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To Orange, I will show an actual example of a map in my next full post and explain more about the parameters that are given and what the students fill in themselves. You raise a much more important question though, about the necessity of simplifying in order for the simulation to work. This aspect of the simulation almost led me to abandon the whole thing as I started to think it through and plan for it. Instead I found two ways to deal with it: 1. I challenge my students to tell me where the simulation is oversimplified and make their own case for how the simulation should change for the next time it is performed. This way they are not simply accepting our imaginary world “as is” and are instead actively thinking about how the real world works and how we may have misrepresented it in our simulation. (Even if the simulation fails miserably, it has succeeded in getting students to think about how the world works!) 2. I encourage the students to use the simplification as a canvas on which they can build and/or interpret complexity. In a lecture format I only have so much time to cover the effects of colonization – perhaps 50 minutes – not enough to really explore all of the different facets. In the World Simulation I can encourage each student to think about how colonization would affect their culture in multiple ways and at multiple levels (e.g. infrastructure, social structure, superstructure). Sometimes this is to complex to be incorporated into the simulation, but they are asked to do a reflection paper immediately following the simulation in which they write their own “cultural history.” This written format allows them to explore some complexities they might not have had the time or means to express in the simulation.

led by researchers at Duke University

Any college with a spare server and some staff time can use the OpenSimulator software and play God to a virtual world.

The main request is the ability to limit access to students in a course, which the group can do.

To counter these new options, Linden Lab is testing a product that would let colleges install a world on their own servers and limit access to students and professors. Case Western is among those trying it out for its virtual campus.

Maybe 3-D online environments are just one of those technologies that sound cool but never fully materialize, like personal jetpacks. Trying to make the World Wide Web look like the real world misses the new kinds of things the Internet can do.

"We don't ­really understand what we can do and what we can't do with this tool for education yet, so it's more exploratory now," said Peter J. Ludlow, a philosophy professor at Northwestern University who studies virtual worlds. "We know there's something here, but we don't know what yet."

A number of his Midwestern classmates say the course has given them an understanding of cultural differences and globalization – insights they expect to carry into career fields such as healthcare, engineering, and social work.

I've seen that the introduction of new technology can provide a reason to rethink a course from the ground up and reassess its core educational goals. Often the greatest educational benefits seem to come from this process, not just the technology that encouraged it.

It might be safe to say that each time a new medium appears, no matter how different it is from the last, the normal reaction of first adopters is to use it as a new package for existing content.

I've seen that the introduction of new technology can provide a reason to rethink a course from the ground up and reassess its core educational goals.

It can be easy to forget that we human beings are more than brains connected to an apparatus that moves us around in space. Instead, we belong to communities, we live in neighborhoods, we have local culture and events. Inquiry into these real things led to many of the fields we now call science, literature, mathematics, and history. Why then do we isolate instruction in those fields to a classroom, instead of deriving instruction from the environment from which these subjects originated?

place-based learning.2 One such example, Dow Day, is a mobile documentary that relives the student protests of 1967 in Madison, Wisconsin, against the Dow Chemical Company. In this activity, location-aware handheld devices add an augmented layer of history to a walk through the campus, placing the student in the role of a news reporter. By monitoring the device's GPS, Dow Day creates the illusion of additional characters standing in physical space and facilitates simulated conversations with these historical entities. In addition, when players walk to predefined media locations, they trigger video footage showing the physical scene from 40 years ago, effectively superimposing the marchers and police onto the current landscape (see Figure 2).

Situated theories of cognition claim that knowing and doing are inherently linked.4

One such example is a mobile game called Mentira, produced at the University of New Mexico. The game is designed to teach an introductory college Spanish course in ways that are contextually sound for language learning. In the first unit, students play a mystery game on handheld devices in class, taking on a role and a goal within a story told completely in Spanish. In the second part, the class moves outside to a local Spanish-speaking neighborhood where they continue the story while interacting with physical and virtual Spanish speakers in real places (see Figure 3).

With Mentira, students learn Spanish outside the classroom through narrative and interaction with members of a Spanish-speaking neighborhood, re-situating language in practice.

Identifying the disconnect, a small team from the Animal Science and the Academic Technology departments at UW–Madison are working on a prototype for hobbyist birdwatchers. WeBIRD aims to crowdsource ornithology research by providing a tool for hobbyist practitioners. A birder will record the audio of a bird heard out in the field and have the system identify the species while logging the sighting's location, current weather, time of day, and date to a central database. This data can then be used for anything from formal research of migration patterns over time to individual questions such as, "Where am I most likely to see a cardinal this time of year?" The potential for location-aware, casual gaming structures such as birder achievement badges and leader boards are also being investigated in order to provide additional social play motives for participation.

Learning happens anywhere someone has questions and the means to explore answers. As ubiquitous access to information continues to shift toward personal mobile devices, more and more of the learning that takes place may be happening outside of the classroom and in the context of a backyard conversation, a walk through campus, or a Taquería in New Mexico.