Difference between revisions of "User:Ak398"
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== About Me == | == About Me == | ||
− | I am an undergraduate student in the | + | I am an undergraduate student in the Pratt School of Engineering at [[Duke University]]. I plan on majoring in either Biomedical or Mechanical Engineering and graduating with the Class of 2020. |
+ | == Reverse-Engineer the Brain - Grand Challenge Article == | ||
+ | [https://futurism.com/cmu-brain-research-grant/ Scientists Begin Work on Reverse-Engineering the Brain], Sarah Marquart, Futurism, created 10 February 2016, accessed 2 February 2017 (Grand Challenge) | ||
+ | |||
+ | == Favorite MATLAB Demonstration == | ||
+ | My favorite demonstration was the one called "Viewing a Penny." I especially liked this example because it applied skills (such as the contour plot) that we saw in previous examples to an object that you wouldn't normally expect to see a contour plot of. You don't normally think of the height differences on the surface of a penny the same way that you would think of them on Earth's surface, so it was interesting to see the different ways you could produce contour plots of a penny. | ||
+ | |||
+ | == My Signature == | ||
[[User:Ak398|Ak398]] ([[User talk:Ak398|talk]]) 16:59, 2 February 2017 (EST) | [[User:Ak398|Ak398]] ([[User talk:Ak398|talk]]) 16:59, 2 February 2017 (EST) |
Latest revision as of 23:34, 2 February 2017
Contents
About Me
I am an undergraduate student in the Pratt School of Engineering at Duke University. I plan on majoring in either Biomedical or Mechanical Engineering and graduating with the Class of 2020.
Reverse-Engineer the Brain - Grand Challenge Article
Scientists Begin Work on Reverse-Engineering the Brain, Sarah Marquart, Futurism, created 10 February 2016, accessed 2 February 2017 (Grand Challenge)
Favorite MATLAB Demonstration
My favorite demonstration was the one called "Viewing a Penny." I especially liked this example because it applied skills (such as the contour plot) that we saw in previous examples to an object that you wouldn't normally expect to see a contour plot of. You don't normally think of the height differences on the surface of a penny the same way that you would think of them on Earth's surface, so it was interesting to see the different ways you could produce contour plots of a penny.