Tag Archives: Module C

Learning as a Megaphone

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Speculate on how such networked communities could be embedded in the design of authentic learning experiences in a math or science classroom setting or at home. Elaborate with an illustrative example of an activity, taking care to consider the off-line activities as well.

No matter which theory of learning we address, one commonality is that the learning is always situated in a certain context. This week, Carraher, Carraher, and Schliemann (1985) ask us to consider this same idea, but in the context of a person’s perceived and taught procedures. They ask us to consider how a person’s natural problem solving can compare to the processes that we teach and learn in classrooms today. They say, “there are informal ways of doing mathematical calculations which have little to do with the procedures taught in school.” Of special note from their research was the fact that individuals who were capable of solving a problem in a natural situation failed to solve the same problem when taken out of context, possibly due to a difference in problem-solving techniques (Carraher et al. 1985). If the context that a problem is found in can be so vital to the learning that goes on, where does that leave us as educators when we try to introduce and teach topics that are “foreign” to the classroom and “authentic” in real life?

The conclusion that the researchers arrived at is that the mathematics that are taught in schools act as an amplifier of thought processes. With this idea in mind, we can move on to the ideas of various networked communities and see how they can benefit from the idea of having processes acting as amplification of natural thought processes.

 

The Exploratorium was one of the first places that I examined this week, trying to keep in mind what my students would theoretically be going into to the experience with and what kinds of skills/procedures they could be introduced to ahead of time to amplify their learning. The Exploratorium hails itself as a “21st Century Learning Learning Laboratory.” Before taking a group of students to experience the Exploratorium, first, a baseline of what they expect out of the experience would need to be established. Falk & Storksdieck (2010) conducted a survey of people who used their leisure time to visit museums and gauged what they gained from the experience. They concluded that it was beneficial to set intentions before going in, as “science centers and other informal science education settings are socio-cultural settings that the public perceives as affording a finite number of leisure-related outcomes.” To address the fact that museums afford a more informal type of learning, they suggest that visitors be “meaningfully segmented as a function of their identity-related needs.” Or, in other words, they should be given roles so that they can better absorb and enjoy the experience. Some key roles that students could be given would be those of facilitators, who lead the groups and help explain, and explorers, who are good at wonder and questioning. By assigning students to specific roles, learning outcomes are more apt to be met.

Furthermore, Hsi (2008) suggests augmenting visits with ICTs to better enhance the experience. Before attending the field trip, students could use the Exploratorium’s website to better understand what types of exhibits they would be seeing and to gain valuable background knowledge. Allowing students to engage with online, interactive field trips, RFID tagged data, social bookmarking, live webcams, online games, and the like, students will go into the experience with a wide variety of perspectives from various formats, all of which lend towards the assimilation of new knowledge. All of these can be compiled together in an offline format and through social learning and discussion to make a rich foundation on which to build the experiences.

With all the free and inexpensive resources that are available, it wouldn’t be unheard of for a school to simply indulge in all the online resources and skip the logistics of going to a physical museum. While I am not advocating for that, the affordances that are available online in the modern world go a long way to bring equality of opportunity through exposure to remote places that are not able to have all of the same experiences. Every new way of presenting and working with an idea gives a student a new way to perceive, learn, and amplify future ideas which then can also diffuse out to more and more people. As Hsi (2008) said, we have the “opportunity to work with schools to bridge the experiences of chidlren to provide a more coherent learning experience.”

Did you hear me in the back, or does this message need some amplification? 😉

-Jonathan-

 

Resources

Carraher, T. N., Carraher, D. W., & Schliemann, A. D. (1985). Mathematics in the streets and in schools. British journal of developmental psychology3(1), 21-29.

Falk, J. H., & Storksdieck, M. (2010). Science learning in a leisure setting. Journal of Research in Science Teaching47(2), 194-212.

Hsi, S. (2008). Information technologies for informal learning in museums and out-of-school settings. In International handbook of information technology in primary and secondary education(pp. 891-899). Springer, Boston, MA.