Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/eliciting-self-explanations-improves-understanding-kJHNsWS0UW
References (50)
-
(1993)
Students beliefs about the circulatory system: Are misconceptions universal? Proceedings of the 15th Annual Conference of rhe Cognitive Science Society -
Mitchell Nathan (1994)
Learning through Self-Explanation of Mathematics Examples: Effects of Cognitive Load. -
P. Pirolli, M. Recker (1994)
Learning Strategies and Transfer in the Domain of ProgrammingCognition and Instruction, 12
-
J. Dole, Sheila Valencia, E. Greer, James Wardrop (1991)
Effects of Two Types of Prereading Instruction on the Comprehension of Narrative and Expository Text.Reading Research Quarterly, 26
-
(1992)
The role of adaptation and understanding in knowledge-building communities. Paper presented at conference of NATO Advanced Science Institute -
M. Chi (1987)
Self-Explanations: How Students Study and Use Examples in Learning To Solve Problems. Technical Report No. 9. -
K. VanLehn, Randolph Jones (1993)
What Mediates the Self-explanation Eeect? Knowledge Gaps, Schemas or Analogies? -
Reading Research Quarterly -
F. Wilkening, Johannes Becker, T. Trabasso (1980)
Information integration by children -
M. Chi, J. Slotta (1993)
The Ontological Coherence of Intuitive PhysicsCognition and Instruction, 10
-
J. Hawkins, R. Pea (1987)
TOOLS FOR BRIDGING THE CULTURES OF EVERYDAY AND SCIENTIFIC THINKINGJournal of Research in Science Teaching, 24
-
J. Danks, K. Ericsson, Herbert Simon (1984)
Protocol Analysis: Verbal Reports as Data -
N. Slamecka, P. Graf (1978)
The Generation Effect: Delineation of a PhenomenonJournal of Experimental Psychology: Human Learning & Memory, 4
-
D. Kuhn (1972)
Mechanisms of Change in the Development of Cognitive Structures.Child Development, 43
-
(1994)
Analyzing the content of verbal data to represent knowledge: A practical guide -
M. Chi (1993)
Barriers to Conceptual Change in Learning Science Concepts: A Theoretical Conjecture -
S. Goldman, R. Durán (1988)
Answering questions from oceanography texts: Learner, task, and text characteristicsDiscourse Processes, 11
-
Evelyn Ng, C. Bereiter (1991)
Three Levels of Goal Orientation in LearningThe Journal of the Learning Sciences, 1
-
Chi Chi, Slotta Slotta (1993)
The ontological coherence of intuitive physics. Commentary on A. diSessa's “Toward an epistomology of physics.”Cognition and Instruction, 10
-
S. Ohlsson (1992)
The cognitive skill of theory articulation: A neglected aspect of science education?Science & Education, 1
-
John Haugeland (1978)
The nature and plausibility of CognitivismBehavioral and Brain Sciences, 1
-
R. Glaser (1978)
Advances in Instructional Psychology -
D. Klahr, K. Dunbar (1988)
Dual Space Search During Scientific ReasoningCogn. Sci., 12
-
Strategy training in self-explanation and selfregulation strategies for learning computer programming -
(1983)
Assumptions and ambiguities -
M. Chi, M. Bassok, Matthew Lewis, P. Reimann, R. Glaser (1989)
Self-Explonations: How Students Study and Use Examples in Learning to Solve ProblemsCogn. Sci., 13
-
Katerine Bielaczyc, P. Pirolli, Ann Brown (1995)
Training in Self-Explanation and Self-Regulation Strategies: Investigating the Effects of Knowledge Acquisition Activities on Problem SolvingCognition and Instruction, 13
-
K. VanLehn, Randolph Jones, M. Chi (1992)
A model of the self-explanation effect.The Journal of the Learning Sciences, 2
-
I. Asimov, H. Najarian, B. Commoner (1961)
Modern Biology.Science, 134 3484
-
Blood flows from the heart to the body in arteries. 2. Blood flows from the body to the heart in veins. 3. The body used the " clean " blood in some way, rendering it unclean -
(1992)
Reflection through explanation. Paper presented at the American Educational Research Association meeting, San Francisco -
(1980)
Toward a taxonomy of inferences for story comprehension -
W. Doise, G. Mugny, Anne-Nelly Perret-Clermont (1975)
