Parent-child interaction and children's learning from a coding application

Abstract Research suggests that children can learn educational concepts from well-designed applications (apps), including foundational science, technology, engineering, and math (STEM) concepts. Parents may be important for promoting children's STEM learning from touchscreen apps, as parents can help their children learn from other media. However, little research has explored how parents and children use coding apps together for learning, and whether specific parent-child interactions in these contexts promote children's learning from apps. Therefore, we observed 31 parents and their 4.5- to 5.0-year old children playing a coding app together and coded for spatial talk, question-asking, task-relevant talk, and responsiveness. Results show that parents and children engaged in high-quality interactions during coding app play, with parents and children exhibiting high responsiveness and task-relevant talk, and parents exhibiting a higher proportion of question-asking and spatial talk compared to their children. Importantly, linear regression analyses show that the dyad's ability to stay on task during the coding task predicts children's learning of coding, while question-asking was a negative predictor of children's learning. These results suggest that coding apps may be a rich context for STEM learning, and that specific parent-child interactions can scaffold their children's learning from STEM apps.

[1]  Drew P. Cingel,et al.  Parent–Child Joint Reading in Traditional and Electronic Formats , 2014 .

[2]  Parent teaching focus and toddlers' learning from an infant DVD , 2010 .

[3]  Marina Umaschi Bers,et al.  What they learn when they learn coding: investigating cognitive domains and computer programming knowledge in young children , 2018, Educational Technology Research and Development.

[4]  Jim Anderson,et al.  Mother—child shared reading with print and digital texts , 2008 .

[5]  Heather L. Kirkorian,et al.  When Seeing Is Better than Doing: Preschoolers’ Transfer of STEM Skills Using Touchscreen Games , 2016, Front. Psychol..

[6]  Danica K. Knight,et al.  Mothers' and fathers' scaffolding of their 2‐year‐olds during problem‐solving and literacy interactions , 1997 .

[7]  A. Bandura Social Foundations of Thought and Action: A Social Cognitive Theory , 1985 .

[8]  D. Laible,et al.  Constructing Emotional and Relational Understanding: The Role of Affect and Mother-Child Discourse , 2006 .

[9]  L. Vygotsky,et al.  The Development of Higher Forms of Attention in Childhood , 1979 .

[10]  Drew P. Cingel,et al.  Predicting Media Use in Very Young Children: The Role of Demographics and Parent Attitudes , 2013 .

[11]  Susan C. Levine,et al.  Intergenerational Effects of Parents’ Math Anxiety on Children’s Math Achievement and Anxiety , 2015, Psychological science.

[12]  Elizabeth McCarthy,et al.  Learning Math with Curious George and the Odd Squad: Transmedia in the Classroom , 2018, Technol. Knowl. Learn..

[13]  Heather L. Kirkorian,et al.  Toddlers' Word Learning From Contingent and Noncontingent Video on Touch Screens. , 2016, Child development.

[14]  R. Barr Memory Constraints on Infant Learning From Picture Books, Television, and Touchscreens , 2013 .

[15]  Marina Umaschi Bers,et al.  ScratchJr demo: a coding language for kindergarten , 2015, IDC.

[16]  J. Carpendale,et al.  The effects of parental scaffolding on preschoolers' executive function. , 2012, Developmental psychology.

[17]  Mitchel Resnick,et al.  Designing ScratchJr: support for early childhood learning through computer programming , 2013, IDC.

[18]  Peter Gerhardstein,et al.  The Ghost in the Touchscreen: Social Scaffolds Promote Learning by Toddlers. , 2017, Child development.

[19]  Eleanor E. Maccoby,et al.  The Role of Parents in the Socialization of Children: An Historical Overview. , 1992 .

[20]  Shannon M. Pruden,et al.  Children's spatial thinking: does talk about the spatial world matter? , 2011, Developmental science.

[21]  N. Newcombe,et al.  Taking shape: supporting preschoolers' acquisition of geometric knowledge through guided play. , 2013, Child development.

[22]  B. Wasik,et al.  Beyond the Pages of a Book: Interactive Book Reading and Language Development in Preschool Classrooms. , 2001 .

[23]  Christopher B. Wolfe,et al.  Which Preschool Mathematics Competencies Are Most Predictive of Fifth Grade Achievement? , 2016, Early childhood research quarterly.

[24]  Heather L. Kirkorian,et al.  Touch or Watch to Learn? Toddlers’ Object Retrieval Using Contingent and Noncontingent Video , 2016, Psychological science.

