Jerome Bruner

JEROME BRUNER
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Jerome S. Bruner was born in New York City and educated at Duke University. During World War II, Bruner worked on the subject of propaganda and popular attitudes for U.S. Army intelligence at General Dwight D. Eisenhower's headquarters in France. He obtained his Ph.D. from Harvard University in 1947, after which he became a member of the faculty, serving as professor of psychology, as well as cofounder and director of the Center for Cognitive Studies. In 1972 Bruner left Harvard to teach for several years at Oxford University. He returned to Harvard as a visiting professor in 1979 and two years later joined the faculty of the new School for Social Research in New York City. Bruner's early work in cognitive psychology focused on the sequences of decisions made by subjects as part of their problem-solving strategies in experimental situations.
Beginning in the 1940s, Bruner, together with his colleague Leo Postman, did important work on the ways in which needs, motivations, and expectations (or "mental sets") affect perception. Their approach, sometimes referred to as the "New Look," contrasted a functional perspective with the prevailing "formal" one that treated perception as a self-sufficient process to be considered separately from the world around it. When Bruner and Postman showed young children toys and plain blocks of equal height, the children, expecting toys to be larger than blocks, thought the toys were taller. The toys also seemed to increase in size when the researchers made them unavailable. In further experiments involving mental sets, the two scientists used an instrument called a tachistoscope to show their subjects brief views of playing cards, including some nonstandard cards, such as a red ace of spades. As long as the subjects were not alerted to the presence of the abnormal cards, almost none saw them.
Bruner's work in cognitive psychology led to an interest in the cognitive development of children and related issues of education, and in the 1960s he developed a theory of cognitive growth. Bruner's theories, which approach development from a different angle than those of Jean Piaget, focus on the environmental and experiential factors influencing each individual's specific development pattern. His argument that human intellectual ability develops in stages from infancy to adulthood through step-by-step progress in how the mind is used has influenced experimental psychologists and educators throughout the world. Bruner is particularly interested in language and other representations of human thought. In one of his best-known papers, Bruner defines three modes of representing, or "symbolizing," human thought. The enactive mode involves human motor capacities and includes activities such as using tools. The iconic mode pertains to sensory capacities. Finally, the symbolic mode involves reasoning, and is exemplified by language, which plays a central role in Bruner's theories of cognition and development. He has called it "a means, not only for representing experience, but also for transforming it."








Constructivist Learning Theory

Introduction

The latest catchword in educational circles is "constructivism, " applied both to learning theory and to epistemology---both to how people learn, and to the nature of knowledge.1,2 We don't need to succumb to each new fad, but we do need to think about our work in relation to theories of learning and knowledge. So we need to ask: what is constructivism, what does it have to tell us that is new and relevant, and how do we apply it to our work? As far as I can see, there is nothing dramatically new in constructivism: the core ideas expressed by it have been clearly enunciated by John Dewey among others, but there is a new, widespread acceptance of this old set of ideas. and new research in cognitive psychology to support it. I would like to give a brief exposition of ideas central to constructivism and widely accepted today by educators. curriculum developers and cognitive psychologists, and then suggest what they mean for museum educators.
Constructivism

