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== 1. Références == | == 1. Références == | ||
* '''Référence complète APA''' : Mueller, P. A., & Oppenheimer, D. M. ( | * '''Référence complète APA''' : Mueller, P. A., & Oppenheimer, D. M. (2014). The pen is mightier than the keyboard: Advantages of longhand over laptop note-taking. Psychological Science, 25/6, 1159-1168. | ||
<!-- Rappel de la syntaxe : | <!-- Rappel de la syntaxe : | ||
* Auteur, A. A., Auteur, B. B., & Auteur, C. C. (Année). Titre de l'article. Titre du périodique, volume(numéro), page de début - page de fin. | * Auteur, A. A., Auteur, B. B., & Auteur, C. C. (Année). Titre de l'article. Titre du périodique, volume(numéro), page de début - page de fin. | ||
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* '''Auteur(s)''' : | * '''Auteur(s)''' : [[Pam Mueller]] et [[Daniel Oppenheimer]] | ||
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== 2. Copies == | == 2. Copies == | ||
* '''Copie en ligne''' : | * '''Copie en ligne''' : http://pss.sagepub.com/content/25/6/1159 | ||
<!-- Si l'article est disponible sur Internet, mettre l'URL --> | <!-- Si l'article est disponible sur Internet, mettre l'URL --> | ||
* '''Copie locale''' : | * '''Copie locale''' : [[Fichier:Mueller Oppenheimer 2014.pdf]] | ||
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<!-- Copier / coller ici l'abstract --> | <!-- Copier / coller ici l'abstract --> | ||
Taking notes on laptops rather than in longhand is increasingly common. Many researchers have suggested that laptop | |||
note taking is less effective than longhand note taking for learning. Prior studies have primarily focused on students’ | |||
capacity for multitasking and distraction when using laptops. The present research suggests that even when laptops | |||
are used solely to take notes, they may still be impairing learning because their use results in shallower processing. | |||
In three studies, we found that students who took notes on laptops performed worse on conceptual questions than | |||
students who took notes longhand. We show that whereas taking more notes can be beneficial, laptop note takers’ | |||
tendency to transcribe lectures verbatim rather than processing information and reframing it in their own words is | |||
detrimental to learning. | |||
<br> | |||
== 5. Résumé (facultatif) == | == 5. Résumé (facultatif) == | ||
<!-- Entrer ici un résumé personnel de l'article (facultatif) --> | <!-- Entrer ici un résumé personnel de l'article (facultatif) --> | ||
Défend la supériorité de la prise de notes à la main par rapport à la prise de notes sur ordinateur. | |||
"(...) vMany college students have some kind of electronic note-taking device nowadays, and most will swear by them. And really, only a Luddite would cling to pen and notebook in the 21st century. Typing is faster than longhand, producing more legible and more thorough notes for study later on. | |||
But has anyone actually compared the two? Is it possible that laptops somehow impair learning—or conversely, that pen and paper convey some subtle advantage in the classroom? Two psychological scientists, Pam Mueller of Princeton and Daniel Oppenheimer of UCLA, wondered if laptops, despite their plusses, might lead to a shallower kind of cognitive processing, and to lower quality learning. They decided to test the old and the new in a head-to-head contest. | |||
Of course, students could develop an elaborate hieroglyphic system using a laptop. Keyboards have asterisks and exclamation points and so forth. They could also go beyond mere verbatim transcription, summarizing and paraphrasing. These are the strategies that in theory lead to deep processing and firmly encode new material in memory. But do typists do this, or do they just type as fast as they can? That is one of the questions that Mueller and Oppenheimer wanted to explore in a real-world setting. | |||
They ran a few experiments, all basically the same. In the first one, for example, college students were assigned to classrooms, some of which were equipped with laptops and others with traditional notebooks. They all listened to the same lectures, and they were specifically instructed to use their usual note-taking strategy. Then, about half an hour after the lecture, all of the students were tested on the material covered in the lecture. Importantly, they were tested both for factual recall (How many years ago did the Indus civilization exist?) and for conceptual learning (How do Japan and Sweden differ in their approaches to social equality?). | |||
