Memory and Cognitive Load

Overview

Teaching: 20 min
Exercises: 25 min
Questions
  • What is cognitive load and how does it affect learning?

  • How can we design instruction to work with, rather than against, memory constraints?

Objectives
  • Identify when cognitive load is likely to limit learning.

  • Use a concept map to plan a formative assessment strategy.

In our final topic in educational psychology, we’ll be learning more about human memory: specifically, how to remove unnecessary “load” in order to facilitate learning.

Types of Memory

While the graph model of knowledge is inaccurate but useful, another simple model of knowledge has a sound physical basis. For our purposes, human memory can be divided into two different layers. The first is called long-term. It is where we store persistent information like our passwords and our home address. It is essentially unbounded (barring injury or disease, we will die before it fills up) but it is slow to access.

Our second layer of memory is called short-term. This is the type of memory you use to actively think about things and is often called working memory. It is much faster, but also much smaller: in 1956, George Miller estimated that the average adult’s short-term memory could hold 7±2 items for a few seconds before things started to drop out. This is why phone numbers are typically 7 or 8 digits long: back when phones had dials instead of keypads, that was the longest sequence of numbers most adults could remember accurately for as long as it took the dial to go around and around.

More recent research suggests that short-term memory is actually even smaller than this. Regardless of its exact size, which may differ across people and contexts, we know that short-term memory is limited. This has important implications for teaching. If we present our learners with large amounts of information, without giving them the opportunity to practice using it (and thereby transfer it into long-term memory), they won’t retain the material as well as if we present small amounts of information interspersed with practice opportunities. This is yet another reason why frequent formative assessment is important.

Test Your Working Memory (5 min)

This website implements a short test of working memory. You will be presented with a variety of different symbols, each presented for only a very short time, and asked to select those that you remember from a second set of symbols. There are 21 steps to the quiz, after which you can skip over the survey to see your results.

Take 5 minutes to complete the exercise. What was your score? Write your answer in the Etherpad.

Non-web version of this exercise

Read the following list and try to memorize the items in it:

cat, apple, ball, tree, square, head, house, door, box, car, king, hammer, milk, fish, book, tape, arrow, flower, key, shoe

Without looking at the list again, write down as many words from the list as you can. How many did you remember? Write your answer in the Etherpad.

Most people will have found they only remember 5-7 words. Don’t worry if you remembered fewer - many factors can affect short-term memory in different situations. Fortunately, there are techniques that we can use to improve our effective short-term memory. We’ll illustrate one of these techniques and then describe how this is applicable to our workshops.

Strategies For Memory Management

Our minds can store larger numbers of facts in short-term memory by creating chunks, or relationships among separate items, causing them to be remembered as a single item. For example, most of us will remember a word we read as a single item (“cat”), rather than as a sequence of letters (“c-a-t”). Similarly, the pattern made by five spots on cards or die is remembered as a whole rather than as five separate pieces of information.

Improving Short-term Memory with Chunking

Repeat the memory exercise you did earlier, but this time, try to form short stories or phrases, or a visual image, from the words you see.

Write the number of words you remembered in the Etherpad. How does this compare with your first attempt?

Storing words in groups reduces the number of effective items in your short-term memory, allowing you to keep more information in your head at once. This is one reason why helping our learners to see the connections among the concepts we are teaching is so important.

Active Learning Through Formative Assessment

Formative assessment is a key component in helping learners solidify their understanding and transfer ideas from short-term memory into long-term memory. It’s important to use formative assessments frequently to help learners transition new concepts into their long-term memory, before their short-term memory fills up. It can be helpful to use pedagogical planning tools to identify the number of concepts that are being introduced in a lesson and plan where to include formative assessments.

Concept Maps as Instructional Planning Tools

One tool that can be used to identify the number of concepts being introduced in a lesson is the concept map. A concept map is a picture of someone’s mental model of a domain: facts are bubbles, and connections are labelled arcs. It is important that they are labelled: saying “X and Y are related” is only helpful if we explain what the relationship is.

To show what concept maps look like, consider this example of a for loop in Python:

for ch in "abc":
    print(2*ch)

The three key concepts used in this loop are:

Key Concepts

The key relationships, which are as important as the concepts themselves, are:

Relationships

A quick count shows that there are actually 6 things here, not just 3, so we’re already brushing up against the limits of short-term memory. If we add two more facts to show things that are usually (but not always) true:

Recommendations

the count rises to 8, which is a good size for a single teaching episode. A few other concept maps drawn by previous participants in this training course are listed below:

Most of these are much larger than our recommended limit, but that’s not necessarily a bad thing. An instructor can draw a concept map for an entire topic, and use that to decide where to introduce a formative assessment to avoid overloading short-term memory.

It’s very important to use a technique like concept mapping for a lesson before teaching it - an instructor needs to identify just how many pieces of separate information will need to be “stored” in memory during each part of the lesson.

Concept Mapping

Create a hand-drawn concept map for a part of a Carpentry lesson you would teach in five minutes (i.e. the amount of material you would teach before doing a formative assessment). You can use the same subject about which you created a multiple choice question, or a different subject. Trade with a partner, and critique each other’s maps. Are there any concepts missing in your partner’s map that you would include? Are there more than a handful of concepts in your map? If so, how would you re-divide those concepts to avoid overwhelming your learners’ short-term memory?

Take 10 minutes to draw the concept maps and share with your neighbor. Write “done” in the Etherpad chat once you have finished.

