FEM 3101 (Sem Pertama 2011-2012)
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Transcript FEM 3101 (Sem Pertama 2011-2012)
Developmental Psychology:
Children and Adolescents
• Business Driven• Technology Oriented • Sustainable Development• Environmental Friendly
COURSE SYNOPSIS
Processes of physical, cognitive, social
and emotional growth and development
from conception through adolescence.
Emphasis on the major aspects at each
stage of development. Processes and
outcomes of interaction between the childadolescent and the environment.
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• Business Driven• Technology Oriented • Sustainable Development• Environmental Friendly
COURSE OBJECTIVES
By the end of the course students will be able to:
• Identify ecological processes of physical, socioemotional and cognitive development of children
and adolescents.
• Explain the effects of genetic, environment, and
genetic-environment interactions influences on
children-adolescent development.
• Explain the effects of children-adolescent
interactions with the environment on childrenadolescent growth and development.
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• Business Driven• Technology Oriented • Sustainable Development• Environmental Friendly
COURSE CONTENT – 5 UNITS
Unit 1:
Introduces major concepts, principles and
theories of child and adolescent
development. Unit 1 also covers various
alternative methods researchers use to
explore questions or obtain information on
child and adolescent development.
Unit 2:
Highlights the prenatal development of the
unborn child.
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COURSE CONTENT – 5 UNITS
Unit 3:
Infancy
Unit 4:
Covers physical, intellectual, language and socioemotional development of children (early – late
childhood).
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COURSE CONTENT – 5 UNITS
Unit 5:
Covers significant aspects of adolescent development
such as physical, cognitive, personality, moral and
vocational planning. Specific developmental
problems during adolescence are highlighted.
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COURSE EVALUATION
Assessment
%
Quiz
Test 1
10
20
Assignments
1. Lab project for children
2. Lab project for adolescent
25
15
Final exam
30
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LAB TOPICS
NO.
TOPICS
1
Get to know a child –child’s background and character
(observation)
2
Child’s physical growth, reflexes, motor skill and sensory
development
3
Cognitive development and academic achievement
4
Language development
5
Socio-emotional development
6
Adolescent development project
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LAB REQUIREMENTS
Students are required to:
1.
observe and/or conduct tests and compile a
Case Study portfolio for one preschool age child
and one primary school age child.
2.
write a paper related to any aspects of
adolescent development.
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• Business Driven• Technology Oriented • Sustainable Development• Environmental Friendly
REFERENCES
Bee, H. 2000. The Developing Child. New York: Harper &
Row
Berk, L.E. 2005. Child Development. Boston, MA:Allyn &
Bacon
Berk, L.E. 2001. Infants, Children and Adolescents. Boston,
MA:Allyn & Bacon
Rohani, A. 2001. Perkembangan Kanak-kanak:Penilaian
Secara Portfolio. Serdang, Selangor:Penerbit UPM
Santrock, J.W. 2008. Adolescence. Boston:Mc Graw-Hill
Steinberg, L. 1999. Adolescence. Boston:Mc Graw-Hill
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Assessments
Assessment
%
Quiz
Test 1
Assignments
10
20
1. Lab project for children
2. Lab project for adolescent
Final exam
25
15
30
DEFINITION OF CONCEPT
What is Growth (Pertumbuhan)?
What is Development (Perkembangan)?
GROWTH
Growth is a quantitative process of change
ex. change in weight/height – i.e. changes
in saiz and structure, physical and
mental aspects.
Changes can be measured & assess - from
one stage to the other.
Growth will reach its peak once a person
mature.
DEFINITION
“Growth is an individual development in
body size, for ex. changes in muscles,
bones, hair, skin & glands. [Karl E. Garrison]
“Growth is a change that can be
measured from one stage to the other, and
from time to time” [Atan Long]
“Growth as an increment in a person
external attributes. For examples in terms
of size, height and body weight” [D.S
Wright & Ann Taylor]
DEVELOPMENT
Developmental is defined as change.
Human development refers to a particular
type of change or the pattern of change that
begins at conception and continue through
the life span.
Development occurs in the context of the
significant social environment of life process
(family, school, peer group, community).
Thus….Child Development is….
A scientific study of understanding all
aspects of human constancy and change
from conception through adolescence
A part of a larger discipline known as
developmental psychology or human
development, which includes all changes
experienced throughout the lifespan
Behavioral change as a developmental
change
Three general condition/criteria:
The change is orderly or sequential.
The change results in a permanent
alteration of behavior.
The change results in a new behavior or
mode of functioning that is more
advanced, adaptive or useful than prior
behaviors.
The study of childhood: Basic Concepts
Developmental Processes: Changes and
Stability
Quantitative change (growth) refers to the easily
measurable and sometimes obvious aspects of
development.
e.g: Involve changes in size or amount, such as
height, weight.
Developmental Processes: Changes and
Stability
Qualitative change refers to variations and
modifications in functioning.
E.g ability of a newborn & 5 months old baby
Stability – constancy or enduring characteristics
Changes in development is continues from one
stage to the other but maintaining a pattern
Specific characteristics Cephalacaudal,
proximodistal, mass to specific
Developmental stages
Prenatal
Infancy (0-2 years) & Toddlerhood (2-3 years)
Early childhood(3-6 years)
Middle childhood (6-10 years)
Adolescence (11-19 years)
Early (11-14 years)
Middle (15-17 years)
Late (18-19 years)
Adulthood(≥ 20 years)
Early (20-30 years)
Middle (40-50 years)
Late (60 years and above)
Domains of development
Physical development
Body, brain, senses, motor skills
Cognitive development
Learning, memory, language, thinking,
moral reasoning
Psychosocial development
Personality, emotions, social
relationships
Interrelated throughout development
Domains of Development (con’t)
Domain
Changes in
Physical
•Body size & proportions, appearance
•Function of body systems, health
•Perceptual & motor capacities
Cognitive
• Intellectual abilities
Social
•Emotional communication
•Self-understanding, knowledge about others
•Interpersonal skills & relationships
•Moral reasoning & behavior
Influences on Development:
Factors that can influence development
are: Nature (sejadi)
Genetic (Warisan/baka/genetik)
Nurture (Asuhan)
Environment (Persekitaran)
Food intake (Pemakanan)
Health (Kesihatan)
Major Contextual Influences
Normative Influences
Normative age-graded influences/event, i..e.
biological or social
Example = puberty or entry into formal
schooling
Normative history-graded event, i.e. cohort (a
group of people who share a similar experience)
Example = living during the Great
Depression/Tsunami
i.e. Atypical events, e.g. having a birth defect
Non-normative Influences
Individual events that impact the person
Events can be traumatic or happy
Historical foundation: How the study of
childhood has evolved?
