1 / 35

HUMAN DEVELOPMENT 1 PSYCHOLOGY 3050: Introduction

Explore the intricacies of cognitive development, from infancy to adulthood, with a focus on the interplay between nature and nurture. Analyze how structures and functions evolve over time, impacting behavior and learning. Delve into critical periods and the dynamic systems approach.

phyllist
Download Presentation

HUMAN DEVELOPMENT 1 PSYCHOLOGY 3050: Introduction

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. HUMAN DEVELOPMENT 1PSYCHOLOGY 3050:Introduction Dr. Jamie Drover SN-3094, 864-8383 e-mail -- jrdrover@mun.ca Winter Semester, 2015

  2. Cognition • Cognition: the processes by which knowledge is acquired and manipulated – i.e., thinking • All mental activities involved in acquiring, understanding, and modifying information. • Separates humans from other species

  3. Cognition • A reflection of what is in the mind • Not observed directly – inferred from behavior • Includes unconscious and non-deliberate processes involved in routine activity (e.g., reading).

  4. Cognitive Development • Development: Changes in structure or function over time. Structure: a substrate of the organism • e.g., nervous system tissue, muscle, limbs (physical structures) or • mental knowledge that underlies thinking e.g., schemas or concepts • hypothetical

  5. Cognitive Development Function: actions related to the structure • Most commonly, something that the child does • e.g., retrieving a memory, pressing a computer key, firing of a neuron, etc. • Cognitive development; assimilation of info into schemas, performing addition.

  6. Structure and function are bi-directional • Structures enable function, and function (e.g., activity) feeds back to drive further development of structure • Function maintains the structure and allows for proper development. • For example: Newborn infants have very poor vision • Growth of cells in the visual cortex (structure) leads to better visual acuity • Better acuity (sharpness) leads the baby to look at more patterns, objects (function) • More looking stimulates further cell growth (structure)

  7. Development of the Infant Visual Cortex from Birth to 6 months From Conel (1939-1963)

  8. Visual Acuity is poor at birth TheNewborn At 2 months At 6 months An Infant’s View of the Child’s Face at a Distance of 2 feet:

  9. Structure and function are bi-directional • Failure of bi-directionality results in visual dysfunction • e.g., cataracts restrict seeing – poor function, structural loss

  10. Five Truths of Cognitive Development • Dynamic and reciprocal transaction of internal and external factors. • Constructed within a social context. • Stability and plasticity over time. • Changes in the way information is represented. • Increasing intentional control over behavior and cognition.

  11. Dynamic and reciprocal transaction of internal and external factors. Nature (biology) and Nurture (environment): • Oldest, most fundamental issue in psychology • Which one drives development? • Genes or environment Currently, not an either-or issue • genetic potential for development established at conception • genotype is not a “blueprint” • sets a range of potential outcomes • phenotypic (observed) outcome depends on interaction with environment

  12. Historically: Heredity or Environment • Nativists: human intellectual abilities are innate • Development “constrained” by inherited genetic material • Empiricists: nature provides only a species-general learning mechanism (brain) • cognitive development arises from experience • Context and culture (family, peers, school, media) are key

  13. Current View • There is no dichotomy between nature and nurture, i.e., they can not be separated because the two continuously interact. • How do they interact? • Perhaps genetic constitution influences how one experiences the environment. • E.g., A sickly lethargic child seeks less stimulation and gets less cognitively facilitating attention from adults than does a more active, healthy child. The result is a slower or less advanced child.

  14. What does innate mean? • There are genetically based constraints on behavior or development. • Representational Constraints: Representations that are hard-wired into the brain. • E.g., the nature of objects, mental math. • We enter the world able to make sense of these aspects of the environment.

  15. What does innate mean?

  16. What does innate mean? • Architectural Constraints: Refers to the ways in which the architecture of the brain is organized at birth. • Certain neurons/areas of the brain can only process certain types of information and pass it along to other brain areas. • These constraints allow a high degree of learning to occur (e.g., language areas).

  17. What does innate mean? • Chronotopic Constraints: limitations on the developmental timing of events. • E.g., certain brain areas develop before others, implying that early developing brain areas would likely have different processing responsibilities than later developing areas. • E.g., some brain areas are receptive to certain types of experience at specific times • Language Development

  18. What does innate mean? Critical (sensitive) periods: • time windows in development in which organisms are optimally sensitive to particular experiences or stimuli • the same experience before or after critical period less effective

  19. 19 Dynamic Systems Approach • Dynamic system: a set of elements that undergo changes over time due to interactions among the elements. • The child’s mind, body, and physical and social worlds form an integrated, dynamic system that guides the mastery of new skills.