Other Uses of Concept Maps

In addition to helping you plan where to introduce formative assessments, concept maps can be used in many other ways:

  1. To aid solo design of a lesson by helping authors figure out what they’re trying to teach.
  2. To aid communication with fellow lesson designers.
  3. To aid communication with learners. While it’s possible to give learners a pre-drawn map at the start of a lesson for them to annotate, it’s better to draw it piece by piece while teaching to reinforce the ties between what’s in the map and what the instructor said.
  4. Concept maps can be used as a classroom discussion exercise. Put learners in small groups (2-4 people each), give each group some sticky notes on which a few key concepts are written, and have them build a concept map on a whiteboard by placing those sticky notes, connecting them with labelled arcs, and adding any other concepts they think they need.
  5. Concept maps are also a useful formative assessment technique: having learners draw concept maps of what they think they just heard shows the instructor what was missed and what was misunderstood.

Why Guided Practice is Important

The quality of practice that is provided to learners is very important. In Carpentry workshops, we use guided practice: we set up a structure in which learners can test their skills and get feedback on their progress. This contrasts with another teaching strategy variously known as constructivist, discovery, problem-based, experiential or inquiry-based learning.

In 2006, these types of teaching were the subject of a paper titled “Why Minimal Guidance During Instruction Does Not Work: An Analysis of the Failure of Constructivist, Discovery, Problem-Based, Experiential, and Inquiry-Based Teaching”.

This paper argued that minimal-guidance approaches to teaching ignore both what we know about human cognitive architecture and evidence from many research studies showing that minimally-guided instruction is less effective than guided learning.

Minimally-guided instruction requires learners to simultaneously master a domain’s factual content and its search and problem-solving strategies. Fostering creativity and independence is intuitively appealing, but that doesn’t mean it works.

One of the paper’s authors (Sweller) proposed an alternative based on the theory of cognitive load. It posits that people have to deal with three things when they’re learning:

Cognitive load theory’s proponents claim that eliminating extraneous cognitive load accelerates learning.

In the framework of cognitive load, some predictions can be made. One example is work by Mayer and colleagues on the split-attention effect. Linguistic and visual input are processed by different parts of the human brain, and linguistic and visual memories are stored separately as well. This means that correlating different linguistic, auditory, and visual streams of information takes cognitive effort: when someone reads one thing while hearing something else spoken aloud, their brain can’t help but check that it’s getting the same information on both channels. Discrepancies between these channels increase cognitive load and decrease learning. Learning is therefore more effective when information that is being presented simultaneously in two different channels is redundant, rather than different.

For our workshops, this means the instructor should say out loud commands as they type them on the screen while engaging learners in participatory live coding.

Faded Examples

According to cognitive load theory, searching for a solution strategy is an extra burden on top of applying that strategy. We can therefore accelerate learning by giving learners worked examples that show them a problem and a detailed step-by-step solution, followed by a series of faded examples. The first of these presents a nearly-complete use of the same problem-solving strategy with a small number of blanks for the learner to fill in. The next problem is also of the same type, but has more blanks, and so on until the learner is asked to solve the entire problem.

Faded examples work because they introduce the problem-solving strategy piece by piece. At each step, learners have one new problem to tackle. This is less intimidating than a blank screen or a blank sheet of paper. It also encourages learners to think about the similarities and differences between various approaches, which helps create the linkages in the mental model that instructors want them to form.

For example, someone teaching Python might start by explaining this:

def total_length(words):
    """Returns the total length of all words in a list combined.

    Example:
       total_length(["red", "green", "blue"]) => 12
    """
    total = 0
    for word in words:
        total += len(word)
    return total

then ask learners to fill in the blanks in:

def word_lengths(words):
    """Returns a list of lengths of each word in a list.

    Example:
        word_lengths(["red", "green", "blue"]) => [3, 5, 4]
    """
    lengths = ____
    for word in words:
        lengths ____
    return lengths

The next problem might be:

def concatenate_all(words):
    """Combines all words in a list into one.

    Example:
        concatenate_all(["red", "green", "blue"]) => "redgreenblue"
    """
    result = ____
    for ____ in ____:
        ____
    return result

and learners would finally be asked to tackle:

def acronymize(words):
    """Returns the first letter of each word in a list capitalised in a single string.

    Example:
        acronymize(["red", "green", "blue"]) => "RGB"
    """
    ____

Another situation in which a concept map can be helpful is in deciding where to place the blanks in a faded example. Each blank (or set of blanks) would ideally correspond to one concept in your concept map.

Create a Faded Example from a Lesson

The following exercise should be done in groups of 2-3.

  1. Pick a block of code from an existing Carpentries lesson, or from another lesson you have taught recently.
  2. Replace 2-3 pieces of the code with a blank.
  3. Write a question to test the learner’s ability to correctly fill in that blank.
  4. Paste your faded example in the Etherpad.

This exercise should take about 10 minutes.

Summary

The process of learning is constrained by the limits of short-term memory. In order to move new information into long-term memory, it must be actively applied, but activities that make excessive demands on short-term memory are likely to induce cognitive overload and can easily harm learner motivation. Instructional tools that expand short-term memory by increasing connectivity (chunking) among new concepts, such as concept mapping, can improve outcomes for subsequent memory-intensive exercises. Formative assessments, when performed frequently, help learners by prompting them to apply new content before it has been overwritten. Faded examples both minimize demands on short-term memory and offer context that helps improve connectivity for future work, in which the “scaffolding” of contextual support can be gradually removed. Anything you can do to a) recognize and b) support learners in working with the limitations of short-term memory will improve the effectiveness of your teaching.

Key Points

  • Most adults can store only a few items in short-term memory for a few seconds before they lose them again.

  • Things seen together are remembered (or mis-remembered) in chunks.

  • Teaching consists of loading short-term memory and reinforcing it long enough for items to be transferred to long-term memory.

  • Use formative assessments to avoid overloading short-term memory.