[25]  Alexis R. Lauricella,et al.  Parent-child interactions during traditional and computer storybook reading for children's comprehension: Implications for electronic storybook design , 2014, Int. J. Child Comput. Interact..

[26]  Kelly Sheehan,et al.  Learning to code via tablet applications: An evaluation of Daisy the Dinosaur and Kodable as learning tools for young children , 2019, Comput. Educ..

[27]  Georgene L. Troseth,et al.  Co-viewing supports toddlers' word learning from contingent and noncontingent video. , 2018, Journal of experimental child psychology.

[28]  A. O'connell,et al.  The influence of early science experience in kindergarten on children's immediate and later science achievement: Evidence from the early childhood longitudinal study† , 2011 .

[29]  Marina Umaschi Bers,et al.  Coding and Computational Thinking in Early Childhood: The Impact of ScratchJr in Europe , 2018, European Journal of STEM Education.

[30]  G. Duncan,et al.  School readiness and later achievement. , 2007, Developmental psychology.

[31]  Kathy Hirsh-Pasek,et al.  Putting Education in “Educational” Apps , 2015, Psychological science in the public interest : a journal of the American Psychological Society.

[32]  Shannon M. Pruden,et al.  Parents’ Spatial Language Mediates a Sex Difference in Preschoolers’ Spatial-Language Use , 2017, Psychological science.

[33]  Brian N. Verdine,et al.  The Shape of Things: The Origin of Young Children’s Knowledge of the Names and Properties of Geometric Forms , 2016, Journal of cognition and development : official journal of the Cognitive Development Society.

[34]  Andrew J. Mashburn,et al.  Teachers' education, classroom quality, and young children's academic skills: results from seven studies of preschool programs. , 2007, Child development.

[35]  Douglas Degelman,et al.  Concept Learning in Preschool Children: Effects of a Short-Term Logo Experience , 1986 .

[36]  Rachel F. Barr,et al.  The Role of Interactional Quality in Learning from Touch Screens during Infancy: Context Matters , 2016, Front. Psychol..

[37]  Seymour Papert,et al.  Mindstorms: Children, Computers, and Powerful Ideas , 1981 .

[38]  D. Clements,et al.  What Is the Long-Run Impact of Learning Mathematics During Preschool? , 2018, Child development.

[39]  D. Lubinski,et al.  Spatial ability for STEM domains: Aligning over 50 years of cumulative psychological knowledge solidifies its importance. , 2009 .

[40]  Bridget A. Walsh,et al.  The Effect of Questioning Style During Storybook Reading on Novel Vocabulary Acquisition of Preschoolers , 2006 .

[41]  R. Siegler,et al.  What’s Past Is Prologue , 2014, Educational researcher.

[42]  D. Clements,et al.  Effects of Computer Programming on Young Children's Cognition , 1984 .

[43]  Georgene L. Troseth,et al.  What’s next for research on young children’s interactive media? , 2016 .

[44]  Alexis R. Lauricella,et al.  Measuring with Murray: Touchscreen technology and preschoolers' STEM learning , 2016, Comput. Hum. Behav..

[45]  Grover J. Whitehurst,et al.  Dialogic reading: A shared picture book reading intervention for preschoolers. , 2003 .

[46]  Georgene L. Troseth,et al.  Effective coviewing: Preschoolers' learning from video after a dialogic questioning intervention. , 2013, Developmental psychology.

[47]  Francisco J. García-Peñalvo,et al.  A survey of resources for introducing coding into schools , 2016, TEEM.

[48]  Brittany Huber,et al.  Young children's transfer of learning from a touchscreen device , 2016, Comput. Hum. Behav..

[49]  Marianella Casasola,et al.  Learning to form a spatial category of tight-fit relations: how experience with a label can give a boost. , 2009, Developmental psychology.

[50]  Michail Kalogiannakis,et al.  Developing fundamental programming concepts and computational thinking with ScratchJr in preschool education: a case study , 2016, Int. J. Mob. Learn. Organisation.

[51]  David H. Uttal,et al.  Children’s Learning from Touch Screens: A Dual Representation Perspective , 2016, Front. Psychol..

[52]  Susan C. Levine,et al.  Math at home adds up to achievement in school , 2015, Science.

[53]  D. Clements,et al.  STEM Starts Early: Grounding Science, Technology, Engineering, and Math Education in Early Childhood. Executive Summary. , 2017 .