  20. Dynamic Systems Approach • Development involves continuous and bidirectional interaction between all levels of organization from molecular to cultural, and complex cognitive or behavioral characteristics emerge from these interactions. • A change in any part of the system (e.g., brain growth, changes in physical or social surroundings) disrupts the organism-environment relationship. The entire system is changed.

  21. Dynamic Systems Approach • Self-organization: The process whereby pattern and order emerge from interactions of the components of a complex system. • The child must actively reorganize her behavior so that the components of the system work together in a more complex, effective way.

  22. Dynamic Systems Approach • E.g., Stepping reflex: a newborn makes stepping movements. • This reflex disappears completely after 2 months of age. • What causes the disappearance? • There is a change in one of the components.

  23. Dynamic Systems Approach • The change from one state to another is a phase transition. • These changes are abrupt and discontinuous, but predictable. • attractors

  24. Cognitive development is constructed within a social context • Development always occurs within a social context. • Vygotsky viewed development as being a sociocultural process where development is guided by adults interacting with children, where cultural context determines how, where, and when these interactions take place. • This implies that development will be different across cultures.

  25. Cognitive development involves both stability and plasticity over time • To what extent do characteristics remain constant over time? How critical is early experience? • Stability: the degree to which children maintain their relative rank order in comparison to their peers over time. • Plasticity: the extent to which children can be shaped by experience.

  26. Cognitive development involves both stability and plasticity over time • For most of the 20th century, individual differences in intelligence were seen as being stable over time. • Some researchers believed that early experience played a key role in the stability of individual differences. • Kagan (1976) proposed the tape recorder model in which our early experience was recorded and could not be erased.

  27. Cognitive development involves both stability and plasticity over time • Evidence for this was found in institutionally raised children reared in nonstimulating environments (Dennis, 1973). • Show signs of retardation that were exacerbated the longer they were institutionalized. • These delays were present long after they left the institution.

  28. Cognitive development involves both stability and plasticity over time • A number of exceptions to stability were found. • Skeels (1966) removed infants with signs of mental retardation from orphanages to an institution for the mentally delayed. • They received lavish attention from women inmates and later demonstrated normal intelligence.

  29. Cognitive development involves both stability and plasticity over time • Kagan (1976) explained that in some cases, development is transformational, with drastic changes occurring between stages. • The “tapes” are changed during these transformations and the earlier codes of the tapes are lost. • Plasiticity should be the rule.

  30. Increasing Attentional Control Over Behavior and Cognition • There is interest in the degree to which children of different ages guide their problem solving. • Strategy use. • Strategies: deliberate, goal-directed mental operations aimed at solving a problem. • Used intentionally to solve a problem. • Even infants will use strategies, but strategies change with development.

  31. Increasing Attentional Control Over Behavior and Cognition • Developmental psychologists are interested in children’s increasing ability to use strategies. • Goal-directed problem solving is especially evident in technologically advanced societies. • Strategy use involves regulating thoughts and behavior. • Executive Function: Processes involved in regulating attention and in determining what to do with information gathered or retrieved from long-term memory.

  32. Increasing Attentional Control Over Behavior and Cognition • Comprised of working memory – the structures and processes for temporarily storing and manipulating information, selectively attending to relevant info, and inhibiting responding, etc.

  33. Change in Both Domain-General and Domain-Specific Abilities • Domain-General Abilities: A child’s thinking is influenced by a single set of factors, with these factors affecting different aspects of cognition equally. • Domain-Specific Abilities: A child’s ability for one specific aspect of cognition may reveal nothing about his/her level of cognitive abilities on other aspects of thinking.

  34. Change in Both Domain-General and Domain-Specific Abilities • Fodor proposed the concept of modularity – certain areas of the brain are dedicated to performing specific cognitive tasks. • These modules are independent and may be innate. • True development is probably a compromise between these concepts. • Schneider looked at soccer experts in grades 3, 5, and 7 (p. 26)

  35. Change in Both Domain-General and Domain-Specific Abilities • They were presented with a soccer narrative text and were later asked to recall it. • Soccer experts were better than novices. • There was no difference between successful learners and unsuccessful ones. • The performance of experts may be due to their use of domain-general mechanisms.

More Related