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Piaget’s Conservation Theory & Autism Breana McCormack Child Growth & Development

Piaget’s Conservation Theory & Autism Breana McCormack Child Growth & Development

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Piaget’s Conservation Theory

& AutismBreana McCormack

Child Growth & Development

Jean Piaget• Born in 1896 in Neuchâtel, Switzerland• Died in 1980• Studied at the University of Neuchâtel

and briefly at University of Zurich.• At the age of 15, he published several

articles on mollusks based on his interest in biology.

• Piaget faced an intellectual crisis realizing that his religious and philosophical views lacked a scientific background.

• Planned to study the origin of knowledge through the mind’s development in child psychology.

• Developed his own “genetic epistemology.”

• 1920, Binet Laboratory; became interested in children’s wrong answers in standardized intelligence tests.

http://childpsych.umwblogs.org/developmental-theories/jean-piaget/

Piaget’s Stage TheorySensorimotor Intelligence (Birth – 2 years)

Babies show first signs of intelligence through their physical actions and sensory perceptions.

Schemes – actions for dealing with the environment Primary Circular Reactions – organization of two separate body

movements, schemes. Thought begins

Preoperational Thought (2 – 7 years) Children learn to think using symbols and images. Thinking is unsystematically illogical. Make Believe Play Animism – inanimate objects are personified. Conservation

Piaget’s Stage TheoryConcrete Operations (7 – 11 years)

Children think systematically but need to refer to concrete objects and activities.

Child achieves this level of thinking after mastering conservation.

Formal Operations (11 – Adulthood)Young people develop the capacity to think

systematically on a purely abstract level.

Bruno Bettelheim Born in 1903 in Vienna, Austria.

Died in 1990

Grew up with an interest in psychoanalysis.

In 1932, he and his wife began caring for a girl later diagnosed with autism.

From 1938 to 1939, he was a prisoner in the concentration camps of Dachau and Buchenwald during the time of Hitler.

Entered the U.S in 1944 and took over the Orthogenic School in Chicago working with and sheltering children with a variety of mental disorders.

http://www.phillwebb.net/History/Twentieth/Continental/Psychoanalysis/Bettelheim/Bettelheim.htm

Bettelheim on AutismAt the time, autism was a mysterious condition

in which children are unresponsive to people.

Autism is the earliest of severe personality disturbances, typically showing up around age 2.

Bettelheim suggests that autism is caused by children giving up their autonomous actions because their actions received indifference.

Terms That Guided This Research

Autism[T]he presence of a distinctive impairment

in the nature and quality of social and communicative development.... It is this impairment that distinguishes autism from other neurodevelopmental conditions (e.g.., mental retardation, developmental language disorders, specific learning disabilities).”

(Autism Identification, Education, and Treatment, Zager)

Terms That Guided This Research

Preoperational Stage (2 – 7 years) Conservation

The comprehension that an object that has changed aesthetically still has the same quantity.

Substage 1 Child clearly fails to conserve, fails to realize that the

quantity is the same. Substage 2

Child takes a step toward conservation but does not achieve it.

A child “considers two dimensions simultaneously and recognizes that a change in one dimension cancels out a change in the other.”

(Theories of Development, Crain)

Terms That Guided This Research

Concrete Operations (7 – 11 years) When children achieve conservation, they are entering

this stage. They demonstrate conservation using three arguments:

Identity – Nothing was added or taken away.Compensation – The changes cancel out each other.

The child assumes that the changes are part of an organized system (a change in one dimension is related to a change in another dimension).

Inversion – The object after undergoing a change can be reversed back into it’s original state.

Logical Operations – mental actions that are reversible.

Research QuestionsDo autistic children follow Piaget’s Conservation

Theory in accordance to their age groups?

Are there patterns of differences among conserving autistic children with respect to conserving normally developed children?

HypothesisYes, autistic children will follow Piaget’s

Conservation Theory in accordance to their age groups.

No, autistic children will have the same conserving patterns as normally functioning children.

SettingThe study took place the

researcher’s home in San Juan, TX.

A table setting with two chairs.

Study took place in one day.

LimitationsResearcher had access to only four children:

2 Autistic Children1 Male (5 years old)1 Female (17 years old)

2 Normally Functioning Children1 Female (7 years old)1 Female (9 years old)

Varying Ages

ProcedureTask 1: Number Conservation

1. Take 16 pennies and make two rows, 8 in each row and with the same length. Count together how many pennies there are in each row.

