Psychology - Cognition & Development
Cards (57)
- Piaget's theory of cognitive development
- Children and adults think in qualitatively different ways
- Schema: units of knowledge which become more detailed as we get older
- Disequilibrium creates the motivation to learn and explore
- Equilibration: a state of balance when experience and current schema match
- Assimilation: new experience is incorporated into existing schema
- Accommodation: creating new schema and radically changing existing ones
- Research support: children watched objects move on slopes, each child formed individual mental representation i.e. schema (Howe et al)
- Real-world application: Piaget's discovery learning through exploration led to activity-based classrooms and flipped learning
- Counterpoint: no firm evidence showing superiority of discovery learning, teacher input may be more key
- Role of others in learningUnderestimated by Piaget, evidence supports Vygotsky's view of important interaction between learner and others
- Baillargeon's explanation of infant abilities
- Object permanence: inability may be due to poor motor skills
- Violation of expectation research: new VOE method to be able to show what babies can do
- Knowledge of the physical world: innate physical reasoning system (PRS), babies know that objects persist
- Event categories: e.g. occlusion (one object blocks another), babies predisposed to attend and learn from unexpected events
- Baillargeon's research: VOE method, short and tall rabbits moved behind a window. Findings: babies looked longer at unexpected event, object permanence demonstrated at 5-6 months
- Validity of VOE, in Piaget's studies infants may have been distracted rather than not understood
- VOE is carefully controlled
- May not be object permanence, method assumes that VOE response is to the unexpectedness, it may just be more interesting
- Universal understanding: e.g. dropped object lands on floor understood in all cultures, suggests an innate PRS
- Piaget's stages of intellectual development
- Children progress through four stages each with a different level of reasoning
- Stage 1: Sensorimotor stage (0-2 years) includes object permanence (develops around 8 months)
- Stage 2: pre-operational stage (2-7 years): conservation, egocentrism, class inclusion
- Stage 3: concrete operations stage (7-11) can understand logic but only with physical objects
- Stage 4: formal operations stage (11+), includes syllogisms and abstract reasoning
- Practical applications: important implications about when a child is biologically ready to be taught certain concepts
- Conservation research: when a 'naughty teddy' rearranged the counters, 72% of children under 7 could conserve (McGariggle & Donaldson)
- Class inclusion research: 5 year olds could demonstrate class inclusion if given a logical explanation in their feedback (Siegler & Svetina)
- Egocentrism research: children of 3 can decentre in the policeman task which is more realistic, though children of 4 still do better (Hughes)
- Counterpoint: all criticisms above focus only on the age at which a stage occurs not the basic sequence
- Social cognition: Selman's levels of perspective taking

- Social perspective taking: domain-specific (Selman) versus domain-general (Piaget)
- Perspective taking (PT) tested using scenarios e.g. Holly climbing trees to rescue friends kitten
- Stage theory based on children's responses to perspective-taking scenarios at different ages
- Stages show that progressively child able to see another person's perspective
- Development occurs because of both maturity and experience
- Three elements fully explain social development, e.g. interpersonal understanding and negotiation strategies
- Research support for stages: both cross-sectional (Selman) and longitudinal (Selman)
- Research evidence questions that the stages in development of perspective-taking are biologically driven
- Research evidence questions that the stages in development of perspective-taking are biologically driven and instead focuses on the role of experience (White et al)
- Shows the importance of perspective-taking skills in social behaviour (Selman)
- Counterpoint: research is correlational
- Practical applications: developed through play in primary schools
- Does not account for cultural differences Wu and Keysar found that young adult Chinese participants did significantly better in perspective-taking than matched Americans
- Vygotsky's theory of cognitive development
- Social processes: knowledge is first intermental (between people), then intramental in the mind of the individual
- Cultural differences in cognition: children pick up the 'mental tools' for physical, social and work environments in their culture
- Zone of proximal development (ZPD) gap between current and potential abilities. Increased skills and reasoning ability can only be achieved with the help of experts, not just exploration
- Scaffolding: The process of helping learners cross the ZPD and advance as much as they can, given their stage of development
- Progressive strategies identified by Wood et al from most to least help
- Support of the ZPD: 4-5 year olds performed better with guidance from peers (Roazzi & Bryant)
- Support for scaffolding, mothers gave decreased help as their children get older, and help increasingly offered only when needed (Cronner & Cross)
- Real world application: methods increasingly used in 21st century. 7 year olds receiving peer tutoring progressed further in reading than controls (Van Keer et al)
- Does not account for individual differences, some children like to learn alone
- Social cognition: Theory of mind
- Theory of mind (TOM): 'mind reading', a personal 'theory', knowing what other people know
- False belief tasks: Maxi's mother moves chocolate from blue to green cupboard, where does Maxi look? 3 year olds get it wrong Wimmer and Perner