Candice M. Burkett
University of Memphis
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Featured researches published by Candice M. Burkett.
Archive | 2010
Roger Azevedo; Amy M. Johnson; Amber Chauncey; Candice M. Burkett
The key to understanding complex learning with advanced learning technologies (e.g., hypermedia) lies in our ability to comprehend the temporal deployment of students’ cognitive, metacognitive, motivational, and affective processes. Our chapter will focus on critically analyzing the use of mixed-method approaches to analyze the complex nature of self-regulated learning (SRL) during hypermedia learning. We will use examples from our own research (e.g., Azevedo 2008, Recent innovations in educational technology that facilitate student learning (pp. 127–156); Azevedo & Witherspoon, in press, Handbook of metacognition in education) and that of others (e.g., Biswas et al., 2005; Schwartz et al., in press; Winne & Nesbitt, in press, Handbook of metacognition in education) to present and discuss the strengths and weaknesses in using mixed methods to capture, model, trace, and infer the unfolding SRL processes during learning with nonlinear, multirepresentational computerized environments. The chapter will focus on the methods, and quantitative and qualitative analyses used to converge product data (e.g., learning outcomes), process data (e.g., think-aloud data), and log-file data collected during learning, develop coding schemes to categorize and infer the deployment of SRL processes, and the use of computational tools to examine learners’ behaviors and navigation paths. Lastly, we will present a theoretical model that integrates the various topics presented in this chapter that will guide future research and educational practices for fostering students’ SRL with hypermedia environments.
Archive | 2018
Sally Blake; Candice M. Burkett
A safety cap for aerosol spray cans having a passage to afford access by an adults index finger or middle finger to aerosol can valve actuation means. The cap is configured such that it does not protrude beyond an extension of the cylindrical surface defined by the aerosol can.
national conference on artificial intelligence | 2010
Roger Azevedo; Amy M. Johnson; Candice M. Burkett; Amber Chauncey; Mihai C. Lintean; Zhiqiang Cai; Vasile Rus
Archive | 2010
Zelda McMurtry; Candice M. Burkett
Archive | 2018
Sally Blake; Candice M. Burkett
Archive | 2018
Sally Blake; Candice M. Burkett
Archive | 2018
Sally Blake; Candice M. Burkett
Archive | 2018
Sally Blake; Candice M. Burkett
Archive | 2018
Sally Blake; Candice M. Burkett
Archive | 2018
Sally Blake; Candice M. Burkett