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Infants, Children, and Adolescents
Eighth Edition Chapter 6 Cognitive Development in Infancy and Childhood
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Learning Objectives (1 of 3)
6.1 According to Piaget, how do schemes change over the course of development? 6.2 Describe major cognitive attainments of the sensorimotor stage. 6.3 What does follow-up research say about infant cognitive development and the accuracy of Piaget’s sensorimotor stage? 6.4 Describe the information-processing view of cognitive development and the general structure of the information- processing system.
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Learning Objectives (2 of 3)
6.5 What changes in attention, memory, and categorization take place over the first two years? 6.6 Describe the strengths and limitations of the information-processing approach to early cognitive development. 6.7 How does Vygotsky’s concept of the zone of proximal development expand our understanding of early cognitive development? 6.8 Describe the mental testing approach, the meaning of intelligence test scores, and the extent to which infant tests predict later performance.
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Learning Objectives (3 of 3)
6.9 Discuss environmental influences on early mental development, including home, child care, and early intervention for at-risk infants and toddlers. 6.10 Describe theories of language development, and indicate the emphasis each places on innate abilities and environmental influences. 6.11 Describe major milestones of language development in the first two years, individual differences, and ways adults can support infants’ and toddlers’ emerging capacities.
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Piaget’s Cognitive-Developmental Theory
Sensorimotor stage: Piaget’s first stage First two years of life Schemes change with age: First schemes: sensorimotor action patterns Later schemes: evidence of thinking before acting
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Building Schemes Adaptation – Assimilation – Accommodation
Building schemes through direct interaction with environment – Assimilation Using current schemes to interpret external world – Accommodation Creating new schemes and adjusting old ones to better fit environment
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Using Assimilation and Accommodation
Equilibrium Steady state in which children assimilate more than they accommodate Disequilibrium State of rapid cognitive change in which children shift from assimilation to accommodation Organization Internal linking together of schemes into an interconnected cognitive system
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Sensorimotor Stage Birth to age 2 years Divided into six substages
Building schemes through sensory and motor exploration Circular reaction: stumbling onto a new experience caused by the baby’s own motor activity
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Piaget’s Sensorimotor Substages
Age Range 1. Reflexive schemes Birth–1 month 2. Primary circular reactions 1–4 months 3. Secondary circular reactions 4–8 months 4. Coordination of secondary circular reactions 8–12 months 5. Tertiary circular reactions 12–18 months 6. Mental representation 18 months–2 years
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Repeating Chance Behaviors
Primary circular reaction: Simple motor habits centered around infant’s own body Limited anticipation of events Secondary circular reaction: Aimed at repeating interesting events in the surrounding world Imitation of familiar behaviors
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Intentional Behavior Substage 4 (8–12 months):
Beginning mastery of object permanence Substage 5 (12–18 months): Tertiary circular reaction Ability to imitate many more behaviors Substage 6 (18–24 months): Invisible displacement Deferred imitation Make-believe play
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Violation-of-Expectation Method
Violation-of-expectation research assesses infants’ knowledge, based on their attention to events consistent versus inconsistent with reality. Violation-of-expectation evidence is controversial: Some critics believe it indicates only nonconscious awareness of physical events. Others maintain it reveals only perceptual preference for novelty.
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Violation-of-Expectation Procedure: Object Permanence
Figure 6.1: Testing young infants for understanding of object permanence using the violation-of-expectation method Figure 6.1 (Adapted from R. Baillargeon & J. DeVos, 1991, “Object Permanence in Young Infants: Further Evidence,” Child Development, 62, p © 1991, John Wiley and Sons. Adapted with permission of John Wiley & Sons Ltd.)
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Object Permanence Renée Baillargeon found evidence for object permanence in the first few months of life. Critics question the significance of babies’ looking preferences. Mastery of object permanence is a gradual achievement.
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Mental Representation
Babies construct mental representations of objects and their whereabouts. Deferred imitation requires representation of a model’s past behavior. is used by toddlers to enrich their range of schemes. Inferred imitation requires inferring others’ intentions. is a cornerstone of social understanding and communication.
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Problem Solving and Symbolic Understanding
Solving problems by analogy: Develops at 10–12 months. Depends on ability to represent a solution mentally and use it in new contexts. Symbolic understanding: Displaced reference emerges around 1 year. Capacity to use language as flexible symbolic tool improves from the end of the second into the third year.
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Video Deficit Effect 40% of U.S. 3-month-olds and 90% of 2-year-olds watch TV regularly. Infants initially respond to videos of people as actual people. Toddlers demonstrate poorer performance after a video than a live demonstration. Around age 2½, video deficit effect declines. Videos for teaching toddlers work best when they are rich in social cues.
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Evaluation of the Sensorimotor Stage
Developments that occur within Piaget’s time frame: Object search Mastery of A-not-B search Make-believe play Treating pictures and videos symbolically Attainments that occur sooner than Piaget expected: Secondary circular reactions Object permanence Deferred imitation Problem solving by analogy Displaced reference of words
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Core Knowledge Perspective
Infants are born with innate knowledge system, or core domains of thought: Physical knowledge Linguistic knowledge Psychological knowledge Numerical knowledge All acknowledge that experience is essential to extend initial knowledge.