Social interaction and the development of cognitive operationsEuropean Journal of Social Psychology, 5
-
F. Marton, R. Säljö (1976)
ON QUALITATIVE DIFFERENCES IN LEARNING: I—OUTCOME AND PROCESS*British Journal of Educational Psychology, 46
-
M. Chi, J. Slotta, N. Leeuw (1994)
From things to processes: A theory of conceptual change for learning science conceptsLearning and Instruction, 4
-
A. Graesser, J. Black (1985)
The Psychology of Questions -
R. Glaser, L. Resnick (2018)
Knowing, Learning, and Instruction -
R. Zajonc (1960)
The process of cognitive tuning in communication.Journal of abnormal and social psychology, 61
-
Nigel Goddard (1993)
Proceedings of the 15th Annual Conference of the Cognitive Science Society -
J. Lemke (1990)
Talking Science: Language, Learning, and Values -
H. Walberg (1991)
Knowing, Learning, and Instruction: Essays in Honor of Robert Glaser.Psyccritiques, 36
-
Isabel Beck, Margaret McKeown, G. Sinatra, Jane Loxterman (1991)
Revising Social Studies Text from a Text-Processing Perspective: Evidence of Improved Comprehensibility.Reading Research Quarterly, 26
-
D. Russell, L. Kelley (1991)
Using IDE in Instructional Design: Encouraging Reflective Instruction Design Through Automated Design Tools. -
M. Chi (1992)
Conceptual Change within and across Ontological Categories: Examples from Learning and Discovery in Science -
M. Chi, K. VanLehn (1991)
The Content of Physics Self-ExplanationsThe Journal of the Learning Sciences, 1
-
F. Marton, R. Säljö (2013)
On qualitative differences in learning -
A. King (1994)
Guiding Knowledge Construction in the Classroom: Effects of Teaching Children How to Question and How to Explain, 31
-
M. Ferguson-Hessler, T. Jong (1990)
Studying Physics Texts: Differences in Study Processes Between Good and Poor PerformersCognition and Instruction, 7
-
M. Polson, J. Richardson (1988)
Foundations of intelligent tutoring systems -
N. Webb (1989)
Peer interaction and learning in small groupsInternational Journal of Educational Research, 13
- Publisher
- Wiley
- Copyright
- © 1994 Cognitive Science Society, Inc.
- ISSN
- 0364-0213
- eISSN
- 1551-6709
- DOI
- 10.1207/s15516709cog1803_3
- Publisher site
- See Article on Publisher Site
Abstract
Learning involves the integration of new information into existing knowledge. Generating explanations to oneself (self‐explaining) facilitates that integration process. Previously, self‐explanation has been shown to improve the acquisition of problem‐solving skills when studying worked‐out examples. This study extends that finding, showing that self‐explanation can also be facilitative when it is explicitly promoted, in the context of learning declarative knowledge from an expository text. Without any extensive training, 14 eighth‐grade students were merely asked to self‐explain after reading each line of a passage on the human circulatory system. Ten students in the control group read the same text twice, but were not prompted to self‐explain. All of the students were tested for their circulatory system knowledge before and after reading the text. The prompted group had a greater gain from the pretest to the posttest. Moreover, prompted students who generated a large number of self‐explanations (the high explainers) learned with greater understanding than low explainers. Understanding was assessed by answering very complex questions and inducing the function of a component when it was only implicitly stated. Understanding was further captured by a mental model analysis of the self‐explanation protocols. High explainers all achieved the correct mental model of the circulatory system, whereas many of the unprompted students as well as the low explainers did not. Three processing characteristics of self‐explaining are considered as reasons for the gains in deeper understanding.
Journal
Cognitive Science - A Multidisciplinary Journal – Wiley
Published: Jul 1, 1994