Early Approaches
Medieval times
The Reformation
The Enlightenment
John Locke
John Jacques Rousseau
Darwin
Scientific Beginnings
Baby biographies
Charles Darwin
G. Stanley Hall
Normative Period of Child Study
Mental Testing Movement
An emerging consensus
All domains are interrelated.
Normal development includes a wide range of
individual differences.
Children help to shape their own development and
influence others’ responses to them.
Historical and cultural contexts strongly influence
development.
Early experience is important, but children can be
remarkably resilient.
Development in childhood is connected to
development throughout the rest of the lifespan.
Theories in
Developmental
Psychology
What is a theory?
A theory is a set of logically related
concepts or statements, which seeks to
describe and explain development and
predict what kinds of behavior may occur
under certain conditions.
Hypotheses are tentative explanations or
predictions that can be tested by research.
Theory
An orderly, integrated set of
statements that
Describes
Explains
behavior
Predicts
Benefits of theories in
Developmental Psychology
Explain the meaning of an event/facts
Able to relate these facts
Theories
Psychoanalytic
Psychosexual (S. Freud)
Psychosocial (E. Erickson)
Learning
Behavioral Learning
Classical Conditioning (Pavlov)
Operant Conditioning (Skinner)
Social Learning (A. Bandura)
Cognitive
Cognitive Developmental Theory (J. Piaget)
Socio-cultural (L. Vygotsky)
Moral Development (Reasoning) (Kohlberg)
Human Ecology System (U. Bronfenbrenner)
Freud’s Three Parts of the Personality
Id
Ego
Superego
•Largest portion of the mind
•Unconscious, present at birth
•Source of biological needs & desires
•Conscious, rational part of mind
•Emerges in early infancy
•Redirects id impulses acceptably
•The conscience
•Develops from ages 3 to 6, from
interactions with caregivers
Psychoanalytic
Psychosexual (S. Freud)
Psychosocial (E. Erickson)
* 8 stages of dev.
*Psychosexual stages
•Oral stage
•Anal stage
•Phallic
•Latency
•Genital
•
•
•
•
•
•
•
•
Trust versus mistrust
Autonomy vs shame
Initiative vs guilt
Industry vs Inferiority
Identity vs Identity Confusion
Intimacy versus isolation
Generativity vs stagnation
Integrity vs despair
Psychoanalytic
Psychoanalytic theory proposes that morality
develops through humans' conflict between their
instinctual drives and the demands of society.
Freud identified three parts of the personality that
become integrated during five stages
of development
Id
Ego
Superego
Personality Structure
superego
ego
ID
Personality Structures
ID (unconscious element)
the largest portion is the source of basic
biological needs and desires.
EGO (semi-conscious element)
the conscious rational part of the personality,
emerges in early infancy to redirect the id’s
impulses so they are discharged in acceptable ways
SUPEREGO (The conscious element that function
on the basis of morality).
the conscience that develops between ages 3 and
6 through interactions with parents, who insist
that the child conform to the values of society.
Freud Psychosexual stages:
Oral stage [0- 1 year] –
Mouth is the focus of stimulation &
interaction. Feeding & weaning are central
Anal stage [1-3 year] –
Anus as the focus of stimulation &
interaction. Elimination & toilet training is
central
Freud Psychosexual stages:
Phallic [3-6year]
The genital is the focus of stimulation. Gender
role & moral development are central.
Conflict between id & superego
Children interested to know more different sexes,
babies etc.
2 main conflict:
Oedipus Conflict son attracted to mother
Electra Conflict daughter attracted to father
Penis envy
Freud Psychosexual stages:
Latency [6-12 year]
A period of suspended sexual activities;
Energy shift to physical and intellectual
activities. Focus on achievement
Genital [Adolescent – adulthood (12 &
above)]
Genital are the focus of stimulation with the
onset of puberty
Mature sexual relationship develop
Erikson’s Psychosocial stages
Late Adulthood (60 above)
Integrity vs Despair
Middle Adulthood (40’s-50’s)
Generativity vs Stagnation
Young Adulthood (20 -30’s)
Intimacy vs Isolation
Adolescent (12-19)
Identity vs Role Confusion
Middle childhood (6-11)
Industry vs Inferiority
Early Childhood (3-5)
Initiative vs Guilt
Toddler (1-2)
Infancy (0-1)
Autonomy vs Shame/doubt
Trust vs Distrust
Behaviorism & Social Learning
Classical
Conditioning
(Pavlov)
Stimulus –
Response
Operant
Conditioning
(Skinner)
Reinforcers
(Reward) and
Punishments
Social Learning
(Bandura)
Modeling
Behavioral Theory
Classical Conditioning
Ivan Pavlov
• Stimulus & Response
Learning based on association
of a stimulus that does not
ordinarily elicit a response with
another stimulus that does elicit
the response.
Operant Conditioning
(B.F. Skinner)
• Learning based on reinforcement
(punishment) or punishment
• Positive reinforcement
• Negative reinforcement
• Punishment
• Behavior modification
Behavioral Theory
Social Learning Theory
Albert Bandura
Modelling (Role model)
Theory that behaviors are learned by
observing and imitating models
Observational learning
Models
Importance of values and thoughts in
imitating behavior of a model
Practical implications?
Behaviorism & Social Learning
Development results from learning
Behaviorism – a mechanistic theory
Continuous change
Quantitative change
Importance of the environment
Associative learning
Cognitive Theory
Jean Piaget
Socio-Cultural Theory
L. Vygotsky
Cognitive Development
•
• Sensorimotor
(0-2)
• Preoperational (2-6)
• Concrete Operational (6-11)
• Formal Operation (11-adulthood)
•
Community & culture influence on
development Focus is the social, cultural,
and historical complex of which the child is
part.
Social Interaction
• Zone of proximal development –
The difference between what a child
can do alone and with help
• Scaffolding –Temporary support to
help a child master a task.
