Examining the Generality of Self-Explanation

Wylie, Ruth

01 September 2011

Prompting students to self-explain during problem solving has proven to be an effective instructional strategy across many domains. However, despite being called “domain general”, very little work has been done in areas outside of math and science. In this dissertation, I investigate whether the self-explanation effect holds when applied in an inherently different type of domain, second language grammar learning. Through a series of in vivo experiments, I tested the effects of using prompted self-explanation to help adult English language learners acquire the English article system (e.g., teaching students the difference between “I saw a dog” versus “I was the dog”). In the pilot study, I explored different modalities of self-explanation (free-form versus menu-based), and in Study 1, I looked at transfer effects between practice and self-explanation. In the studies that followed, I added an additional deep processing manipulation (Study 2: analogical comparisons) and a strategy designed to increase the rate of practice and information processing (Study 3: worked example study). Finally, in Study 4, I built and evaluated an adaptive self-explanation tutor that prompted students to self-explain only when estimates of prior knowledge were low. Across all studies, results show that self-explanation is an effective instructional strategy in that it leads to significant pre- to post-test learning gains, but it is inefficient compared to tutored practice. In addition to learning gains, I compared learning process data and found that both self-explanation and practice lead to similar patterns of learning and there was no evidence in support of individual differences. This work makes contributions to learning sciences, second language acquisition (SLA), and tutoring system communities. It contributes to learning sciences by demonstrating boundary conditions of the self-explanation effect and cautioning against broad generalizations for instructional strategies, suggesting instead that strategies should be aligned to target knowledge. This work contributes to second language acquisition theory by demonstrating the effectiveness of computer-based tutoring systems for second language grammar learning and providing data that supports the benefits of explicit instruction. Furthermore, this work demonstrates the relative effectiveness of a broad spectrum of explicit learning conditions. Finally, this work makes contributions to tutoring systems research by demonstrating a process for data-driven and experiment-driven tutor design that has lead to significant learning gains and consistent adoption in real classrooms.

Prompted self-explanation

tutored practice

worked examples

analogical comparisons

second language acquisition

English article system

educational technology

computer-assisted language learning

Improving Students’ Study Practices Through the Principled Design of Research Probes

Aleahmad, Turadg

07 May 2012

A key challenge of the learning sciences is moving research results into practice. Educators on the front lines perceive little value in the outputs of education research and demand more “usable knowledge”. This work explores the potential instead of usable artifacts to translate knowledge into practice, adding scientists as stakeholders in an interaction design process. The contributions are two effective systems, the scientific and contextual principles in their design, and a research model for scientific research through interaction design. College student study practices are the domain chosen for the development of these methods. Iterative ethnographic fieldwork identified two systems that would be likely to advance both learning in practice and knowledge for applying the employed theories in general. Nudge was designed to improve students’ study time management by regularly emailing students with explicit recommended study activities. It reconceptualizes the syllabus into an interactive guide that fits into modern students' attention streams. Examplify was designed to improve how students learn from worked example problems by modularizing them into steps and scaffolding their metacognitive behaviors though problem-solving and self-explanation prompts. It combines these techniques in a way that is exceedingly easy to author, using existing answer keys and students' self-evaluations. Nudge and Examplify were evaluated experimentally over a full semester of a lecture-based introductory chemistry course. Nudge messages increased students’ sense of achievement and interacted with students’ existing time management skills to improve exam grades for poorer students. Among students who could choose whether to receive them, 80% did. Students with access to Examplify had higher exam scores (d=0.26), especially on delayed measures of learning (d=0.40). A key design decision in Examplify was not clearly resolvable by existing theory and so was tested experimentally by comparing two variants, one without prompts to solve the steps. The variant without problem solving was less effective (d=0.77) and less used, while usage rates of the variant with problem solving increased over time. These results support the use of the design methods employed and provide specific empirical recommendations for future designs of these and similar systems for implementing theory in practice.

Research through design

design-based research

learning sciences

usable knowledge

procrastination

time management

achievement goals

metacognition

testing effect

cognitive load theory

worked examples

prompted self-explanation

operant probe

in vivo experimentation

educational technology.

Graphics and Human Computer Interfaces

Investigating the effect of implementing a context-based problem solving instruction on learners' performance

Dhlamini, Joseph Jabulane

11 1900

The aim of this study was to investigate the effect of context-based problem solving instruction (CBPSI) on the problem solving performance of Grade 10 learners, who performed poorly in mathematics. A cognitive load theory (CLT) was used to frame the study. In addition, CLT was used to: 1) facilitate the interpretation and explanation of participants‟ problem solving performance; and, 2) influence the design of CBPSI to hone participants‟ problem solving skills. The study was conducted in the Gauteng province of South Africa and involved a two-week intervention program in each of the nine participating high schools. Participants consisted of 783 learners and four Grade 10 mathematics teachers. A non-equivalent control group design was employed, consisting of a pre- and post- measure. In addition, classroom observations and semi-structured interviews were conducted with teachers and learners. Teachers employed conventional problem solving instructions in four control schools while the researcher implemented CBPSI in five experimental schools. Instruction in experimental schools entailed several worked-out context-based problem solving examples given to participants in worksheets. The main aspects of CBPSI embraced elements of the effects of self-explanation and split-attention, as advocated by CLT. Due to the design of CBPSI participants in experimental schools became familiar with the basic context-based problem solving tasks that were presented to them through the worked-out example samples. In turn, the associated cognitive load of problem solving tasks was gradually reduced. The principal instrument for data collection was a standardized Functional Mathematics Achievement Test. The pre-test determined participants‟ initial problem solving status before intervention. A post-test was given at the end of intervention to benchmark change in the functionality of CBPSI over a two-week period. Using one-way analysis of covariance (ANCOVA), Analysis of Variance (ANOVA), and other statistical techniques the study found that participants in experimental schools performed significantly better than participants in control schools on certain aspects of problem solving performance. In addition, semi-structured interviews and classroom observations revealed that participants rated CBPSI highly. On the whole, the study showed that CBPSI is an effective instructional tool to enhance the problem solving performance of Grade 10 mathematics learners. / Mathematics Education / D. Phil. (Mathematics, Science and Technology Education)

