Difference between revisions of "User:Tanvi"
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==About me== | ==About me== | ||
| − | Hello, my name is Tanvi Santhosh! I am a freshman at Duke, majoring in Biomedical Engineering. | + | Hello, my name is Tanvi Santhosh! I am a freshman at Duke, majoring in Biomedical Engineering and on the pre-med track. I was born in Bangalore, India, but have lived in Lincoln, Nebraska for 16 years. I am an only child with a beagle/basset hound puppy named Macy. My hobbies include biking, dancing, snacking, napping, procrastinating, and Netflixing. |
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| + | ==Grand Challenges for Engineering== | ||
| + | [https://www.technologyreview.com/s/406050/reverse-engineering-the-brain/ Reverse-Engineering the Brain], Fred Hapgood, MIT Technology Review, 1 July 2006, accessed 21 September 2017 (Reverse Engineer the Brain) | ||
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| + | ==MATLAB Help and Demonstrations== | ||
| + | My favorite MATLAB demonstration would be Viewing a Penny. In this demonstration one can view the surface data in a penny, which I find very interesting. Data for this demonstration is taken from the depth of mold used to mint a penny. This demonstration is also very intriguing, because there are multiple ways to display the penny: through a contour plot, a pseudocolor plot, a pseudocolor plot with a colormap, and a surface plot with a colormap. | ||
Latest revision as of 18:21, 21 September 2017
About me
Hello, my name is Tanvi Santhosh! I am a freshman at Duke, majoring in Biomedical Engineering and on the pre-med track. I was born in Bangalore, India, but have lived in Lincoln, Nebraska for 16 years. I am an only child with a beagle/basset hound puppy named Macy. My hobbies include biking, dancing, snacking, napping, procrastinating, and Netflixing.
Grand Challenges for Engineering
Reverse-Engineering the Brain, Fred Hapgood, MIT Technology Review, 1 July 2006, accessed 21 September 2017 (Reverse Engineer the Brain)
MATLAB Help and Demonstrations
My favorite MATLAB demonstration would be Viewing a Penny. In this demonstration one can view the surface data in a penny, which I find very interesting. Data for this demonstration is taken from the depth of mold used to mint a penny. This demonstration is also very intriguing, because there are multiple ways to display the penny: through a contour plot, a pseudocolor plot, a pseudocolor plot with a colormap, and a surface plot with a colormap.