Vygotsky’s Sociocultural Theory
Transmission of culture to new
generation
Beliefs, customs, skills
Social interaction necessary to
learn culture
Cooperative dialogue with more
knowledgeable members of
society
Zone of proximal
Scaffolding
Cognitive Theory
Moral Development
Kohlberg
Paras 1: Moraliti Pra- konvensional (4-9 tahun)
Orientasi dendaan dan patuh/taat
Hedonisme Instrumental/Orientasi Egoistik
Paras 2:Peringkat Konvensional (10-15 tahun)
Moraliti “budak baik”
Moraliti mengekalkan susunan sosial & autoriti
Paras 3:Peringkat Pasca Konvensional
Moraliti kontrak, hak individu dan undang-undang
secara demokrasi
Orientasi prinsip-prinsip moral yang universal dan
beretika
THE ECOLOGICAL-SYSTEMS
APPROACH
Human Ecological System
U. Bronfenbrenner
View of development that sees the
individual as inseparable from the
social context
Urie Bronfenbrenner’s bio-ecological
theory
Understanding processes and
contexts of development
Micro system
Meso system
Exosystem
Macrosystem
Chronosyste
m
Ecological Systems Theory
RESEARCH METHODS IN
STUDYING CHILDREN
How theory and research work
together
Which theory is generally accepted today?
What is the relationship between theory
and research?
Research methods
Qualitative and quantitative research
Scientific method – system of established
principles and processes of scientific inquiry
Identifying a problem
Formulating hypotheses
Collecting data
Analyzing the data
Disseminating findings
Sampling
Groups of participants chosen to represent
the entire population
The sample should adequately represent the
population under study
Generalization
Random selection
Forms of data collection
Naturalistic and laboratory observations
Parental self-reports
Clinical interview
Open-ended interview
Structured interview
Questionnaire
Psychophysiological Methods
Systematic Observation
Observe respondent in their natural setting
Naturalistic Observation
In the “field” or natural environment where
behavior happens
Structured observation
Laboratory situation set up to evoke behavior of
interest
All participants have equal chance to display
behavior
Participant observation
Incognito
Record data
Audio
Video
Manual
Interviews
Clinical Interview
Flexible,
conversational style
Probes for
participant’s point of
view
Structured Interview
Each participant is
asked same questions
in same way
May use questionnaires,
get answers from
groups
Psychophysiological Methods
Measures of autonomic nervous system
activity
Heart rate, blood pressure, respiration, pupils,
stress hormones
Measures of Brain Function
EEG
Functional brain
imaging (fMRI)
Basic research designs
Case studies
Collect various information about a subject to be
studied (people/event)
Make a conclusion about subject understudied.
Ethnographic studies
Participant observation
Correlational studies –
To examine the relationship between 2 variables
(independent and dependent variables)
Research intended to discover whether a statistical
relationship between two variables exists
Problems of control and interpretation of causality
Survey - A study on respondent’s views on certain
issues
Use Questionnaires/Structured interview schedule
Correlation Coefficients
Magnitude
Size of the number between
0 and 1.
Closer to one (positive or
negative) is a stronger
relationship
Direction
Indicated by + or - sign.
Positive (+) means, as one
variable increases, so does the
other
Negative (-) means, as one
variable increase, the other
decreases.
Correlations
Experimental studies
To examine the cause & effect of a
phenomena understudied
Rigorously controlled, replicable procedure in
which the researcher manipulates variables to
assess the effect of one on the other.
Independent variable - the condition over
which the experimenter has direct control
Dependent variable - the condition that may
or may not change as a result of changes in
the independent variable
Experimental group and control group
Independent and Dependent
Variables
Independent
Experimenter changes,
or manipulates
Expected to cause
changes in another
variable.
Dependent
Experimenter
measures, but does
not manipulate
Expected to be
influenced by the
independent variable
Modified Experiments
Field
Experiments
Use rare opportunities for
natural assignment in
natural settings
Natural
Experiment
Compare differences in
treatment that already exist
Groups chosen to match
characteristics as much as
possible
Designs for Studying Development
Longitudinal
Same participants studied repeatedly at
different ages
People of differing ages all studied at the same
Cross-sectional
time
Longitudinal- Same groups of different-aged people studied
Cross-sectional repeatedly as they change ages.
Microgenetic
Same participant studied repeatedly over a
short period as they master a task
Children’s Research Rights
Protection from harm
Right to Informed
consent
Knowledge of results
Beneficial treatments
Avoidance of deception
Debriefing, providing a full account and
justification of research activities, should
take place with children, but does not
always work as well
Right to privacy and confidentiality
Children’s Research Rights
The Female Reproductive System
Uterus
A muscular chamber about
the size and shape of a pear.
Located in a woman's abdomen,
is a hollow, elastic reproductive
organ, where a baby develops
during pregnancy.
Female anatomy
The uterus - is a major
female hormoneresponsive
reproductive sex organ
Within the uterus
fetus develops during
gestation.
The term uterus
=womb.
One end, the cervix,
opens into the vagina;
the other is connected
on both sides to the
Fallopian tubes.
Sperm is the male reproductive cell
Sperm
Chief Characteristics:
1. Tightly packed tip (acrosome) that contains 23 chromosomes
that carry genetic information
2. Short neck region
3. Trail to propel it in its search for the ovum
4. Microscopic
Fact:
Remains capable of fertilizing egg for 24-48 hours after
ejaculation
Of 200 million sperm that enter the vagina, only about 200
survive the journey to the fallopian tubes, where fertilization
occurs
Males, at birth, have in their testes those cells that will
eventually produce sperm
Ovum (Egg)
The ovum is the female reproductive cell
Chief Characteristics:
1. Round
2. .01 mm in diameter
3. Consistency of stiff jelly
4. Contributes 23 chromosomes
Fact:
Females already have 1-2 million primal eggs at birth
Eggs usually fertilized about 12 hours after discharged
from the ovary or they die within 12-24 hours
ovulation
• When a young woman
reaches puberty, she
begins to ovulate
• a process in which a
mature egg cell (also
called an ovum), ready
for fertilization by a
sperm cell, is released
from one of the ovaries
Her body prepares for a potential pregnancy every cycle,
whether or not she want to actually conceive.
Under the influence of Follicle Stimulating Hormone
(FSH), about 15 to 20 eggs start to mature in each ovary.