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Information Processing
Sensory register: sights and sounds are represented directly, stored briefly Short-term memory store: Attended-to information is retained briefly and “worked” on. Working memory: number of items that can be briefly held in mind while engaging in some effort to manipulate them Long-term memory: permanent knowledge base
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Managing the Cognitive System’s Activities
Central executive Directs flow of information Coordinates incoming information with information already in the system Selects, applies, and monitors strategies that facilitate memory storage, comprehension, reasoning, and problem solving Automatic processes Require no space in working memory Can be done while focusing on other information
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Improvements in the Cognitive System During Childhood and Adolescence
Increase in basic capacity of memory stores, especially in working memory Increase in speed with which information is worked on Gains in executive function controlling attention suppressing impulses coordinating information in working memory flexibly directing and monitoring thought and behavior
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Model of the Human Information-Processing System
Figure 6.4: Model of the human information-processing system Figure 6.4
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Attention Over the first year, infants attend to novel, eye-catching events. As toddlers become capable of intentional behavior, attraction to novelty declines and sustained attention improves. Adults can foster sustained attention through joint attention.
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Memory Operant conditioning research: Habituation research:
Retention increases dramatically during infancy and toddlerhood. Memories move from highly context-dependent to increasingly context-free. Habituation research: Infants do not need to be physically active to acquire and retain new information. Motor activity does promote learning and memory. Infants can engage in recall by end of first year.
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Increase in Retention in Two Operant Conditioning Tasks from 2 to 18 Months
Figure 6.5: Increase in retention in two operant conditioning tasks from 2 to 18 months Figure 6.5 (From C. Rovee-Collier & R. Barr, 2001, “Infant Learning and Memory,” in G. Bremner & A. Fogel [Eds.], Blackwell Handbook of Infant Development, Oxford, U.K.: Blackwell, p © 2001, 2004 by Blackwell Publishing Ltd. Reproduced with permission of John Wiley & Sons Ltd.)
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Infantile Amnesia Inability to retrieve events that occurred before age 3 Possible explanations: Brain development: role of the hippocampus Nonverbal nature of memory processing in infants and toddlers Lack of a clear self-image
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Categorization By 6 months, infants can categorize based on two correlated features. Earliest categories are perceptual. By second half of first year, more categories are based on clusters of features. Variations among languages lead to cultural differences in categorization.
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Vygotsky’s Sociocultural Theory
Social contexts (interaction with other people) contribute to cognitive development. Zone of proximal development refers to the range of tasks the child cannot do alone but can do with help of a more skilled partner. Scaffolding promotes learning at all ages. Cultural variations in social experiences affect mental strategies.
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Social Origins of Make-Believe Play
Society provides opportunities for children to represent culturally meaningful activities in play. Research indicates that make-believe play is the combined result of children’s readiness and social experiences. Adult participation leads to more complex play and teaches cultural values.
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Infant and Toddler Intelligence Tests
Bayley Scales of Infant and Toddler Development: Current edition: Bayley-III Suitable for children between 1 month and 3½ years Subtests: Cognitive Scale Language Scale Motor Scale Two scales that depend on parental report: Social-Emotional Scale Adaptive Behavior Scale
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Normal Distribution of Intelligence Test Scores
Figure 6.9: Normal distribution of intelligence test scores Figure 6.9
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HOME Infant–Toddler Subscales
Checklist for gathering information about quality of children’s home lives Most widely used home environment measure during first three years Methods: observation and parental interview Positive relationship to toddlers’ mental test performance Possible role of gene–environment correlation
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HOME Infant–Toddler Subscales
Organization of physical environment Provision of appropriate play materials Emotional and verbal responsiveness of parent Parental acceptance of child Parental involvement with child Variety in daily stimulation
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Signs of Developmentally Appropriate Infant and Toddler Child Care
Clean, well-maintained indoor space; fenced outdoor area Age-appropriate toys and equipment Caregiver–child ratio no greater than 1 to 3 for infants, 1 to 6 for toddlers Flexible daily schedule Warm interactions between adults and children Adequately trained caregivers Welcoming relationships with parents State licensing; voluntary NAEYC or NAFCC accreditation
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Carolina Abecedarian Project: IQ Score Effects
Figure 6.11: IQ scores of treatment and control children from infancy to 21 years in the Carolina Abecedarian Project Figure 6.11 (Based on Campbell et al., 2001.)
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Theories of Language Development
Nativist (Noam Chomsky) Innate language acquisition device (LAD) Interactionist Interaction between child’s inner capacities and environmental influences Social-interactionist Importance of children’s social skills and language experiences
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Broca’s and Wernicke’s Areas
Broca’s area: In left frontal lobe of cerebral cortex Role in grammatical processing and language production Wernicke’s area: In left temporal lobe Role in comprehending word meaning
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Broca’s and Wernicke’s Areas
Figure 6.12: Broca’s and Wernicke’s areas, in the left hemisphere of the cerebral cortex Figure 6.12
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Getting Ready to Talk First speech sounds: Cooing (around 2 months)
Babbling (around 6 months) Becoming a communicator: Joint attention (appears 3–4 months, more accurate 10–11 months) Give-and-take (around 3 months) Preverbal gestures (around 1 year)
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Sensitive Period for Language Development
Cochlear implant: If auditory input is not restored until after age 2, children remain behind in language development. If implantation occurs after age 4, language delays are severe and persistent. Sign language: Deaf infants exposed to sign language from birth babble with their hands. Deaf infants not exposed to sign language will stop babbling entirely.
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Starting to Talk First Words
Underextension: applying words too narrowly Overextension: applying words too broadly Two-Word Utterance Phase Steady increase in rate of word learning through preschool years Telegraphic speech: use of high-content words
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Comprehension versus Production
At all ages, comprehension develops ahead of production. Comprehension requires only recognition of word meaning. Production requires recall of word and the concept it stands for.
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Individual and Cultural Differences in Language Development
Gender Temperament Caregiver–child conversation Language style: Referential Expressive Language delay
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Supporting Early Language Development
Infants Parents should respond to coos and babbles. establish and respond to joint attention. play social games. Toddlers play make-believe with toddlers. have frequent conversations. read and talk about storybooks together.
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