Abstract
With advances in digital technology, research-validated self-paced learning tools can play an increasingly important role in helping students with diverse backgrounds become good problem solvers and independent learners. Thus, it is important to ensure that all students engage with self-paced learning tools effectively in order to learn the content deeply, develop good problem-solving skills, and transfer their learning from one context to another. Here we first provide an overview of a holistic framework for engaging students with self-paced learning tools so that they can transfer their learning to solve novel problems. The framework not only takes into account the features of the self-paced learning tools but also how those tools are implemented, the extent to which the tools take into account student characteristics, and whether factors related to students’ social environments are accounted for appropriately in the implementation of those tools. We then describe an investigation in which we interpret the findings using the framework. In this study, a research-validated self-paced physics tutorial was implemented in both controlled one-on-one interviews and in large enrollment, introductory calculus-based physics courses as a self-paced learning tool. We find that students who used the tutorial in a controlled one-on-one interview situation performed significantly better on transfer problems than those who used it as a self-paced learning tool in the large-scale implementation. The findings suggest that critically examining and taking into account how the self-paced tools are implemented and incentivized, student characteristics including their self-regulation and time-management skills, and social and environmental factors can greatly impact the extent and manner in which students engage with these learning tools. Motivating and getting buy-in from students of the value of these tools and providing appropriate support while implementing them is critical for ensuring that students, who otherwise may be constrained by motivational, social, and environmental factors, engage effectively with the tools in order to learn deeply and transfer their learning.
Highlights
We investigated how students engage with a research-validated, self-paced introductory physics tutorial on angular momentum conservation in (1) one-on-one interview settings and (2) a large-scale implementation as a self-paced learning tool in a calculus-based introductory physics course at a large research university in the US and interpreted the findings using the framework described in the preceding section
The researchers focused on four research questions: 1. In the large scale-implementation of the self-paced tutorial, how does the performance of students who worked through the tutorial compare to the performance of students who did not work through the tutorial on a “pre-quiz” problem that is identical to the tutorial problem?
After we found that the tutorial was effective in one-on-one interview settings, it was implemented as a self-paced learning tool as part of a large, calculus-based introductory physics course
Summary
Background: Self-Paced Learning ToolsResearch-validated self-paced learning tools provide a valuable opportunity for personalized learning and can supplement learning even in brick and mortar classrooms (Kulik and Kulik, 1991; Azevedo et al, 2004, 2005; Azevedo, 2005; Allen and Seaman, 2013; Breslow et al, 2013; Colvin et al, 2014; Seaton et al, 2014; Alraimi et al, 2015; Bower et al, 2015; Margaryan et al, 2015). Appropriate use of researchvalidated self-paced adaptive learning tools can be beneficial for under-prepared students and provide a variety of students an opportunity to learn These tools can play a central role in scaffolding student learning, helping them gain a deep understanding of the content (Yalcinalp et al, 1995; McDermott, 1996; Korkmaz and Harwood, 2004; Singh, 2008a; Kohnle et al, 2010; Marshman and Singh, 2015; Sayer et al, 2017), develop their problem-solving, reasoning, and meta-cognitive skills (Reif and Scott, 1999; Singh, 2004; Demetriadis et al, 2008; Singh and Haileselassie, 2010), and facilitate transfer of learning from one context to another (Chi et al, 1994). The ineffective use of these self-paced learning tools can significantly reduce their efficacy and impede transfer of learning to new situations
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