Although it averages about two weeks, the process to
release an egg can take anywhere from about eight days
to a month or longer to complete.
menstrual cycle
Ovulation occurs 14 days
before the next
menstruation.
As the average menstrual
cycle lasts 28 days
(starting with the first day
of one period and ending
with the first day of the
next menstrual period),
most women ovulate on
day 14.
A menstrual cycle can vary between 21 to 38 days.
A woman is generally most fertile (able to become
pregnant) a few days before, during, and after
ovulation.
The corpus luteum remains behind on the interior
ovarian wall, and starts releasing progesterone.
Progesterone quickly stops the release of all other
eggs until the next cycle. The corpus luteum has a
finite lifespan, of about 12 to 16 days.
Menstruation
If the egg does not become fertilized as it
travels down the fallopian tube on its way
to the uterus, the endometrium (lining of
the uterus) is shed and passes through
the vagina (the passageway through
which fluid passes out of the body during
menstrual periods; also called the birth
canal), a process called menstruation.
Pregnancy
If the egg is fertilized by a
sperm cell as it travels down
the fallopian tube, then
pregnancy occurs, it
becomes attached to the
lining of the uterus
In order for conception to occur, though, there must
be three factors present:
the egg,
the sperm
a medium in which the sperm can travel to reach the
fallopian tubes.
Women produce cervical fluid under the influence
of increasing levels of estrogen in the first part of
the cycle.
Sperms can live up to five days in fertile quality
cervical fluid
3 Stages in prenatal development:
Germinal stage
Embryonic stage
Fetal stage
Principles
Cephalocaudal principle
Proximodistal principle
First Stage: Germinal
Starts at conception (fertilization) until implantation
14 days.
Conception process When the sperms meets the
egg (ovum) in the fallopian tube travel down into
the uterus where it implants in the uterine lining and
begin to grow (implantation).
Conception
Conception occurs when
the sperm meets and
penetrates the ovum, or
egg
sperm
ovum
Normally, only one sperms will succeed
penetrating through the ovum wall.
When one sperms succeeded penetrating the ovum
wall, a protective lining will form around it
preventing other sperms to enter/penetrate.
The combination of ovum & sperms form zygote
(with one nucleus).
Zygote will later develop into blastosist a complex
organism with millions of cells with various
functions.
Germinal stage (fertilization to 2 weeks)
Rapid cell division, increasing complexity and
differentiation, and implantation
Mitosis
Blastocyst
Embryonic disk
Ectoderm, endoderm, mesoderm
Trophoblast
Placenta & umbilical cord
Amniotic sac & chorion
Fertilization: the sperm and egg join in
the fallopian tube to form a unique
human being.
• a fertilized egg,
only thirty hours
after conception.
Zygotic Period
(Conception - 1st Week)
A zygote is a fertilized egg with
46 chromosomes
Genetic potential determined at
this time
Egg is 2.5 mm in diameter at end
of 1st week
Mitosis, a process of cell
division, occurs during this
period
Early development of a human
embryo
Early development of a human embryo
Embrio : blastosis burrows into
the uterine lining
As soon as the fertilized egg burrows into the lining, it starts
releasing a pregnancy hormone, HCG (Human Chorionic
Gonadotropin) which sends a message back to the corpus
luteum left behind on the ovarian wall.
HCG signals the corpus luteum to remain alive beyond its
usual maximum of 16 days and continuing to release
progesterone long enough to sustain the nourishing lining.
After several months, the placenta takes over, not only
maintaining the endometrium, but providing all the oxygen
and nutrients the fetus needs to thrive.
Cells Division
There are two type of cell division
Mitosis and meiosis
Reproductive cells divide through meiosis process,
while all other body cells divide through the
mitosis process
Cells Division
Mitosis is cell division that results in the duplication of cells; the
daughter cells genetic copies of the parent cell. This cell multiplication
allows for replacement of old cells, tissue repair, growth and
development.
Mitosis
The creation of new cells through duplication of chromosomes &
divisions of cells cells duplicates (From 1 24 16 32,
etc)
Cells developed into organs, brain, heart etc.
Growth & Development
You grew from a zygote, or fertilized egg (the fusion of two cells: an
egg and a sperm) into an organism with trillions of specialized cells.
Mitosis is the process that enabled you to grow and develop after
that fateful meeting of ovum and sperm became ‘you’.
Cell Replacement
Cells must divide in order for an organism to grow and develop, but
cell division is also required for maintenance, cell turnover and
replacement.
Meiosis is Sex Cell (Gamete) Formation
In sexually reproducing organisms, some cells are able to divide by another
method called meiosis.
Meiosis is a complex process by which gametes form; involves duplication
and division of reproductive cells and their chromosomes.
The number of chromosomes in cells divide into two’s, and each set of
cell will receive 1 from each sets of chromosomes makes up 23
sets.
This type of cell division results in the production of gametes (eggs or
sperm).
Meiosis is much more complex than mitosis involves the duplication and
subsequent division of chromosomes, meiosis involves two divisions of
genetic material. As is the case in mitosis, in meiosis the cell duplicates its
chromosome number prior to beginning cellular division. Then nuclear
division, the sorting out of the genetic material, begins, and unfolds over the
course of 2 cellular divisions that result in 4 gametes.
Meiosis is Sex Cell (Gamete) Formation
Gametes & Gonads
Gametes are haploid (1n) with half the number of chromosomes
than the progenitor cell that they arose from. These haploid sex
cells arise in specialized reproductive tissue called the gonads.
Ovaries (female gonads) and testes (male gonads) are the sites of
meiosis.
Fertilization & Development
Sexual reproduction results in the merging of sperm and egg at
fertilization, and brings the chromosome count back to the 2n
diploid number necessary for a zygote to have complete genetic
information; 2 sets of genetic instructions in 23 pairs of
chromosomes.
As cells divide, the zygote develops and grows into an embryo,
fetus and beyond. These 23 pairs of chromosomes are duplicated
with every cell division, and are the genetic material inside nearly
every cell of the body.
What's the Difference between
Mitosis & Meiosis
Mitosis is how the cells of our body make
more cells for growth, development and
repair.
Meiosis is how our body makes sex cells,
or gametes (eggs or sperm).
