I selected the ThingLink as the digital platform for my visualization because it would allow me to annotate an image of the cortex in a way that would explain and apply the content I want students to learn. More than just wanting students to be able to identify the four lobes of the cortex , I want them to learn the processes that each region is responsible for. I created a mirror image that allowed me to add “tags” identifying and explaining each lobe of the cortex on one side, and add links to relevant articles or resources on the other. I selected the base image of the digitally rendered brain with colour-differentiated lobes because I wanted to show the boundaries between them, but I also added images within the tags that highlight that particular region within the whole of the brain. This visualization helps students see the lobes of the cortex both as discrete regions and part of a whole of the cortex. Originally I had hoped to use an actual image of a brain, but it proved difficult to find an appropriately positioned and detailed image on which I could delineate the lobes myself. Instead, I added an extra “tag” to a video in which a neuroscientist handles a brain from a recently deceased person who donated their body to science. I decided it was important to show students an actual human brain, not only for the “wow” factor, but to give a sense of scale, shape, and texture. Students might have inaccurate mental images of what an actual brain looks like, and providing an accurate image might help them create more accurate mental images as we continue to explore this unit.
preserved brains just don't "pop"
real brains don't hold their shape well
This process illuminated for me that, if it’s difficult for me (as someone who has a pretty good mental image of a human brain) to locate appropriate images and resources for students to illustrate this concept, it’s even more difficult for students to create accurate mental images. Perhaps they could get lucky and find them on their own, but that would require a significant amount of innate curiosity and motivation. In the EAA social studies program at UWM we have always been encouraged to provide visualizations to help struggling readers and/or students with gaps in knowledge. This process has made me consider the possibility that learning might sometimes have to start with the visualization and branch outward to deepen understanding, not start with other resources and use visualization as a supplement. It reminds me of a mental exercise of considering how you’d explain water to a fish: how can I explain what the cerebral cortex, the thing that arguably makes us human, to a human who has not seen one? It requires both a combination of abstract and concrete images, to give students the right conceptual image as well as an appreciation for the reality of the structure.
I think your post is great. I love the interactive portion of the ThingLink. I think you picked a great image to show what you are explaining, especially with students learning what and where these parts are.
ReplyDeleteWhat a fantastic project. As you were explaining the difficulty of creating your ThingLink visualization and using it in a way that really conveyed an accurate image of the human brain and its functions to students, I realized that this is very true. In most texts and images that attempt to differentiate the parts of the brain and what they do, the images that are used are not realistic because it is much more difficult to visualize the separate parts using a real brain where there are not distinct differences in color, shape, texture, etc. I think that it was helpful for you to include links to additional text and video to enhance student engagement. What a great multimodal tool!
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ReplyDeleteYour graphic is excellent. The interactive style will allow the students to explore at their own pace and use their own instincts, which will encourage them to link together the concepts that they have read about in class. Your incorporation of the facts of the brain/cerebral cortex with real world, practical applications, especially through the links to the articles and videos, will enhance students' ability to connect the visualization of the brain to the academic target area. Great job, keep up the good work!
ReplyDeleteDaniel Lewis
Elizabeth, your visualization is very informative, both in terms of labeling parts and discussion how the different regions work together. I especially appreciate your discussion of how difficult it was for you to find images to represent your own internal images and how this opened understandings of the importance of having and/or developing this internal imagery for students new to a topic. Strong insights on the topic.
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