What is meant by constructivism? The term refers to the idea that learners construct knowledge for themselves---each learner individually (and socially) constructs meaning---as he or she learns. 3Constructing meaning is learning; there is no other kind. The dramatic consequences of this view are twofold;
1) we have to focus on the learner in thinking about learning (not on the subject/lesson to be taught):
2) There is no knowledge independent of the meaning attributed to experience (constructed) by the learner, or community of learners.
Let me discuss the second point first because, although it appears radical on an everyday level, it is a position which has been frequently adopted ever since people began to ponder epistemology. If we accept constructivist theory (which means we are willing to follow in the path of Dewey, Piaget and Vigotsky among others), then we have to give up Platonic and all subsequent realistic views of epistemology. We have to recognize that there is no such thing as knowledge "out there" independent of the knower, but only knowledge we construct for ourselves as we learn. 4 Learning is not understanding the "true" nature of things, nor is it (as Plato suggested) remembering dimly perceived perfect ideas, but rather a personal and social construction of meaning out of the bewildering array of sensations which have no order or structure besides the explanations (and I stress the plural) which we fabricate for them.
I'm sure that many of you have had philosophy courses which have exposed you to these concepts, and you may accept this basic premise that there is no such entity as a Ding an sich whether or not we can perceive it. Yet we all tend to remain closet realists, and refute Bishop Berkeley, as Samuel Johnson did, by kicking the stone and feeling real pain. The more important question is, does it actually make any difference in our everyday work whether deep down we consider knowledge to be about some "real" world independent of us, or whether we consider knowledge to be of our own making? The answer is yes, it does make a difference, because of the first point I suggested above: in our profession our epistemological views dictate our pedagogic views.
If we believe that knowledge consists of learning about the real world out there, then we endeavor first and foremost to understand that world, organize it in the most rational way possible, and, as teachers, present it to the learner. This view may still engage us in providing the learner with activities, with hands-on learning, with opportunities to experiment and manipulate the objects of the world, but the intention is always to make clear to the learner the structure of the world independent of the learner. We help the learner understand the world. but we don't ask him to construct his or her own world.
The great triumph of Western intellectual history from the Enlightenment until the beginning of the 2Oth century rested on its ability to organize the knowledge of the world in a rational way independent of the learner, determined by some structure of the subject. Disciplines were developed, taxonomic schemes established, and all these categories were viewed as components of a vast mechanical machine in which the parts could be explained in terms of their relationship to each other, and each part contributed to making the whole function smoothly. Nowhere in this description does the learner appear. The task of the teacher was to make clear to the learner the working of this machine and any accommodation to the learner was only to account for different appropriate entry points for different learners.
However, as I have indicated above, constructivist theory requires that we turn our attention by 180 degrees we must turn our back on any idea of an all-encompassing machine which describes nature and instead look towards all those wonderful, individual living beings---the learners---each of whom creates his or her own model to explain nature. If we accept the constructivist position we are inevitably required to follow a pedagogy which argues that we must provide learners with the opportunity to: a) interact with sensory data, and b) construct their own world. 5
This second point is a little harder for us to swallow, and most of us constantly vacillate between faith that our learners will indeed construct meaning which we will find acceptable (whatever we mean by that) and our need to construct meaning for them; that is, to structure situations that are not free for learners to carry out their own mental actions, but "learning" situations which channel them into our ideas about the meaning of experience. A common example of the unresolved tension is our attitude towards museum tours which explain exhibits to the visitor. I have repeatedly asked museum professionals if they personally enjoy guided tours, and they almost universally tell me that they try to avoid them at all costs. Yet, at CECA meetings (and this one is no exception) our colleagues frequently give us extensive guided tours through galleries, insisting on presenting the expert guide's interpretation, pace and selection to influence the viewer's perception and learning. It is this tension between our desire as teachers to teach the truth, to present the world "as it really is", and our desire to let learners construct their own world which requires us to think seriously about epistemology and pedagogy. 6
Principles of learning