Mechanisms of Heredity
The Genetic Code
Basis of heredity is a chemical called deoxyribonucleic acid
(DNA), which contains all the inherited material passed from
biological parents to children
Every cell except the sex cells has 23 pairs of chromosomes-46 in all
Genetic action that triggers growth of body and brain is often
regulated by hormones
Mechanisms of heredity
The genetic code
DNA and chromosomes
Human genome
23 pairs of chromosomes in every cell (46 total)
– except sex cells
Meiosis – division in sex cells (23 single chromosomes)
Mitosis – division in body cells
Genetic Code
Genetic information are kept in chromosomes
ie. A long & complex set of DNA molecules.
Genes is a segment of DNA molecules contains
instructions for making protein.
Human being is said to have 100 trillions of cells
in the body with specific functions; and is
distributed through 46 chromosomes, ie. 23 from
father & 23 from mother.
Genetic Foundation
Genotype (genetic makeup)
Phenotype (observable characteristics)
Hereditary composition of
the zygote
What determines sex?
Autosomes – chromosome pairs 1- 22
Sex chromosomes – 23rd pair of chromosomes
XX = female
Xy = males
Determination of a child’s sex
What Determines Sex?
Sex chromosomes are either X chromosomes or Y
chromosomes
When an ovum (X) is fertilized by an X-carrying sperm,
the zygote formed is XX, a female
When an ovum (X) is fertilized by a Y-carrying sperm,
the resulting zygote is XY, a male
Choromosomes
Boy or girl?
Chromosomes determine sex :
23 pairs of sex chromosomes
Female : XX pairs of sex chromosomes
Male
: XY pairs of sex chromosomes
FATHER=XY
XY (male)
MOTHER=XX
XX (female)
Patterns of Genetic Transmission
When an offspring receives two contradictory
traits, only one of them, the dominant one
shows itself
The expression of a recessive trait, occurs
only when a person receives the recessive
traits from both parents
Dominant and recessive
inheritance
What Causes Multiple Births?
Dizygotic (two-egg) twins=fraternal twins
Monozygotic (one-egg) twins=identical twins
The rise in multiple births is due in part to a trend
toward delayed childbearing
Infertility
Inability to conceive a baby after 12 to 18 months
of trying
Genetic and Chromosomal
Abnormalities
Some defects are due to abnormalities in genes or
chromosomes, which may result from mutations
Many disorders arise when an inherited predisposition
interacts with an environmental factor, either before
or after birth
Sex linked inheritance of a birth defect
Genetic Counseling and Testing
A chart can show chromosomal abnormalities and
can indicate whether a person who appears normal
might transmit genetic defects to a child
Multiple births
Dizygotic and monozygotic twins
Increased incidence of multiple births in US
Why?
Delayed childrearing
Fertility drugs
Infertility: Alternative ways to
parenthood
Inability to conceive after 12 to 18 months of
trying
Multiple causes
Too few sperm
Too few ova
Abnormal ova
Disease of the uterine lining
Deterioration in quality of ova
Blockage of the fallopian tubes
Assisted reproduction
Artificial insemination
Artificial insemination by a donor
In vitro fertilization
Ovum transfer
Surrogate motherhood
What are concerns raised by surrogate
motherhood?
Nature and Nurture
Some Characteristics Influenced by Heredity and
Environment
Adopted children's IQs are consistently closer to the IQs of
their biological mothers than to those of their adoptive
parents and siblings.
Monozygotic twins generally look alike; they are also more
concordant than dizygotic twins in their risk for such medical
disorders as hypertension (high blood pressure), heart
disease, stroke, rheumatoid arthritis, peptic ulcers, and
epilepsy
Heredity seems to exert a strong influence on general
intelligence and also on specific abilities
A strong hereditary influence on schizophrenia and autism,
among other disorders; found in families
Embryonic Stage
Embryonic stage
(2 to 8 weeks)
Rapid growth and development of major body
systems and organs
A critical period
Trimesters
Spontaneous abortion (miscarriage)
Stillborn
Phases in pregnancy:
First trimester (week 1-12)
2nd Trimester (week 13 -24)
3rd Trimester (week 25 & above)
Proses Persenyawaan
Bapa (sperma)
½ sel (23 kromosom X or Y)
Ibu (Ovum)
½ sel (23 kromosom X)
Persenyawaan
zigot
Embrio
Fetus
Baby
2nd Stage: Embryonic Period
(2nd Week - 2nd Month)
The phase after implantation. after the
development of zygote and developing its
blastosist.
Embryo composed of millions of cells with
various functions (week 3-8)
2nd Stage: Embryonic Period
(2nd Week - 2nd Month)
The differentiation of
embryonic cells into layers
marks the beginning of the
embryo, or embryonic period
Period when all body systems
form
Highly sensitive for
susceptibility of congenital
malformations, or abnormal
conditions with which an infant
is born
Embryonic Period: End of the 1st Month
1/4 inch (6 mm)
long
1 oz. Weight
Crescent-shaped
with small limb
buds on sides
Tail with tiny ridges
Rudimentary
circulatory system is
forming
Heart begins to beat
Growth acceleration
Embryonic Period:End of 2nd Month
1.5 inches long
Beginning of face, neck,
fingers, toes develop
Limb buds lengthen
Muscles enlarge
Sex organs begin to form
Rapid brain development
Embryo is firmly planted
on uterine wall and is
receiving nourishment
from placenta and
umbilical cord
7 weeks
Facial features are visible,
including a mouth and tongue. The
eyes have a retina and lens. The
major muscle system is
developed, and the unborn child
practices moving. The child has its
own blood type, distinct from the
mother's. These blood cells are
produced by the liver now instead
of the yolk sac.
rd
3
stage: Fetal Stage
(8 weeks to birth)
Embryo develops fetus (baby in the uterus).
Cells that represents eyes, head, body, hands, legs
further develops larger.
The period of consumption until baby is born 40
weeks (sometimes 38-36 weeks).
Fetal
stage
Increased
detail of body parts and greatly enlarged
body size
Finishing touches
Fetal behavior
Ultrasound
Early Fetal Period: 3rd - 6th Month
Period of the fetus begins
around the 3rd month and
continues until delivery
Movement first becomes
apparent to mother at this time
No new anatomical features
appear during this period, yet
still critical time
Early Fetal Period: 3rd Month
Rapid growth, 3 inches long at end
of 3rd month
Sexual differentiation continues
Teeth buds emerge
Stomach and kidneys begin to
function
Vocal cords appear
Reflex actions felt: opens/closes
mouth, clenches fist, sucks thumb
Early Fetal Period:4th Month
Most rapid growth rate
(doubles in length to 6-8
inches)
6 oz. Weight
Hands fully shaped
Bony tissue begins to form
Early Fetal Period:5th Month
Reaches 1/2 of birth length (8-
10 inches)
Only 10% of birth weight (1/2
lb.)
