Prompting in Web-Based Environments: Supporting Self-Monitoring and Problem Solving Skills in College Students

Kauffman, Douglas F.; Ge, Xun; Xie, Kui; Chen, Ching‐Huei

doi:10.2190/ec.38.2.a

Cited by 93 publications

(63 citation statements)

References 33 publications

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“…In order to facilitate learning, several different and very specific prompts may be employed that focus on problem-solving [15] general instruction [5], self-explanation [16], or encouraging recall, reasoning, or observation [5]. Prompts can serve multiple functions and can focus on cognitive learning processes, metacognitive self-regulation, and resource management [17].…”

Section: Prompting For Improved Self-regulationmentioning

confidence: 99%

“…In addition, it would be interesting examining additive or inhibitive effects between prompts. The latter was outside the remit of the current study but Kauffman and colleagues [15] may be a good starting point; And fifth, relying on null hypothesis testing [46] and adherence to p-values as the determinants of what may be considered meaningful has not only been criticized by leading statisticians [47] but may also be a suboptimal approach to optimize prompting. For example, Reisslein [48] explored different prompt formats and presentation effects.…”

Section: Limitations and Future Researchmentioning

confidence: 99%

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Assessing Efficiency of Prompts Based on Learner Characteristics

et al. 2017

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Abstract:Personalized prompting research has shown the significant learning benefit of prompting. The current paper outlines and examines a personalized prompting approach aimed at eliminating performance differences on the basis of a number of learner characteristics (capturing learning strategies and traits). The learner characteristics of interest were the need for cognition, work effort, computer self-efficacy, the use of surface learning, and the learner's confidence in their learning. The approach was tested in two e-modules, using similar assessment forms (experimental n = 413; control group n = 243). Several prompts which corresponded to the learner characteristics were implemented, including an explanation prompt, a motivation prompt, a strategy prompt, and an assessment prompt. All learning characteristics were significant correlates of at least one of the outcome measures (test performance, errors, and omissions). However, only the assessment prompt increased test performance. On this basis, and drawing upon the testing effect, this prompt may be a particularly promising option to increase performance in e-learning and similar personalized systems.

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Section: Prompting For Improved Self-regulationmentioning

confidence: 99%

Section: Limitations and Future Researchmentioning

confidence: 99%

Assessing Efficiency of Prompts Based on Learner Characteristics

et al. 2017

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“…The students inexperienced about problem-based learning needed much guidance during this process [28,29,30,49]. PBCAM was developed with the support of guiding questions to direct the problem solving processes of the students and structure their scientific argumentation during this process.…”

Section: Problem-based Computer-aided Materials Student Recordsmentioning

confidence: 99%

“…3. Teachers having problems in terms of directing the process of problem based learning [27,28,29,30]. 4.…”

Section: Introductionmentioning

confidence: 99%

High School Students' Written Argumentation Qualities with Problem-Based Computer-Aided Material (PBCAM) Designed about Human Endocrine System

Vekli¹,

Çimer²

2017

ujer

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This study investigated development of students' scientific argumentation levels in the applications made with Problem-Based Computer-Aided Material (PBCAM) designed about Human Endocrine System. The case study method was used: The study group was formed of 43 students in the 11th grade of the science high school in Rize. Human Endocrine System Argumentation Texts (HESAT) was used to determine the students' scientific argumentation levels made before and after the applications with PBCAM. Besides, "PBCAM Student Records" were investigated to determine students' scientific argumentation levels on three different problems in relation to Human Endocrine System during the applications with PBCAM. Within the scope of the research problem, semi-structured interviews were made with 10 students among the participants after the application as well. Students' scientific argumentation levels were assessed with a rubric prepared by one of researchers within the framework of the scientific discussion model Sampson and Clark [1]. The qualitative results indicated that: applications made with PBCAM improved students' skills for presenting claims, proofs, reasoning and conceptual quality of the claims in scientific argumentation. Also, it was seen that "the Observation" section presented as a source of information in the PBCAM was effective on improving students' conceptual understanding. From this point of view, similar applications can be used also in teaching other biology subjects similar to endocrine system topic, which does not provide opportunities to conduct experiments and observations and which is hard to understand.

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“…These benefits include longer term retention and deeper understanding of science concepts (Blank 2000, Georghiades 2000, 2004, greater flexibility and innovation in how knowledge is learned and applied (Rickey andStacy 2000, Rosencwajg 2003), improvement in reading comprehension (Loper and Murphy 1985, Brown and Palincsar 1989, Gourgey 2001 including reading on science topics (Yore et al 1998, Koch 2001, improvement in academic achievement (Loper andMurphy 1985, Brown andPalincsar 1989), and increase in problem-solving ability (Carr and Jessup 1996, Stillman and Galbraith 1998, Zan 2000, Pugalee 2001, Schurter 2002, Kauffman et al 2008.…”

Section: Settings (Reviewed In Dignath and Büttner 2008)mentioning

confidence: 99%

Metacognitive learning in the ecology classroom: A tool for preparing problem solvers in a time of rapid change?

et al. 2016

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Abstract. Building communities that are resilient and adaptive to climate change requires the development of education strategies that train community members in higher order thinking skills that can be used to solve complex environmental problems. This study provides an empirical test of hypotheses within social-ecological systems resilience theory that have suggested metacognitive learning strategies could increase resilience thinking skills such as scenarios thinking, systems thinking, and the ability to interpret and apply ecological data in complex problem solving. During a 6-week long ecology unit with 108 seventh-grade students, we taught half the students using standard inquiry teaching methods and the other half using the same method, with the addition of a daily metacognitive learning intervention. We investigated the short-term (after six weeks of intervention) and long-term (1 yr after the intervention ended) effects of the intervention on student's metacognitive ability and resilience thinking skills. Over the long term, we found a modest increase in the metacognitive ability of students who received the daily metacognitive journaling exercise. Interview data suggest that the structured metacognitive practice did most to improve the resilience thinking level of students who had low resilience thinking ability prior to the intervention period. However, the interaction between pre-treatment ability level and the treatment group was not detected in the written assessment data. These data suggest that the metacognitive learning intervention we used can benefit metacognitive ability over the long term, but has limited transferability to resilience thinking skills for most students. We suggest additional instructional practices for implementing metacognitive teaching approaches that could enhance the generalizability of their benefits across resilience thinking skills and student's ability levels.

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Prompting in Web-Based Environments: Supporting Self-Monitoring and Problem Solving Skills in College Students

Cited by 93 publications

References 33 publications

Assessing Efficiency of Prompts Based on Learner Characteristics

Assessing Efficiency of Prompts Based on Learner Characteristics

High School Students' Written Argumentation Qualities with Problem-Based Computer-Aided Material (PBCAM) Designed about Human Endocrine System

Metacognitive learning in the ecology classroom: A tool for preparing problem solvers in a time of rapid change?

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