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Developmental Psychology

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Metacognitive Development: How Children Estimate Their Memory

Overview

Source: Laboratories of Judith Danovitch and Nicholaus Noles—University of Louisville

Human memory is fallible, and people often cannot accurately recall what they have seen or heard. Adults are aware of their limited memory capacity, so they use strategies, such as rehearsal and mnemonic devices, to improve their recall of important information. Because adults understand the limits of memory, they know it makes more sense to write down the items on their shopping list rather than to try to remember the items when they get to the store. This ability to think about one’s own memory is called metamemory. Metamemory is one component of a broader set of cognitive processes that allow humans to think about their own knowledge and thinking, which is called metacognition.

Although young children understand that people have thoughts and a limited amount of knowledge, they often have trouble acknowledging the limits of their own knowledge and cognitive skills. Children’s ability to accurately estimate their own memory capacity and abilities improves over the elementary school years. One common way of measuring metamemory and its development is by giving children an opportunity to predict how well they can remember something, and then observing how well their prediction matches their actual recall.

This experiment demonstrates how to measure children’s metamemory based on the methods developed by Shin, Bjorklund, and Beck.1

Procedure

Recruit children between ages 6 and 9. For the purposes of this demonstration, only one child is tested. Larger sample sizes (as in the Shin, Bjorklund, and Beck study1) are recommended when conducting any experiments.

Participants should have no history of developmental disorders and have normal hearing and vision.

1. Prepare study materials.

  1. Create a set of 18 cards with a black-and-white picture of a common object and the printed name of the object on each card.
    1. An example list of objects is: bicycle, bus, ship, truck, train, taxi, grapes, watermelon, banana, strawberry, cherry, lemon, crocodile, deer, pig, bear, squirrel, and zebra.
  2. Create and print a number line showing the numbers 1-18.

2. Data collection

  1. Memory estimation
    1. Sit the child on the opposite side of the table as the experimenter.
    2. Explain that the child is going to be playing a memory game. Tell the child, “I am going to show you 18 pictures. You will have two minutes to study them any way you like.”
    3. Ask the child, “How many of the 18 pictures do you think you will remember?” and show the child the number line.
    4. Record the child’s response. 
  2. Picture presentation
    1. Present the child with each of the 18 cards one at a time.
    2. When presenting each card, ask the child to name the object on the card or read the label. Correct any errors.
    3. After the child has named the picture, place the card face up on the table. 
  3. Study
    1. When all 18 cards have been presented and are on the table, tell the child that they will have two minutes to study the cards.
    2. Set a timer for 2 min.
    3. Allow the child to study the cards in any way they see fit.
    4. Notify the child when time is up, then pick up and put away the cards. 
  4. Delay
    1. The goal of this portion of the procedure is to create a buffer between study and test, in order to ensure that the child is not continuing to rehearse the studied items.
    2. Give the child a set of puzzles or mazes and ask the child to complete them.
    3. Set a timer and allow the child to work on the puzzles or mazes for 5 min. 
  5. Memory test
    1. Ask the child to recall as many of the 18 items as possible.
    2. Record the child’s responses.
    3. If the child has not recalled any items for approximately 10 s, ask the child if they remember anymore items.
    4. If the child responds that they do not remember anything else, then encourage them to keep trying to remember any other items.
    5. If the child fails to recall any items for approximately 10 s this time, end the memory test session and thank the child for their participation. 

3. Analysis

  1. The dependent variables in this study are the number of objects the child predicted they would remember (0-18) and the total number of objects the child actually recalled during the memory test (0-18).
  2. Calculate each child’s prediction accuracy by subtracting the actual number of items recalled from the predicted value. This score can be positive, indicating overestimation, or negative, indicating underestimation.
  3. Calculate the percentage of children who overestimate their memory for each age group, and compare these percentages by using a chi-square test.

Conceptualizing one’s own memory, referred to as metamemory, is often difficult for young children to do.

Although young children understand that people have thoughts and a limited amount of knowledge, they often have trouble acknowledging the limits of their own memory abilities, often overestimating their capabilities.

Importantly, their ability to accurately estimate their own memory capacity improves over the elementary school years, and they start using adult-like strategies, such as making lists to improve recall of information.

This video demonstrates how to design and conduct an experiment investigating metamemory in school-aged children, as well as how to analyze and interpret results involving predicted and actual memory recall.

In this experiment, children in two age groups—6 and 9 year-olds—are first asked to predict how well they think they can remember objects before being shown the items.

After observing the objects and waiting through a short delay, in which they complete distractor puzzles to prevent rehearsal, the children are then asked to recall as many objects as possible.

Here, the dependent variables are the number of objects the child predicted to remember as well as the total number of objects the child actually recalled during the memory test.

Children’s capacity to accurately predict memory ability is expected to improve with age. In other words, the prediction of 9-year-olds will more closely match their actual recall, compared to 6-year-olds.