Skin, hair, nails appear
Internal organs grow and
assume proper anatomical
positions
Pigmented hair on head &
eyebrows appears
Early Fetal Period: 6th Month
13 inches long
1 lb. Weight
Eyelids reopen and are completed
Structurally complete but
functionally immature
Later Fetal Period: 7th-9th Month/Birth
From the 7th month to
birth, the fetus triples in
weight
This is a period of filling out
Preparation for birth
Later Fetal Period:7th Month
A layer of adipose tissue begins to
form under skin (serves as both
insulator & food supplier)
Rapid 2-4 lb. Weight gain
14-16 inches long
Fetus is quiet for long periods of
time
Brain more active and is increasing
control over body systems
Later Fetal Period:8th Month
Fetus is more active
(frequent changes in
position)
Fatty deposits distributed
16-18 inches long
4-6 lbs.
Later Fetal Period:9th Month (Birth)
19-21 inches long
6-8 lbs.
Birth process is
initiated by placenta
and contraction of
uterine muscles
Birth generally occurs
after week 40 of
gestation (normal is
38-42 wks.)
Important parts in the uterus
Amniotic Sac
Placenta
Amniotic fluid
Umbilical cord
Environmental Influences
(Teratogens)
Maternal factors
Teratogenic – capable of causing birth defects
Maternal factors (continued)
Prescription and Nonprescription
Drugs
Medical drugs
Thalidomide
DES
Aspirin
Caffeine
Cocaine, heroin, or methadone
Maternal factors (continued)
Tobacco/Nicotine
Alcohol
Fetal alcohol syndrome
Fetal alcohol effects Sexually transmitted diseases
and other maternal illnesses
Acquired immune deficiency syndrome
Radiation
Environmental Polution
Maternal Diseases
Other Maternal factors
Exercise & Physical activity
Nutrition
Emotional Stress
Rh Incompartibility
Maternal age
Paternal factors
Environmentally caused defects
Cocaine use
Age
Smoking
Monitoring prenatal
development
Ultrasound
Sonogram
Sonoembriology
Amniocentesis
Chorionic villus sampling
Embryoscopy
Preimplantation genetic diagnosis
Umbilical cord sampling (fetal blood sampling)
Maternal blood test
Prenatal care
Why is prenatal care important?
How can it be improved?
What is the relationship between prenatal care and low
birthweight and premature births?
How can we tell whether a new baby is healthy and is
developing normally?
What complications of childbirth can endanger
newborn babies, and what can be done to increase the
chances of a positive outcome?
The birth process
Stages of childbirth
First stage
Second stage
Third stage
Fourth stage
Electronic fetal monitoring
Stages of childbirth
Prenatal development (con’t)
The Baby’s
Adaptation to
Labor and
Delivery
Newborn’s
appearance
The Newborn Baby
Newborn are called Neonate.
First four weeks of life (neonatal period)
A time of transition from the uterus, where a fetus is
supported entirely by the mother to an
independent existence.
When neonate are first born:
Covered by fluid from amniotic sac
Blood from placenta
Brownish fluid from own faeces.
Covered with lanugo (fuzzy prenatal hair)
Covered with vernix caseosa (cheesy varnish)
The Newborn Baby
Size and Appearance
New babies have distinctive feature a large head and a
receding chin
On the head Fontanels (the soft spots)
Newborns have a pinkish cast skin so thin that it barely
covers the capillaries through which blood flows.
Boys tend to be slightly longer and heavier than girls, and a
firstborn child is likely to weigh less at birth than later-borns
The Newborn Baby
Weight
:
2.8 -3.2 kg
Length :
51-53 cm (Boy > girl)
Head Circumference: 30-33 cm
Breathing:
Initially fast, short & irregular
Later more stable & with rhythm
Blood pressure become stable in 10 days.
Is the Baby Healthy?
Medical and Behavioral Screening
1.
2.
3.
Apgar Scale
The Brazelton Neonatal Behavioral Assessment Scale
Checks are also done for any structural or physical
deformities (eg. spinal defect, cleft palate)
Silver nitrate or tetracycline is usually dropped into
neonate eyes to prevent from bacterial infection while
passing through birth canal.
Apgar Scale
Apgar Scale is a standard measurement of a newborn’s
condition
Introduced by Dr. Virginia Apgar
Access newborn
1 min after birth
5 min after birth
Assess:
Appearance (colour)
Pulse (heart beat rate)
Grimace (reflex)
Activity (muscle tone)
Respiration (breathing)
APGAR SCALE
Sign
0
1
2
Appearance
Blue, pale
Body pink,
extremities blue
Entirely Pink
Pulse
Absent
Slow (below 100)
Rapid (over 100)
Grimace
No response
Grimace
Coughing,
sneezing, crying
Activity
Limp
Weak, inactive
Strong, active
Respiration
Absent
Irregular, slow
Good, Crying
Score:
Above 7 = (good/normal)
4 -7 = average, need monitoring
3 & Below = need immediate attention, high risk situation
Brazelton Neonatal Behavioral
Assessment Scale
The Brazelton Neonatal Behavioral Assessment
Scale (NBAS) (Dr. Berry Brazelton) serves 3
purpose:
As an index of neurological integrity after
birth
To predict future development
To assesses neonates' responsiveness to their
physical and social environment
Screening done on 3rd day and repeat again
after several days.
Brazelton Neonatal Behavioral
Assessment Scale (NBAS)
Test on four distinct areas:
Social behavior (interactive behaviors in the
home)
Motor behaviors (reflexes & muscle
activities)
Control of physiology (baby’s ability to quiet
himself)
Stress response (startle reaction)
High score a neurologically well developed infant
Low score a sluggish infant who need help in
responding to social situations, or possible brain damage.
Babies In-born Reflexes
Reflexes an inborn, automatic response to a particular
form of stimulation.
Full term newborns come equipped with a variety of
reflexes for use in dealing efficiently with stimuli
present in their environment.