Problem solving skills

Real-life context

Conventional problem solving instruction

Disadvantaged socioeconomic background

Cognitive load theory

Human cognitive architecture

Worked-out examples

Self-explanation

Split-attention

510.7126822

Investigating the effect of implementing a context-based problem solving instruction on learners' performance

Dhlamini, Joseph Jabulane

11 1900

The aim of this study was to investigate the effect of context-based problem solving instruction (CBPSI) on the problem solving performance of Grade 10 learners, who performed poorly in mathematics. A cognitive load theory (CLT) was used to frame the study. In addition, CLT was used to: 1) facilitate the interpretation and explanation of participants‟ problem solving performance; and, 2) influence the design of CBPSI to hone participants‟ problem solving skills. The study was conducted in the Gauteng province of South Africa and involved a two-week intervention program in each of the nine participating high schools. Participants consisted of 783 learners and four Grade 10 mathematics teachers. A non-equivalent control group design was employed, consisting of a pre- and post- measure. In addition, classroom observations and semi-structured interviews were conducted with teachers and learners. Teachers employed conventional problem solving instructions in four control schools while the researcher implemented CBPSI in five experimental schools. Instruction in experimental schools entailed several worked-out context-based problem solving examples given to participants in worksheets. The main aspects of CBPSI embraced elements of the effects of self-explanation and split-attention, as advocated by CLT. Due to the design of CBPSI participants in experimental schools became familiar with the basic context-based problem solving tasks that were presented to them through the worked-out example samples. In turn, the associated cognitive load of problem solving tasks was gradually reduced. The principal instrument for data collection was a standardized Functional Mathematics Achievement Test. The pre-test determined participants‟ initial problem solving status before intervention. A post-test was given at the end of intervention to benchmark change in the functionality of CBPSI over a two-week period. Using one-way analysis of covariance (ANCOVA), Analysis of Variance (ANOVA), and other statistical techniques the study found that participants in experimental schools performed significantly better than participants in control schools on certain aspects of problem solving performance. In addition, semi-structured interviews and classroom observations revealed that participants rated CBPSI highly. On the whole, the study showed that CBPSI is an effective instructional tool to enhance the problem solving performance of Grade 10 mathematics learners. / Mathematics Education / D. Phil. (Mathematics, Science and Technology Education)

Problem solving skills

Real-life context

Conventional problem solving instruction

Disadvantaged socioeconomic background

Cognitive load theory

Human cognitive architecture

Worked-out examples

Self-explanation

Split-attention

510.7126822

Är worked examples användbara inom biologi-undervisning? / Are worked examples useful within biology education?

Claesson, Olle

January 2023

För att lyckas lösa problem och använda kunskap behöver en person först ha lärt sig grundläggande kunskap om problemområdet. Sådant lärande kräver att den lärandes arbetsminne inte överbelastas med oändamålsenlig information. Studien undersöker effekten av lärandetekniken worked examples, som visats vara effektiv för att inte överbelasta arbetsminnet inom ämnen som fysik och matematik. Worked examples kommer från cognitive load theory och här undersöks teknikens effekt inom biologiundervisning, med fokus på ämnesområdet ekologi. Högstadieelevers kunskap inom ekologi mättes, varpå de inom undervisning antingen arbetade med worked examples eller instuderingsfrågor. Därefter mättes deras kunskapsnivå återigen, för att på så vis jämföra metodernas effekt på deltagarnas lärande. Elever som lärts med worked examples visade på en större kunskapsutveckling gällande snarlika uppgifter som de övat på, medan kunskapsutveckling för frågor med andra lösningsmetoder gav tvetydigt resultat. Tekniken worked examples har härmed visats sig vara en användbar teknik inom ämnesområdet ekologi inom biologiundervisningen. Den kan med fördel användas under initial-inlärningsfas inom biologiämnet för att hjälpa elever förvärva kunskap.

Cognitive load

Cognitive load theory

Example-problem pair

Extraneous cognitive load

Fading

Germane cognitive load

Intrinsic cognitive load

Long term memory

Transfer

Self-explanation effect

Worked examples

Working memory

Arbetsminne

Avtagande

Exempel-problem par

Extern kognitiv belastning

Genomarbetade exempel

Inneboende kognitiv belastning

Kognitiv belastning

Kognitiv belastnings teori

Långtidsminne

Relevant kognitiv belastning

Självförklarande-effekten

Överföring

Didactics

Didaktik

Learning

Lärande

Pedagogy

Pedagogik

Biological Sciences

Biologiska vetenskaper