2. Ask the child, “Is there more here (point to one row) or here (point to other row)?” “Why do you think so?”

3. Spread out one row of the pennies so that one row is physically longer than the other.

4. Ask the child, “Is there more pennies here (point to longer row) or here (point to shorter), or are they the same?” Record the child’s response. Then ask, “Why do you think so?”

Note: Record the child’s answers.

http://piagets.wikispaces.com/Piagets+theory

ProcedureTask 2: Mass Conservation

1. Take a piece of clay and divide it as equally as possible.

2. Have child roll the pieces into two balls and then ask the child if they are the same.Note: If the child agrees that they are the same, proceed. If child disagrees,

ask the child to make them the same.

3. Have child squish one of the balls into a pancake. Ask the child, “Is there the same amount of clay in this one (pointing to the ball) as there is in this one (pointing to the pancake)?”

4. After their response, ask, “Why do you think that this one has more,” or, “Why do you think that they have the same amount of clay?”

5. Record all responses exactly as the child has reported them.

ProcedureTask 3 : Volume Conservation

1. Put two glasses of the same size in front of the child. Ask child to pour equal amounts of water into both cups.

2. Ask student to verify that there is the same amount of water in each glass by asking, “Are you sure that there is the same amount of water in each glass? Positive?”

Note: Only move onto next step once child verifies the cups have the same amount of water.

3. Ask the student to pour water from one of the glasses into an empty “different” glass.

4. Wait for child to complete pouring, then ask, “Now which one has more?” ”Why?”Note: Record child’s answers on a data sheet.

DataTask 1: Number Conservation

“They are still the same. It’s still a group of eight.” (7 year old, female)

Said they are the same because “you just spread them out.”(9 year old, female)

Said the spread out line of pennies had more “because it has more. It’s longer.” (5 year old, male, autistic)

“They both have same amount I guess, they are worth the same.” (17 year old, female, autistic)

DataTask 2: Mass Conservation

“Yes, all you did was smush one down. You didn’t take any away.” (7 year old, female)

“Yes, still have same amount but one is a sphere and one is flat.” (9 year old, female)

The ball has more “because it’s a ball.” (5 year old, male, autistic)

“The amount of them doesn’t change if you change the shape.” “This one is flat but we didn’t take any away.” (17 year old, female, autistic)

DataTask 3: Volume Conservation

“Yes both are the same. I poured the same water from the tall skinny one to the small fat one.” (7 year old, female)

“Yes, they have the same amount of water because the water from this cup (points at bigger cup) was poured into this little cup. So it’s the same amount.” (9 year old, female)

“Bigger cup has more water because the little cup is little.” (5 year old, male, autistic)

“Technically they’re both the same. Because even though this one (points at little cup) is small and all, [but] it’s wider.” (17 year old, female, autistic)

Results

Findings Child 1: According to Piaget, Child 1 clearly was able to conserve. She

did not hesitate in her answers. She is within the age range of Concrete Operations stage.

Child 2: According to Piaget, Child 2 was clearly able to conserve. She did not hesitate in her answers. She within the age range of the Concrete Operations stage.

Child 3a: According to Piaget, Child 3a was not able to conserve. According to Piaget, a child is around 7 years old when he is able to conserve. Child 3a is in the Preoperational stage.

Child 4a: According to Piaget, Child 4a was able to conserve. Her age is beyond the Concrete Operational stage, but her development period cannot be determined simply by only a conservation experiment. Since Piaget did not stress the importance on age, I cannot place her in the Formal Operations stage without further investigation.

ImplicationsMy Hypothesis was correct.

Piaget states that children around age 7 are able to conserve.

Child 3a (5 years old) was not able to conserve, following Piaget’s age limit.

Child 3a used similar logic as other children from other research studies that could not conserve.

Child 4a (17 years old) used two of the three conservation arguments, showing that her patterns matched with those that can conserve.

New Questions1. Where would a 7 year old autistic child stand in

the midst of the Development stages?

2. Since there are many levels of autism (ranging from severe to mild), how would both cases perform in the conservation tasks?

EvaluationsIf I were to do my research study again:

I would use more children, specifically more autistic children.

Test more children around the same ages and according to Piaget’s age range for the Preoperational and Concrete Operational Stages.

I would record with a recorder the study, for clearer data.

A limitation I encountered was that one of the autistic children had difficulty conveying what she was trying to express.

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