What are some guiding principles of constructivist thinking that we must keep in mind when we consider our role as educators? I will outline a few ideas, all predicated on the belief that learning consists of individuals' constructed meanings and then indicate how they influence museum education.
1. Learning is an active process in which the learner uses sensory input and constructs meaning out of it. The more traditional formulation of this idea involves the terminology of the active learner (Dewey's term) stressing that the learner needs to do something; that learning is not the passive acceptance of knowledge which exists "out there" but that learning involves the learner s engaging with the world. 7
2. People learn to learn as they learn: learning consists both of constructing meaning and constructing systems of meaning. For example, if we learn the chronology of dates of a series of historical events, we are simultaneously learning the meaning of a chronology. Each meaning we construct makes us better able to give meaning to other sensations which can fit a similar pattern. 8
3. The crucial action of constructing meaning is mental: it happens in the mind. Physical actions, hands-on experience may be necessary for learning, especially for children, but it is not sufficient; we need to provide activities which engage the mind as well as the hands.9 (Dewey called this reflective activity.)
4. Learning involves language: the language we use influences learning. On the empirical level. researchers have noted that people talk to themselves as they learn. On a more general level. there is a collection of arguments, presented most forcefully by Vigotsky, that language and learning are inextricably intertwined. 10 This point was clearly emphasized in Elaine Gurain's reference to the need to honor native language in developing North American exhibits. The desire to have material and programs in their own language was an important request by many members of various Native American communities.
5. Learning is a social activity: our learning is intimately associated with our connection with other human beings, our teachers, our peers, our family as well as casual acquaintances, including the people before us or next to us at the exhibit. We are more likely to be successful in our efforts to educate if we recognize this principle rather than try to avoid it. Much of traditional education, as Dewey pointed out, is directed towards isolating the learner from all social interaction, and towards seeing education as a one-on-one relationship between the learner and the objective material to be learned. In contrast, progressive education (to continue to use Dewey's formulation) recognizes the social aspect of learning and uses conversation, interaction with others, and the application of knowledge as an integral aspect of learning. 11
6. Learning is contextual: we do not learn isolated facts and theories in some abstract ethereal land of the mind separate from the rest of our lives: we learn in relationship to what else we know, what we believe, our prejudices and our fears. 12 On reflection, it becomes clear that this point is actually a corollary of the idea that learning is active and social. We cannot divorce our learning from our lives. 13
7. One needs knowledge to learn: it is not possible to assimilate new knowledge without having some structure developed from previous knowledge to build on. 14 The more we know, the more we can learn. Therefore any effort to teach must be connected to the state of the learner, must provide a path into the subject for the learner based on that learner's previous knowledge. 15
8. It takes time to learn: learning is not instantaneous. For significant learning we need to revisit ideas, ponder them try them out, play with them and use them. This cannot happen in the 5-10 minutes usually spent in a gallery (and certainly not in the few seconds usually spent contemplating a single museum object.) If you reflect on anything you have learned, you soon realize that it is the product of repeated exposure and thought. Even, or especially, moments of profound insight, can be traced back to longer periods of preparation.
9. Motivation is a key component in learning. Not only is it the case that motivation helps learning, it is essential for learning. This ideas of motivation as described here is broadly conceived to include an understanding of ways in which the knowledge can be used. Unless we know "the reasons why", we may not be very involved in using the knowledge that may be instilled in us. even by the most severe and direct teaching. 16
The meaning of constructivism for museums

Having suggested these principles, I want to reflect on what they may mean for our specific day- to-day work both in mounting exhibits and in developing educational programs.
Points #1 and 3

Most museum educators have accepted the idea that learners need to be active, that in order to participate in learning we need to engage the learner in doing something, in hands-on involvement, in participatory exhibits and programs. But the more important point, I believe, is the idea that the actions which we develop for our audience engage the mind as well as the hand. Not all experiences are educative, as Dewey pointed out in Experience and Education. This does not mean that they necessarily have to be complex---but they do need to allow the participants to think as they act. I recently saw a videotape of a group of children building a cardboard ramp which would serve as an inclined plane for an experiment they were to do. What the video tape showed was a fifteen-minute period in which the children spent time measuring, constructing (and wandering around) with little idea of what they were building or why they were building it. It was a hands-on activity that was not likely to be educative as intended for two reasons: a) The children had no chance to incorporate what they were doing into a larger picture: the focus was on completing a task, which for them must have appeared to be just one more of the senseless requirements of school. b) There was no opportunity to alter the task to fit the meaning-making of any individual student. They all simply measured strips of paper 24 inches long (the US is still not on the metric system) and 1.5" wide, everyone following the same recipe with no variation.
By way of contrast, I have watched adults look at a map of England at the dock where the Mayflower replica is berthed in Plymouth, Massachusetts. Repeatedly, adults will come to the map, look at it and then begin to discuss where their families come from. (I could imagine an even more elaborate exhibit at the same place which would include a map of the world and different ways in which people have immigrated to the US, so that all visitors could find something to interest them.) But at least for those who trace their roots back to England, here is an interactive exhibit (even if there is little to "do" except point and read) which allows each visitor to take something personal and meaningful from it and relate to the overall museum experience. For me, the Diaspora Museum in Tel Aviv came alive when I had the opportunity to call up family genealogies on the computer in the reference center. The opportunity to view and manipulate a library of family trees covering several generations and a wide geographical distribution, gave personal meaning to the idea of a Diaspora.
Physical involvement is a necessary condition for learning for children, and highly desirable for adults in many situations, but it is not sufficient. All hands-on activities must also pass the test of being minds-on---they must provide something to think about as well as something to touch.
Point #2

