience.

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Keith R. Bujak

A psychological perspective on augmented reality in the mathematics classroom

Comparing large lecture mechanics curricula using the Force Concept Inventory: A five thousand student study

The Evolving University: Disruptive Change and Institutional Innovation

Room to Grow: Enhancing Learning by Supporting Autonomy

Leaving the Lecture Hall

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