Some reflexes are necessary for survival (eg. Rooting &
sucking reflexes)
Reflexes are probably genetic in origin & include a timing
mechanism that allows them to fade away after a period of
time.
Examples of Newborn Reflexes
Eye Blink
Moro
Withdrawal
Palmar Grasp
Rooting
Tonic Neck
Sucking
Stepping
Swimming
Babinski
In-born
Reflexes
Reflexes
Eliciting Stimulus
Response
Developmental
duration
Babinski
Gentle stroke along
Toes fan out: big toe
sole of foot (heel - toe) reflexes
Disappears by
end of first
year
Moro
Sudden lost of
support
Disappear in
6 months
Palmer
Grasp
Rod of finger pressed Object grasp
against infant’s palm
Disappear in
3-4 months
Rooting
Object lightly brushes
infant’s cheek
Disappear in
3-4 months
Sucking
Insert Finger in mouth Rhythmic sucking
Walking
Held baby upright.
Sole of feet placed on
hard surface
Arms extended, then
brought towards each
other
Baby turns towards
object and attempts to
suck
Disappear in
3-4 months
Infant step forward as if Disappear in
walking
3-4 months
Rooting
Stroke cheek near corner of
mouth or object brushes the
area
Infant respon by turning
head toward stimulation
Disappears at 3 weeks when
child begins to be able to
voluntarily turn head
Helps infant find nipple
Moro Reflex
Hold infant horizontally on
back and let head drop
slightly or produce sudden
loud sound against surface
supporting infant
Infant response is to make
an embracing motion by
arching back, extending
legs, throwing arms
outward and then bringing
them in toward the body
Disappear at 6 months
Probably in human
evolution helped baby cling
to mother
Palmer Grasp
Spontaneous grasp of
adult’s finger
Disappears at 3-4
months to allow
reaching and grasping
Prepares infant for
voluntary grasping
Tonic Neck Reflex
Turn baby's head to one side
while lying on back
Infant responds by lying in a
“fencing position” with one
arm extended in front of
eyes on side to which head
is turned other arm is flexed
Disappears at 4 months
May prepare infant for
voluntary reaching
GROWTH
Children grow faster during the first years, especially
during the first few months.
This rapid growth rate tapers off during the second and
third years
Physical growth and development follow the maturational
principles of the cephalocaudal principle and proximodistal
principle.
Influences on Growth
Genes interact with environment, i.e.
nutrition and living conditions, general
health and well-being
Well-fed, well-cared-for children grow taller
and heavier than less well nourished and
nurtured children
Better medical care, immunization and
antibioticsbetter health
Growth And Nutrition
Nourishment
Breast milk is almost always the best food for
newborns and is recommended for at least the first 12
months
Parents can avoid obesity and cardiac problems in
themselves and in their children by adopting a more
active lifestyle for the entire family--and to breastfeed
their babies
The Brain
First 3 years of life is critical to baby’s brain
development.
Before & after birth brain growth is fundamental to
future development.
It is estimated that about 250,000 brain cells are form
every minute in the uterus.
By birth, almost 100 billion nerve cell are formed, but not
fully develop.
Molding the Brain: The Role of Experience
Smiling, babbling, crawling, walking, and talking are
possible due to rapid development of the brain, particularly
the cerebral cortex
…BRAIN
Each part of the brain is very important in infuencing a child
development integration between child emotions and behavior.
Middle brain: Limbic System
• Covers motivation, emotions, &
long term memory, aggressive
behavior, body temperature,
hunger, nerve system
activities, hormon secretion
Outer Brain: Cortex &
neocortex
• Divided into
lobes/sections
(folds) with specific
functions.
• Placement of
‘intelligence’ & higer
mental process,
learning, memory,
thinking, language
(last to develop)
• Also control vision,
hearing, inventing.
Brain stem
Contro process such as
breathing, heartbeat muscle
movement, kidney process,
reflex behavior, sleep,
arousal, attention,
balance/movement etc.
171
Regions
of
the
Cerebral
Cortex
Thin layer on the brain’s surface that
include lobes or sections:
Occipital lobe
Process vision.
Temporal Lobe
Process hearing
Parietal Lobe
Process sensory stimuli
Frontal Lobe
Critical thinking & problem
solving
Frontal cortex area of the cortex
that controls personality and the
172
ability to carry out plans
Molding the Brain: The Role of
Experience
Early experience can have lasting effects on emotional
development and the capacity of the central nervous
system to learn and store information
Sometimes corrective experience can make up for past
deprivation
Brain and Neurons
...OTAK & NEURON
First 3 years of life children’s brain are actively
building and developing connections between the
neurons cells.
Connections are developed when the brain are
actively receiving stimulus process between
receiving and sending impulses between the cells.
Through axons/dendrites send signals to other
neurons & receive incoming message through
connection called synapses.
174
Infant States of Arousal
States of arousal are different degrees of sleep and
wakefulness
Infants move in and out of 5 states throughout the day and
night:
Regular sleep
Irregular sleep
Drowsiness
Alert Activity
Waking activity and crying
Striking individual differences in daily rhythms exist that
affect parents’ attitudes toward and interactions with baby.
Ways to Soothe a Crying Baby
Hold on shoulder and
rock or walk
Swaddle
Pacifier
Ride in carriage, car,
swing
Combine methods
Let cry for short time
Adjustments to Parenthood
Physical
Schedule
Financial
Time
Gender roles
Parents’ relationship
Pre-birth counseling
Interventions for high-risk couples
Early Sensory Capacities
Touch
Hearing
Vision
Taste
Smell
Touch and Pain
Touch seems to be the first sense to develop
Sensitivity to touch, pain, and temperature change is well-
developed at birth.
Pain experienced during the neonatal period may sensitize
an infant to later pain, perhaps by affecting the neural
pathways that process painful stimuli
Relieve pain with anesthetics, sugar, gentle holding
Reflexes reveal sensitivity to touch, for example touch on
mouth, palms, soles, genitals
Touch helps stimulate physical and emotional development.
Newborn Senses of
Taste and Smell
Prefer sweet tastes at birth
Quickly learn to like new tastes
Have odor preferences from birth
Can locate odors and identify mother
by smell from birth
Taste
Babies are born with the ability to communicate their taste
preferences to caregivers.
Infant facial expressions indicate they can distinguish among
several tastes.