The idea that we learn to learn as we learn, that we begin to understand organizing principles as we use them, is not terribly radical to most of us, but I believe that there is an important manner of formulating it that can help us, which sometimes eludes us: What are we assuming about our visitors' ability to learn (to organize knowledge) when we present exhibits to them? What organizing schemes do we attribute to them, that may or may not be available to them? Let me give you an example. During the last year we have been observing visitors at the Boston Museum of Science interacting with a series of exhibits developed originally at the Exploratorium in San Francisco. We asked them what they thought of the exhibits. Some visitors did not have the tools they needed to get the concept of the exhibit. I don't mean that they did not understand the concept (that will be my next point) but that they did not have the organizing principles, and thus the learning tools.
For example, there are exhibits which require visitors to turn knobs which will cause a component of the exhibit to move or change. Not all visitors are clear about the relationship between the knob and what it does. The exhibit is intended to explain a causal relationship between two variables in nature; one variable is altered by turning the knob and that change then causes the other variable to respond and vary. But if the visitor does not understand about knobs and what they do, then the message of the exhibit cannot possibly be understood.
A similar issue concerns chronologies and time lines, which are common devices in history museums. Do we know that our visitors understand chronology? Are we positive that our visitors can appreciate a time line, for example, and can recognize that the distribution of dates in linear space may be intended to approximate their distribution in chronological time? There is considerable evidence that at least some visitors (i.e. children) cannot follow such reasoning; there is less evidence that any significant number of visitors can. 17 Maybe we need to teach our visitors to understand time lines through simple examples before we present them with complex charts that span thousands of years. Ayala Gordon discussed this issue when she pointed out that in order to allow children to experience a sense of time, the Youth Wing at the Israel Museum arranged exhibits so that children and parents would talk about changes in their lifetimes.
Points #4 and 5

Learning is a social activity. To what extent do we recognize that people learn as they speak and interact with each other? In evaluating an interactive exhibit at the Boston Museum of Science in which people could get information through a variety of modalities---they could read labels, listen to tapes, smell animal smells, touch animal mounts and manipulate interactive exhibit components-- -we noted that individual visitors preferred different learning modes. In family groups, the conversations became more democratic, and involved more members after all these modalities were installed, as family members shared, discussed and confirmed what each had learned while perusing his or her preferred modality.
We need to ask what have we build into the exhibit that encourages visitors to discuss, to share, to find out together. Has the architecture and exhibit arrangement encouraged discussion? Some art museums have a quiet air like a church, discouraging active debate and verbal interaction. The quiet may be appropriate for individual contemplation of pictures, but perhaps these museums could provide other rooms, close to the galleries, and fitted out with reproductions' reference materials or other reminders of the paintings, which would encourage dialogue.
Point #6

This is really an elaboration of the point made previously about learning to learn as one learns. Our visitors need ''hooks"---connections---in exhibits to help them understand the messages intended. An experienced museum-goer or a person knowledgeable on a given subject can be enlightened easily. But what does it mean for a naive visitor to be confronted with a whole case containing may objects? Of what value is it to the naive visitor to be invited to push this button or read a sophisticated label?
It is important for exhibits to provide different kinds of entry points, using various sensory modes, different kinds of stimuli, to attract a wide range of learners. In teaching people to read, the use of different words which have powerful connections for individuals was dramatically described years ago by Sylvia Ashton-Warner18 and widely emulated since. Eurydice Retsila described a program in which children served as young ethnographers, developing individual projects of interest to them with the "assistance" of university students.
Point #7

Perhaps no other issue in constructivism raises more questions than the concern with finding the right level at which to engage the learner. Vigotsky spoke of the "zone of proximal development," 19an unfortunately cumbersome term which refers to a level of understanding that is possible when a learner engages in a task with the help of a more expert peer (i.e. a teacher). People learn as they are stretched beyond their own knowledge but only within a range that is within their grasp given what knowledge and skills they bring to a task.
Point #8

Finally there is the issue of time to learn, time to reflect and time to revisit an idea. Museum educators have grappled with this problem and find it a particularly challenging one, since our audiences are free to come and go, and large fractions of them are tourists who many never return. Museum galleries are not designed as places to linger, despite our desire to have visitors spend more time there. I was impressed to note in the slide Michael Cassin showed yesterday that the National Gallery at the turn of the century had many chairs scattered around the gallery for people to sit in and contemplate the pictures. What do we do for the visitors who wish to stay with a topic longer? How have we organized our museums to accommodate them? To what extent have we provided additional resources (in addition to items which we are eager to sell to them in the nearby shop) that can satisfy the interested visitors' concerns that arise on the next day or a week after the visit?
I believe that an important issue for we, as museum educators is to tackle the problem of increasing the time possible for visitors to interact with our exhibits and reflect on them, revisit them (in the mind if not directly) and therefore internalize their messages to us.
Conclusion