Before the experiment begins, gather the study materials, which include a set of 18 cards that contain different black and white pictures of common objects with their names labeled and a number line that ranges from 1 to 18.

When the child arrives, verify with the parent or guardian that they have no history of developmental disorders and normal hearing. Have them sit on the opposite side of the table.

To begin the experiment, inform the child that they will be playing a memory game and will have time to study the cards at the end.

Using the number line, ask the child how many of the 18 pictures they think they will remember, and record their response.

During the object presentation phase, present each card, one at a time, and ask the child to name the object or read the label. Make sure to provide feedback every time, and place the card face up on the table.

After all 18 cards have been presented, inform the child that they will have 2 min to study the pictures. Start the timer, and allow them to study in any way they want to. When the time has elapsed, pick up the cards.

To ensure that the child is not continuing to rehearse the studied items, create a buffer between the study and memory test by giving them a set of puzzles to work on during a delay period of 5 min.

At the end of the delay period, ask the child to recall as many of the 18 items as possible. Record their responses. Continue to encourage the child to remember as many items as possible, until they fail to recall any items for about 10 s.

When the child fails to recall more items, end the memory test session and thank them for their participation.

Once the study is finished, average both the number of items that children predicted they would recall and the number they actually recalled by age group. Notice the difference between age groups.

To calculate each child’s prediction accuracy, subtract the actual number of items recalled from the predicted recall value. Using these scores, now graph the percentage of children by age group who overestimated their memory—that is, those who predicted that they would recall more than they did—and compare the percentages using a chi-square test. Note that fewer 9-year-olds overestimated their memory compared to 6-year-olds, indicating that memory prediction improves as a function of age.

Now that you are familiar with children’s tendencies to overestimate their memory abilities, let’s examine both positive and negative consequences for their behavior in a number of situations across development.

The mere thought of thinking about succeeding can help motivate children to face challenging tasks. For example, their naivety likely contributes to their willingness to try new activities—like jumping into a swimming pool.

In contrast, children’s excessively positive views of themselves can also have risky consequences for their physical well-being. Younger children are more likely to engage in a dangerous behavior—like performing a bicycle stunt—as a consequence of their tendency to overestimate their knowledge and abilities.

You’ve just watched JoVE’s introduction for studying how children’s metamemory develops over time. Now you should have a good understanding of how to design and conduct the experiment, and finally how to analyze and interpret the results.

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Results

Researchers tested 32 6-year-olds and 32 9-year-olds and found that children’s predictions improved with age (Figure 1). Older children predicted they would remember less items than younger children, yet the total number of items they actually recalled was higher. The average prediction accuracy score for 6-year-olds was 4.19, indicating that they consistently overestimated their memory. The average prediction accuracy score for 9-year-olds was 1.02, indicating that their predictions about their memory were more realistic. Similarly, 78% of 6-year-olds overestimated their memory, but only 46% of 9-year-olds did so (Figure 2). Chi-square tests comparing the number of children who overestimated their memory across age groups were significant at the p < 0.05 level.

Figure 1
Figure 1. Average predicted and actual recall for children in each age group (out of 18 items).

Figure 2
Figure 2. Percentage of children at each age who overestimated their memory.

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Applications and Summary

Children’s tendency to overestimate their knowledge and abilities, including their memory, has consequences for their behavior in a number of situations. In the classroom, thinking that they remember or know more than they do can make it hard for children to understand the value of studying or rehearsing new information. Even when young children are faced with direct evidence of their limitations (e.g., failing to remember items in a memory test), they often persist in overestimating their abilities.

This excessively positive view of themselves can also have consequences for children’s physical well-being, as younger children are more likely to engage in a dangerous behavior, like a bicycle stunt, because they believe they are capable of doing so successfully. Older children who realize their limitations are less likely to risk activities well outside of their capabilities.

Although it may seem like overestimating yourself and having poor metacognitive awareness would only have negative consequences for young children, some researchers have proposed that children’s overestimation of their abilities is beneficial in some ways, as well. In reality, young children are not very capable. They still have a lot to learn, and it may be that having a true understanding of the limits of their knowledge, memory, strength, etc., would decrease their motivation to try new things or face a challenging task. However, because children believe they are capable, and in some ways invincible, they are willing to take on challenges, like learning to multiply or doing a cartwheel. Thus, thinking that they will succeed (even if it is actually unlikely) can help motivate children to try new activities and learn more about the world.

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References

  1. Shin, H., Bjorklund, D. F., & Beck, E. F. The adaptive nature of children's overestimation in a strategic memory task. Cognitive Development. 22 (2), 197-212 (2007).

Transcript

Tags

Metacognitive Development Children Memory Estimation Metamemory Memory Capacity Memory Recall Experiment Design Data Analysis Age Groups Memory Prediction

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