Newborns' rejection of bitter tastes is probably another
survival mechanism, since many bitter substances are toxic
Smell
The responsiveness of infants to the smell of certain foods is
similar to that of adults showed that some odor
preferences are innate.
A newborn infant is attracted to the odor of her own
mother’s lactating breast helps to find food source and to
identify own mother a survival mechanism.
Newborns can identify the location of an unpleasant odor
and turn head away.
A preference for pleasant odors seems to be learned in utero
and during the first few days after birth
Studies conducted: Smell and Taste
Lipsitt, Engen & Kye (1963) : Baby showed negative response
to the smell of ammonia.
Steiner : Baby showed different facial expression when
exposed to different type of scent.
Mac Farlane (1977): Baby can differentiate between own
mother’s milk and other mothers’ milk.
Schmidt & Beauchamp (1988) : Baby’s ability to smell is
almost equivalent to a 3 years old ability to smell.
Harris & friends: By aged 4 months old, baby like the taste of
salt
•
•
Baby likes the
smell of:
• Banana,
• Margerine
• Tangerine
Baby dislikes
the smell of:
• Amonia
• Rotten egg
Well developed at birth - sensitive to voices and
biologically prepared to learn language
Hearing is functional before birth ability to
discrimination sound develops rapidly after birth. E.g.
Infants respond with changes in heart rate to loud
sounds (even in the womb)
Can hear wide range of sounds but are more responsive
to some than others – i.e. prefer complex sounds to pure
tones
Newborns prefer complex sounds such as voices and
noises to pure tones - learn sound patterns within days
Newborns prefer speech that is high-pitched and
expressive.
There are only a few speech sounds that newborns
cannot discriminate, and their ability to perceive speech
sounds outside their language is more precise than an
Developments in Hearing
4 – 6 months
6 months
Sense of musical phrasing
“Screen out” sounds from non-native
languages
Recognize familiar words, natural
7 – 9 months phrasing in native language
10 months
Can detect words that start with weak
syllables
Studies conducted:
Hearing
De Casper & Fifer (1980): Baby can differentiate
mother’s voices from others thru’ baby sucking
pattern.
Birnhold & Benacerraf (1983): 28th week baby showed
his/her response thru facial expression.
Wertheimer (1961) : Baby able to follow source of
sound thru’ the “clicker” test.
Vision
Vision - the least developed sense at birth
Newborns cannot focus their eyes very well
and their visual acuity fineness of
discrimination, is limited
However, newborns explore their
environment by scanning it for interesting
sights & tracking moving objects.
They can’t yet discriminate colors but
color vision will improve in a couple of
months.
Visual perception is poor at birth but
improves to 20/100 by age 6 months
Binocular vision using both eyes to
Infants’ Scanning of Faces
189
Face-like Stimuli
190
Studies conducted: Sight
Langlois & friends (1990): Babies are more attracted to
attractive and beautiful human faces.
Fantz (1993): Babies prefer to look at pictures of human.
Aslin (1987): 4 days old babies can differentiate between
green and red.
Babies prefer blue and red as compared to other colors.
Gibson & Walk (1960): Visual cliff experiment. 6 mth
babies has already develop in-dept perception in visual.
Steps in Depth Perception
Birth – 1
month
Sensitivity to motion cues
2–4
months
Sensitivity to binocular cues
5 –12
months
Sensitivity to pictorial cues.
Wariness of heights
Steps in Pattern Perception
3 weeks
Poor contrast sensitivity.
Prefer large simple patterns
2 months
Can detect fine-grained detail. Prefer
complex patterns.
4 months
Can detect patterns even if boundaries are
not really present
12 months
Can detect objects if two-thirds of drawing
is missing
Improvements in Vision
Brain development helps infants
reach adult levels of vision skills:
2 months: Focus and color vision
6 months: acuity, scanning &
tracking
6–7 months: depth perception
Integrating Sensory
Information
By 1 month, can integrate sight and touch
By 4 months, can integrate sight and
sound
4- and 7-month-olds can match facial
appearance (boy or man) with sound of
voice
195
Motor Development
Maturity affect infant perceptual and motor abilities.
Milestones of Motor Development
Babies first learn simple skills and then combine them into
increasingly complex systems of action
Week 1 : Motor ability progress
Month 1
: Chin lift
Month 2
: Reach for object
Denver Developmental Screening Test measures:
Gross motor skills (those using large muscles), such as
rolling over and catching a ball, and
Fine motor skills (using small muscles), such as grasping a
rattle and copying a circle.
Language development (for example, knowing the definitions
of words)
Personality and social development (such as smiling
spontaneously and dressing without help).
Motor Development
Newborn are not able to control their body movement no
coordination.
Most movements are due to inborn reflexes (rooting, moro,
palmer grasp etc)
Humans begin to walk later than other species, possibly
because babies' heavy heads and short legs make balance
difficult
Milestone in motor develpment
198
Motor Development
How Motor Development Occurs:
Maturation in Context
According to Thelen, normal babies develop the
same skills in the same order because they are built
approximately the same way and have similar
physical challenges and needs
Motor Development
Cultural Influences on Motor Development
Chances to explore their surroundings motor
development likely to be normal
Some cultures actively encourage early development of
motor skills
Motor Development
Training Motor Skills Experimentally
Gesell concluded that children perform certain
activities when they are ready, and training gives no
advantage
Interaction of biology and environment are
involved in infant motor development
Social development
Baby's ability to interact with other people
Develops thru regular interaction with babies,:
Feeding
Cleaning
Caring/loving
Newborn can imitate facial expression.
Attachment
What is attachment?
The most important form of social development that
occurs during infancy is ATTACHMENT, the positive
emotional bond that develops between a child and a
particular individual.
Bowlby viewed attachment as based on infant's needs for
safety and security (especially from the mother)
Infant Attachment
Attachment
an infant responds positively to specific others,
feels better when they are close, and seeks them
out when frightened.
Attachment provides
a sense of security to the child
information about the environment
Infant Attachment
Critical for allowing the infant to explore the world
Having a strong, firm attachment provides a safe base
from which the child can gain independence.
Attachment: adaptive
suggests that the tendency to form relationships is at
least partly biologically based.
Infant Attachment
Mary Ainsworth (1978) identified three major
attachment styles: Secure strong bonding
Avoidant negative bonding
Anxious/ambivalent display a combination of
positive and negative bonding