The principles of constructivism, increasingly influential in the organization of classrooms and curricula in schools, can be applied to learning in museums. The principles appeal to our modern views of learning and knowledge but conflict with traditional museum practices. We need to reflect on our practice in order to apply these ideas to our work.

Teaching with the Constructivist Learning Theory

What is the best method of teaching to use?One of the first things a teacher must do when considering how to teach students is to acknowledge that each student does not learn in the same way. This means that if the teacher chooses just one style of teaching (direct instruction, collaborative learning, inquiry learning, etc.), the students will not be maximizing their learning potential. Obviously, a teacher can not reach every student on the same level during one lesson, but implementing a variety of learning styles throughout the course allows all the students will have the chance to learn in at least one way that matches their learning style.Much of the material used to educate students at grade levels beyond primary school is largely text and lecture based, which have significant limitations. While reading is a very important learning mode, not all students learn effectively from reading. Some students respond better to visual and audio stimuli of lecture but often get lost in the material or lose interest in the presentation. In this type of a learning environment, students have limited opportunity to ask questions or may be uncomfortable asking a question in front of the class. It is well known that many questions go unasked.How do students learn best?Before we answer this question, ask yourself, "How do I learn best?" For example, do you learn better when someone tells you exactly how to do something, or do you learn better by doing it yourself? Many people are right in the middle of those two scenarios. This has led many educators to believe that the best way to learn is by having students construct their own knowledge instead of having someone construct it for them. This belief is explained by the Constructivist Learning Theory. This theory states that learning is an active process of creating meaning from different experiences. In other words, students will learn best by by trying to make sense of something on their own with the teacher as a guide to help them along the way.Since all sensory input is organized by the person receiving the stimuli, it cannot always be directly transferred from the teacher to the student. This means that a teacher cannot "pour" information into a student's brain and always expect them to process it and apply it correctly later. For example, think of a time when you were taught something in a lecture-type class. Then contrast that against a time when you had to prepare to teach someone else something. You will probably agree that you learned the material better when you were preparing to teach the material. This is because you constructed the knowledge for yourself.Below is a list of different methods of learning. The percentages listed represent the average amount of information that is retained through that particular learning method. Note what method produces the highest retention rate.
  1. Lecture = 5%
  2. Reading = 10%
  3. Audiovisual = 20%
  4. Demonstration = 30%
  5. Discussion Group = 50%
  6. Practice by doing = 75%
  7. Teach others / immediate use of learning = 90%



It should also be recognized that a person's prior knowledge may help or hurt the construction of meaning. People's prior knowledge comes from their past experiences, culture, and their environment. Generally prior knowledge is good, but sometimes misconceptions and wrong information can be a hindrance. Sometimes time must be spent correcting prior knowledge before new learning can occur.
Suggestions for Teaching with the Constructivist Learning Theory
  • Encourage and accept student autonomy and initiative.
  • Try to use raw data and primary sources, in addition to manipulative, interactive, and physical materials.
  • When assigning tasks to the students, use cognitive terminology such as "classify," "analyze," "predict," and "create."
  • Build off and use student responses when making "on-the-spot" decisions about teacher behaviors, instructional strategies, activities, and content to be taught.
  • Search out students' understanding and prior experiences about a concept before teaching it to them.
  • Encourage communication between the teacher and the students and also between the students.
  • Encourage student critical thinking and inquiry by asking them thoughtful, open-ended questions, and encourage them to ask questions to each other.
  • Ask follow up questions and seek elaboration after a student's initial response.
  • Put students in situations that might challenge their previous conceptions and that will create contradictions that will encourage discussion.
  • Make sure to wait long enough after posing a question so that the students have time to think about their answers and be able to respond thoughtfully.
  • Provide enough time for students to construct their own meaning when learning something new.

Useful Links:
Wikipedia
Cadre 13 Research
The Oaks
Constructivist Theory
Educational Psychology
Infed