Spaced Repetition Promotes Efficient and Effective Learning

Concern that students in the United States are less proficient in mathematics, science, and reading than their peers in other countries has led some to question whether American students spend enough time in school. Instead of debating the amount of time that should be spent in school (and on schoolwork), this article addresses how the available instructional time might be optimally utilized via the scheduling of review or practice. Hundreds of studies in cognitive and educational psychology have demonstrated that spacing out repeated encounters with the material over time produces superior long-term learning, compared with repetitions that are massed together. Also, incorporating tests into spaced practice amplifies the benefits. Spaced review or practice enhances diverse forms of learning, including memory, problem solving, and generalization to new situations. Spaced practice is a feasible and cost-effective way to improve the effectiveness and efficiency of learning, and has tremendous potential to improve educational outcomes. The article also discusses barriers to adopting spaced practice, recent developments, and their possible implications.

[1]  R. Bjork,et al.  Testing facilitates the regulation of subsequent study time , 2014 .

[2]  R. Bjork,et al.  Learning Concepts and Categories , 2008, Psychological science.

[3]  A. Glenberg,et al.  Component-levels theory of the effects of spacing of repetitions on recall and recognition , 1979, Memory & cognition.

[4]  Sean H. K. Kang,et al.  Learning Painting Styles: Spacing is Advantageous when it Promotes Discriminative Contrast , 2012 .

[5]  Doug Rohrer,et al.  Interleaving Helps Students Distinguish among Similar Concepts , 2012 .

[6]  R. Siegler,et al.  Strategy choice procedures and the development of multiplication skill. , 1988, Journal of experimental psychology. General.

[7]  Thomas C. Toppino,et al.  About Practice: Repetition, Spacing, and Abstraction , 2014 .

[8]  Doug Rohrer,et al.  The shuffling of mathematics problems improves learning , 2007 .

[9]  Matthew G. Rhodes,et al.  Instructor and student knowledge of study strategies , 2016, Memory.

[10]  D. Rohrer,et al.  The benefit of interleaved mathematics practice is not limited to superficially similar kinds of problems , 2014, Psychonomic bulletin & review.

[11]  Henry L. Roediger,et al.  Test format and corrective feedback modify the effect of testing on long-term retention , 2007 .

[12]  Shana K. Carpenter,et al.  The effects of tests on learning and forgetting , 2008, Memory & cognition.

[13]  Nicholas J. Cepeda,et al.  Spacing Effects in Real-World Classroom Vocabulary Learning , 2011 .

[14]  Haley A. Vlach,et al.  Distributing learning over time: the spacing effect in children's acquisition and generalization of science concepts. , 2012, Child development.

[15]  Edward Vul,et al.  PSYCHOLOGICAL SCIENCE Research Article Spacing Effects in Learning A Temporal Ridgeline of Optimal Retention , 2022 .

[16]  A. C. Butler,et al.  The critical role of retrieval practice in long-term retention , 2011, Trends in Cognitive Sciences.

[17]  Harold Pashler,et al.  Using tests to enhance 8th grade students' retention of U.S. history facts , 2009 .

[18]  Jeffrey D. Karpicke,et al.  Retrieval-Based Learning: A Perspective for Enhancing Meaningful Learning , 2012 .

[19]  Sean H. K. Kang The Benefits of Interleaved Practice for Learning , 2016 .

[20]  H. Pashler,et al.  Distributed practice in verbal recall tasks: A review and quantitative synthesis. , 2006, Psychological bulletin.

[21]  D. Balota,et al.  Is Expanded Retrieval Practice a Superior Form of Spaced Retrieval? A Critical Review of the Extant Literature. , 2007 .

[22]  Vito Modigliani,et al.  The effect of expanded versus massed practice on the retention of multiplication facts and spelling lists. , 1985 .

[23]  Walter Kintsch,et al.  Rereading Effects Depend on Time of Test. , 2005 .

[24]  Alice F. Healy,et al.  The Clicker Technique: Cultivating Efficient Teaching and Successful Learning , 2013 .

[25]  John Dunlosky,et al.  Study strategies of college students: Are self-testing and scheduling related to achievement? , 2011, Psychonomic Bulletin & Review.

[26]  Christopher N. Wahlheim,et al.  The role of reminding in the effects of spaced repetitions on cued recall: sufficient but not necessary. , 2014, Journal of experimental psychology. Learning, memory, and cognition.

[27]  Robert A. Bjork,et al.  Optimizing retrieval as a learning event: When and why expanding retrieval practice enhances long-term retention , 2010, Memory & cognition.

[28]  E. Thoma,et al.  Talks to Teachers on Psychology and to Students on Some of Life's Ideals , 1967 .

