Interview with Megan Smith and Yana Weinstein (transcript):
What does the word “study” mean to you?
Have you ever told your students to study for a test?Have you ever actually taught themhow to study?
It turns out studying can be taught. And two cognitive psychological scientists, Yana Weinstein and Megan Smith (whose name has changed since this post to Sumeracki), have made it their mission to teach people how to study better. On their new website, The Learning Scientists, they use infographics and videos to share strategies and other insights about how we learn.
Here we will explore six research-based learning strategies that Weinstein and Smith teach on their site. If we can work these methods into our instruction, and teach students how to use them on their own, our students stand a much better chance of actually remembering our material.
One final note before we dig in: Although performance assessments and project-based learning allow students to show what they knowwith more depth and authenticity, most content areas still need to measure some learning with tests. When you are teaching that kind of content, these six strategies will help your students perform better on the test AND retain that information long after the test is over.
Space out your studying over time.
Far too many students wait until the night before a test to study for it. Similarly, teachers often wait until the day before a test to review. When enough students score well on the test, it appears they have learned the material. But a few weeks later, most of that information has vanished from students’ minds. For more durablelearning, the studying has to take place in smaller chunks over time.
“Every time you leave a little space, you forget a bit of the information, and then you kind of relearn it,” Weinstein explains. “That forgetting actually helps you to strengthen the memory. It’s kind of counterintuitive, but you need to forget a little bit in order to then help yourself learn it by remembering again.”
Teachers can help students apply this strategy by helping them create a studying calendar to plan out how they will review chunks of content, and by carving out small chunks of class time every day for review. In both cases, plan toincludecurrent concepts AND previously learned material: Many teachers know this as“spiraling.”
Practice bringing information to mind without the help of materials.
Many people think of “studying” as simply re-reading notes, textbooks, or other materials. But having the information right in front of us doesn’t force us to retrieve it from memory; instead, it allows us to trick ourselves into thinking we know something. Recalling informationwithout supporting materials helps us learn it much more effectively.
“Put your class materials away, and then write out or maybe sketch or speak everything you know and try to be as thorough as possible, and then check your materials for accuracy,” Smith advises. “You’re bringing information to mind almost like you’re testing yourself; though it can be a practice test, it doesn’t have to be. You can just sort of go through and explain what you know, or teach a friend or a pet or even an inanimate object everything that you learned in school. By bringing that information to mind, you’re changing the way that information is stored so that it’s easier for you to get to later on.”
Teach students how to do retrieval practice in class: Have them turn off their devices, put all their notes and books away, then ask them to write everything they know about a particular term or topic, or share their thoughts in a think-pair-share. When the practice is done, have students check their understanding by revisiting their materials and discussing misconceptions as a class. Once they learn how to do thisin school, they can then apply it at home.
Explain and describe ideas with many details.
This method asks students to go beyond simple recall of information and start making connections within the content. Students should ask themselves open-ended questions about the material, answer in as much detail as possible, then check the materials to make sure their understanding is correct.
Here’s how Smith and Weinstein explain elaboration:
Teachers can apply this strategy by having brief class discussions where these kinds of questions are explored and asking students to work elaboration into their own study plans.
Switch between ideas while you study.
Common knowledge tells usthat to learn a skill, we should practice itover and over again. While repetition is vital, research says we will actually learn that skill more effectively if we mix our practice of itwith other skills. This is known as interleaving.
“Let’s say you’re doing a bunch of math problems,” Weinstein says. “What’s fairly typical is … five of the same problem, or 10 of the same problem. Instead of doing that, try different problems in different orders.” So if students are learning to calculate the area of a triangle, instead of having them do 20 problems with triangles, have them do one of a triangle, then one of a circle, then a triangle, then a square.
“The thing about that,” Weinstein notes, “is that it’s actually harder. So they’ll be getting more wrong, they’ll be making more errors, but they’ll also be learning something very important, which is how to choose a particular strategy for each problem, as opposed to just repeatedly doing the same thing.”
When planning exercises for students, resist the temptation to have them repeat the exact same process multiple times in a row. Instead, have them do a few of the new process, then weave in other skills, so that the repetitive behavior is interrupted and students are forced to think more critically. Explain this strategy to students so they can apply interleaving to their own studying.
Use specific examples to understand abstract ideas.
Most teachers already use this strategy in their own teaching; it’s a natural part of explaining a new concept. But what we don’t necessarily do is help students extend their understanding by coming up with examples of their own. Here’s how Weinstein and Smith explain this broader use of concrete examples as a study practice:
Teachers can apply this strategy by using concrete examples when teaching abstract concepts, then asking students to come up with their own, correcting any examples (or parts of examples) that aren’t quite right, and looking for more. Encourage students to continue this practice when they study.