This experiment provided preliminary evidence that laptops might be harmful to academic performance. The students using laptops were in fact more likely to take copious notes, which can be beneficial to learning. But they were also more likely to take verbatim notes, and this “mindless transcription” appeared to cancel out the benefits. Both groups memorized about the same number of facts from the lectures, but the laptop users did much worse when tested on ideas. | |||
At least right away. Remember that they were tested half an hour after the lecture, without opportunity for review. But what if these students did what students commonly do—leave the lecture, go back to the dorm, go about their lives, and at some point in time pull out their notes to study for an exam? Would having more thorough, transcribed notes prove an advantage in this more natural setting? | |||
The scientists tried to simulate this in another experiment. As before, some of the students took notes with a laptop, others with pen and notebook, as they listened to talks on various topics. They knew in advance that the exam would take place in a week, and that they would have a chance to study beforehand. As before, the test covered simple facts as well as concepts, inferences and applications of the material. | |||
The findings, which Mueller and Oppenheimer describe in a forthcoming issue of the journal Psychological Science, were a bit surprising. Those who took notes in longhand, and were able to study, did significantly better than any of the other students in the experiment—better even than the fleet typists who had basically transcribed the lectures. That is, they took fewer notes overall with less verbatim recording, but they nevertheless did better on both factual learning and higher-order conceptual learning. Taken together, these results suggest that longhand notes not only lead to higher quality learning in the first place; they are also a superior strategy for storing new learning for later study. Or, quite possibly, these two effects interact for greater academic performance overall. | |||
The scientists had one more intriguing finding. At one point, they told some of the laptop users explicitly not to simply transcribe the lectures word-by-word. This intervention failed completely. The laptop users still made verbatim notes, which diminished their learning. Apparently there is something about typing that leads to mindless processing. And there is something about ink and paper that prompts students to go beyond merely hearing and recording new information—and instead to process and reframe information in their own words, with or without the aid of asterisks and checks and arrows." | |||
(Wray Herbert, http://www.psychologicalscience.org/index.php/news/were-only-human/ink-on-paper-some-notes-on-note-taking.html) | |||
* A rapprocher de : "Bretzing and Kulhary (1979) compared note-taking that indicated in-process semantic processing (encoding) with verbatim note-taking and found that subjects who took verbatim notes scored lower on comprehension tests than those who processed information at a higher level while they took notes. " ([[Beecher_1988]]) | |||
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== 6. Voir aussi == | == 6. Voir aussi == |
Dernière version du 3 mai 2015 à 15:22
The pen is mightier than the keyboard: Advantages of longhand over laptop note-taking
1. Références
- Référence complète APA : Mueller, P. A., & Oppenheimer, D. M. (2014). The pen is mightier than the keyboard: Advantages of longhand over laptop note-taking. Psychological Science, 25/6, 1159-1168.
- Auteur(s) : Pam Mueller et Daniel Oppenheimer
- Revue : Psychological Science
2. Copies
- Copie en ligne : http://pss.sagepub.com/content/25/6/1159
- Copie locale : Fichier:Mueller Oppenheimer 2014.pdf
- Copie physique :
3. Mots-clés
4. Abstract
Taking notes on laptops rather than in longhand is increasingly common. Many researchers have suggested that laptop note taking is less effective than longhand note taking for learning. Prior studies have primarily focused on students’ capacity for multitasking and distraction when using laptops. The present research suggests that even when laptops are used solely to take notes, they may still be impairing learning because their use results in shallower processing. In three studies, we found that students who took notes on laptops performed worse on conceptual questions than students who took notes longhand. We show that whereas taking more notes can be beneficial, laptop note takers’ tendency to transcribe lectures verbatim rather than processing information and reframing it in their own words is detrimental to learning.