[29]  Melody Wiseheart,et al.  Spacing in a simulated undergraduate classroom: Long-term benefits for factual and higher-level learning , 2015 .

[30]  J. P. Slavinsky,et al.  Integrating Cognitive Science and Technology Improves Learning in a STEM Classroom , 2014 .

[31]  Andrew C Butler,et al.  Repeated testing produces superior transfer of learning relative to repeated studying. , 2010, Journal of experimental psychology. Learning, memory, and cognition.

[32]  Steve Bird,et al.  Effects of distributed practice on the acquisition of second language English syntax , 2010, Applied Psycholinguistics.

[33]  Harold Pashler,et al.  Effects of testing on learning of functions , 2011, Psychonomic bulletin & review.

[34]  Slava Kalyuga Expertise Reversal Effect and Its Implications for Learner-Tailored Instruction , 2007 .

[35]  Teal S Eich,et al.  Spacing as the friend of both memory and induction in young and older adults. , 2010, Psychology and aging.

[36]  E. Bjork,et al.  Why interleaving enhances inductive learning: The roles of discrimination and retrieval , 2013, Memory & cognition.

[37]  Kelli M Taylor,et al.  The effects of overlearning and distributed practise on the retention of mathematics knowledge , 2006 .

[38]  Jeffrey A. Greene,et al.  Serious challenges require serious scholarship: Integrating implementation science into the scholarly discourse , 2015 .

[39]  Nate Kornell,et al.  Optimising Learning Using Flashcards: Spacing Is More Effective Than Cramming , 2009 .

[40]  D. Rohrer The effects of spacing and mixing practice problems , 2009 .

[41]  Janet Metcalfe,et al.  People mind wander more during massed than spaced inductive learning. , 2016, Journal of experimental psychology. Learning, memory, and cognition.

[42]  D. Lortie,et al.  Schoolteacher: A Sociological Study , 1976 .

[43]  H. P. Bahrick Maintenance of knowledge: Questions about memory we forgot to ask. , 1979 .

[44]  Kate Gordon Class results with spaced and unspaced memorizing. , 1925 .

[45]  A. Magliero Pupil dilations following pairs of identical and related to-be-remembered words , 1983, Memory & cognition.

[46]  John Dunlosky,et al.  Improving Students’ Learning With Effective Learning Techniques: Promising Directions From Cognitive and Educational Psychology , 2012 .

[47]  Richard E. Mayer,et al.  The sequencing of instruction and the concept of assimilation-to-schema , 1977 .

[48]  Sarah K. Tauber,et al.  When Confidence Is Not a Signal of Knowing: How Students’ Experiences and Beliefs About Processing Fluency Can Lead to Miscalibrated Confidence , 2015 .

[49]  K. McDermott,et al.  Free recall enhances subsequent learning , 2013, Psychonomic bulletin & review.

[50]  Robert V. Lindsey,et al.  Improving Students’ Long-Term Knowledge Retention Through Personalized Review , 2014, Psychological science.

[51]  Robert L. Goldstone,et al.  Putting category learning in order: Category structure and temporal arrangement affect the benefit of interleaved over blocked study , 2014, Memory & cognition.

[52]  Timothy C. Rickard,et al.  Spacing and the transition from calculation to retrieval , 2008, Psychonomic bulletin & review.

[53]  F. N. Dempster,et al.  The spacing effect: A case study in the failure to apply the results of psychological research. , 1988 .

[54]  Harold Pashler,et al.  Optimizing distributed practice: theoretical analysis and practical implications. , 2009, Experimental psychology.

[55]  Shana K. Carpenter Testing Enhances the Transfer of Learning , 2012 .

[56]  J. McCabe,et al.  From the lab to the dorm room: metacognitive awareness and use of spaced study , 2013 .

[57]  Doug Rohrer,et al.  The effects of interleaved practice , 2010 .

[58]  Robert A. Bjork,et al.  Optimum rehearsal patterns and name learning , 1978 .

[59]  Catherine M. Sandhofer,et al.  Spacing Simultaneously Promotes Multiple Forms of Learning in Children's Science Curriculum , 2014 .

[60]  R. Mayer Rote Versus Meaningful Learning , 2002 .

[61]  Ben Jensen,et al.  Catching up: learning from the best school systems in East Asia , 2012 .

[62]  Patrícia Santos,et al.  Education at a Glance 2014: OECD Indicators , 2014 .

[63]  Shana K. Carpenter,et al.  Using Spacing to Enhance Diverse Forms of Learning: Review of Recent Research and Implications for Instruction , 2012 .

[64]  Doug Rohrer,et al.  Interleaved Practice Improves Mathematics Learning. , 2014 .

[65]  Harold Pashler,et al.  Retrieval practice over the long term: Should spacing be expanding or equal-interval? , 2014, Psychonomic bulletin & review.