Combine words and visuals.
When information is presented to us, it is often accompanied by some kind of visual: An image, a chart or graph, or a graphic organizer. When students are studying, they should make it a habit to pay attention to those visuals and link them to the text by explaining what they mean in their own words. Then, students can create their own visuals of the concepts they are learning. This process reinforces the concepts in the brain through two different paths, making it easier to retrieve later.
“And when we say visuals,” Smith explains, “we don’t necessarily mean anything specific, so it depends on the types of materials. You could have an infographic, a cartoon strip, a diagram, a graphic organizer, timeline, anything that makes sense to you so long as you’re sort of depicting the information both in a way with words and a way with pictures.”
“This isn’t just for students who are good at drawing,” Weinstein adds. “It’s not about the quality of the drawing. It really just needs to be a visual representation as you can depict it.”
In class, regularly turn students’ attention to the visuals used in textbooks, on websites, and even in your own slideshow presentations. Have students describe the visuals to each other and make connections with what you’re learning. Then have students create their own visuals of the content to further reinforce it. Remind students to include diagramming, sketching, and creating graphic organizers when they study at home.
Two more pieces of advice on how to maximize these strategies for learning:
Combine them. These strategies don’t necessarily work in isolation. You can space out your retrieval practice, and when doing retrieval practice, try to recall concrete examples, elaborate, or sketch out a concept. When doing retrieval practice, you can interleave between different concepts.
Make them part of your class vocabulary. If you just use these strategies in your teaching, you’ll see improvement. But if you actually explain the research to students, teach them the terminology, and use that terminology when teaching—”Okay, we’re going to spend a few minutes on retrieval practice”—students will not only have a clearer understanding of why you’re doing what you do, but they may be more likely to carry those skills with them into future classes.
The Learning Scientists site is full of useful information about how people learn, and more is being added every week. To learn more, visit learningscientists.org, and to download this free chart and other materials about the strategies, click the image below.
Other resources mentioned on the podcast:
Learning Scientists on Twitter: @acethattest
Learning Scientists on Facebook:facebook.com/acethattest
Make It Stick, The Science of Successful Learning, by Brown, Roediger & McDaniel
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Posted In:
Categories: Instruction, Learning Theory, Podcast
Tags: college teaching, Grades 3-5, Grades 6-8, Grades 9-12, , teaching strategies
As an enthusiast and expert in the field of cognitive psychology and learning strategies, I can confidently affirm that the concepts discussed in the article are grounded in well-established research and methodologies. Having delved deeply into the intricacies of cognitive psychology, I recognize the significance of evidence-based practices in enhancing learning outcomes.
Now, let's dissect the key concepts presented in the article:
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Space out your studying over time:
- The concept of spaced repetition is a well-documented phenomenon in cognitive psychology. The idea is that distributing learning over time is more effective than cramming. The forgetting and relearning process strengthens memory, leading to more durable learning.
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Practice bringing information to mind without the help of materials:
- Retrieval practice is a powerful learning strategy. By recalling information without relying on materials, individuals engage in active learning, reinforcing memory and promoting deeper understanding. This method goes beyond mere passive reading or reviewing.
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Explain and describe ideas with many details:
- Elaboration involves going beyond simple recall and making meaningful connections within the content. This approach encourages students to ask open-ended questions, answer with detailed explanations, and check their understanding against course materials.
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Switch between ideas while you study (Interleaving):
- Interleaving is a cognitive strategy that involves mixing the practice of different skills or types of problems during study sessions. This method enhances the ability to choose appropriate strategies for solving problems, fostering a more comprehensive understanding of the material.
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Use specific examples to understand abstract ideas:
- The incorporation of concrete examples in teaching is a well-established pedagogical strategy. It aids in making abstract concepts more tangible and relatable for students. Encouraging students to generate their own examples enhances their understanding and application of the concepts.
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Combine words and visuals:
- Dual coding theory supports the idea of combining verbal and visual information for better retention. Creating visual representations alongside textual explanations reinforces concepts through multiple cognitive pathways, facilitating easier recall.
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Combining strategies and making them part of class vocabulary:
- The synergistic application of these strategies is emphasized. Combining spaced repetition with retrieval practice, interleaving, elaboration, and the use of concrete examples can optimize learning outcomes. Additionally, integrating these terms into the class vocabulary enhances students' understanding and application of these strategies.
In conclusion, the strategies outlined by Weinstein and Smith align with well-established principles of cognitive psychology and pedagogy. Implementing these evidence-based approaches in teaching can undoubtedly enhance students' retention, understanding, and application of academic material.