5. Résumé (facultatif)
Défend la supériorité de la prise de notes à la main par rapport à la prise de notes sur ordinateur.
"(...) vMany college students have some kind of electronic note-taking device nowadays, and most will swear by them. And really, only a Luddite would cling to pen and notebook in the 21st century. Typing is faster than longhand, producing more legible and more thorough notes for study later on.
But has anyone actually compared the two? Is it possible that laptops somehow impair learning—or conversely, that pen and paper convey some subtle advantage in the classroom? Two psychological scientists, Pam Mueller of Princeton and Daniel Oppenheimer of UCLA, wondered if laptops, despite their plusses, might lead to a shallower kind of cognitive processing, and to lower quality learning. They decided to test the old and the new in a head-to-head contest.
Of course, students could develop an elaborate hieroglyphic system using a laptop. Keyboards have asterisks and exclamation points and so forth. They could also go beyond mere verbatim transcription, summarizing and paraphrasing. These are the strategies that in theory lead to deep processing and firmly encode new material in memory. But do typists do this, or do they just type as fast as they can? That is one of the questions that Mueller and Oppenheimer wanted to explore in a real-world setting.
They ran a few experiments, all basically the same. In the first one, for example, college students were assigned to classrooms, some of which were equipped with laptops and others with traditional notebooks. They all listened to the same lectures, and they were specifically instructed to use their usual note-taking strategy. Then, about half an hour after the lecture, all of the students were tested on the material covered in the lecture. Importantly, they were tested both for factual recall (How many years ago did the Indus civilization exist?) and for conceptual learning (How do Japan and Sweden differ in their approaches to social equality?).
This experiment provided preliminary evidence that laptops might be harmful to academic performance. The students using laptops were in fact more likely to take copious notes, which can be beneficial to learning. But they were also more likely to take verbatim notes, and this “mindless transcription” appeared to cancel out the benefits. Both groups memorized about the same number of facts from the lectures, but the laptop users did much worse when tested on ideas.
At least right away. Remember that they were tested half an hour after the lecture, without opportunity for review. But what if these students did what students commonly do—leave the lecture, go back to the dorm, go about their lives, and at some point in time pull out their notes to study for an exam? Would having more thorough, transcribed notes prove an advantage in this more natural setting?
The scientists tried to simulate this in another experiment. As before, some of the students took notes with a laptop, others with pen and notebook, as they listened to talks on various topics. They knew in advance that the exam would take place in a week, and that they would have a chance to study beforehand. As before, the test covered simple facts as well as concepts, inferences and applications of the material.
The findings, which Mueller and Oppenheimer describe in a forthcoming issue of the journal Psychological Science, were a bit surprising. Those who took notes in longhand, and were able to study, did significantly better than any of the other students in the experiment—better even than the fleet typists who had basically transcribed the lectures. That is, they took fewer notes overall with less verbatim recording, but they nevertheless did better on both factual learning and higher-order conceptual learning. Taken together, these results suggest that longhand notes not only lead to higher quality learning in the first place; they are also a superior strategy for storing new learning for later study. Or, quite possibly, these two effects interact for greater academic performance overall.
The scientists had one more intriguing finding. At one point, they told some of the laptop users explicitly not to simply transcribe the lectures word-by-word. This intervention failed completely. The laptop users still made verbatim notes, which diminished their learning. Apparently there is something about typing that leads to mindless processing. And there is something about ink and paper that prompts students to go beyond merely hearing and recording new information—and instead to process and reframe information in their own words, with or without the aid of asterisks and checks and arrows."
(Wray Herbert, http://www.psychologicalscience.org/index.php/news/were-only-human/ink-on-paper-some-notes-on-note-taking.html)
- A rapprocher de : "Bretzing and Kulhary (1979) compared note-taking that indicated in-process semantic processing (encoding) with verbatim note-taking and found that subjects who took verbatim notes scored lower on comprehension tests than those who processed information at a higher level while they took notes. " (Beecher_1988)