TY - JOUR
T1 - Overcoming screen inferiority in learning and calibration
AU - Lauterman, Tirza
AU - Ackerman, Rakefet
N1 - Funding Information:
The study was supported by a grant from = 80 out of 163) with a reduced scope of analyses were reported in the proceedings of the 35th annual conference of the Cognitive Science Society ( the Israel Science Foundation (Grant No. 957/13 ). Partial data ( N Lauterman & Ackerman, 2013 ). We are grateful to Meira Ben-Gad for editorial assistance.
PY - 2014/6
Y1 - 2014/6
N2 - Metacognitive monitoring that accompanies a learning task reflects self-prediction of achievement at test. Well-calibrated monitoring is important because it is by this subjective assessment that people allocate their learning efforts. Previous studies that compared learning outcomes and calibration of monitoring when learning texts on screen and on paper have found screen inferiority: screen learners performed worse and were more overconfident about their success. However, learning from one's preferred medium was associated with attenuated overconfidence. The present study examined two methods for overcoming screen inferiority in these respects. First, practicing the study-test task allowed overcoming screen inferiority, but only among those who preferred reading from screens. Second, in-depth processing was encouraged by having participants generate keywords at a delay, before monitoring their knowledge and taking the test. This method eliminated screen inferiority even for the first-studied texts, but after practicing it, screen inferiority was re-exposed among those who preferred studying on paper. This study makes a practical contribution to educational practice by suggesting directions for overcoming screen inferiority. From a broader perspective, the study demonstrates that experience with the task and in-depth processing can attenuate overconfidence and that the effectiveness of learning-enhancing methods depends on the study context and learners' preferences.
AB - Metacognitive monitoring that accompanies a learning task reflects self-prediction of achievement at test. Well-calibrated monitoring is important because it is by this subjective assessment that people allocate their learning efforts. Previous studies that compared learning outcomes and calibration of monitoring when learning texts on screen and on paper have found screen inferiority: screen learners performed worse and were more overconfident about their success. However, learning from one's preferred medium was associated with attenuated overconfidence. The present study examined two methods for overcoming screen inferiority in these respects. First, practicing the study-test task allowed overcoming screen inferiority, but only among those who preferred reading from screens. Second, in-depth processing was encouraged by having participants generate keywords at a delay, before monitoring their knowledge and taking the test. This method eliminated screen inferiority even for the first-studied texts, but after practicing it, screen inferiority was re-exposed among those who preferred studying on paper. This study makes a practical contribution to educational practice by suggesting directions for overcoming screen inferiority. From a broader perspective, the study demonstrates that experience with the task and in-depth processing can attenuate overconfidence and that the effectiveness of learning-enhancing methods depends on the study context and learners' preferences.
KW - E-learning
KW - Human-computer interaction
KW - Metacognitive monitoring
KW - Metacomprehension
KW - Overconfidence
KW - Reading comprehension
UR - http://www.scopus.com/inward/record.url?scp=84898077453&partnerID=8YFLogxK
U2 - 10.1016/j.chb.2014.02.046
DO - 10.1016/j.chb.2014.02.046
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AN - SCOPUS:84898077453
SN - 0747-5632
VL - 35
SP - 455
EP - 463
JO - Computers in Human Behavior
JF - Computers in Human Behavior
ER -